Showing total 1,299 results

1. The 'Journal of Functional Morphology and Kinesiology' Journal Club Series: Highlights on Recent Papers in Articular Cartilage Tissue Engineering and Mechanical Stimulation

Author

Marta Anna Szychlinska, Victoria Louise Workman, Alexandrina Ferreira Mendes, Gianluca Vadalà, Ugo Ripamonti, Martin J. Stoddart, and Mauro Alini

Subjects

0301 basic medicine, Histology, Kinesiology, 0206 medical engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, 02 engineering and technology, Editorial board, Anatomy, 020601 biomedical engineering, 03 medical and health sciences, 030104 developmental biology, Rheumatology, Functional morphology, Orthopedics and Sports Medicine, Engineering ethics, Journal club, Psychology

Abstract

We are pleased to introduce the first of our Journal Club Series with the aim to review and discuss the highlights of recent papers in the field of the musculoskeletal system and associated disorders, the leitmotiv of the Journal of Functional Morphology and Kinesiology. The first edition is focused on some interesting papers published in 2015 and 2016 in the field of Articular Cartilage Tissue Engineering and Mechanical Stimulation, chosen by our Editorial Board members. We hope that this topic might tease your curiosity also in fields possibly different to your own research area, but still intrinsically connected with it. We wish you stimulating and inspiring reading.

Published

2016

2. Methods for determining the molecular composition of knee joint structures in osteoarthritis: collagen, proteoglycans and water content: a systematic review.

Author

Raikov, Bogdan, Lipina, Marina, Azarkin, Kirill, Goncharuk, Yuliya, Vyazankin, Ivan, Kalinsky, Eugene, Kudrachev, Tagir, Murdalov, Emirkhan, Nagornov, Eugene, Budylin, Gleb, Shirshin, Evgeny, Rovnyagina, Nataliya, Cherepanov, Vadim, Kurpyakov, Anton, Telpukhov, Vladimir, Belov, Nikita, Pogosyan, David, Kavalerskiy, Gennadiy, Gritsyuk, Andrey, and Garkavi, Andrey

Subjects

KNEE joint, ARTICULAR cartilage, CARTILAGE, DEGENERATION (Pathology), PROTEOGLYCANS

Abstract

Osteoarthritis is a degenerative disease that affects articular cartilage, leading to changes on the macro and micro levels of this multi-component tissue. Understanding the processes underlying this pathology plays an important role in planning the following management tactics. Timely detection of the knee joint degradation at the level of tissue changes can prevent its progressive damage due to the early beginning of appropriate treatment. This study aimed to provide an overview of the current level of knowledge about the composition of cartilage and menisci using a wide range of different diagnostic methods. A systematic review of the literature published from 1978 to 2023 was conducted. Original studies of the knee joint cartilage (articular and meniscus) research, reporting content composition and mechanical properties, were included. Studies of the non-knee joint cartilage, tissue research other than cartilage and meniscus, or reporting treatment outcomes were excluded (n = 111). Thirty-one papers were included in this review, which reported on the composition of animal and human cartilage (articular and meniscus). The most frequently investigated parameters were quantitative proteoglycan determination and hydration level of the cartilage. Cartilage and meniscus degeneration, i.e., reduced collagen and proteoglycan content, reduced mechanical properties, and increased hydration level, was shown in every article about osteoarthritis. Among all diagnostic methods, laboratory methods (biochemical and histological analysis) are the most frequently used, compared to the instrumental ones (spectroscopy, MRI, and CT). At the same time, spectroscopy takes the lead and becomes the most common approach for determining cartilage composition (collagen and proteoglycans content). [ABSTRACT FROM AUTHOR]

Published

2024

3. Correspondence: Possums, articular cartilage and oxygen. A comment on the papers by Archer et al. (1996) and Morrison et al. (1996)

Author

John E. Scott and Robin A. Stockwell

Subjects

Histology, biology, Low oxygen, Chemistry, Cartilage, Articular cartilage, Cell Biology, Anatomy, Articular surface, biology.organism_classification, Keratan sulphate, Chondroitin sulphate, medicine.anatomical_structure, Opossum, medicine, Upper third, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Developmental Biology

Abstract

In their paper on opossum cartilage, Archer et al. (1996) contend that their ‘data pose questions … to the idea that global patterns of matrix components exist in mammalian articular cartilages’. We believe that this statement is not supported by their data. The points at issue concern the distributions of chondroitin sulphate (CS) and keratan sulphate (KS) in adult cartilage. Earlier work showed that: (1) the highest concentrations of CS are in the midzone of the noncalcified layer of the cartilage (Stockwell & Scott, 1967; Maroudas et al. 1969; Lemperg et al. 1974), while the authors' opossum data apparently show that the intensity of staining with Safranin O (and various antibodies specific for CS) ‘is greatest in the upper third of the tissue depth’; (2) in the noncalcified cartilage, the concentration of KS increases with distance from the articular surface (Stockwell & Scott, 1967; Maroudas et al. 1969; Venn, 1978). By contrast in the opossum, the authors state that there was ‘intense labelling throughout the upper half of the articular cartilage depth’. They considered that this finding, in particular, questions ‘the notions which link KS substitution with conditions of low oxygen tension’, since articular cartilage generally obtains its nutrient and O2 through the articular surface and thence by diffusion through the tissue depth.

Published

1997

4. Paper 40: Improved Cartilage Healing with Microfracture Augmented with Fisetin & Bone Marrow Aspirate Concentrate in Acute Osteochondral Defect.

Author

Gao, Xueqin, Hambright, Sealy, Whitney, Kaitlyn, Huard, Matthieu, Murata, Yoichi, Nolte, Philip, Stake, Ingrid, Huard, Charles, Ravuri, Sudheer, Philippon, Marc, Huard, Johnny, and Fukase, Naomasa

Subjects

WOUND healing, THERAPEUTICS, ARTHROPLASTY, ANTIOXIDANTS, CONFERENCES & conventions, ARTICULAR cartilage injuries, ARTICULAR cartilage

Abstract

Objectives: Microfracture (MFx) technique is the most commonly used first-line treatment for cartilage injuries; however, it has been shown to have inferior long-term clinical outcomes as the repaired tissue is predominantly fibrocartilage. Bone Marrow Aspirate Concentrate (BMAC) treatment has been shown to enhance the healing ability of cartilage repair, superior to MFx treatment alone, although chondral defect filling was achieved with fibrocartilage or "hyaline-like" cartilage. Therefore, new therapeutic strategies to further improve cartilage healing following defects are in need. Fisetin (FIS) is a compound with antioxidant, anti-inflammatory, and senolytic activity capable of eliminating senescent cells systemically. Previous studies have reported that FIS attenuates the progression of osteoarthritis and osteoporosis in aged mice, however, whether FIS treatment improves the quality of repaired cartilage in MFx-treated acute osteochondral defects augmented with BMAC has not yet been investigated. We hypothesized that FIS or autologous BMAC, or a combination of the two, would enhance MFx procedure both histologically and mechanically in the repair of osteochondral defects in a rabbit model. Methods: All surgical procedures were performed by an experienced orthopaedic surgeon and followed Institutional IACUC approved protocols. Sixty-four skeletally mature New Zealand White rabbits at seven months old were used in this study. Animal procedure: Before surgery, bone marrow aspirate was collected through the iliac crests in each rabbit under anesthesia and processed via a two-step centrifugation method to prepare BMAC. After exposing the bilateral knee joints through the medial parapatellar approach, osteochondral defects (diameter: 5 mm, depth: 2 mm) were created bilaterally in the patellar groove of each rabbit, followed by the MFx procedure (5 holes with 2 mm depth) to allow bleeding at each MFx hole as previously described (Fig.1). BMACs were injected into the left knee joint as an autograft immediately after closing the joint capsule in all rabbits, with the right knee as a control (no BMAC transplantation). Rabbits were then randomly divided into 4 groups (N=8/group): MFx alone, MFx+FIS, MFx+BMAC and MFx+FIS+BMAC. FIS-treated rabbits were given FIS orally via drinking water at a dose of 20 mg/kg/day daily from immediately after surgery until euthanasia. Rabbits were sacrificed at 6 and 12 weeks post-op. The macroscopic appearance was evaluated using the International Cartilage Repair Society (ICRS) macroscopic assessment grading. ΜicroCT and histology: Microcomputed tomography (μCT) was performed to evaluate subchondral bone healing. Cartilage healing was assessed histologically on de-calcified tissue at 6 and 12 weeks post-op (H&E, Safranin O, and Alcian blue) and with immunohistochemistry for collagen II and p16. Regenerated cartilage was scored using the Modified O'Driscoll ICRS grading system (max 27 points). Biomechanical tests: The strength of the regenerated cartilage was analyzed by measuring the instantaneous elastic modulus of the regenerated cartilage in each group of samples collected at 12 weeks. (N=6/group). Results: Macroscopic assessment and μCT : At both 6 and 12 weeks postoperatively, MFx+BMAC and MFx+FIS+BMAC groups scored significantly higher than MFx alone group in the ICRS macroscopic evaluation. (p < 0.01, Fig. 2 A, D and Fig. 3 A, D). At both 6- and 12-week time points after surgery, μCT showed favorable healing of the bone defect in MFx+FIS, MFx+BMAC, and MFx+FIS+BMAC groups compared to MFx alone group. (Fig. 2 B and Fig. 3 B). Histology : At both 6- and 12- week time points, the Modified O'Driscoll score was significantly higher in the MFx+BMAC and MFx+FIS+BMAC groups than in the MFx alone group (p <0.01), and at 12 weeks, the MFx+FIS group had a significantly higher score than the MFx alone group. (p <0.05, Fig. 2E and Fig. 3E). In addition, immunohistochemistry showed stronger staining of type II collagen (brown) in the MFx+FIS, MFx+BMAC, and MFx+FIS+BMAC groups than in the MFx alone group at both time points, with a stronger reduction in staining of the cellular senescence marker p16 (brown) in FIS-treated group compared to MFx alone or MFx+BMAC group. (Fig. 2C and Fig. 3C). Biomechanical analysis: The instantaneous elastic modulus (cartilage's strength) was significantly increased in the MFx+FIS+BMAC group compared to MFx alone group. (p < 0.05, Fig. 4). Gene expression analyses : qPCR showed the expression level of SOD1 in synovium was significantly higher in the MFx+FIS group at 6 weeks (p < 0.01) and in the MFx+FIS+BMAC group at 12 weeks (p < 0.05) compared to the MFx alone group. Conclusions: Our results showed that BMAC treatment enhanced the healing of MFx-treated osteochondral defects, macroscopically, biomechanically, and histologically, compared to MFx alone. Furthermore, FIS treatment improved MFx-treated cartilage repair, and its combined use with BMAC led to significantly higher quality cartilage regeneration with stronger mechanical properties. Oxidative stress, which is one of the inducers of cell senescence, has been noted as the primary factor contributing to age-related changes in cartilage homeostasis, function, and response to injury. Given the increase in SOD1 expression commensurate with p16 reduction in the FIS-treated group (Figs 2-3), our results suggest that FIS may improve cartilage healing via reducing cellular senescence. These results support the clinical use of FIS combined with BMAC to enhance the effect of MFx in the repair of osteochondral defects and highlight cellular senescence as a novel therapeutic target for cartilage repair following injury. Figure 1: Acute osteochondral defect microfracture rabbit model Figure 2: Macroscopy, MicroCT, and Histological findings at 6 weeks postoperatively A: Macroscopic findings. B: Micro CT showed better subchondral bone healing in the MFx+FIS, MFx+BMAC, and MFx+FIS+BMAC group. C: In the MFx+BMAC and MFx+FIS+BMAC groups, the ICRS macroscopic score was significantly increased compared to the MFx alone group. (D) In the MFx+BMAC and MFx+FIS+BMAC groups, the Modified O'Driscoll score increased significantly compared to the MFx alone group (E), indicating primarily hyaline-like cartilage regeneration. In addition, strong staining of type II collagen was observed in the MFx+FIS+BMAC groups, and there was a strong decrease in p16 (cellular senescence marker) staining in the FIS-treated group. * p <.05, ** p <.01. Figure 3: Macroscopy, MicroCT, and Histological findings at 12 weeks postoperatively A: Macroscopic findings. B: Micro CT showed better subchondral bone healing in the MFx+FIS, MFx+BMAC, and MFx+FIS+BMAC group. C: In the MFx+BMAC and MFx+FIS+BMAC groups, the ICRS macroscopic score was significantly increased compared to the MFx alone group. (D) In the MFx+FIS, MFx+BMAC, and MFx+FIS+BMAC groups, the Modified O'Driscoll score increased significantly compared to the MFx alone group (E), indicating primarily hyaline-like cartilage regeneration. In addition, strong staining of type II collagen was observed in the MFx+FIS, MFx+BMAC, and MFx+FIS+BMAC groups, and there was a strong decrease in p16 (cellular senescence marker) staining in the FIS-treated group. * p <.05, * * p <.01. Figure 4: Biomechanical findings at 12 weeks postoperatively Instantaneous elastic modulus (cartilage's strength) measurements for each group are shown, with a significant increase in the MFx+FIS+BMAC group compared to MFx alone group. * * P <.05 [ABSTRACT FROM AUTHOR]

Published

2022

5. Paper 01: ACL Reconstructed Knees Had Significantly Higher MR T1ρ and T2 Values in Cartilage but not in Meniscus Compared to Contralateral Knees at 10 Years after ACL Reconstruction.

Author

Xie, Dongxing, Murray, John, Lartey, Richard, Gaj, Sibaji, Kim, Jeehun, Eck, Brendan, Winalski, Carl, Altahawi, Faysal, Jones, Morgan, Huston, Laura, Harkins, Kevin, Merrin, Lindsay, Knopp, Michael, Kaeding, Christopher, Spindler, Kurt, and Li, Xiaojuan

Subjects

MENISCUS (Anatomy), MAGNETIC resonance imaging, CARTILAGE diseases, CONFERENCES & conventions, POSTOPERATIVE period, ANTERIOR cruciate ligament surgery, ARTICULAR cartilage, KNEE

Abstract

Objectives: Patients with anterior cruciate ligament (ACL) injury are at high risk for the development of post-traumatic osteoarthritis (PTOA), despite ACL reconstruction (ACLR). ACL injuries are frequently associated with damage of other structures within the knee, such as the meniscus. The meniscus is an important structure that provides protection for articular cartilage and stabilization of the joint. Long-term studies of PTOA after ACLR mainly used radiographs. Conventional magnetic resonance imaging (MRI) has been used in a limited number of studies to evaluate structural damages, but this only provides information on morphologic changes that occur at relatively late stages of the disease. In this study, we aim to use quantitative MRI (qMRI) to evaluate cartilage and meniscus degeneration in patients at 10 years after ACLR. Methods: This is a multi-site multi-vendor study that involves three sites and two MR platforms (Siemens 3T and Philips 3T). MRI protocols have been harmonized between sites and cross validation data were collected using phantoms. The patients are from a nested cohort within Multicenter Orthopaedic Outcomes Network (MOON) Onsite Cohort at 10 years after ACLR. Inclusion/Exclusion criteria were: 22-50 years old; ACL tear during a sport; no previous knee injury; no graft rupture during follow-up. In this preliminary report, 51 patients (age 32.8 ± 6.4 years; 25 females; body mass index [BMI] 25.7 ± 5.7 kg/m2; 40 hamstring autograft, 9 bone-patellar tendon-bone autograft, and 2 allograft) and 17 healthy control participants (age 30.8 ± 7.8 years; 10 females; BMI 23.8 ± 5.6 kg/m2) were studied. The MRI protocol included high-resolution Dual-Echo Steady State (DESS), and combined gradient echo MAPSS T1ρ and T2 mapping. Cartilage and meniscus were automatically segmented on DESS images using an in-house developed deep-learning model into medial/lateral femoral condyle (MFC/LFC), medial/lateral tibia (MT/LT), trochlear (TRO), and patellar cartilage (PAT), and medial and lateral menisci (MM/LM). Each cartilage compartment was further divided into sub-regions based on a modified MRI Osteoarthritis Knee Score (MOAKS) definition: central and posterior for MFC/LMC (cMFC/cLMC, pMFC/pLMC); anterior, central, and posterior for MT/LT (aMT/aLT, cMT/cLT, pMT/pLT); medial, central, and lateral for PAT/TRO (mPAT/mTRO, cPAT/cTRO, lPAT/lTRO). Menisci were further divided into anterior horn (aMM, aLM), central (body) (cMM, cLM), and posterior horn (pMM, pLM) subregions. These cartilage and menisci subregions were then transformed and overlaid onto the T1ρ and T2 parameter maps after co-registering the DESS image to the first echo of the 3D MAPSS sequence using the Elastix toolbox. T1ρ and T2 parameter maps were obtained by a voxel-wise two-parameter monoexponential fitting. The mean and standard deviation for each subregion was recorded and compared between three knee groups: operated and contralateral knees from patients, and control knees from healthy controls, using a mixed-effects regression model, adjusted for age, sex, and BMI. Results: For cartilage, compared to contralateral knees, operated knees in patients had significantly higher T1ρ and T2 values in MFC, MT, and TRO compartments. Looking into subcompartments, for MFC, MT, and TRO, most of the subcompartments (cMFC, pMFC; cMT, pMT; mTRO, cTRO) showed significantly higher T1ρ and T2 values compared to contralateral knees. For LFC and LT, only the posterior subcompartments showed significantly higher T1ρ and T2 values compared to contralateral knees. For PAT, no significant differences were observed between operated and contralateral knees. Compared to healthy control knees, operated knees in patients had significantly higher T1ρ and T2 values in all the six compartments. Besides, contralateral knees also showed higher T1ρ and T2 values in LFC, LT and PAT compartments compared to healthy control knees (Figure 1 for T1ρ, T2 with similar trend was not shown). For meniscus, no significant differences in T1ρ and T2 values were observed between injured and contralateral knees. Compared to healthy control knees, both operated and contralateral knees in patients had significantly higher T1ρ values in LM and significantly higher T2 values in MM (Figure 2). Conclusions: Cartilage T1ρ and T2 values were higher in operated knees compared to contralateral knees at 10 years after ACLR, except for patellar compartment. In patellar cartilage, no significant differences were observed between sides in patients, but both sides were significantly higher than control knees. Our data showed that contralateral knees after ACLR may not represent 'healthy controls' as there might be compensatory changes and early degeneration in contralateral knees as a result of injury and surgery to their other knee. Although we observed this general trend of higher cartilage T1ρ and T2 values in the operated knees compared to contralateral knees, no significant differences were observed in meniscus T1ρ and T2 values between sides in patients, suggesting the timing of cartilage and meniscus degeneration may be different for patients after ACLR. Meniscus T1ρ and T2 values in both sides are higher than control knees, suggesting early degeneration in meniscus in patients in both sides. The results will be confirmed with more patient data being collected in the ongoing study. The relationship between qMRI, morphological tissue changes, and patient-reported outcomes after ACLR will also be evaluated in future work. Figure 1. T1p comparisons of cartilage among operated, contralateral, and healthy control knees. *P < 0.05, **P < 0.01. ***P < 0.001. Figure 2. T1p and T2 comparisons of menisci among operated, contralateral, and healthy control knees. *P < 0.05. **P < 0.01. ***P < 0.001. [ABSTRACT FROM AUTHOR]

Published

2022

6. Paper 51: Characteristics of Unsalvageable Osteochondritis Dissecans Lesions From the ROCK Prospective Cohort.

Author

ROCK Study Group

Subjects

ARTICULAR cartilage, OSTEOCHONDRITIS, SYMPTOMS, CONFERENCES & conventions, BONE grafting

Abstract

Objectives: The goal of treatment of osteochondritis dissecans (OCD) is most commonly to preserve the native chondral surface to avoid long term development of osteoarthritis. However, some OCD lesions are not considered amenable to fixation and therefore deemed unsalvageable. Little is known about the OCD subpopulation presenting with such lesions or the detailed characteristics of unsalvageable lesions and their treatment. The purpose of this study is to investigate the characteristics of lesions and their treatment in a large volume of patients with OCD lesions that were determined to be unsalvageable upon presentation. Methods: A review of the ROCK (Research in Osteochondritis of the Knee) study group's prospective cohort database from 2014 to 2022 was performed to identify condylar lesions in patients <20 years old that were deemed unsalvageable, based on a cartilage resurfacing technique being preliminary treatment performed. Demographic data, radiographic descriptors, intraoperative lesion findings, and treatments performed were analyzed. Treatments for lesions considered unsalvageable were categorized as marrow stimulation (e.g. microfracture, McFx), osteochondral autograft transplantation surgery (e.g. OATS), osteochondral allograft transplantation (OCA), and cultured chondrocyte/cell-based therapy (e.g. MACI). Comparative analysis was performed between the cohort with unsalvageable lesions and those who underwent lesion preservation techniques associated with unstable lesions (ie fixation). Results: A total of 590 out of 1291 (45.7%) surgically treated OCDs (mean age 13.7 years old, 2:1 male: female) were included with 10.8% considered unsalvageable. The distribution of techniques for unsalvageable lesions was McFx (4.4%), OCA (2.9%), and MACI (2.0%). Compared to the lesion preservation cohort, the unsalvageable was older (15.9 vs. 14.6; p=-0.006), had a higher body mass index (24.2 vs. 22.7; p<0.001), and was more likely to have had prior surgery (33.3% vs. 10.3%; p<0.001). The presence of bone in the progeny, a linear signal on MRI, and bone edema were less common in unsalvageable lesions (p<0.05 for all). A multivariate analysis model resulted in significant associated in unsalvageable OCD lesions with prior surgery (p<0.001, OR 1.97, CI 2.736-19.929). Conclusions: OCD patients with unsalvageable lesions are more likely to be identified in those that have undergone prior surgical procedure, but MRI signs of instability still undergo preservation techniques. Given the implications of long-term joint health, comparative analyses of outcomes of the different cartilage resurfacing techniques for such lesions is of critical importance for future study. [ABSTRACT FROM AUTHOR]

Published

2024

7. Paper 39: Sex Mismatch Between Donor and Recipient is Associated with Decreased Graft Survivorship at 5-years After Osteochondral Allograft Transplantation.

Author

Farina, Evan, Leite, Chilan, Ackermann, Jakob, Gortz, Simon, Lattermann, Christian, Gomoll, Andreas, and Merkely, Gergo

Subjects

HOMOGRAFTS, GRAFT survival, PATIENTS, CONFERENCES & conventions, SEX distribution, ARTICULAR cartilage, TRANSPLANTATION of organs, tissues, etc.

Abstract

Objectives: Sex mismatch between donor and recipient has been considered a potential contributor to adverse outcomes following solid organ transplantation. However, the influence of sex mismatching in osteochondral allograft (OCA) transplantation is yet to be determined. Therefore, the objective of this study was to evaluate whether donor-recipient sex mismatching impacts graft survival after OCA transplantation. Methods: In this review of prospectively collected data, patients who underwent OCA transplantation between November 2013 and November 2017 by a single surgeon were analyzed. Cumulative survival was performed through the Kaplan–Meier method using log-rank tests to compare patients with similar donor groups. Multivariable Cox regression analysis adjusted for patient age, graft size and body mass index (BMI) were used to evaluate the influence of donor–recipient sex on graft survival. Results: A total of 154 patients were included, 102 (66.2%) who received OCAs from a same sex donor, and 52 (33.8%) from a different sex donor. At 5 years follow-up, a significantly lower graft survival rate was observed for different sex donor transplantation in comparison to same sex donor (63% versus 92%, p = 0.01). (Figure 1.) When correcting for age, graft size and BMI, donor-recipient sex mismatching demonstrated a 2.9 times greater likelihood to fail at 5 years compared to donor-recipient same sex (p = 0.03). A subgroup analysis showed no significant difference in graft survival between female-to-female and female-to-male groups (91% and 84%, respectively). (Figure 2.) Conversely, male-to-male demonstrated a significant higher cumulative 5-year survival (94%, p = 0.04), whereas a lower survival was found in the male-to-female group (64%, p = 0.04). Multivariable Cox regression indicated a 2.6 times higher likelihood of failure for male-to-female in comparison with other groups (p = 0.04). Male-to-male had a tendency toward decreased likelihood of OCA failure (0.33 hazard ratio), although without statistical significance. Conclusions: Mismatch between donor and recipient sex has a negative effect on OCA survival following transplantation, particularly in those cases when male donor tissue was transplanted into a female recipient. [ABSTRACT FROM AUTHOR]

Published

2022

8. RNA isolation from micro-quantity of articular cartilage for quantitative gene expression by microarray analysis

Author

Xiaowei Zhang, Trevor J. McFarland, Kristina Vartanian, Yong Zhu, Christina A. Harrington, and Cong-Qiu Chu

Subjects

Cartilage, Articular, Gene Expression, General Medicine, Microarray Analysis, RNA isolation, Chondrocytes, Animals, RNA, articular cartilage, cartilage repair, Female, Rabbits, microarray, Research Paper

Abstract

Isolation of quality RNA from articular cartilage has been challenging due to low cellularity and the high abundance of extracellular matrix and proteoglycan proteins. Recently developed methods for isolation of high quality RNA from cartilage are more applicable to larger cartilage specimens typically weighing at least 25 mg. While these methods generate RNA suitable for analysis, they are less successful with smaller tissue inputs. For the study of small focal defect cartilage specimens an improved RNA extraction method is needed. Here we report a protocol for direct RNA isolation from less than 3 mg of wet weight rabbit articular cartilage for quantitative microarray gene profiling. This protocol is useful for identifying differentially expressed genes in chondrocytes following focal cartilage repair and can potentially be adopted for gene expression analysis of cartilage biopsy specimens from human joints.

Published

2022

9. Mesenchymal stromal cells-derived extracellular vesicles in cartilage regeneration: potential and limitations.

Author

Piñeiro-Ramil, María, Gómez-Seoane, Iván, Rodríguez-Cendal, Ana Isabel, Fuentes-Boquete, Isaac, and Díaz-Prado, Silvia

Subjects

MEDICAL sciences, ARTICULAR cartilage, EXTRACELLULAR matrix, EXTRACELLULAR vesicles, TREATMENT effectiveness, CARTILAGE regeneration, CARTILAGE cells

Abstract

Background: Articular cartilage injuries can lead to pain, stiffness, and reduced mobility, and may eventually progress to osteoarthritis (OA). Despite substantial research efforts, effective therapies capable of regenerating cartilage are still lacking. Mesenchymal stromal cells (MSCs) are known for their differentiation and immunomodulatory capabilities, yet challenges such as limited survival post-injection and inconsistent therapeutic outcomes hinder their clinical application. Recent evidence suggests that the beneficial effects of MSCs are largely mediated by their secreted small extracellular vesicles (sEVs), which have been shown to promote tissue repair and reduce inflammation. MSC-derived sEVs have shown promise in mitigating cartilage degradation and chondrocyte apoptosis, positioning them as a promising alternative to MSC-based therapies for OA treatment. This review explores the potential and limitations of MSC-derived sEVs in cartilage regeneration. Main text: This systematic review was conducted following PRISMA guidelines, with a comprehensive search of the Web of Science and Scopus databases for studies published between 2019 and 2024. A total of 223 records were identified, of which 132 articles were assessed for eligibility based on general selection criteria. After full-text screening, 60 articles were initially selected, comprising 58 in vitro studies and 40 in vivo studies. Following further exclusion based on specific criteria, 33 in vitro and 28 in vivo studies from a total of 47 scientific papers were included in the final qualitative synthesis. Most studies indicate that MSC-derived sEVs enhance chondrocyte proliferation, improve cartilage extracellular matrix composition, and reduce matrix-degrading enzymes and inflammation, thereby delaying OA progression. Conclusion: A growing body of evidence supports the use of MSC-derived sEVs as a therapeutic tool for preventing OA progression, with most studies reporting beneficial effects on cartilage structure and function. However, challenges remain in optimizing and standardizing sEVs isolation, dosage, and delivery methods for clinical application. Further research is necessary to elucidate the mechanisms underlying sEVs-mediated cartilage regeneration and to facilitate their translation into effective OA therapies. [ABSTRACT FROM AUTHOR]

Published

2025

10. The relationship between proteoglycan loss, overloading-induced collagen damage, and cyclic loading in articular cartilage

Author

Lorenza Henao-Murillo, Keita Ito, Corrinus C. van Donkelaar, Maria Ioana Pastrama, Orthopaedic Biomechanics, and ICMS Core

Subjects

Cartilage, Articular, 0206 medical engineering, Biomedical Engineering, 4m, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, 02 engineering and technology, 03 medical and health sciences, 0302 clinical medicine, collagen damage, Animals, Immunology and Allergy, Cyclic loading, Clinical Research papers, cyclic loading, Biomechanical Studies, biology, Chemistry, 020601 biomedical engineering, proteoglycan loss, overloading, Proteoglycan, col2-3, col2-3/4m, biology.protein, Biophysics, Cattle, Proteoglycans, Collagen, 030217 neurology & neurosurgery

Abstract

Objective The interaction between proteoglycan loss and collagen damage in articular cartilage and the effect of mechanical loading on this interaction remain unknown. The aim of this study was to answer the following questions: (1) Is proteoglycan loss dependent on the amount of collagen damage and does it depend on whether this collagen damage is superficial or internal? (2) Does repeated loading further increase the already enhanced proteoglycan loss in cartilage with collagen damage? Design Fifty-six bovine osteochondral plugs were equilibrated in phosphate-buffered saline for 24 hours, mechanically tested in compression for 8 hours, and kept in phosphate-buffered saline for another 48 hours. The mechanical tests included an overloading step to induce collagen damage, creep steps to determine tissue stiffness, and cyclic loading to induce convection. Proteoglycan release was measured before and after mechanical loading, as well as 48 hours post-loading. Collagen damage was scored histologically. Results Histology revealed different collagen damage grades after the application of mechanical overloading. After 48 hours in phosphate-buffered saline postloading, proteoglycan loss increased linearly with the amount of total collagen damage and was dependent on the presence but not the amount of internal collagen damage. In samples without collagen damage, repeated loading also resulted in increased proteoglycan loss. However, repeated loading did not further enhance the proteoglycan loss induced by damaged collagen. Conclusion Proteoglycan loss is enhanced by collagen damage and it depends on the presence of internal collagen damage. Cyclic loading stimulates proteoglycan loss in healthy cartilage but does not lead to additional loss in cartilage with damaged collagen.

Published

2021

11. Ultrasound-Based Quantification of Cartilage Damage After In Vivo Articulation With Metal Implants

Author

Maria Pastrama, Janne Spierings, Pieter van Hugten, Keita Ito, Richard Lopata, Corrinus C. van Donkelaar, Orthopedie, RS: CAPHRI - R3 - Functioning, Participating and Rehabilitation, MUMC+: MA Orthopedie (9), Orthopaedic Biomechanics, Eindhoven MedTech Innovation Center, Photoacoustics & Ultrasound Laboratory Ehv, and ICMS Core

Subjects

Cartilage, Articular, SUBCHONDRAL BONE, Knee Joint, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, focal knee resurfacing implant, FREQUENCY, ANIMAL-MODEL, Animals, Immunology and Allergy, VITRO, articular cartilage, Femur, Ultrasound Roughness Index, Clinical Research papers, LESIONS, Biomechanical Studies, Tibia, ultrasound, FRICTION, DEFECTS, SHEEP, OSTEOARTHRITIS, surface roughness, KNEE, Knee Prosthesis

Abstract

Objective This study aims to evaluate the applicability of the ultrasound roughness index (URI) for quantitative assessment of cartilage quality ex vivo (post-mortem), after 6 months of in vivo articulation with a Focal Knee Resurfacing Implant (FKRI). Design Goats received a metal FKRI ( n = 8) or sham surgery ( n = 8) in the medial femoral condyles. After 6 months animals were sacrificed, tibial plateaus were stained with Indian ink, and macroscopic scoring of the plateaus was performed based on the ink staining. The URI was calculated from high-frequency ultrasound images at several sections, covering both areas that articulated with the implant and non-articulating areas. Cartilage quality at the most damaged medial location was evaluated with a Modified Mankin Score (MMS). Results The URI was significantly higher in the FKRI-articulating than in the sham plateaus at medial articulating sections, but not at sections that were not in direct contact with the implant, for example, under the meniscus. The mean macroscopic score and MMS were significantly higher in the FKRI-articulating group than in the sham group ([Formula: see text], [Formula: see text], respectively). Correlation coefficients between URI and macroscopic score were significant in medial areas that articulated with the implant. A significant correlation between URI and MMS was found at the most damaged medial location ([Formula: see text]). Conclusions This study demonstrates the potential of URI to evaluate cartilage roughness and altered surface morphology after in vivo articulation with a metal FKRI, rendering it a promising future tool for quantitative follow-up assessment of cartilage quality.

Published

2021

12. A Multi-View Semi-supervised learning method for knee joint cartilage segmentation combining multiple feature descriptors and image modalities.

Author

Chadoulos, Christos G., Tsaopoulos, Dimitrios E., Moustakidis, Serafeim P., and Theocharis, John B.

Subjects

SUPERVISED learning, KNEE joint, MAGNETIC resonance imaging, ARTICULAR cartilage, SPARSE graphs

Abstract

Multi-atlas based segmentation techniques constitute an effective approach in the automatic segmentation of medical images. Existing methods usually rely on single spectral descriptors extracted from a specific imaging modality. In this paper, we propose the Multi-View Knee Cartilage Segmentation (MV-KCS) approach, for segmenting the knee joint articular cartilage from MR images. Operating under the Semi-supervised learning framework, MV-KCS leverages spectral content from multiple feature spaces by constructing sparse graphs for each view individually, and aggregating them via optimisation to obtain a common data graph. In We consider two multi-view scenarios: in the former case views correspond to multiple feature descriptors, while on the latter, the views correspond to multiple image modalities. We propose two effective labelling schemes, implementing label propagation from the atlas library to the target image. The proposed methodology is applied to the publicly available Osteoarthritis Initiative repository. We devise a comprehensive experimental design to validate different test cases, comparing single-feature vs multi-features, multi-features vs feature stacking and multi-features vs multi-modalities. Comparative results and statistical analysis reveal that the proposed MV-KCS provides enhanced performance ($DSC = 92.56\% \left({FC} \right), 89.91\% \left({TC} \right)$ DSC = 92.56 % FC , 89.91 % TC ), outperforming a series of patch-based approaches, six recent state-of-the-art deep supervised models and three deep semi-supervised ones, in terms of both classification and volumetric measures. [ABSTRACT FROM AUTHOR]

Published

2024

13. Resolving the Near-Infrared Spectrum of Articular Cartilage

Author

Adekunle Oloyede and Isaac O. Afara

Subjects

Cartilage, Articular, 0206 medical engineering, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, 02 engineering and technology, Matrix (biology), Spectral line, Arthroscopy, 03 medical and health sciences, medicine, Immunology and Allergy, Spectroscopy, Clinical Research papers, 030304 developmental biology, 0303 health sciences, Spectroscopy, Near-Infrared, Chemistry, Cartilage, Near-infrared spectroscopy, Spectral bands, 020601 biomedical engineering, medicine.anatomical_structure, Proteoglycans, Nir spectra, Collagen, Biomedical engineering

Abstract

Objective Spectroscopic techniques, such as near-infrared (NIR) spectroscopy, are gaining significant research interest for characterizing connective tissues, particularly articular cartilage, because there is still a largely unmet need for rapid, accurate and objective methods for assessing tissue integrity in real-time during arthroscopic surgery. This study aims to identify the NIR spectral range that is optimal for characterizing cartilage integrity by ( a) identifying the contribution of its major constituents (collagen and proteoglycans) to its overall spectrum using proxy constituent models and ( b) determining constituent-specific spectral contributions that can be used for assessment of cartilage in its physiological state. Design The NIR spectra of cartilage matrix constituent models were measured and compared with specific molecular components of organic compounds in the NIR spectral range in order to identify their bands and molecular assignments. To verify the identified bands, spectra of the model compounds were compared with those of native cartilage. Since water obscures some bands in the NIR range, spectral measurements of the native cartilage were conducted under conditions of decreasing water content to amplify features of the solid matrix components. The identified spectral bands were then compared and examined in the resulting spectra of the intact cartilage samples. Results As water was progressively eliminated from cartilage, the specific contribution of the different matrix components was observed to correspond with those identified from the proxy cartilage component models. Conclusion Spectral peaks in the regions 5500 to 6250 cm−1 and 8100 to 8600 cm−1 were identified to be effective for characterizing cartilage proteoglycan and collagen contents, respectively.

Published

2021

14. CircRNA-MSR Regulates LPS-Induced C28/I2 Chondrocyte Injury through miR-643/MAP2K6 Signaling Pathway

Author

Qing-Jun Wei and Zhen Jia

Subjects

Cartilage, Articular, Lipopolysaccharides, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, MAP Kinase Kinase 6, RNA, Circular, Osteoarthritis, Biology, medicine.disease, MAP2K6, Chondrocyte, Cell biology, MicroRNAs, Joint disease, Chondrocytes, medicine.anatomical_structure, medicine, Humans, Immunology and Allergy, Signal transduction, In Situ Hybridization, Fluorescence, Clinical Research papers, Signal Transduction

Abstract

Objective Osteoarthritis (OA) is a degenerative joint disease characterized by deterioration of articular cartilage functions. Previous studies have confirmed the role of circular RNAs (circRNAs) in OA, but the role of mechanical stress–related circRNA (circRNA-MSR) in OA is unknown. Design The human chondrocytes C28/I2 were cultured and treated with lipopolysaccharide (LPS) to establish the OA model. The mRNA and protein levels were measured by qRT-PCR or Western blot. Cell viability was analyzed by MTT assay. Flow cytometry was carried out to detect cell apoptosis. The levels of TNF-α, IL-1β, and IL-6 were determined by enzyme-linked immunosorbent assay (ELISA). Pull-down assay was conducted to measure circRNA-MSR-related miRNA. Dual-luciferase reporter gene detection was performed to detect the target relationships between miR-643 and circRNA-MSR or Mitogen-activated protein kinase kinase 6 (MAP2K6). The RNA–fluorescence in situ hybridization (RNA-FISH) assay was conducted to verify the localization of circRNA-MSR and miR-643. Results The expressions of circRNA-MSR were upregulated in LPS stimulated C28/I2 cells. Knockdown of circRNA-MSR can inhibit LPS-induced apoptosis, inflammatory response, and extracellular matrix (ECM) degradation, and promote cell C28/I2 cells proliferation. Moreover, circRNA-MSR directly targeted miR-643. RNA-FISH exhibited that circRNA-MSR may act as a competing endogenous RNA (ceRNA) of miR-643. Over-expression of miR-643 could alleviate LPS-induced C28/I2 chondrocyte injury and promote cell proliferation. Besides, miR-643 directly bound to MAP2K6 mRNA. MiR-643 inhibition or MAP2K6 overexpression can reverse the role of circRNA-MSR knockdown on LPS-treated chondrocytes. Conclusion circRNA-MSR can upregulate MAP2K6 by targeting miR-643, thereby inhibiting cell proliferation and promoting apoptosis of C28/I2 cells.

Published

2021

15. Prospective Isolation and Characterization of Chondroprogenitors from Human Chondrocytes Based on CD166/CD34/CD146 Surface Markers

Author

Grace Rebekah, Boopalan Ramasamy, Solomon Sathishkumar, Upasana Kachroo, Elizabeth Vinod, Abel Livingston, Alfred J. Daniel, Soosai Manickam Amirtham, Jithu Varghese James, and Kawin Padmaja

Subjects

Cartilage, Articular, Fetal Proteins, Chemistry, Cell Adhesion Molecules, Neuronal, Cartilage, Biomedical Engineering, CD34, Antigens, CD34, Cell Differentiation, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, CD146 Antigen, Biological tissue, Chondrogenesis, Isolation (microbiology), Cell biology, Chondrocytes, medicine.anatomical_structure, Antigens, CD, medicine, Humans, Immunology and Allergy, CD146, Clinical Research papers

Abstract

Purpose Chondrocytes, isolated from articular cartilage, are routinely utilized in cell-based therapeutics for the treatment of cartilage pathologies. However, restoration of the biological tissue faces hindrance due to the formation of primarily fibrocartilaginous repair tissue. Chondroprogenitors have been reported to display superiority in terms of their chondrogenic potential and lesser proclivity for hypertrophy. In line with our recent results, comparing chondroprogenitors and chondrocytes, we undertook isolation of progenitors from the general pool of chondrocytes, based on surface marker expression, namely, CD166, CD34, and CD146, to eliminate off-target differentiation and generate cells of stronger chondrogenic potential. This study aimed to compare chondrocytes, chondroprogenitors, CD34−CD166+CD146+ sorted chondrocytes, and CD34−CD166+CD146− sorted chondrocytes. Methods Chondrocytes obtained from 3 human osteoarthritic knee joints were subjected to sorting, to isolate CD166+ and CD34− subsets, and then were further sorted to obtain CD146+ and CD146− cells. Chondrocytes and fibronectin adhesion-derived chondroprogenitors served as controls. Assessment parameters included reverse transcriptase polymerase chain reaction for markers of chondrogenesis and hypertrophy, trilineage differentiation, and total GAG/DNA content. Results Based on gene expression analysis, CD34−CD166+CD146+ sorted chondrocytes and chondroprogenitors displayed comparability and significantly higher chondrogenesis with a lower tendency for hypertrophy when compared to chondrocytes and CD34−CD166+CD146− sorted chondrocytes. The findings were also reiterated in multilineage potential differentiation with the 146+ subset and chondroprogenitors displaying lower calcification and chondroprogenitors displaying higher total GAG/DNA content compared to chondrocytes and 146− cells. Conclusion This unique progenitor-like population based on CD34−CD166+CD146+ sorting from chondrocytes exhibits efficient potential for cartilage repair and merits further evaluation for its therapeutic application.

Published

2021

16. Reprogrammed Synovial Fluid-Derived Mesenchymal Stem/Stromal Cells Acquire Enhanced Therapeutic Potential for Articular Cartilage Repair

Author

Hongli Jiao, Wan-Ju Li, Brian E Walczak, and Ming-Song Lee

Subjects

Cartilage, Articular, Homeodomain Proteins, Stromal cell, business.industry, Health condition, Mesenchymal stem cell, Biomedical Engineering, Mesenchymal Stem Cells, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Osteoarthritis, medicine.disease, Synovial Fluid, Cancer research, medicine, Articular cartilage repair, Animals, Humans, Immunology and Allergy, Synovial fluid, Hedgehog Proteins, business, Chondrogenesis, Reprogramming, Clinical Research papers

Abstract

Objectives Functions of mesenchymal stem/stromal cells (MSCs) are affected by patient-dependent factors such as age and health condition. To tackle this problem, we used the cellular reprogramming technique to epigenetically alter human MSCs derived from the synovial fluid of joints with osteoarthritis (OA) to explore the potential of reprogrammed MSCs for repairing articular cartilage. Materials and Methods MSCs isolated from the synovial fluid of three patients’ OA knees (Pa-MSCs) were reprogrammed through overexpression of pluripotency factors and then induced for differentiation to establish reprogrammed MSC (Re-MSC) lines. We compared the in vitro growth characteristics, chondrogenesis for articular cartilage chondrocytes, and immunomodulatory capacity. We also evaluated the capability of Re-MSCs to repair articular cartilage damage in an animal model with spontaneous OA. Results Our results showed that Re-MSCs increased the in vitro proliferative capacity and improved chondrogenic differentiation toward articular cartilage-like chondrocyte phenotypes with increased THBS4 and SIX1 and decreased ALPL and COL10A1, compared to Pa-MSCs. In addition, Re-MSC-derived chondrocytes expressing elevated COL2A and COL2B were more mature than parental cell-derived ones. The enhancement in chondrogenesis of Re-MSC involves the upregulation of sonic hedgehog signaling. Moreover, Re-MSCs improved the repair of articular cartilage in an animal model of spontaneous OA. Conclusions Epigenetic reprogramming promotes MSCs harvested from OA patients to increase phenotypic characteristics and gain robust functions. In addition, Re-MSCs acquire an enhanced potential for articular cartilage repair. Our study here demonstrates that the reprogramming strategy provides a potential solution to the challenge of variation in MSC quality.

Published

2021

17. Paper 19: The Influence of Amniotic Suspension Allografts and Bone Marrow Aspirate Concentrate on Inflammation & Cartilage Matrix Metabolism in Osteoarthritic Chondrocytes.

Author

Hannon, Charles, Dandu, Navya, Huddleston, Hailey, McIlwraith, Wayne, Frisbie, David, Hakimiyan, Arnavaz, Chubinskaya, Susan, Cole, Brian, and Yanke, Adam

Subjects

INFLAMMATION prevention, CARTILAGE cells, HOMOGRAFTS, AMNION, CONFERENCES & conventions, OSTEOARTHRITIS, BONE marrow, ARTICULAR cartilage

Abstract

Objectives: While bone marrow aspirate concentrate (BMAC) and amniotic suspension allografts (ASA) have all garnered clinical interest for the treatment of osteoarthritis, basic science evidence supporting their use is lacking. Specifically, there is a paucity of literature on the in vitro effects of BMAC and ASA on inflammation and cartilage matrix metabolism in OA chondrocytes and synoviocytes. The purpose of this study was to evaluate the effect of BMAC and ASA on inflammation and cartilage metabolism in a model that mimics the OA intra-articular environment: a co-culture of OA cartilage explants and synoviocytes. Methods: After institutional IRB approval, 17 patients were enrolled at the time of total knee arthroplasty for donation of cartilage, synovium, and bone marrow aspirate tissue samples. All patients had Kellgren-Lawrence Stage 2 or 3. The aspirate was then be prepared and centrifuged using a standard commercially available BMAC centrifuge system, typically yielding up to 3mL of BMAC. Synoviocyte and cartilage explant co-culture systems were created using 24-well culture plates containing 0.4mm filtered inserts. Four co-culture systems were established per patient to accommodate the 2 biologic treatment groups (BMAC and ASA), one control group at 96 hours, and one baseline control cartilage group. Multiplex ELISA was used to measure concentrations of pro-inflammatory mediators interleukin – 1b (IL-1b), interleukin – 6 (IL-6), and tumor necrosis factor – alpha (TNF–a) at 96 hours. Each sample was measured in duplicate to ensure accuracy. Additionally, both chondrocyte and synoviocyte RNA were assayed for collagen type I a1 (COL1A1), collagen type II a1 (COL2A1), collagen type III a1 (COL3A1), aggrecan (ACAN), and cartilage oligomeric matrix protein (COMP). All statistical analyses were performed on STATA v16.1. Normality of data was determined by Shapiro-Wilk test, and non-parametric or parametric tests were utilized where appropriate. Results: There were no significant differences in cytokine concentration between the 96-hr control group and the BMAC co-culture for any cytokine, although IL-6 was trending towards significance (Control: 856.3 ± 346.2 vs BMAC: 662.3 ± 346.8, p=.08). There was a significantly lower concentration of IL-1B in the ASA group compared to the control group (ASA: 11.2 ± 13.9 vs Control: 20.2 ± 39.5, p=.04) (Table 1). No significant differences in expression were observed for Col1A1, Col2A1, Col3A1, COMP or ACAN in either cartilage or synovium samples across the three groups. Conclusions: The early results from this study suggest that ASA may have anti-inflammatory properties and promote the expression of major extracellular matrix genes in both osteoarthritic chondrocytes and synoviocytes involved in cartilage matrix metabolism. Specifically, ASA was associated with decreased concentrations of IL-1ß. The use of intra-articular therapies as sources of growth factors, anti-inflammatory mediators, and potentially mesenchymal stem cells (MSCs) for OA is rapidly evolving. MSCs have garnered significant interest due to their chondrogenic potential and promise for tissue regeneration. Two commercially available sources of MSCs are bone marrow aspirate concentrate (BMAC) and amniotic membrane. As biologics garner more attention in the clinical setting, their underlying mechanisms and efficacy in in-vitro models become important to elucidate. The results from this study provide basic science support for further clinical trials comparing ASA and BMAC to current standard of care corticosteroid injections for OA. Table 1. Luminex Assay for Cytokine Concentrations in Media [ABSTRACT FROM AUTHOR]

Published

2022

18. Cartilage Repair Capacity within a Single Full-Thickness Chondral Defect in a Porcine Autologous Matrix-Induced Chondrogenesis Model Is Affected by the Location within the Defect

Author

Jani Puhakka, Teemu Paatela, Markus Hannula, Eve Salonius, Virpi Muhonen, Ilkka Kiviranta, Anne-Marie Haaparanta, Anna Meller, and Anna Vasara

Subjects

Cartilage, Articular, Scaffold, Materials science, Swine, Chondral defect, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Transplantation, Autologous, 03 medical and health sciences, 0302 clinical medicine, Animal model, Animals, Immunology and Allergy, Cartilage repair, Clinical Research papers, 030304 developmental biology, 0303 health sciences, Biomaterial, X-Ray Microtomography, 030229 sport sciences, Autologous matrix-induced chondrogenesis, Full thickness, Cartilage Diseases, Chondrogenesis, Biomedical engineering

Abstract

Objective Large articular cartilage defects are a challenge to regenerative surgery. Biomaterial scaffolds might provide valuable support for restoration of articulating surface. The performance of a composite biomaterial scaffold was evaluated in a large porcine cartilage defect. Design Cartilage repair capacity of a biomaterial combining recombinant human type III collagen (rhCo) and poly-(l/d)-lactide (PLA) was tested in a porcine model. A full-thickness chondral defect covering the majority of the weightbearing area was inflicted to the medial femoral condyle of the right knee. Spontaneous cartilage repair and nonoperated healthy animals served as controls. The animals were sacrificed after a 4-month follow-up. The repair tissue was evaluated with the International Cartilage Repair Society (ICRS) macroscopic score, ICRS II histological score, and with micro-computed tomography. Additionally, histopathological evaluation of lymph nodes and synovial samples were done for toxicological analyses. Results The lateral half of the cartilage defect in the operated groups showed better filling than the medial half. The mean overall macroscopic score for the rhCo-PLA, spontaneous, and nonoperated groups were 5.96 ± 0.33, 4.63 ± 0.42, and 10.98 ± 0.35, respectively. The overall histological appearance of the specimens was predominantly hyaline cartilage in 3 of 9 samples of the rhCo-PLA group, 2 of 8 of the spontaneous group, and 9 of 9 of the nonoperated group. Conclusions The use of rhCo-PLA scaffold did not differ from spontaneous healing. The repair was affected by the spatial properties within the defect, as the lateral part of the defect showed better repair than the medial part, probably due to different weightbearing conditions.

Published

2021

19. Eighty Percent Survival of Resurfacing Implants in the Knee After 10 Years: A Nationwide Cohort Study on 379 Procedures from the Danish Knee Arthroplasty Registry

Author

Jens Ole Laursen, Martin Lind, Anders El-Galaly, and Bjørn Borsøe Christensen

Subjects

Male, Knee Joint, Denmark, medicine.medical_treatment, knee, Osteoarthritis, Cohort Studies, 0302 clinical medicine, Immunology and Allergy, Medicine, Registries, Arthroplasty, Replacement, Knee, Clinical Research papers, 030222 orthopedics, Prostheses and Implants, Middle Aged, Treatment Outcome, medicine.anatomical_structure, Athletic Injuries, language, posttraumatic arthritis, Female, Knee Prosthesis, MICROFRACTURE, Cohort study, Adult, sports injury, medicine.medical_specialty, Sports injury, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Percent survival, Danish, 03 medical and health sciences, Humans, articular cartilage, Cartilage repair, Retrospective Studies, LESIONS, HIP, business.industry, Cartilage, 030229 sport sciences, medicine.disease, Arthroplasty, language.human_language, Surgery, osteoarthritis, business

Abstract

Objective Focal cartilage injuries are debilitating and difficult to treat. Biological cartilage repair procedures are used for patients younger than 40 years, and knee arthroplasties are generally reserved for patients older than 60 years. Resurfacing implants are well suited for patients in this treatment gap. The objective was to investigate the 10-year survival of resurfacing implants in the Danish Knee Arthroplasty Registry. Design In this retrospective cohort study, patients treated with resurfacing implants were followed longitudinally in the Danish Knee Arthroplasty Registry from 1997 to 2020. The primary endpoint was revision surgery. The survival of the resurfacing implants was analyzed by Kaplan-Meier method. Results A total of 379 resurfacing implant procedures were retrieved from the Danish Knee Arthroplasty Registry. The mean age and weight of patients were 50 years (SD = 11) and 84 kg (SD = 17), respectively. The indications for surgery were as follows: secondary osteoarthritis (42%), primary osteoarthritis (32%), and osteochondral lesions (20%). Within the follow-up period, 70 (19%) of the implants were revised to arthroplasties. The 1-, 5-, and 10-year revision-free survival estimation was 0.95 (95% CI 0.93-0.97), 0.84 (95% CI 0.80-0.88), and 0.80 (95% CI 0.75-0.84), respectively. The median time to revision was 2 years. Conclusion The 10-year revision-free survival rate for resurfacing implants was 80%. Based on the revision rates, this treatment offers a viable alternative to biological cartilage repair methods in patients aged 40 to 60 years with focal cartilage pathology. Improved patient selection could further improve the implant survival rate. Further studies are needed to investigate this treatment method.

Published

2021

20. Differences in the Demographics and Preferred Management of Knee Cartilage Injuries in Soccer Players Across FIFA Centers of Excellence

Author

Tyler Warner, Riley J. Williams, and Niv Marom

Subjects

Adult, Male, medicine.medical_specialty, Knee Joint, Demographics, media_common.quotation_subject, medicine.medical_treatment, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Knee Injuries, Osteotomy, Excellence, Soccer, Articular cartilage repair, Humans, Immunology and Allergy, Medicine, Autografts, Clinical Research papers, Demography, media_common, Bone Transplantation, business.industry, Patient Preference, Knee cartilage, Cartilage, Athletic Injuries, Physical therapy, business, Cartilage Diseases, human activities

Abstract

Objective We sought to report on the demographics and epidemiology of knee cartilage injuries and preferred management in soccer players, across FIFA Medical Centers of Excellence (FMCE). Design A descriptive questionnaire focusing on characteristics of knee cartilage injuries and their management in soccer players during the 10-year period prior to the distribution of the questionnaire was sent to all FMCE around the world in September 2019 via an online platform. Voluntary responses from centers were processed and analyzed. Descriptive characteristics were reported using median and interquartile ranges (IQR) for continuous variables and frequencies and percentages (%) for discrete variables. Results A total of 15 centers from 5 continents responded to the questionnaire and reported on a total of 4526 soccer players. Among centers, the median age was 27 years (IQR: 23-38), the median rate of male players was 75% (IQR: 68-90), and the median rate of professional players was 10% (IQR: 5-23). The most common reported etiology for cartilage injury was traumatic (median 40%, IQR: 13-73). The most common nonoperative treatment utilized was physical therapy (median 90%, IQR: 51%-100%) and the most common operative treatment utilized was bone marrow stimulation/micro-fracture (median 40%, IQR: 19-54%). The utilization of other cartilage restoration procedures varied across centers. Conclusions Our findings highlight different tendencies in the management of these injuries across FMCE and emphasize the need for collaborative efforts focusing on establishing consensus guidelines for the optimal management of these challenging injuries in soccer players.

Published

2021

21. The Fragility of Statistical Significance in Cartilage Restoration of the Knee: A Systematic Review of Randomized Controlled Trials

Author

Robert L Parisien, David P. Trofa, Xinning Li, Christopher S. Ahmad, Charles A. Popkin, Bryan M. Saltzman, and Michael Constant

Subjects

Cartilage, Articular, medicine.medical_specialty, Statistics as Topic, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Knee Injuries, law.invention, Cartilage restoration, 03 medical and health sciences, 0302 clinical medicine, Fragility, Physical medicine and rehabilitation, Randomized controlled trial, Robustness (computer science), law, Statistical significance, Humans, Immunology and Allergy, Medicine, Clinical Research papers, Randomized Controlled Trials as Topic, 030222 orthopedics, business.industry, 030229 sport sciences, Cartilage, Research Design, Sample Size, Periodicals as Topic, business

Abstract

Objective The purpose of this study was to utilize fragility analysis to assess the robustness of randomized controlled trials (RCTs) evaluating the management of articular cartilage defects of the knee. We hypothesize that the cartilage restorative literature will be fragile with the reversal of only a few outcome events required to change statistical significance. Design RCTs from 11 orthopedic journals indexed on PubMed from 2000 to 2020 reporting dichotomous outcome measures relating to the management of articular cartilage defects of the knee were included. The Fragility Index (FI) for each outcome was calculated through the iterative reversal of a single outcome event until significance was reversed. The Fragility Quotient (FQ) was calculated by dividing each FI by study sample size. Additional statistical analysis was performed to provide median FI and FQ across subgroups. Results Nineteen RCTs containing 60 dichotomous outcomes were included for analysis. The FI and FQ of all outcomes was 4 (IQR 2-7) and 0.067 (IQR 0.034-0.096), respectively. The average number of patients lost to follow-up (LTF) was 3.9 patients with 15.8% of the included studies reporting LTF greater than or equal to 4, the FI of all included outcomes. Conclusions The orthopedic literature evaluating articular cartilage defects of the knee is fragile as the reversal of relatively few outcome events may alter the significance of statistical findings. We therefore recommend comprehensive fragility analysis and triple reporting of the P value, FI, and FQ to aid in the interpretation and contextualization of clinical findings reported in the cartilage restoration literature.

Published

2021

22. Infrared Fiber-Optic Spectroscopy Detects Bovine Articular Cartilage Degeneration

Author

Juha Töyräs, Achim Kohler, Rubina Shaikh, Lassi Rieppo, Valeria Tafintseva, Simo Saarakkala, Ervin Nippolainen, Vesa Virtanen, Isaac O. Afara, Boris Zimmermann, and Johanne Heitmann Solheim

Subjects

Cartilage, Articular, Materials science, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Degeneration (medical), Osteoarthritis, 01 natural sciences, 03 medical and health sciences, 0302 clinical medicine, Spectroscopy, Fourier Transform Infrared, medicine, Animals, Immunology and Allergy, Least-Squares Analysis, Fourier transform infrared spectroscopy, Clinical Research papers, 030203 arthritis & rheumatology, medicine.diagnostic_test, Cartilage, 010401 analytical chemistry, Arthroscopy, medicine.disease, 0104 chemical sciences, medicine.anatomical_structure, Attenuated total reflection, Fiber-Optic Spectroscopy, Cattle, Cartilage Diseases, Biomedical engineering

Abstract

Objective Joint injuries may lead to degeneration of cartilage tissue and initiate development of posttraumatic osteoarthritis. Arthroscopic surgeries can be used to treat joint injuries, but arthroscopic evaluation of articular cartilage quality is subjective. Fourier transform infrared spectroscopy combined with fiber optics and attenuated total reflectance crystal could be used for the assessment of tissue quality during arthroscopy. We hypothesize that fiber-optic mid-infrared spectroscopy can detect enzymatically and mechanically induced damage similar to changes occurring during progression of osteoarthritis. Design Bovine patellar cartilage plugs were extracted and degraded enzymatically and mechanically. Adjacent untreated samples were utilized as controls. Enzymatic degradation was done using collagenase and trypsin enzymes. Mechanical damage was induced by (1) dropping a weight impactor on the cartilage plugs and (2) abrading the cartilage surface with a rotating sandpaper. Fiber-optic mid-infrared spectroscopic measurements were conducted before and after treatments, and spectral changes were assessed with random forest, partial least squares discriminant analysis, and support vector machine classifiers. Results All models had excellent classification performance for detecting the different enzymatic and mechanical damage on cartilage matrix. Random forest models achieved accuracies between 90.3% and 77.8%, while partial least squares model accuracies ranged from 95.8% to 84.7%, and support vector machine accuracies from 91.7% to 80.6%. Conclusions The results suggest that fiber-optic Fourier transform infrared spectroscopy attenuated total reflectance spectroscopy is a viable way to detect minor and major degeneration of articular cartilage. Objective measures provided by fiber-optic spectroscopic methods could improve arthroscopic evaluation of cartilage damage.

Published

2021

23. Structural Morphology of Rabbit Patella and Suprapatella Cartilage by Microscopic MRI and Polarized Light Microscopy

Author

Mouhamad Hammami, Hannah Mantebea, Yang Xia, and Syeda Batool

Subjects

Cartilage, Articular, musculoskeletal diseases, Materials science, Knee Joint, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Immunology and Allergy, medicine.bone, Clinical Research papers, 030304 developmental biology, 0303 health sciences, Polarized light microscopy, Cartilage, Patella, Anatomy, Magnetic Resonance Imaging, medicine.anatomical_structure, Sesamoid bone, Fibrocartilage, Microscopy, Polarization, Rabbits

Abstract

Objective In order to appreciate the roles articular cartilage of sesamoid bones and sesamoid fibrocartilage play in anatomy and pathology, the articular cartilage of the patella ( n = 4) and suprapatella ( n = 4) (a sesamoid fibrocartilage) of 12 to 14 weeks old New Zealand rabbits were studied qualitatively and quantitatively. Design/Method The intact knee joints and block specimens from the joints were imaged using microscopic magnetic resonance imaging (µMRI) at a 97.6-µm pixel resolution for the former and 19.5-µm resolution for the latter. Histological sections were made out of the µMRI-imaged specimens, which were imaged using polarized light microscopy (PLM) at 0.25-, 1-, and 4-µm pixel resolutions. Results The patella cartilage varied in thickness across the medial to lateral ends of the sesamoid bone with the central medial aspect slightly thicker than the lateral aspect. The suprapatella fibrocartilage decreased proximally away from the knee joint. Quantitative results of patellar cartilage showed strong dependence of fiber orientation with the tissue depth. Three histological zones can be clearly observed, which are similar to articular cartilage from other large animals. The sesamoid fibrocartilage has one thin surface layer (10 µm thick) of parallel-arranged structured fibers followed immediately by the majority of random fibers in bulk tissue. T2 relaxation time anisotropy was observed in the patellar cartilage but not in the bulk fibrocartilage. Conclusion Given the different functions of these 2 different types of cartilages in joint motion, these quantitative results will be beneficial to future studies of joint diseases using rabbits as the animal model.

Published

2021

24. Disuse Atrophy of Articular Cartilage Induced by Unloading Condition Accelerates Histological Progression of Osteoarthritis in a Post-traumatic Rat Model

Author

Hiroshi Kuroki, Ikufumi Takahashi, Masahiro Hoso, and Taro Matsuzaki

Subjects

Cartilage, Articular, Male, Pathology, medicine.medical_specialty, diagnosis, Rat model, scoring systems, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Hindlimb, Osteoarthritis, Menisci, Tibial, histology, 03 medical and health sciences, research methods, 0302 clinical medicine, medicine, Animals, Immunology and Allergy, articular cartilage, 030212 general & internal medicine, Clinical Research papers, 030203 arthritis & rheumatology, Biomechanical Studies, business.industry, cartilage atrophy, tissue, Histology, joint unloading, musculoskeletal system, medicine.disease, Muscular Disorders, Atrophic, Rats, osteoarthritis, Disease Models, Animal, business, Disuse atrophy

Abstract

Objective The study aim was to evaluate the histological relationship between osteoarthritis (OA) and articular cartilage in disuse atrophy induced by hindlimb unloading in a post-traumatic OA rat model. Design Forty male rats were divided into the 4 following experimental groups: control, hindlimb suspension (HS), OA induced by destabilization of the medial meniscus (OA), and OA induction after hindlimb suspension (HS-OA). Histological changes in the articular cartilage of the tibia were evaluated by the Osteoarthritis Research Society International (OARSI) scores and histomorphometrical analyses at 2, 4, and 8 weeks after OA induction. Results We confirmed that disuse atrophy of the articular cartilage was caused by thinning of the articular cartilage and the decrease in matrix staining for the nonloading period of 4 weeks. The OARSI scores and histomorphological analyses revealed that OA progressed significantly wider and deeper in the HS-OA group than in the OA group over time. In the sham group, disuse atrophy of the articular cartilage recovered at 2 weeks after reloading. Conclusions This study revealed that OA progressed faster in cartilage atrophy than in normal articular cartilage. Further studies are required for investigating the mechanisms of disuse atrophy of cartilage and its association with OA using the biochemical and immunohistochemical analysis.

Published

2020

25. Thickness of the Stifle Joint Articular Cartilage in Different Large Animal Models of Cartilage Repair and Regeneration

Author

Pavan Kumar Kalla, Anne Reuther, Joerg Mika, Tina Ruediger, Rainer Burgkart, Raimund W. Kinne, Victoria Horbert, and Mario Walther

Subjects

Cartilage, Articular, Swine, Biomedical Engineering, Stifle joint, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Biology, cartilage thickness, Immunology and Allergy, Animals, Regeneration, articular cartilage, Horses, Cartilage repair, cartilage regeneration, Clinical Research papers, Sheep, Regeneration (biology), Goats, Anatomy, Cartilage thickness, Stifle, large animal models, Models, Animal, Swine, Miniature, cartilage repair, Cartilage Tissue Evaluations, Large animal

Abstract

Objective Regulatory guidelines for preclinical cartilage repair studies suggest large animal models (e.g., sheep, goat, [mini]-pig, or horse) to obtain results representative for humans. However, information about the 3-dimensional thickness of articular cartilage at different implantation sites in these models is limited. Design To identify the most suitable site for experimental surgery, cartilage thickness at the medial femoral condyle (MFC), lateral femoral condyle (LFC), and trochlea in ovine, caprine, and porcine cadaver stifle joints was systematically measured using hematoxylin-eosin staining of 6 µm paraffin sections and software-based image analysis. Results Regarding all ventral-dorsal regions of the MFC, goat showed the thickest articular cartilage (maximal mean thickness: 1299 µm), followed by sheep (1096 µm) and mini-pig (604 µm), with the highest values in the most ventral and dorsal regions. Also for the LFC, the most ventral regions showed the thickest cartilage in goat (maximal mean thickness: 1118 µm), followed by sheep (678 µm) and mini-pig (607 µm). Except for the mini-pig, however, the cartilage thickness on the LFC was consistently lower than that on the MFC. The 3 species also differed along the transversal measuring points on the MFC and LFC. In contrast, there were no consistent differences for the regional cartilage thickness of the trochlea among goat and sheep (≥780 µm) and mini-pig (≤500 µm). Conclusions Based on their cartilage thickness, experimental defects on goat and sheep MFC may be viable options for preclinical cartilage repair studies, in addition to well-established horse models.

Published

2020

26. Successful Treatment of Femoral Chondral Lesions with a Novel Customized Metal Implant at Midterm Follow-Up

Author

Peter Rockborn, Nicolas Martinez-Carranza, Anders Stålman, David Roberts, and Magnus Högström

Subjects

Cartilage, Articular, medicine.medical_specialty, Younger age, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Osteoarthritis, medicine, Humans, Immunology and Allergy, Prospective Studies, Clinical Research papers, Retrospective Studies, business.industry, Cartilage, Metal implant, Outcome measures, Middle Aged, medicine.disease, Surgery, Clinical trial, Treatment Outcome, medicine.anatomical_structure, Knee Prosthesis, business, Follow-Up Studies

Abstract

Background Full-depth cartilage lesions do not heal spontaneously and may progress to osteoarthritis (OA). Treatment for these lesions is warranted when symptomatic. At younger age, biological treatment remains the gold standard, but treatment in the middle-aged patient remains a clinical challenge and focal metal implants have been proposed. We aim to present the subjective outcome at 2 years and the risk of reoperation for any reason at midterm after surgery with a novel customized implant for focal femoral chondral lesions in the knee. Methods In a prospective cohort study, 30 patients were included between January 2013 and December 2017 at 9 different clinics in Sweden. The primary outcome was subjective outcome measurements (Visual Analogue Scale [VAS], EuroQoL [EQ5D], Knee injury and Osteoarthritis Outcome Score [KOOS]) at a minimum of 2 years. The secondary outcome was reoperations for any reason during the follow-up period until December 2019 (mean of 55 months) studied retrospectively by analyzing medical records. Results The VAS, EQ5D, and all the KOOS subscales showed significant improvements from preoperatively to the 2-year follow-up. The VAS showed the greatest improvement at the early (3 months) postoperative stage ( P < 0.001). Five (7%) patients underwent reoperations and one of these was revised to hemiarthroplasty due to OA progression. No implant loosening was detected in any of the cases. Conclusions This customized resurfacing metal implant showed good safety and patient satisfaction. The risk of OA progression and implant loosening is low. Subjective function and pain improved significantly.

Published

2020

27. SMURF1 and SMURF2 in Progenitor Cells from Articular Cartilage and Meniscus during Late-Stage Osteoarthritis

Author

Andrea Schubert, Nicolai Miosge, Manuel Altherr, Philipp Kauffmann, Boris Schminke, and Thomas Gelis

Subjects

musculoskeletal diseases, Cartilage, Articular, Pathology, medicine.medical_specialty, Ubiquitin-Protein Ligases, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Osteoarthritis, Meniscus (anatomy), 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, medicine, Humans, Immunology and Allergy, Meniscus, Progenitor cell, Clinical Research papers, 030304 developmental biology, 0303 health sciences, business.industry, Stem Cells, Late stage, progenitor cells, musculoskeletal system, medicine.disease, osteoarthritis, SMURF2, medicine.anatomical_structure, SMURF1, 030220 oncology & carcinogenesis, embryonic structures, Immunohistochemistry, business, Chondrogenesis

Abstract

Objective The aim of this study was to investigate the roles of SMURF1 and SMURF2 in progenitor cells from the human knee in late-stage osteoarthritis (OA). Design We applied immunohistochemistry, immunocytochemistry, RNAi, lentiviral transfection, and Western blot analysis. We obtained chondrogenic progenitor cells (CPCs) from the articular cartilage and meniscus progenitor cells (MPCs) from the nonvascularized part of the meniscus. Results SMURF1 and SMURF2 appeared in both osteoarthritic tissues. CPCs and MPCs exhibited comparable amounts of these proteins, which influence the balance between RUNX2 and SOX9. The overexpression of SMURF1 reduced the levels of RUNX2, SOX9, and TGFBR1. The overexpression of SMURF2 also reduced the levels of RUNX2 and TGFBR1, while SOX9 levels were not affected. The knockdown of SMURF1 had no effect on RUNX2, SOX9, or TGFBR1. The knockdown of SMURF2 enhanced RUNX2 and SOX9 levels in CPCs. The respective protein levels in MPCs were not affected. Conclusions This study shows that SMURF1 and SMURF2 are regulatory players for the expression of the major regulator transcription factors RUNX2 and SOX9 in CPCs and MPCs. Our novel findings may help elucidate new treatment strategies for cartilage regeneration.

Published

2020

28. Vitrification of Intact Porcine Femoral Condyle Allografts Using an Optimized Approach

Author

Janet A.W. Elliott, Kezhou Wu, Nadr M. Jomha, and Leila Laouar

Subjects

Cartilage, Articular, tissue banking, Swine, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Bone and Bones, 03 medical and health sciences, 0302 clinical medicine, Cryoprotective Agents, Immunology and Allergy, Medicine, Animals, Vitrification, articular cartilage, Clinical Research papers, 030219 obstetrics & reproductive medicine, business.industry, 0402 animal and dairy science, FEMORAL CONDYLE, 04 agricultural and veterinary sciences, Allografts, 040201 dairy & animal science, Techniques, femoral condyle, osteochondral allografts, business, Tissue Banking, Biomedical engineering

Abstract

Objective Successful preservation of articular cartilage will increase the availability of osteochondral allografts to treat articular cartilage defects. We compared the effects of 2 methods for storing cartilage tissues using 10-mm diameter osteochondral dowels or femoral condyles at −196°C: (a) storage with a surrounding vitrification solution versus (b) storage without a surrounding vitrification solution. We investigated the effects of 2 additives (chondroitin sulfate and ascorbic acid) for vitrification of articular cartilage. Design Healthy porcine stifle joints ( n = 11) from sexually mature pigs were collected from a slaughterhouse within 6 hours after slaughtering. Dimethyl sulfoxide, ethylene glycol, and propylene glycol were permeated into porcine articular cartilage using an optimized 7-hour 3-step cryoprotectant permeation protocol. Chondrocyte viability was assessed by a cell membrane integrity stain and chondrocyte metabolic function was assessed by alamarBlue assay. Femoral condyles after vitrification were assessed by gross morphology for cartilage fractures. Results There were no differences in the chondrocyte viability (~70%) of 10-mm osteochondral dowels after vitrification with or without the surrounding vitrification solution. Chondrocyte viability in porcine femoral condyles was significantly higher after vitrification without the surrounding vitrification solution (~70%) compared to those with the surrounding vitrification solution (8% to 36%). Moreover, articular cartilage fractures were not seen in femoral condyles vitrified without surrounding vitrification solution compared to fractures seen in condyles with surrounding vitrification solution. Conclusions Vitrification of femoral condyle allografts can be achieved by our optimized approach. Removing the surrounding vitrification solution is advantageous for vitrification outcomes of large size osteochondral allografts.

Published

2020

29. Twenty-Two-Year Outcome of Cartilage Repair Surgery by Perichondrium Transplantation

Author

Lodewijk W. van Rhijn, Sjoerd K. Bulstra, Esther G M van der Linden, P.J. Emans, Tim J. M. Welting, Tim A.E.J. Boymans, Maarten P F Janssen, Restoring Organ Function by Means of Regenerative Medicine (REGENERATE), Public Health Research (PHR), MUMC+: MA AIOS Orthopedie (9), MUMC+: MA Orthopedie (9), Orthopedie, RS: CAPHRI - R3 - Functioning, Participating and Rehabilitation, MUMC+: MA Orthopedie (3), and MUMC+: Centrum voor Bewegen (3)

Subjects

medicine.medical_specialty, Patellectomy, STRATEGIES, medicine.medical_treatment, cartilage transplantation, Biomedical Engineering, Patient characteristics, knee, Physical Therapy, Sports Therapy and Rehabilitation, AGE, Cartilage transplantation, medicine, Immunology and Allergy, Perichondrium, articular cartilage, Cartilage repair, Clinical Research papers, RESTORATION, Outcome, business.industry, Cartilage, AUTOLOGOUS CHONDROCYTE IMPLANTATION, DEFECTS, ADULTS, Arthroplasty, Surgery, Transplantation, medicine.anatomical_structure, SURGICAL-MANAGEMENT, cartilage repair, business, FOLLOW-UP, MICROFRACTURE

Abstract

Objective The main purpose of the present study was to assess the risk for major revision surgery after perichondrium transplantation (PT) at a minimum of 22 years postoperatively and to evaluate the influence of patient characteristics. Design Primary outcome was treatment success or failure. Failure of PT was defined as revision surgery in which the transplant was removed, such as (unicondylar) knee arthroplasty or patellectomy. The functioning of nonfailed patients was evaluated using the International Knee Documentation Committee (IKDC) score. In addition, the influence of patient characteristics was evaluated. Results Ninety knees in 88 patients, aged 16 to 55 years with symptomatic cartilage defects, were treated by PT. Eighty knees in 78 patients were eligible for analysis and 10 patients were lost to follow-up. Twenty-eight knees in 26 patients had undergone major revision surgery. Previous surgery and a longer time of symptoms prior to PT were significantly associated with an increased risk for failure of cartilage repair. Functioning of the remaining 52 patients and influence of patient characteristics was analyzed using their IKDC score. Their median IKDC score was 39.08, but a relatively young age at transplantation was associated with a higher IKDC score. Conclusions This 22-year follow-up study of PT, with objective outcome parameters next to patient-reported outcome measurements in a unique group of patients, shows that overall 66% was without major revision surgery and patient characteristics also influence long-term outcome of cartilage repair surgery.

Published

2020

30. Observation of Solute Transport between Articular Cartilage and Subchondral Bone in Live Mice

Author

Fuyou Wang, Guangxin Chen, Xiaoyuan Gong, Zheng Li, Zhexiong Tang, Shidi Cheng, Yang Huang, Cheng Chen, and Liu Yang

Subjects

Cartilage, Articular, 030203 arthritis & rheumatology, 030222 orthopedics, Knee Joint, Staining and Labeling, Chemistry, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Anatomy, Calcified cartilage, Bone and Bones, Mice, 03 medical and health sciences, 0302 clinical medicine, Subchondral bone, Animals, Immunology and Allergy, Female, Femur, Clinical Research papers

Abstract

Objective To establish a method for investigating the permeability of calcified cartilage zone (CCZ) and to observe solute transport between articular cartilage (AC) and subchondral bone (SB) through intact CCZ in vivo. Design We developed a novel fixing device combined with un-decalcified fluorescence observation method to address the permeability of CCZ in live mice. Twenty-four Balb/c female mice aged 1 to 8 months were used to observe the development of CCZ. Eighty-four Balb/c female mice (aged 1 or 6 months) with mature or immature CCZ of distal femur were used to investigate the permeability of intact CCZ in vivo. Diffusivity of rhodamine B (476 Da) and tetramethyl-rhodamine isothicyanate-dextran (TRITC-Dextran, 20 kDa) was tested from AC to SB in 0 minutes, 1 minute, 15 minutes, 30 minutes, 1 hour, and 2 hours. None diffused knee joints (0 minutes) served as blank control, while in vitro immersion of distal femurs in rhodamine B or TRITC-Dextran for 72 hours served as positive control. Results CCZ was well developed in 6-month mice. Both tracers penetrated immature CCZ down to SB in less than 1 hour in live mice, while the diffusion of both tracers decreased rapidly at tidemark in all testing time points. Conclusion Current study provided direct evidence of blocking effect of CCZ in solute transportation during short diffusion period in live animal, indicating the important role of CCZ in joint development and microenvironment maintenance.

Published

2020

31. Pondering the Potential of Hyaline Cartilage–Derived Chondroprogenitors for Tissue Regeneration: A Systematic Review

Author

Roshni Parameswaran, Elizabeth Vinod, Boopalan Ramasamy, and Upasana Kachroo

Subjects

Cartilage, Articular, 0301 basic medicine, Pathology, medicine.medical_specialty, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, 03 medical and health sciences, Chondrocytes, 0302 clinical medicine, medicine, Animals, Immunology and Allergy, Cartilage repair, Clinical Research papers, biology, Hyaline cartilage, Mesenchymal Stem Cells, Chondrogenesis, In vitro, Fibronectin, Hyaline Cartilage, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, biology.protein, Animal studies

Abstract

Objective Chondroprogenitors have recently gained prominence due to promising results seen in in vitro and animal studies as a potential contender in cell-based therapy for cartilage repair. Lack of consensus regarding nomenclature, isolation techniques, and expansion protocols create substantial limitations for translational research, especially given the absence of distinct markers of identification. The objective of this systematic review was to identify and collate information pertaining to hyaline cartilage–derived chondroprogenitors, with regard to their isolation, culture, and outcome measures. Design As per Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines, a web-based search of Scopus and PubMed databases was performed from January 2000 to May 2020, which yielded 509 studies. A total of 65 studies were identified that met the standardized inclusion criteria which comprised of, but was not limited to, progenitors derived from fibronectin adhesion, migrated subpopulation from explant cultures, and single-cell sorting. Result Literature search revealed that progenitors demonstrated inherent chondrogenesis and minimal tendency for hypertrophy. Multiple sources also demonstrated significantly better outcomes that bone marrow–derived mesenchymal stem cells and comparable results to chondrocytes. With regard to progenitor subgroups, collated evidence points to better and consistent outcomes with the use of migratory progenitors when compared to fibronectin adhesion assay–derived progenitors, although a direct comparison between the two cell populations is warranted. Conclusion Since chondroprogenitors exhibit favorable properties for cartilage repair, efficient characterization of progenitors is imperative, to complete their phenotypic profile, so as to optimize their use in translational research for neocartilage formation.

Published

2020

32. A Preliminary Study of Combined Detection of COMP, TIMP-1, and MMP-3 in Synovial Fluid: Potential Indicators of Osteoarthritis Progression

Author

Timea Spakova, Istvan Mitro, Denisa Harvanova, Ján Rosocha, Vladimir Filip, Rastislav Sepitka, Marek Lacko, and Jana Plsikova Matejova

Subjects

musculoskeletal diseases, Pathology, medicine.medical_specialty, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Inflammation, Articular cartilage, Osteoarthritis, Cartilage Oligomeric Matrix Protein, Matrix metalloproteinase, 03 medical and health sciences, 0302 clinical medicine, Synovial Fluid, Humans, Immunology and Allergy, Medicine, Synovial fluid, Clinical Research papers, 030304 developmental biology, 030203 arthritis & rheumatology, 0303 health sciences, Tissue Inhibitor of Metalloproteinase-1, business.industry, Osteoarthritis, Knee, musculoskeletal system, medicine.disease, Biomarker (medicine), Matrix Metalloproteinase 3, medicine.symptom, business, Biomarkers

Abstract

Objective Osteoarthritis (OA) commonly affects weight-bearing joints and is characterized by articular cartilage breakdown combined with osteophyte formation at the joint margins and chronic nonspecific inflammation of synovium. Understanding the profile of inflammation in a patient population is an essential starting point to predict or prevent OA progression. The aim of this study was to identify the profile of selected biomolecules in synovial fluid (SF) and investigate the correlation according to gender, age, and severity of the disease within patients from among the general knee OA population. Design In our study SF samples were aspirated from the knees of 65 OA patients (46 patients with early knee OA and 19 patients with end-stage knee OA according to the Kellgren-Lawrence grading scale). The concentration of interleukins (IL-6, IL-8), matrix metalloproteinases (MMP-1, MMP-3, MMP-13), MMPs inhibitors (TIMP-1, TIMP-2), cartilage oligomeric matrix protein (COMP), and adiponectin was analyzed using a multiplex ELISA-based approach. Conclusions Our results indicate significant linear correlation of MMP-13 and COMP concentration with age ( P < 0.05), but not with OA severity. In fact, 3 of the examined biomolecules, MMP-3 ( P < 0.01), TIMP-1 ( P < 0.01), and COMP ( P < 0.05) significantly correlate with the grade of knee OA and might be associated with OA severity.

Published

2020

33. Autologous Minced Cartilage Implantation for Treatment of Chondral and Osteochondral Lesions in the Knee Joint: An Overview

Author

Ron Gilat, Brian J. Cole, Robert Ossendorff, and Gian M. Salzmann

Subjects

Cartilage, Articular, medicine.medical_specialty, Knee Joint, business.industry, Cartilage, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Transplantation, Autologous, Surgery, Chondrocytes, medicine.anatomical_structure, Humans, Immunology and Allergy, Medicine, Narrative review, business, Cartilage repair, Cartilage Diseases, Clinical Research papers

Abstract

Cartilage defects in the knee are being diagnosed with increased frequency and are treated with a variety of techniques. The aim of any cartilage repair procedure is to generate the highest tissue quality, which might correlate with improved clinical outcomes, return-to-sport, and long-term durability. Minced cartilage implantation (MCI) is a relatively simple and cost-effective technique to transplant autologous cartilage fragments in a single-step procedure. Minced cartilage has a strong biologic potential since autologous, activated non-dedifferentiated chondrocytes are utilized. It can be used both for small and large cartilage lesions, as well as for osteochondral lesions. As it is purely an autologous and homologous approach, it lacks a significant regulatory oversight process and can be clinically adopted without such limitations. The aim of this narrative review is to provide an overview of the current evidence supporting autologous minced cartilage implantation.

Published

2020

34. Costal Chondrocyte–Derived Pellet-Type Autologous Chondrocyte Implantation versus Microfracture for Repair of Articular Cartilage Defects: A Prospective Randomized Trial

Author

Jae Doo Yoo, Chong Hyuk Choi, Jae-Young Park, Jung Sun Lee, Jin Yeon Lee, Kyoung Ho Yoon, and Sang-Gyun Kim

Subjects

Cartilage, Articular, medicine.medical_specialty, Fractures, Stress, education, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Transplantation, Autologous, Chondrocyte, law.invention, 03 medical and health sciences, Chondrocytes, 0302 clinical medicine, Randomized controlled trial, law, medicine, Humans, Immunology and Allergy, Prospective Studies, Autologous chondrocyte implantation, Cartilage repair, Clinical Research papers, 030222 orthopedics, business.industry, 030229 sport sciences, Costal cartilage, Surgery, medicine.anatomical_structure, Quality of Life, business

Abstract

Objective To compare the efficacy and safety of costal chondrocyte–derived pellet-type autologous chondrocyte implantation (CCP-ACI) with microfracture (MFx) for repair of articular cartilage defects of the knee. Design Thirty subjects with an International Cartilage Repair Society (ICRS) grade 3 to 4 chondral defect (2-10 cm2 in area; ≤4 cm3 in volume) were randomized at a ratio of 2:1 (CCP-ACI:MFx). Twenty patients were allocated in the CCP-ACI group and 10 patients in the MFx group. CCP-ACI was performed by harvesting costal cartilage at least 4 weeks before surgery. Implantation was performed without any marrow stimulation. Efficacy and safety were assessed at weeks 8, 24, and 48 after surgery according to the magnetic resonance observation of cartilage repair tissue (MOCART) score and clinical outcomes. Results MOCART scores improved from baseline to 24 and 48 weeks postoperatively in both treatment groups. The improvement in MOCART scores in the CCP-ACI group was significantly greater than that in the MFx group at 24 and 48 weeks (39.1 vs 21.8 and 43.0 vs 24.8, respectively). The proportions of complete defect repair and complete integration were significantly higher in the CCP-ACI group than the MFx group at 48 weeks. Improvement in Lysholm score and KOOS subscores, including Function (Sports and Recreational Activity) and knee-related quality of life was significantly greater in the CCP-ACI group than the MFx group at 48 weeks (35.4 vs 31.5, 35.7 vs 28.5, and 27.9 vs 11.6, respectively). Conclusion Treatment of cartilage defects with CCP-ACI yielded satisfactory cartilage tissue repair outcomes, with good structural integration with native cartilage tissue shown by magnetic resonance imaging at 24 and 48 weeks after surgery. Level of Evidence Level 1: Randomized controlled study.

Published

2020

35. Chondroitinase ABC Enhances Integration of Self-Assembled Articular Cartilage, but Its Dosage Needs to Be Moderated Based on Neocartilage Maturity

Author

Jarrett M. Link, Jerry C. Hu, and Kyriacos A. Athanasiou

Subjects

Cartilage, Articular, media_common.quotation_subject, Medical Biotechnology, Clinical Sciences, 0206 medical engineering, Biomedical Engineering, Chondroitinase ABC, cartilage tissue engineering, integration, Bioengineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, 02 engineering and technology, Chondroitin ABC Lyase, Biology, biomechanics, Cartilage tissue engineering, self-assembled articular cartilage, Self assembled, 03 medical and health sciences, Chondrocytes, Tensile Strength, Immunology and Allergy, Clinical Research papers, 030304 developmental biology, media_common, chondroitinase ABC, 0303 health sciences, Tissue Engineering, 020601 biomedical engineering, Maturity (psychological), Cell biology

Abstract

Objective To enhance the in vitro integration of self-assembled articular cartilage to native articular cartilage using chondroitinase ABC. Design To examine the hypothesis that chondroitinase ABC (C-ABC) integration treatment (C-ABCint) would enhance integration of neocartilage of different maturity levels, this study was conducted in 2 phases. In phase I, the impact on integration of 2 treatments, TCL (TGF-β1, C-ABC, and lysyl oxidase like 2) and C-ABCint, was examined via a 2-factor, full factorial design. In phase II, construct maturity (2 levels) and C-ABCint concentration (3 levels) were the factors in a full factorial design to determine whether the effective C-ABCint dose was dependent on neocartilage maturity level. Neocartilages formed or treated per the factors above were placed into native cartilage rings, cultured for 2 weeks, and, then, integration was studied histologically and mechanically. Prior to integration, in phase II, a set of treated constructs were also assayed to provide a baseline of properties. Results In phase I, C-ABCint and TCL treatments synergistically enhanced interface Young’s modulus by 6.2-fold ( P = 0.004) and increased interface tensile strength by 3.8-fold ( P = 0.02) compared with control. In phase II, the interaction of the factors C-ABCint and construct maturity was significant ( P = 0.0004), indicating that the effective C-ABCint dose to improve interface Young’s modulus is dependent on construct maturity. Construct mechanical properties were preserved regardless of C-ABCint dose. Conclusions Applying C-ABCint to neocartilage is an effective integration strategy with translational potential, provided its dose is calibrated appropriately based on implant maturity, that also preserves implant biomechanical properties.

Published

2020

36. Convincing evidence for magic angle less‐sensitive quantitative T1ρimaging of articular cartilage using the 3D ultrashort echo time cones adiabatic T1ρ (3D UTE cones‐AdiabT1ρ) sequence

Author

Yajun Ma, Saeed Jerban, Hyungseok Jang, Mei Wu, Mingxin Chen, Akhil Kasibhatla, Jiang Du, and Eric Y. Chang

Subjects

Cartilage, Articular, Physics, Magic angle, Full Papers—Imaging Methodology, Diagnostic Tests, Routine, Articular cartilage, Patella, Magnetic Resonance Imaging, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Imaging, Three-Dimensional, 0302 clinical medicine, Nuclear magnetic resonance, Humans, Continuous wave, Radiology, Nuclear Medicine and imaging, Ultrashort echo time, Angular dependence, Adiabatic process, 030217 neurology & neurosurgery

Abstract

PURPOSE: To investigate the magic angle effect in three‐dimensional ultrashort echo time Cones Adiabatic T(1ρ) (3D UTE Cones‐AdiabT(1ρ)) imaging of articular cartilage at 3T. METHODS: The magic angle effect was investigated by repeated 3D UTE Cones‐AdiabT(1ρ) imaging of eight human patellar samples at five angular orientations ranging from 0° to 90° relative to the B(0) field. Cones continuous wave T(1ρ) (Cones‐CW‐T(1ρ)) and Cones‐ [Formula: see text] sequences were also applied for comparison. Cones‐AdiabT(1ρ), Cones‐CW‐T(1ρ) and Cones‐ [Formula: see text] values were measured for four regions of interest (ROIs) (10% superficial layer, 60% transitional layer, 30% radial layer, and a global ROI) for each sample at each orientation to evaluate their angular dependence. RESULTS: 3D UTE Cones‐AdiabT(1ρ) values increased from the radial layer to the superficial layer for all angular orientations. The superficial layer showed the least angular dependence (around 4.4%), while the radial layer showed the strongest angular dependence (around 34.4%). Cones‐AdiabT(1ρ) values showed much reduced magic angle effect compared to Cones‐CW‐T(1ρ) and Cones‐ [Formula: see text] values for all four ROIs. On average over eight patellae, Cones‐AdiabT(1ρ) values increased by 27.2% (4.4% for superficial, 23.8% for transitional, and 34.4% for radial layers), Cones‐CW‐T(1ρ) values increased by 76.9% (11.3% for superficial, 59.1% for transitional, and 117.8% for radial layers), and Cones‐ [Formula: see text] values increased by 237.5% (87.9% for superficial, 262.9% for transitional, and 327.3% for radial layers) near the magic angle. CONCLUSIONS: The 3D UTE Cones‐AdiabT(1ρ) sequence is less sensitive to the magic angle effect in the evaluation of articular cartilage compared to Cones‐ [Formula: see text] and Cones‐CW‐T(1ρ).

Published

2020

37. TNIIIA2, The Peptide of Tenascin-C, as a Candidate for Preventing Articular Cartilage Degeneration

Author

Toshimichi Yoshida, Akihiro Sudo, Hironori Unno, Takahiro Iino, Masahiro Hasegawa, Tetsuya Hattori, and Fumio Fukai

Subjects

Cartilage, Articular, Pathology, medicine.medical_specialty, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Peptide, Articular cartilage, Degeneration (medical), Osteoarthritis, Platelet membrane glycoprotein, Mice, Synovitis, medicine, Animals, Immunology and Allergy, Clinical Research papers, chemistry.chemical_classification, biology, Tenascin C, Tenascin, medicine.disease, Extracellular Matrix, chemistry, biology.protein, Peptides, Cartilage Diseases

Abstract

Objective TNIIIA2 is a peptide of the extracellular matrix glycoprotein tenascin-C. We evaluated whether intra-articular injection of TNIIIA2 could prevent articular cartilage degeneration without inducing synovitis in an osteoarthritis mice model. Design Ten micrograms per milliliter of TNIIIA2 were injected into the knee joint of mice (group II) to evaluate the induction of synovitis. The control group received an injection of phosphate buffered saline (group I). Synovitis was evaluated using synovitis score 2 and 4 weeks after injection. The ligaments of knee joints of mice were transected to make the osteoarthritis model. After transection, 10 µg/mL of TNIIIA2 was injected into the knee joint (group IV). The control group received an injection of phosphate buffered saline after transection (group III). Histologic examinations were made using hematoxylin and eosin and safranin-O staining at 2, 4, 8, and 12 weeks postoperatively. An in vitro study was also performed to determine the mechanism by which TNIIIA2 prevents cartilage degeneration. Human chondrocytes were isolated, cultured, and treated with TNIIIA2. The expressions of various mRNAs, including inflammatory cytokines, and anabolic and catabolic factors for cartilage were compared using real-time polymerase chain reaction. Results There were no differences between groups in the study of intra-articular injection of mice (group I vs. group II). In the osteoarthritis model, we found development of osteoarthritis was suppressed in group IV at 4 and 8 weeks. TNIIIA2 upregulated the expressions of tumor necrosis factor-α, matrix metalloproteinase 3, and basic fibroblast growth factor. Conclusion We demonstrated that TNIIIA2 could prevent cartilage degeneration without synovitis.

Published

2020

38. Innate Immunity and Synovitis: Key Players in Osteoarthritis Progression.

Author

Panichi, Veronica, Costantini, Silvia, Grasso, Merimma, Arciola, Carla Renata, and Dolzani, Paolo

Subjects

ARTICULAR cartilage, JOINT diseases, NATURAL immunity, DISEASE progression, SYNOVITIS

Abstract

Osteoarthritis (OA) is a chronic progressive disease of the joint. Although representing the most frequent cause of disability in the elderly, OA remains partly obscure in its pathogenic mechanisms and is still the orphan of resolutive therapies. The concept of what was once considered a "wear and tear" of articular cartilage is now that of an inflammation-related disease that affects over time the whole joint. The attention is increasingly focused on the synovium. Even from the earliest clinical stages, synovial inflammation (or synovitis) is a crucial factor involved in OA progression and a major player in pain onset. The release of inflammatory molecules in the synovium mediates disease progression and worsening of clinical features. The activation of synovial tissue-resident cells recalls innate immunity cells from the bloodstream, creating a proinflammatory milieu that fuels and maintains a damaging condition of low-grade inflammation in the joint. In such a context, cellular and molecular inflammatory behaviors in the synovium could be the primum movens of the structural and functional alterations of the whole joint. This paper focuses on and discusses the involvement of innate immunity cells in synovitis and their role in the progression of OA. [ABSTRACT FROM AUTHOR]

Published

2024

39. Effect of Mild Conditions on PVA-Based Theta Gel Preparation: Thermal and Rheological Characterization.

Author

Pepi, Simone, Talarico, Luigi, Leone, Gemma, Bonechi, Claudia, Consumi, Marco, Boldrini, Amedeo, Lauro, Alessia, Magnani, Agnese, and Rossi, Claudio

Subjects

MECHANICAL behavior of materials, MODULUS of rigidity, ARTICULAR cartilage, CARTILAGE diseases, THERMAL properties

Abstract

Polyvinyl alcohol (PVA), possessing a strong ability to form hydrogels, has been widely used for various pharmaceutical and biomedical applications. In particular, the use of PVA-PEG in the form of theta gels for altered cartilage treatment has attracted an enormous amount of attention in the last 20 years. In this paper, we prepared 42 PVA-PEG in the form of theta gels at room temperature in an aqueous environment, testing the crystallization occurrence at basic pH (10 or 12). Using a statistical approach, the effect of PEG molecular weight, PVA molecular weight and alkaline pH values on water content and mechanical performance was evaluated. The used procedure permitted the theta gels to maintain swelling properties comparable to those of human cartilage, from 60% to 85%, with both polymers having the same influence. PEG MW mainly affected the hydrophilic properties, whereas the thermal properties were mostly influenced by the PVA. The shear and compression mechanical behavior of the produced materials were affected by both the polymers' MWs. The sample obtained using PVA 125 kDa with PEG 20 kDa as a porogen appeared to be the most suitable one for cartilage disease treatment, as it had an equilibrium shear modulus in the range of 50–250 kPa, close to that of native articular cartilage, as well as optimal mechanical response under compression along the entire analyzed frequency range with a mean value of 0.12 MPa and a coefficient of friction (COF) which remained under 0.10 for all the tested sliding speeds (mm/s). [ABSTRACT FROM AUTHOR]

Published

2024

40. Antioxidant hydrogels for the treatment of osteoarthritis: mechanisms and recent advances.

Author

He, Feng, Wu, Hongwei, He, Bin, Han, Zun, Chen, Jiayi, and Huang, Lei

Subjects

BIOMATERIALS, BIOLOGICAL systems, REACTIVE oxygen species, ARTICULAR cartilage, OXIDATIVE stress, CARTILAGE regeneration

Abstract

Articular cartilage has limited self-healing ability, resulting in injuries often evolving into osteoarthritis (OA), which poses a significant challenge in the medical field. Although some treatments exist to reduce pain and damage, there is a lack of effective means to promote cartilage regeneration. Reactive Oxygen Species (ROS) have been found to increase significantly in the OA micro-environment. They play a key role in biological systems by participating in cell signaling and maintaining cellular homeostasis. Abnormal ROS expression, caused by internal and external stimuli and tissue damage, leads to elevated levels of oxidative stress, inflammatory responses, cell damage, and impaired tissue repair. To prevent excessive ROS accumulation at injury sites, biological materials can be engineered to respond to the damaged microenvironment, release active components in an orderly manner, regulate ROS levels, reduce oxidative stress, and promote tissue regeneration. Hydrogels have garnered significant attention due to their excellent biocompatibility, tunable physicochemical properties, and drug delivery capabilities. Numerous antioxidant hydrogels have been developed and proven effective in alleviating oxidative stress. This paper discusses a comprehensive treatment strategy that combines antioxidant hydrogels with existing treatments for OA and explores the potential applications of antioxidant hydrogels in cartilage tissue engineering. [ABSTRACT FROM AUTHOR]

Published

2024

41. Comprehensive classification and its value of capitellar cartilage injury concomitant with radial head fracture.

Author

Bao, Huanxiang, Zou, Guoyou, Cao, Zhengchun, Li, Haifeng, and Shen, Xiaofei

Subjects

RADIAL head & neck fractures, RADIUS fractures, ARTICULAR cartilage, VISUAL analog scale, SPECIALTY hospitals

Abstract

Background: There are defects in the existing classification of capitellar cartilage injury (CCI) concomitant with radial head fracture (RHF). This study aimed to introduce a comprehensive classification of CCI and to analyze its surgical guidance value. Methods: According to the affected site and severity, CCI was classified into four types: Type I - partial-thickness loss of articular cartilage, Type II - full-thickness loss of articular cartilage, Type III - full-thickness loss of articular cartilage with subchondral bone loss, Type IV - full-thickness loss of articular cartilage with thin cortex loss on the border of the capitellum; Different types suggest different surgical methods. Between January 2017 and January 2023, this comprehensive CCI classification was applied in 31 operated patients with CCI concomitant with RHF. The ranges of motion (ROM), Mayo Elbow Performance Index (MEPI) score, Hospital for Special Surgery (HSS) score and visual analog scale (VAS) for pain, were used to evaluate the functional recovery of the affected limb. Results: Mason Type I-IV RHF accounted for 6.45%, 38.71%, 48.39%, and 6.45%, respectively. Type I-IV CCI accounted for 12.90%, 35.48%, 45.16% and 6.45%, respectively. There was no relationship between the CCI and RHF types (p > 0.05). At the end of the follow-up period of 11–26 months with an average of 16 months, the elbow flexion and extension ROM recovered to (147.39 ± 9.84)°, forearm rotation ROM recovered to (168.74 ± 11.70)°, MEPI score recovered to (89.19 ± 4.17), HSS score recovered to (88.74 ± 4.62), VAS score recovered to (0.50 ± 0.57), indicating significant differences compared to preoperative measurements (p < 0.05). According to the MEPI and HSS scores, the excellent and good rate of functional recovery was 100%. Conclusion: Different types of CCI differ not only in pathology but also in treatment methods. Surgical strategy according to the comprehensive CCI classification introduced in this paper may lead to a satisfactory outcome. [ABSTRACT FROM AUTHOR]

Published

2024

42. Progenitor Cells in Healthy and Osteoarthritic Human Cartilage Have Extensive Culture Expansion Capacity while Retaining Chondrogenic Properties

Author

Rikkers, M, Korpershoek, J V, Levato, R, Malda, J, Vonk, L A, Equine Musculoskeletal Biology, dES RMSC, Afd methoden en statistieken, Equine Musculoskeletal Biology, dES RMSC, and Afd methoden en statistieken

Subjects

Cartilage, Articular, progenitor cell, Physical Therapy, 0206 medical engineering, Cell, Biomedical Engineering, Endogeny, Physical Therapy, Sports Therapy and Rehabilitation, 02 engineering and technology, Osteoarthritis, Sports Therapy and Rehabilitation, Biology, 03 medical and health sciences, Chondrocytes, Culture expansion, endogenous, medicine, Immunology and Allergy, Humans, articular cartilage, Progenitor cell, Cartilage repair, Collagen Type II, Clinical Research papers, 030304 developmental biology, 0303 health sciences, Human cartilage, Stem Cells, medicine.disease, Chondrogenesis, 020601 biomedical engineering, Cell biology, osteoarthritis, medicine.anatomical_structure, cartilage repair

Abstract

Objective Articular cartilage-derived progenitor cells (ACPCs) are a potential new cell source for cartilage repair. This study aims to characterize endogenous ACPCs from healthy and osteoarthritic (OA) cartilage, evaluate their potential for cartilage regeneration, and compare this to cartilage formation by chondrocytes. Design ACPCs were isolated from full-thickness healthy and OA human cartilage and separated from the total cell population by clonal growth after differential adhesion to fibronectin. ACPCs were characterized by growth kinetics, multilineage differentiation, and surface marker expression. Chondrogenic redifferentiation of ACPCs was compared with chondrocytes in pellet cultures. Pellets were assessed for cartilage-like matrix production by (immuno)histochemistry, quantitative analyses for glycosaminoglycans and DNA content, and expression of chondrogenic and hypertrophic genes. Results Healthy and OA ACPCs were successfully differentiated toward the adipogenic and chondrogenic lineage, but failed to produce calcified matrix when exposed to osteogenic induction media. Both ACPC populations met the criteria for cell surface marker expression of mesenchymal stromal cells (MSCs). Healthy ACPCs cultured in pellets deposited extracellular matrix containing proteoglycans and type II collagen, devoid of type I collagen. Gene expression of hypertrophic marker type X collagen was lower in healthy ACPC pellets compared with OA pellets. Conclusions This study provides further insight into the ACPC population in healthy and OA human articular cartilage. ACPCs show similarities to MSCs, yet do not produce calcified matrix under well-established osteogenic culture conditions. Due to extensive proliferative potential and chondrogenic capacity, ACPCs show potential for cartilage regeneration and possibly for clinical application, as a promising alternative to MSCs or chondrocytes.

Published

2021

43. Articular Cartilage Fragmentation Improves Chondrocyte Migration by Upregulating Membrane Type 1 Matrix Metalloprotease

Author

Jiabin Peng, Quanhui Liu, Yunliang Lei, Ying Liao, Zhu Dai, Jian Li, and Yonghui Jiang

Subjects

musculoskeletal diseases, Cartilage, Articular, Chemistry, Cartilage, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Matrix metalloproteinase, Organ culture, Chondrocyte, In vitro, Cell biology, medicine.anatomical_structure, Membrane, Chondrocytes, Organ Culture Techniques, Cell Movement, medicine, Matrix Metalloproteinase 14, Immunology and Allergy, Animals, Rabbits, Fragmentation (cell biology), Clinical Research papers

Abstract

Objective This study was undertaken to elucidate the mechanism of improved chondrocyte migration after juvenile articular cartilage fragmentation. Design In vitro organ culture with rabbit cartilage fragments and cell culture with rabbit chondrocytes were performed. In part A, minced juvenile cartilage fragments (~0.5 × 0.5 × 0.5 mm) from rabbits, planted in gelatin sponge and fibrin glue, were cultured for 2, 4, or 6 weeks in vitro and compared with the cartilage chunks (~4 × 4 × 1 mm) and membrane type 1 matrix metalloprotease (MT1-MMP) inhibitor groups. Chondrocyte outgrowth was evaluated on histology and confocal laser scanning microscopy. MT1-MMP expression was compared between the cartilage fragment group and the cartilage chunks group. In part B, articular chondrocytes were harvested from juvenile rabbits, MT1-MMP was transfected into the cells, and cell migration was evaluated using the Transwell and wound healing tests. Results The histology and confocal microscopy results revealed that cell accumulation occurred at the edge of cartilage fragments, and outgrowth was better in the cartilage fragment group than those in the cartilage chunks group. Similar results were observed for MT1-MMP expression. After MT1-MMP inhibition, cells did not accumulate at the edge of the cartilage fragments, and chondrocyte outgrowth did not occur. Furthermore, overexpression of MT1-MMP enhanced the migration of articular chondrocytes. Conclusions Juvenile articular cartilage fragmentation improved chondrocyte migration by upregulating MT1-MMP.

Published

2021

44. Novel Use of Intraarticular Granulocyte Colony Stimulating Factor (hG-CSF) Combined with Activated Autologous Peripheral Blood Stem Cells Mobilized with Systemic hG-CSF: Safe and Efficient in Early Osteoarthritis

Author

Mantana Paisan, Thana Turajane, Konstantinos I Papadopoulos, and Warachaya Sutheesophon

Subjects

Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Endogeny, Osteoarthritis, Peripheral Blood Stem Cells, Transplantation, Autologous, Injections, Intra-Articular, Tissue engineering, Granulocyte Colony-Stimulating Factor, Immunology and Allergy, Medicine, Humans, Clinical Research papers, Aged, Peripheral Blood Stem Cell Transplantation, business.industry, Chondrogenesis, medicine.disease, Granulocyte colony-stimulating factor, Treatment Outcome, Immunology, business, Early osteoarthritis

Abstract

Osteoarthritis (OA) tends to occur in older individuals frequently burdened with comorbidities and diverse pharmacological interactions. As articular cartilage has low regenerative power, potent local tissue engineering approaches are needed to support chondrogenic differentiation. Acellular preparation methods as well as approaches to coax endogenous reparative cells into the joint space appear to have limited success. Supported by our in-vitro and clinical studies, we propose that our novel intra-articular administration of human granulocyte colony stimulating factor (IA-hG-CSF) combined with autologous activated peripheral blood stem cells (AAPBSC) is safe and offers treatment advantages not seen with other cellular interventions in early osteoarthritis.

Published

2021

45. Migrating Progenitor Cells Derived From Injured Cartilage Surface Respond to Damage-Associated Molecular Patterns

Author

Quanming Wang, Joseph A. Buckwalter, Hongjun Zheng, Haiyan Song, Cheng Zhou, Lei Ding, and James A. Martin

Subjects

Cartilage, Articular, Chemistry, Stem Cells, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Inflammation, Chondrogenesis, Proinflammatory cytokine, Cell biology, Cartilage surface, Chondrocytes, Osteoarthritis, medicine, Immunology and Allergy, Animals, Cattle, Progenitor cell, medicine.symptom, Cartilage degeneration, Clinical Research papers

Abstract

ObjectiveTo delineate the response of migrating chondrogenic progenitor cells (CPCs) that arose from the surface of mechanically injured articular cartilage to proinflammatory damage-associated-molecular-patterns (DAMPs).DesignBovine CPCs and non-CPC chondrocytes isolated from either impacted or scratched articular cartilage were studied. Those 2 types of cells were treated with mitochondrial DAMPs (MTDs; 10 nM fMLF and 10 µg/mL CpG DNA), or 10 nM HMGB1, or 10 ng/mL IL-1b for 24 hours. At the end of experiments, conditioned media and cell lysates were collected for analysis of expression levels of matrix metalloproteinases (MMPs), chemokines, and cytokines that are associated with cartilage degeneration with Western blotting and quantitative polymerase chain reaction. The difference of expression levels was compared by Welch’s t-test.ResultsOur data indicated that HMGB1 and MTDs remarkably upregulated pro-MMP-13 expression in CPCs. Compared with non-CPCs, CPCs expressed significantly more baseline mRNAs of MMP-13, CXCL12, and IL-6. MTDs greatly increased the expression of MMP-13 and IL-6 in CPCs by over 100-fold ( P < 0.001). MTDs also significantly increased IL-8 expression in CPCs to a similar extent ( P < 0.001). However, when IL-1b was present, CPCs expressed less MMP-3 and active MMP-13 proteins as well as less CCL2 and IL-6 than did non-CPCs.ConclusionsWe concluded that CPCs were more sensitive than non-CPCs in response to DAMPs, especially MTDs. The proinflammatory nature of CPCs implied their critical role in the early phase of posttraumatic osteoarthritis development.

Published

2021

46. The Influence of a Single Intra-Articular Lidocaine Injection on the Viability of Articular Cartilage in the Knee

Author

Tomaž Marš, Matej Drobnič, Andraž Stožer, Klemen Ravnihar, Armin Alibegović, Gordana Koželj, and Sergej Pirkmajer

Subjects

Cartilage, Articular, Local anaesthetic, Lidocaine, business.industry, Local anesthetic, medicine.drug_class, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Injections, Intra-Articular, Intra articular, Tandem Mass Spectrometry, In vivo, Anesthesia, Humans, Immunology and Allergy, Medicine, business, Clinical Research papers, Chromatography, Liquid, medicine.drug

Abstract

Objective To evaluate the in vivo effect of a single intra-articular injection of local anesthetic (LA) lidocaine on the viability of articular cartilage in the intact or osteoarthritic (OA) human knees, and to measure the synovial postinjection concentration of lidocaine in the knee Design This study includes 3 interconnected experiments: (A) Synovial LA concentration measurement after a 2% lidocaine injection before knee arthroscopy in 10 patients by liquid chromatography–tandem mass spectrometry (LC-MS/MS). (B) Human osteochondral explants ( N = 27) from intact knees procured at autopsies were incubated for different time intervals (30 minutes, 2 hours, 24 hours) with 2% lidocaine, 0.04% lidocaine (measured), or culture medium (control), and later evaluated for cell viability by LIVE/DEAD staining. (C) Ten out of 19 matched patients scheduled for knee replacement received a single intra-articular injection of 2% lidocaine approximately 30 minutes prior to the procedure; 9 patients served as control. Osteochondral samples with OA changes were harvested during surgery and analyzed for chondrocyte viability by LIVE/DEAD staining. Results (A) The synovial LA concentration was significantly lower than the primary concentration injected: average 0.23 mg/mL (0.02%), highest measured 0.37 mg/mL (0.04%). (B) In vitro exposure to a reduced LA concentration had no significant influence on chondrocyte viability in intact cartilage explants (24-hour averages: control, 93%; 0.04% lidocaine, 92%; 2% lidocaine, 79%). (C) Viability of chondrocytes in OA knees was similar between 2% lidocaine injection (85%) and control (80%). Conclusions A single intra-articular knee injection of 2% lidocaine did not influence the chondrocyte viability neither in healthy nor in OA cartilage. A fast postinjection reduction of synovial LA concentration (more than 40 times) is the most likely protective mechanism.

Published

2020

47. Mussel Adhesive Protein as a Promising Alternative to Fibrin for Scaffold Fixation during Cartilage Repair Surgery

Author

Malin Prenkert, Mikael Ivarsson, Nenad Andjelkov, Annam Cheema, and Per Wretenberg

Subjects

Scaffold, medicine.medical_specialty, Swine, 030310 physiology, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Fibrin Tissue Adhesive, Fibrin, 03 medical and health sciences, Fixation (surgical), medicine, Animals, Immunology and Allergy, Cartilage repair, Clinical Research papers, Standard material, 0303 health sciences, Tissue Engineering, biology, Chemistry, 030302 biochemistry & molecular biology, Proteins, Surgery, biology.protein, Collagen, Adhesive

Abstract

Objective Fibrin has been used as a standard material for scaffold fixation during cartilage repair surgery. Most of the commercially available fibrin preparations need an additional method for scaffold fixation, most often with sutures, thus damaging the surrounding healthy cartilage. There is therefore a need to find alternatives to this method. In our study, we have investigated the potential possibility to use mussel adhesive protein as such an alternative. Methods In this study, hydrophobic plastic was coated with the mussel adhesive protein Mefp-1 as well as with other cell adhesives (poly-lysine, fibronectin, and collagen). Human keratinocytes and chondrocytes were seeded on these substrates at 37°C in culture medium, followed by analysis of attachment and proliferation by crystal violet staining and metabolic labelling. Performance of Mefp-1 and fibrin as tissue glues were estimated by tensional force resistance measurement of moist porcine dermis (as a correlate to scaffold) glued to dermis, cartilage, or bone at 37°C. Results Mefp-1 supported maximal cell attachment at a coating density of approximately 1 µg/cm2. This was at least as good as the other adhesives tested. In addition, it supported cell proliferation at least as good as regular tissue culture plastic over a 7-day period. Measurement of tensional force resistance showed that Mefp-1 performed equally well as fibrin when porcine dermis was glued to cartilage and bone at the same concentration. Separation of the moist tissues after 15-minute incubation required a force of approximately 1 N/cm2 for both compounds. Conclusions Mefp-1 show properties that qualify it as a compound that potentially could replace fibrin as a tissue glue for scaffold fixation. Given the possibilities to modify this protein by bioengineering, it is likely that the properties can be further improved.

Published

2019

48. Optimization of Protocol for Isolation of Chondrocytes from Human Articular Cartilage

Author

Muhammad Zulfadli Mehat, Paisal Hussin, Suleiman Alhaji Muhammad, Sharida Fakurazi, Norshariza Nordin, and Sheau Wei Tan

Subjects

Cartilage, Articular, 0301 basic medicine, Tissue Engineering, Isolation (health care), Human cartilage, Cartilage, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Biology, Chondrocyte, Cell biology, 03 medical and health sciences, Chondrocytes, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Tissue engineering, 030220 oncology & carcinogenesis, medicine, Humans, Immunology and Allergy, Aggrecans, Collagenases, Clinical Research papers

Abstract

Objective Cartilage tissue engineering has evolved as one of the therapeutic strategies for cartilage defect, which relies on a large number of viable chondrocytes. Because of limited availability of cartilage and low chondrocytes yield from cartilage, the need for an improve isolation protocol for maximum yield of viable cells is a key to achieving successful clinical constructs. This study optimizes and compares different protocols for isolation of chondrocytes from cartilage. Design We employed enzymatic digestion of cartilage using collagenase II and trypsin. The chondrocytes yield, growth kinetics, aggrecan, and collagen type 2 (COL2) expression were evaluated. Collagen type 1 (COL1) mRNA expression was assessed to monitor the possibility of chondrocytes dedifferentiation. Results Chondrocyte yield per gram of cartilage was significantly higher ( P < 0.05) using collagenase II in Hank’s balanced salt solution (HBSS) compared with 0.25% trypsin. The number of chondrocyte yield per gram was higher in cartilage digested with collagenase in HBSS compared with Dulbecco’s modified Eagle medium/F12; however, the difference was not statistically significant. Chondrocytes seeded at lower densities had shorter population doubling time compared to those seeded at higher density. Protein and gene expression of chondrocyte phenotype indicates the expression of aggrecan and COL2. The expression of COL1 was significantly increased ( P < 0.05) in passage 3 compared with primary chondrocytes. The mRNA expression of chondrocyte phenotype was similar in primary and passaged one cells. Conclusions Collagenase in HBSS yield the highest number of viable chondrocytes and the isolated cells expressed chondrocyte phenotype. This protocol can be employed to generate large number of viable chondrocytes, particularly with limited cartilage biopsies.

Published

2019

49. Maintenance and Acceleration of Pericellular Matrix Formation within 3D Cartilage Cell Culture Models

Author

Ying Yang, H A Owida, and Nicola L Kuiper

Subjects

Cartilage, Articular, 0301 basic medicine, Acceleration, Cell Culture Techniques, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Collagen Type VI, 02 engineering and technology, Matrix (biology), Chondrocyte, 03 medical and health sciences, medicine, Immunology and Allergy, Clinical Research papers, Chemistry, Cartilage, Mesenchymal stem cell, 021001 nanoscience & nanotechnology, Extracellular Matrix, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Cell culture, Type VI collagen, 0210 nano-technology

Abstract

Objective In native articular cartilage, chondrocytes are surrounded by a thin pericellular matrix (PCM) forming chondrons. The PCM is exclusively rich in type VI collagen. The retention of the PCM has a significant influence on the metabolic activity of the chondrocytes. Design This study investigated the influence of 2 hydrogels (hyaluronic acid [HA] and agarose) and 2 media compositions (basal and chondrogenic) on the preservation/maintenance and acceleration of PCM formation over a 21-day time course. Different combinations of chondrocytes, chondrons, and mesenchymal stem cells (MSCs) were studied. Results Both hydrogels preserved chondrons PCM from day 1 up to 21-day culture regardless of media composition. Type VI collagen immunostaining of the cultured chondrons appeared both dense and homogenous. The presence of MSCs did not influence this outcome. At day 1, type VI collagen was not present around chondrocytes alone or their co-culture with MSCs. In the HA hydrogel, type VI collagen was located within the PCM after 7 days in both mono- and co-cultures. In the agarose hydrogel, collagen VI was located within the PCM at 7 days (co-cultures) and 14 days (monocultures). In both hydrogel systems, chondrogenic media enhanced the production of key extracellular matrix components in both mono- and co-cultures in comparison to basal media (11.5% and 14% more in glycosaminoglycans and type II collagen for chondrocytes samples at day 21 culture samples, respectively). However, the media types did not enhance type VI collagen synthesis. Conclusion Altogether, a 3D chondrogenic hydrogel environment is the primary condition for maintenance and acceleration of PCM formation.

Published

2019

50. A New Method for Cartilage Evaluation in Femoroacetabular Impingement Using Quantitative T2 Magnetic Resonance Imaging: Preliminary Validation against Arthroscopic Findings

Author

José G. Raya, James S. Babb, Thomas Youm, Daniel K. Sodickson, Noam Ben-Eliezer, and Riccardo Lattanzi

Subjects

Cartilage, Articular, T2 mapping, Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, 030218 nuclear medicine & medical imaging, Arthroscopy, 03 medical and health sciences, 0302 clinical medicine, Femoracetabular Impingement, Humans, Immunology and Allergy, Medicine, Clinical Research papers, Femoroacetabular impingement, Retrospective Studies, Hip cartilage, 030203 arthritis & rheumatology, medicine.diagnostic_test, business.industry, Cartilage, Magnetic resonance imaging, medicine.disease, Magnetic Resonance Imaging, medicine.anatomical_structure, business, Nuclear medicine

Abstract

Objective The outcome of arthroscopic treatment for femoroacetabular impingement (FAI) depends on the preoperative status of the hip cartilage. Quantitative T2 can detect early biochemical cartilage changes, but its routine implementation is challenging. Furthermore, intrinsic T2 variability between patients makes it difficult to define a threshold to identify cartilage lesions. To address this, we propose a normalized T2-index as a new method to evaluate cartilage in FAI. Design We retrospectively analyzed magnetic resonance imaging (MRI) data of 18 FAI patients with arthroscopically confirmed cartilage defects. Cartilage T2 maps were reconstructed from multi-spin-echo 3-T data using the echo-modulation-curve (EMC) model-based technique. The central femoral cartilage, assumed healthy in early-stage FAI, was used as the normalization reference to define a T2-index. We investigated the ability of the T2-index to detect surgically confirmed cartilage lesions. Results The average T2-index was 1.14 ± 0.1 and 1.13 ± 0.1 for 2 separated segmentations. Using T2-index >1 as the threshold for damaged cartilage, accuracy was 88% and 100% for the 2 segmentations. We found moderate intraobserver repeatability, although separate segmentations yielded comparable accuracy. Damaged cartilage could not be identified using nonnormalized average T2 values. Conclusions This preliminary study confirms the importance of normalizing T2 values to account for interpatient variability and suggests that the T2-index is a promising biomarker for the detection of cartilage lesions in FAI. Future work is needed to confirm that combining T2-index with morphologic MRI and other quantitative biomarkers could improve cartilage assessment in FAI.

Published

2019