Your search keyword '"Knee mri"' showing total 393 results

1. Unveiling Insights: AlexNet-Driven MRI Analysis for Precision Diagnosis of Knee Disorders

Author

Durga, K. B. K. S., Shanmuga Sundari, M., Akshaya, K., Shresta, M., Tejaswini, U., Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Bansal, Jagdish Chand, editor, Borah, Samarjeet, editor, Hussain, Shahid, editor, and Salhi, Said, editor

Published

2025

2. Forensic age estimation by MRI of the knee – comparison of two classifications for ossification stages in a German population.

Author

Malokaj, V, MF, Wernsing, SN, Kunz, Beer, M, and Daniel, Vogele

Subjects

*KNEE joint, *AGE differences, *AGE groups, *AGE, *IONIZING radiation

Abstract

Aim and objectives: In forensic age estimation e.g. for judicial proceedings surpassed age thresholds can be legally relevant. To examine age related differences in skeletal development the recommendations by the Study Group on Forensic Age Diagnostics (AGFAD) are based on ionizing radiation (among others orthopantomograms, plain x-rays of the hand). Vieth et al. and Ottow et al. proposed MRI-classifications for the epiphyseal-diaphyseal fusion of the knee joint to define different age groups in healthy volunteers. The aim of the present study was to directly compare these two classifications in a large German patient population. Materials and methods: MRI of the knee joint of 900 patients (405 female, 495 male) from 10 to 28 years of age were retrospectively analyzed. Acquired T1-weighted turbo spin-echo sequence (TSE) and T2-weighted sequence with fat suppression by turbo inversion recovery magnitude (TIRM) were analyzed for the two classifications. The different bony fusion stages of the two classifications were determined and the corresponding chronological ages assigned. Differences between the sexes were analyzed. Intra- and inter-observer agreements were determined using Cohen's kappa. Results: With the classification of Ottow et al. it was possible to determine completion of the 18th and 21st year of life in both sexes. With the classification of Vieth et al. completion of the 18th year of life for female patients and the 14th and 21st year of life in both sexes could be determined. The intra- and inter-observer agreement levels were very good (κ > 0.82). Conclusion: In the large German patient cohort of this study it was possible to determine the 18th year of life with for both sexes with the classification of Ottow et al. and for female patients with the classification of Vieth et al. It was also possible to determine the 21st year of life for all bones with the classification of Ottow et al. and for the distal femur with the classification of Vieth et al. [ABSTRACT FROM AUTHOR]

Published

2024

3. SYMPTOMATIC LATERAL DISCOID MENISCUS IN CHILDREN: A SYSTEMATIC LITERATURE REVIEW AND RETROSPECTIVE STUDY OF 32 CASES.

Author

Megremis, Panos K. and Megremis, Orestis P.

Subjects

*MAGNETIC resonance imaging, *SHEARING force, *LIGAMENTS, *KNEE, *COLLAGEN, *MENISCUS injuries

Abstract

A disk-shaped meniscus is a commonly known alternative to the C-shaped meniscus, which is defined by a larger-than-normal meniscus body. However, the enlarged meniscus has a severe disadvantage, which is the increase in shearing forces exerted on it, which can lead to a tear in its body. The Wrisberg form of discoid lateral meniscus is a rare abnormality. The absence of the posterior meniscotibial ligament results in an excessive range of movement and instability of the meniscus, with only its meniscofemoral ligament (Wrisberg's ligament) remaining intact and attached to the posterior horn of the meniscus. Additionally, a Wrisberg variant can exhibit a significant disorder in its microstructure due to an abnormal collagen network, mucosal disintegration, and a lack of vascularity. This study includes 32 skeletally immature patients who came to our institution with symptomatic discoid lateral meniscus. The initial evaluation of every knee included magnetic resonance imaging (MRI), followed by arthroscopy. MRI enables the classification of discoid meniscus based on meniscal morphology, stability or instability, meniscal intrasubstance degradation, and the occurrence of meniscal rupture. The discoid meniscus was reshaped, excising the hypertrophied central portion of the meniscus. The International Knee Documentation Committee (IKDC) system, which is an online system for the evaluation of knee function, was utilized. Twenty-four discoid menisci were assessed as being stable and having a tear in their body. Eight discoid menisci were determined to be unstable (Wrisberg variant) with degeneration within their substance but no meniscus tear. At surgery, the mean age of the patients was 11.81+/−2.62 years (range 5–14 years). The average follow-up was 3.71+/−0.92 years (range, 3–6). The mean preoperative IKDC score was 44.71+/−14.42 (range, 21–57) points. Postoperatively, the mean IKDC score was 81.56+/−1.70 (range, 79–84) points. The two-tailed p -value was < 0.0001. The assumption that MRI assessment is essential not only for detecting the Wrisberg alternate but also for uncovering possible meniscal disintegration and intra-substance alterations that are not usually observed through arthroscopy is supported by our data. [ABSTRACT FROM AUTHOR]

Published

2024

4. Evaluation of the Finding of Knee Trauma in Patients Referred to the Emergency Department

Author

Seyed Hosein Montazer, Mohammad Sazgar, Fatemeh Jahanian, Salman Ghaffari, Ali Sanatkar, and Hamed Aminiahidashti

Subjects

knee trauma, outcome, invasive procedure, emergency department, knee mri, Medicine, Medicine (General), R5-920

Abstract

Background and purpose: Trauma to the knee is one of the most common injuries in people, especially young people, and delay in the diagnosis of knee fractures and soft tissue injuries in the knee causes limitation of movement, instability, and constant knee pain. In this research can show the correlation between the initial symptoms of the patients and the need for further procedures. To be able to identify traumatic knee injuries that are not clear in the simple knee radiography and to evaluate the findings of the patients for further procedure. Materials and methods: This research is an observational study in which all patients who presented with knee trauma during the course of the study were included in the study. All the information of these patients in a form including age, age group and sex, admission and discharge information such as visit date, discharge date, duration of hospitalization, mechanism of trauma, underlying disease, knee pain, limitation of range of motion, hemarthrosis, associate injury, skin abrasion, Inability to walk, history of knee trauma, radiography findings, knee CT findings, MRI findings, arthroscopy findings, Lysholm and Tegner knee score, probable diagnosis in the emergency room, type of treatment the emergency room, duration of hospitalization in the emergency room, discharge from the emergency room, in The hospitalization form of the performed procedures, the time of hospitalization in the ward and the definitive diagnosis were collected, and then 4 weeks after discharge, they were followed up by phone call with referral to the orthopedic clinic, and other diagnostic and therapeutic measures were reviewed in these patients. The information was provided by the project manager without interfering in the patient care process. Quantitative data were expressed as mean and standard deviation and qualitative data were expressed as frequency and percentage. Independent student t-tests were used to evaluate quantitative variables in two groups, and the Chi-Square test and Fisher's exact test were used to evaluate qualitative variables. Results: During the study period, 177 people were studied. The average age of the patients was 24.21±13.08, of which 138 (76.7%) were men. Most of the injury was caused by traffic accidents. The initial diagnosis in the emergency department had a significant relationship with the definite diagnosis. A statistically significant relationship was seen between MRI findings with knee movement limitation and non-weight bearing. There was a statistically significant relationship between the existence of definitive injury in the knee, limitation of knee movement, lacerations and scratches on the knee, and non-weight bearing. The mechanism of knee injury and laceration, the inability to weight bearing, and the positive findings of X-ray and MRI in the patients who underwent invasive procedures were significantly different from those who received conservative treatment. Conclusion: Injury mechanisms in patients and clinical symptoms such as knee range of motion limitation and non-weigh bearing and abrasion or laceration of the skin on the knee, despite the lack of findings in the initial investigations in the emergency department, is a high chance of injury to the knee joint and they need further evaluation and follow-up.

Published

2024

5. بررسی یافته‌های ترومای زانو در بیماران مراجعه‌کننده به بخش اورژانس.

Author

سید حسین منتظر, محمد سازگار, فاطمه جهانیان, سلمان غفاری, علی صنعت کار, and حامد امینی آهی د&#1588

Abstract

Background and purpose: Trauma to the knee is one of the most common injuries in people, especially young people, and delay in the diagnosis of knee fractures and soft tissue injuries in the knee causes limitation of movement, instability, and constant knee pain. In this research can show the correlation between the initial symptoms of the patients and the need for further procedures. To be able to identify traumatic knee injuries that are not clear in the simple knee radiography and to evaluate the findings of the patients for further procedure. Materials and methods: This research is an observational study in which all patients who presented with knee trauma during the course of the study were included in the study. All the information of these patients in a form including age, age group and sex, admission and discharge information such as visit date, discharge date, duration of hospitalization, mechanism of trauma, underlying disease, knee pain, limitation of range of motion, hemarthrosis, associate injury, skin abrasion, Inability to walk, history of knee trauma, radiography findings, knee CT findings, MRI findings, arthroscopy findings, Lysholm and Tegner knee score, probable diagnosis in the emergency room, type of treatment the emergency room, duration of hospitalization in the emergency room, discharge from the emergency room, in The hospitalization form of the performed procedures, the time of hospitalization in the ward and the definitive diagnosis were collected, and then 4 weeks after discharge, they were followed up by phone call with referral to the orthopedic clinic, and other diagnostic and therapeutic measures were reviewed in these patients. The information was provided by the project manager without interfering in the patient care process. Quantitative data were expressed as mean and standard deviation and qualitative data were expressed as frequency and percentage. Independent student t-tests were used to evaluate quantitative variables in two groups, and the Chi-Square test and Fisher's exact test were used to evaluate qualitative variables. Results: During the study period, 177 people were studied. The average age of the patients was 24.21±13.08, of which 138 (76.7%) were men. Most of the injury was caused by traffic accidents. The initial diagnosis in the emergency department had a significant relationship with the definite diagnosis. A statistically significant relationship was seen between MRI findings with knee movement limitation and non-weight bearing. There was a statistically significant relationship between the existence of definitive injury in the knee, limitation of knee movement, lacerations and scratches on the knee, and non-weight bearing. The mechanism of knee injury and laceration, the inability to weight bearing, and the positive findings of X-ray and MRI in the patients who underwent invasive procedures were significantly different from those who received conservative treatment. Conclusion: Injury mechanisms in patients and clinical symptoms such as knee range of motion limitation and non-weigh bearing and abrasion or laceration of the skin on the knee, despite the lack of findings in the initial investigations in the emergency department, is a high chance of injury to the knee joint and they need further evaluation and follow-up. [ABSTRACT FROM AUTHOR]

Published

2024

6. Influence of leg axis alignment on MRI T2* mapping of the knee in young professional soccer players

Author

Dalos, D., Marshall, P. R., Lissy, M., Maas, K. J., Henes, F. O., Kaul, M. G., Kleinertz, H., Frings, J., Krause, M., Frosch, K. H., and Welsch, G. H.

Published

2024

7. Evaluation of the Presence of Additional Knee Pathology on Magnetic Resonance Imaging in Patients with Chondromalacia Patella.

Author

Kaya, Ömer, Dilek, Okan, Özesen, Duygu Özgül, and Bıçakçı, Yunus Kenan

Subjects

MAGNETIC resonance imaging, PATELLA, KNEE injuries, ANTERIOR cruciate ligament, PATELLAR tendon, CRUCIATE ligaments, KNEE pain

Abstract

Objective: Chondromalacia patella (CP) describes the softening of the patellar cartilage, and magnetic resonance imaging (MRI) is more useful in diagnosis than other imaging methods. The aim of study is to determine the frequency of other knee MRI fndings and their relationship with chondromalacia stages in patients evaluated for reasons other than trauma and found to have patellar chondromalacia. Methods: This retrospective study included patients who underwent knee MRI examination in the radiology departments of Cukurova University Faculty of Medicine and Health Sciences University Adana Faculty of Medicine for reasons other than trauma between January 2016 and January 2022. Magnetic resonance imaging was used to evaluate the presence and stage of CP, and the outerbridge system was used for staging. As additional fndings, the presence of osteoarthritis, cruciate ligament, meniscus, collateral ligament, and patellar tendon pathologies were evaluated. Results: A total of 278 patients, 168 women and 110 men, with an average age of 59.4 ± 9.8 years, were included in our study. Forty-six patients had stage 1, 64 had stage 2, 66 had stage 3, and 102 had stage 4 CP. A statistically signifcant correlation was found between increasing chondromalacia stage and the presence and stage of osteoarthritis (P < .001), the incidence of anterior cruciate ligament pathology (P < .001), the incidence of tears of the medial meniscus (anterior horn P < .002, posterior horn P < .039), and advanced age (P < .001). Conclusion: It has been determined that there is a relationship between the stage of CP and some additional knee pathologies and advanced age. [ABSTRACT FROM AUTHOR]

Published

2024

8. Automated Landmark Annotation for Morphometric Analysis of Distal Femur and Proximal Tibia.

Author

Grammens, Jonas, Van Haver, Annemieke, Lumban-Gaol, Imelda, Danckaers, Femke, Verdonk, Peter, and Sijbers, Jan

Subjects

FEMUR, TIBIA, INTRACLASS correlation, ANNOTATIONS, ELASTIC deformation

Abstract

Manual anatomical landmarking for morphometric knee bone characterization in orthopedics is highly time-consuming and shows high operator variability. Therefore, automation could be a substantial improvement for diagnostics and personalized treatments relying on landmark-based methods. Applications include implant sizing and planning, meniscal allograft sizing, and morphological risk factor assessment. For twenty MRI-based 3D bone and cartilage models, anatomical landmarks were manually applied by three experts, and morphometric measurements for 3D characterization of the distal femur and proximal tibia were calculated from all observations. One expert performed the landmark annotations three times. Intra- and inter-observer variations were assessed for landmark position and measurements. The mean of the three expert annotations served as the ground truth. Next, automated landmark annotation was performed by elastic deformation of a template shape, followed by landmark optimization at extreme positions (highest/lowest/most medial/lateral point). The results of our automated annotation method were compared with ground truth, and percentages of landmarks and measurements adhering to different tolerances were calculated. Reliability was evaluated by the intraclass correlation coefficient (ICC). For the manual annotations, the inter-observer absolute difference was 1.53 ± 1.22 mm (mean ± SD) for the landmark positions and 0.56 ± 0.55 mm (mean ± SD) for the morphometric measurements. Automated versus manual landmark extraction differed by an average of 2.05 mm. The automated measurements demonstrated an absolute difference of 0.78 ± 0.60 mm (mean ± SD) from their manual counterparts. Overall, 92% of the automated landmarks were within 4 mm of the expert mean position, and 95% of all morphometric measurements were within 2 mm of the expert mean measurements. The ICC (manual versus automated) for automated morphometric measurements was between 0.926 and 1. Manual annotations required on average 18 min of operator interaction time, while automated annotations only needed 7 min of operator-independent computing time. Considering the time consumption and variability among observers, there is a clear need for a more efficient, standardized, and operator-independent algorithm. Our automated method demonstrated excellent accuracy and reliability for landmark positioning and morphometric measurements. Above all, this automated method will lead to a faster, scalable, and operator-independent morphometric analysis of the knee. [ABSTRACT FROM AUTHOR]

Published

2024

9. Magnetic Resonance Imaging Findings of Suprapatellar Fat Pad Impingement Syndrome: A Retrospective Study

Author

Bahadır BALKANLI, Aydan ARSLAN, Ozan ÖZIŞIK, Hacı Mustafa ÖZDEMİR, and Özlem BARUTÇU

Subjects

suprapatellar fat pad impingement syndrome, knee mri, knee pain, quadriceps fat pad, Medicine (General), R5-920

Abstract

Objective: Peripatellar fat pads are extrasynovial intracapsular fat tissues. Suprapatellar, perifemoral, and infrapatellar (Hoffa fat pad) fat pads are included in the peripatellar fat pad. This study aimed to describe the magnetic resonance imaging (MRI) signs of suprapatellar fat pad impingement syndrome, describe their prevalence and pattern, and look into the relationship between their MRI and clinical signs. Methods: Two radiologists retrospectively analyzed 5,700 patients’ knee MRI data between December 2010 and December 2015. We documented the MRI findings that were associated with suprapatellar fad pad impingement syndrome. The correlations between age, osteoarthritis, chondromalacia, and the patellofemoral joint were evaluated using Pearson’s correlations. Results: In our study group, the prevalence of suprapatellar fat pad impingement was 5.3%. Of the patients 52% were men and 48% were women. Patients who were admitted to the clinic complained of non-specific pain in 80.3% of patients. Twenty-seven patients (8.9%) presented with isolated suprapatellar impingement syndrome; 185 (60.9%) showed an increase in intra-articular fluid; 4 (1.3%) had synovitis findings; 17 (5.6%) had medial collateral ligament tears; 107 (35.2%) had quadriceps femoris tendinitis; 8 (2.6%) had patellar tendinitis; 80 (26.3%) had a medial meniscus tear; 23 (7.6%) had Baker’s cyst; and 30 (9.9%) had soft-tissue edema. Medial meniscus degeneration was observed in 51 (16.8%) patients, Hoffa edema was observed in 31 (10.2%) patients, and anterior cruciate ligament tears in 3 (1%) patients. There were positive correlations between age and osteoarthritis (r=0.4660, p

Published

2024

10. Magnetic Resonance Imaging Findings of Suprapatellar Fat Pad Impingement Syndrome: A Retrospective Study.

Author

BALKANLI, Bahadır, ARSLAN, Aydan, ÖZIŞIK, Ozan, ÖZDEMİR, Hacı Mustafa, and BARUTÇU, Özlem

Subjects

KNEE pain, IMPINGEMENT syndromes, MAGNETIC resonance imaging, ANTERIOR cruciate ligament injuries, POPLITEAL cyst, PEARSON correlation (Statistics)

Abstract

Copyright of Bezmialem Science is the property of Galenos Yayinevi Tic. LTD. STI and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

11. Wrisberg variant of the lateral discoid meniscus in children: review of the literature and presentation of case series.

Author

Megremis, Panos and Megremis, Orestis

Subjects

*MENISCUS injuries, *MAGNETIC resonance imaging, *KNEE, *LIGAMENTS

Abstract

Introduction: The Wrisberg variant of the discoid lateral meniscus is a very rare disorder and is characterized by the hypermobility and instability of the meniscus caused by the absence of its posterior tibial attachment, with only its meniscofemoral junction (Wrisberg's ligament) maintained, and inserted in the posterior horn of the meniscus. As a result, the posterior horn of the lateral meniscus is mobile; often subluxing into the joint. Materials and methods: A total of eight skeletally immature patients with symptomatic Wrisberg variant of the discoid lateral meniscus were included in this study. Each knee was evaluated with MRI and arthroscopy. We graded unstable discoid menisci according to their discoid morphology (complete vs. incomplete), meniscal intra-substance degeneration, and the presence or absence of meniscal tears. All eight menisci were evaluated as degenerated with no meniscal tears. Five of them were evaluated as complete. Due to the severely degenerated meniscus, we considered it unnecessary to repair the detached posterior tibial ligament, so we performed a reshaping of the discoid meniscus, restoring a C-shape, excising the hypertrophied central part of the meniscus, and creating a posterior horn with a remaining rim of 6–8 mm. For evaluation of the knee function preoperatively and postoperatively we used the online International Knee Documentation Committee (IKDC) system. The purpose of this study is to emphasize the importance of MRI in identifying and revealing the unstable (Wrisberg variant) type of discoid meniscus in children. Results: The mean patient age at the time of surgery was 8.25 ± 2.91 years (range 5–13 years). The average follow-up was 3.75 ± 0.46 years (range 3–4) years. The mean preoperative IKDC score was 22.37 ± 1.50 (range 21–25) points. The mean postoperative IKDC score was 80.50 ± 1.77 (range 79–84) points. Conclusions: MRI is a valuable tool in the evaluation of the shape, stability, and consistency of symptomatic discoid menisci. It is helpful for the detection of the unstable Wrisberg variant. [ABSTRACT FROM AUTHOR]

Published

2023

12. Magnetic Resonance Imaging

Author

Subramanian, Manickam, Chin, Michael S. M., Peh, Wilfred C. G., Davies, Mark, editor, James, Steven, editor, and Botchu, Rajesh, editor

Published

2023

13. Automated Landmark Annotation for Morphometric Analysis of Distal Femur and Proximal Tibia

Author

Jonas Grammens, Annemieke Van Haver, Imelda Lumban-Gaol, Femke Danckaers, Peter Verdonk, and Jan Sijbers

Subjects

morphometrics, 3D landmark analysis, knee MRI, orthopedics, Photography, TR1-1050, Computer applications to medicine. Medical informatics, R858-859.7, Electronic computers. Computer science, QA75.5-76.95

Abstract

Manual anatomical landmarking for morphometric knee bone characterization in orthopedics is highly time-consuming and shows high operator variability. Therefore, automation could be a substantial improvement for diagnostics and personalized treatments relying on landmark-based methods. Applications include implant sizing and planning, meniscal allograft sizing, and morphological risk factor assessment. For twenty MRI-based 3D bone and cartilage models, anatomical landmarks were manually applied by three experts, and morphometric measurements for 3D characterization of the distal femur and proximal tibia were calculated from all observations. One expert performed the landmark annotations three times. Intra- and inter-observer variations were assessed for landmark position and measurements. The mean of the three expert annotations served as the ground truth. Next, automated landmark annotation was performed by elastic deformation of a template shape, followed by landmark optimization at extreme positions (highest/lowest/most medial/lateral point). The results of our automated annotation method were compared with ground truth, and percentages of landmarks and measurements adhering to different tolerances were calculated. Reliability was evaluated by the intraclass correlation coefficient (ICC). For the manual annotations, the inter-observer absolute difference was 1.53 ± 1.22 mm (mean ± SD) for the landmark positions and 0.56 ± 0.55 mm (mean ± SD) for the morphometric measurements. Automated versus manual landmark extraction differed by an average of 2.05 mm. The automated measurements demonstrated an absolute difference of 0.78 ± 0.60 mm (mean ± SD) from their manual counterparts. Overall, 92% of the automated landmarks were within 4 mm of the expert mean position, and 95% of all morphometric measurements were within 2 mm of the expert mean measurements. The ICC (manual versus automated) for automated morphometric measurements was between 0.926 and 1. Manual annotations required on average 18 min of operator interaction time, while automated annotations only needed 7 min of operator-independent computing time. Considering the time consumption and variability among observers, there is a clear need for a more efficient, standardized, and operator-independent algorithm. Our automated method demonstrated excellent accuracy and reliability for landmark positioning and morphometric measurements. Above all, this automated method will lead to a faster, scalable, and operator-independent morphometric analysis of the knee.

Published

2024

14. Diagnosing Knee Injuries from MRI with Transformer Based Deep Learning

Author

Sezen, Gökay, Öksüz, İlkay, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Rekik, Islem, editor, Adeli, Ehsan, editor, Park, Sang Hyun, editor, and Cintas, Celia, editor

Published

2022

15. Miscellaneous Conditions (by Skeletal Area)

Author

Eisenberg, Ronald L. and Eisenberg, Ronald L., Series Editor

Published

2022

16. Multi‐planar 3D knee MRI segmentation via UNet inspired architectures.

Author

Sengar, Sandeep Singh, Meulengracht, Christopher, Boesen, Mikael Ploug, Overgaard, Anders Føhrby, Gudbergsen, Henrik, Nybing, Janus Damm, Perslev, Mathias, and Dam, Erik Bjørnager

Subjects

*MAGNETIC resonance imaging, *IMAGE segmentation, *DIAGNOSTIC imaging, *DEEP learning, *KNEE

Abstract

The UNet has become the golden standard method for the segmentation of 2D medical images that any new method must be validated against. In recent years, a number of variations to the seminal UNet have been proposed with promising results in the papers introducing them. However, there is no clear consensus if any of these architectures generalize as well and the UNet currently remains the methodological golden standard. For the segmentation of 3D scans, UNet‐inspired methods are also dominant, but there is a larger variety across applications. By evaluating the architectures in a different dimensionality, embedded in a different method, and for a different task, we aimed to evaluate if any of these UNet alternatives are promising as a new golden standard that generalizes even better than the UNet. The purpose of this study was to compare UNet inspired models for generalized 3D segmentation. To efficiently segment the 3D scans, we employed each UNet variant architecture as the central 2D segmentation core in the multi‐planar UNet 3D segmentation method that previously demonstrated excellent generalization in the MICCAI Segmentation Decathlon. It would strongly support a claim of generalizability, if a promising UNet‐variant consistently outperforms the UNet in this quite different setting. The experimental results show that the multi‐planar‐based UNet2+ (MPUNet2+) method outperforms other variants including the original multi‐planar UNet (MPUNet). [ABSTRACT FROM AUTHOR]

Published

2023

17. The value of magnetic resonance imaging in the preoperative diagnosis of tibial plateau fractures: a systematic literature review.

Author

Thürig, Gregoire, Korthaus, Alexander, Frosch, Karl-Heinz, and Krause, Matthias

Subjects

KNEE radiography, PREOPERATIVE care, ONLINE information services, MEDICAL databases, MENISCUS (Anatomy), SYSTEMATIC reviews, MEDIAL collateral ligament (Knee), ANTERIOR cruciate ligament, MAGNETIC resonance imaging, TIBIAL plateau fractures, EPIDEMIOLOGY, ACQUISITION of data, SPRAINS, POSTERIOR cruciate ligament, COMPARATIVE studies, MEDICAL records, COLLATERAL ligament, RESEARCH funding, WOUNDS & injuries, MEDLINE, SOFT tissue injuries

Abstract

Purpose: The outcome of a tibial plateau fracture (TPF) depends on the fracture reduction achieved and the extent of soft-tissue lesions, including lesions in the ligaments, cartilage, and menisci. Sub-optimal treatment can result in poor knee function and osteoarthritis. Preoperative planning is primarily based on conventional X-ray and computed tomography (CT), which are unsuitable for diagnosing soft-tissue lesions. Magnetic resonance imaging (MRI) is not routinely performed. To date, no literature exists that clearly states the indications for preoperative MRI. This systematic review aimed to determine the frequency of soft-tissue lesions in TPFs, the association between fracture type and soft-tissue lesions, and the types of cases for which MRI is indicated. Methods: A systematic review of the literature was based on articles located in PubMed/MEDLINE and the Cochrane Central Register of Controlled Trials (CENTRAL), supplemented by searching the included articles' reference lists and the ePublication lists of leading orthopedic and trauma journals. Results: A total of 1138 studies were retrieved. Of these, 18 met the eligibility criteria and included a total of 877 patients. The proportion of total soft-tissue lesions was 93.0%. The proportions of soft-tissue lesions were as follows: medial collateral ligament 20.7%, lateral collateral ligament 22.9%, anterior cruciate ligament 36.8%, posterior cruciate ligament 14.8%, lateral meniscus 48.9%, and medial meniscus 24.5%. A weak association was found between increasing frequency of LCL and ACL lesions and an increase in fracture type according to Schatzker's classification. No standard algorithm for MRI scans of TPFs was found. Conclusion: At least one ligament or meniscal lesion is present in 93.0% of TPF cases. More studies with higher levels of evidence are needed to find out in which particular cases MRI adds value. However, MRI is recommended, at least in young patients and cases of high-energy trauma. [ABSTRACT FROM AUTHOR]

Published

2023

18. A method framework of cruciate ligaments segmentation and reconstruction from MRI images.

Author

Humayun, Ahsan, Liu, Bin, Rehman, Mustafain, Zou, Zhipeng, and Xu, Luning

Subjects

*POSTERIOR cruciate ligament, *CRUCIATE ligaments, *ANTERIOR cruciate ligament, *STANDARD deviations, *ANTERIOR cruciate ligament surgery

Abstract

Segmenting anterior and posterior cruciate ligaments (ACL/PCL) presents challenges in medical imaging due to diverse characteristics, including size, shape, and intensity. Our study uses superpixel-based spectral clustering for knee cruciate ligament segmentation in 2D DICOM slices, renowned for generating high-quality clusters. The proposed method addresses the challenges by (i) identifying the ligamentous region (ROI) through superpixel-based computation, (ii) extracting features (intensity-based, shape-based, geometric complexity, and Scale-Invariant Feature Transform) from the ROI, and (iii) segmenting knee ligament tissues using spectral clustering on the extracted features. Superpixel-based spectral clustering addresses the challenge of constructing a dense similarity matrix and significantly reduces the computational burden. Furthermore, 3D visualization of ligament structures is performed using the Visualization Toolkit (VTK). We evaluated our proposed approach on a dataset of knee MRI slices, assessing the results via the dice score, average surface distance (ASD), and root mean squared error (RMSE) metrics. Our method achieved an average dice score of 0.912 for ACL segmentation and 0.896 for PCL segmentation, outperforming other clustering methods. These scores showed an enhancement of 10.7% and 14.9% in segmentation accuracy for the ACL and PCL, respectively. Furthermore, reduced error margins were demonstrated with the mean ASD values of 1.60 and 1.78 and the mean RMSE values of 1.76 and 1.86 for ACL and PCL, respectively. These results show the effectiveness of the proposed method for cruciate ligament segmentation and its potential for increasing the segmentation accuracy and speed, offering significant advantages over manual segmentation by reducing time and expertise. [ABSTRACT FROM AUTHOR]

Published

2025

19. Automatic View Planning in Magnetic Resonance Imaging

Author

Danilevich, Aleksey B., Rychagov, Michael N., Sirotenko, Mikhail Y., Celebi, Emre, Series Editor, Chen, Jingdong, Series Editor, Gopi, E. S., Series Editor, Neustein, Amy, Series Editor, Poor, H. Vincent, Series Editor, Rychagov, Michael N., editor, Tolstaya, Ekaterina V., editor, and Sirotenko, Mikhail Y., editor

Published

2021

20. Accelerating Knee MRI: 3D Modulated Flip-Angle Technique in Refocused Imaging with an Extended Echo Train and Compressed Sensing

Author

Sui H, Li J, Liu L, Lv Z, Zhang Y, Dai Y, and Mo Z

Subjects

knee mri, compressed sensing, 3d variable-flip-angle fast spin echo, Medicine (General), R5-920

Abstract

He Sui,1,&ast; Jin Li,2,3,&ast; Lin Liu,1 Zhongwen Lv,1 Yunfei Zhang,4 Yongming Dai,4 Zhanhao Mo1 1China-Japan Union Hospital of Jilin University, Changchun, People’s Republic of China; 2Jilin Province People’s Hospital, Changchun, People’s Republic of China; 3The Department of Trauma Surgery, Shanghai Oriental Hospital, Shanghai, People’s Republic of China; 4Central Research Institute, United Imaging Healthcare, Shanghai, 201800, People’s Republic of China&ast;These authors contributed equally to this workCorrespondence: Zhanhao Mo, China-Japan Union Hospital of Jilin University, No. 126 Xiantai Street, Erdao District, Changchun, People’s Republic of China, Email mozhanhao@jlu.edu.cnPurpose: The three-dimensional (3D) sequence of magnetic resonance imaging (MRI) plays a critical role in the imaging of musculoskeletal joints; however, its long acquisition time limits its clinical application. In such conditions, compressed sensing (CS) is introduced to accelerate MRI in clinical practice. We aimed to investigate the feasibility of an isotropic 3D variable-flip-angle fast spin echo (FSE) sequence with CS technique (CS-MATRIX) compared to conventional 2D sequences in knee imaging.Methods: Images from different sequences of both the accelerated CS-MATRIX and the corresponding conventional acquisitions were prospectively analyzed and compared. The signal-to-noise ratio (SNR) and contrast-to-noise ratio (CNR) of the structures within the knees were measured for quantitative analysis. The subjective image quality and diagnostic agreement were compared between CS-MATRIX and conventional 2D sequences. Quantitative and subjective image quality scores were statistically analyzed with the paired t-test and Wilcoxon signed-rank test, respectively. Diagnostic agreements of knee substructure were assessed using Cohen’s weighted kappa statistic.Results: For quantitative analysis, images from the CS-MATRIX sequence showed a significantly higher SNR than T2-fs 2D sequences for visualizing cartilage, menisci, and ligaments, as well as a higher SNR than proton density (pd) 2D sequences for visualizing menisci and ligaments. There was no significant difference between CS-MATRIX and 2D T2-fs sequences in subjective image quality assessment. The diagnostic agreement was rated as moderate to very good between CS-MATRIX and 2D sequences.Conclusion: This study demonstrates the feasibility and clinical potential of the CS-MATRIX sequence technique for detecting knee lesions The CS-MATRIX sequence allows for faster knee imaging than conventional 2D sequences, yielding similar image quality to 2D sequences.Keywords: knee MRI, compressed sensing, 3D variable-flip-angle fast spin echo

Published

2022

21. Comparative Analysis of Backbone Networks for Deep Knee MRI Classification Models.

Author

Shakhovska, Nataliya and Pukach, Pavlo

Subjects

KNEE, ANTERIOR cruciate ligament, ANATOMICAL planes, RECEIVER operating characteristic curves, ANTERIOR cruciate ligament injuries, SPINE, MAGNETIC resonance imaging

Abstract

This paper focuses on different types of backbone networks for machine learning architectures which perform classification of knee Magnetic Resonance Imaging (MRI) images. This paper aims to compare different types of feature extraction networks for the same classification task, in terms of accuracy and performance. Multiple variations of machine learning models were trained based on the MRNet architecture, choosing AlexNet, ResNet, VGG-11, VGG-16, and Efficientnet as the backbone. The models were evaluated on the MRNet validation dataset, computing Area Under the Receiver Operating Characteristics Curve (ROC-AUC), accuracy, f1 score, and Cohen's Kappa as evaluation metrics. The MRNet-VGG16 model variant shows the best results for Anterior Cruciate Ligament (ACL) tear detection. For general abnormality detection, MRNet-VGG16 is dominated by MRNet-Resnet in confidence between 0.5 and 0.75 and by MRNet-VGG11 for confidence more than 0.8. Due to the non-uniform nature of backbone network performance on different MRI planes, it is advisable to use an LR ensemble of: VGG16 on a coronal plane for all classification tasks; on an axial plane for abnormality and ACL tear detection; Alexnet on a sagittal plane for abnormality detection, and an axial plane for meniscal tear detection; and VGG11 on a sagittal plane for ACL tear detection. The results also indicate that the Cohen's Kappa metric is valuable in model evaluation for the MRNet dataset, as it provides deeper insights on classification decisions. [ABSTRACT FROM AUTHOR]

Published

2022

22. Inferring pediatric knee skeletal maturity from MRI using deep learning.

Author

Zech, John R., Carotenuto, Giuseppe, and Jaramillo, Diego

Abstract

Purpose: Many children who undergo MR of the knee to evaluate traumatic injury may not undergo a separate dedicated evaluation of their skeletal maturity, and we wished to investigate how accurately skeletal maturity could be automatically inferred from knee MRI using deep learning to offer this additional information to clinicians.Materials and Methods: Retrospective data from 894 studies from 783 patients were obtained (mean age 13.1 years, 47% female). Coronal and sagittal sequences that were T1/PD-weighted were included and resized to 224 × 224 pixels. Data were divided into train (n = 673), tune (n = 48), and test (n = 173) sets, and children were separated across sets. The chronologic age was predicted using deep learning approaches based on a long short-term memory (LSTM) model, which took as input DenseNet-121-extracted features from all T1/PD coronal and sagittal slices. Each test case was manually assigned a bone age by two radiology residents using a reference atlas provided by Pennock and Bomar. The patient's age served as ground truth.Results: The error of the model's predictions for chronological age was not significantly different from that of radiology residents (model M.S.E. 1.30 vs. resident 0.99, paired t-test = 1.47, p = 0.14). Pearson correlation between model and resident prediction of chronologic age was 0.96 (p < 0.001).Conclusion: A deep learning-based approach demonstrated ability to infer skeletal maturity from knee MR sequences that was not significantly different from resident performance and did so in less than 2% of the time required by a human expert. This may offer a method for automatically evaluating lower extremity skeletal maturity automatically as part of every MR examination. [ABSTRACT FROM AUTHOR]

Published

2022

23. Comparison between ultrasonography and MRI in diagnosis of knee joint meniscal injuries

Author

Ibrahem Elsayed Abdellatif Abuomira, Yasser Abdelaal Ahmed, and Mohamed Taha Abd Elghafar Elshahat

Subjects

knee mri, knee ultrasound, meniscal tear, Internal medicine, RC31-1245

Abstract

Background and Aim Meniscal tears are one of the most frequent disorders affecting the knee joint in athletes and normal people. MRI the first choice of imaging of knee joint but in recent days, ultrasound (US) has made strides in imaging of musculoskeletal disorders due to improvement of imaging qualities. This study aimed to investigate the role of US in diagnosis of meniscus tears as compared to MRI. Patients and Methods A total of 100 patients examined by high definition US and under go to MRI examination of the knee joint. Results Regarding the diagnostic performance of US compared to MRI, the sensitivity reached (89.1%), specificity (∼72.2%), positive predictive value (∼90.1%), negative predictive value (70.1%), and accuracy (84.7%). Conclusion Ultrasonography may be used as a screening tool before arthroscopy in selected cases where MRI was a contraindication or is not available or if the patient was not affording. Ultrasonography showed a dynamic image of the meniscus and thus may prove useful if studied in conjunction with correct clinical examination.

Published

2021

24. The accuracy of routine knee MR imaging in detection of acute neurovascular injury following multiligamentous knee injury.

Author

Atinga, Angela, Pearce, Dawn H., Whelan, Daniel B., Naraghi, Ali, and White, Lawrence M.

Subjects

*KNEE injuries, *NEUROVASCULAR diseases, *MAGNETIC resonance imaging, *PERONEAL nerve, *POPLITEAL artery, *KNEE dislocation

Abstract

Objective: To assess the accuracy of routine knee MRI in detecting acute popliteal artery and/or common peroneal nerve (CPN) dysfunction following multiligamentous knee injury (MLKI), with correlation of MRI findings to clinical outcome. Materials and methods: Routine MRI knee examinations in 115 MLKI patients (54/115 with acute neurovascular injury, 61/115 without neurovascular injury) were retrospectively reviewed. Cases were classified by injury mechanism and ligamentous injuries sustained. MRI examinations were reviewed by two readers for vascular (arterial flow void, arterial calibre, intimal flap, perivascular hematoma) and CPN (intraneural T2-hyperintensity, calibre, discontinuity, perineural hematoma) injuries. Accuracy of routine knee MRI in the diagnosis of acute neurovascular injury and correlation of MRI findings to clinical outcome were evaluated. Results: Patients included 86/115 males, mean age 33 years. The accuracy of MRI in diagnosis of acute CPN injury was 80.6%, 83.6% (readers 1 and 2): sensitivity (78%, 79.7%), specificity (80%, 86.7%), PPV (78%, 82.5%), and NPV (82.7%, 84.4%). Increased intraneural T2 signal showed a significant correlation to acute CPN dysfunction (p < 0.05). MRI was 75%, 69.8% (readers 1 and 2) accurate in detecting acute vascular injury: sensitivity (73.3%, 86.7%), specificity (75.2%, 67.3%), PPV (30.5%, 36.1%), and NPV (95%, 97.1%). No MRI features of vascular injury showed a statistical correlation with clinical outcome. Neurovascular complications were more common in ultra-low-energy injuries and KD-V3L pattern of ligament disruption. Conclusion: Routine MRI is of limited accuracy in assessing vascular complication, but higher accuracy in assessing CPN injury following MLKI. Increased intraneural T2 signal on conventional knee MR imaging shows statistically significant association with clinically documented acute CPN dysfunction following MLKI. [ABSTRACT FROM AUTHOR]

Published

2022

25. Ultrasound-guided intra-articular injection of expanded umbilical cord mesenchymal stem cells in knee osteoarthritis: a safety/efficacy study with MRI data.

Author

Samara, Osama, Jafar, Hanan, Hamdan, Mohammad, Al-Ta'mari, Ahmad, Rahmeh, Reem, Hourani, Bayan, Mandalawi, Noor, and Awidi, Abdalla

Abstract

Aim: This study has the primary objective of studying the effect of Wharton jelly mesenchymal stem cells (WJMSCs) in the treatment of knee osteoarthritis. As a secondary end point, we report on the efficacy of such therapy. Patients and methods: 16 patients with advanced Kellgren stage were treated using two doses of expanded WJMSCs given 1 month apart. Patients were followed for 48 months using the Knee Injury and Osteoarthritis Outcome Score (KOOS) and 12 months using magnetic resonance imaging (MRI). Results: Treatment was well tolerated. One patient developed moderate effusion and one superficial phlebitis. We observed functional and pain improvement at 12 and 48 months (p < 0.0001), with statistically significant improvement on MRI scans at 12 months in cartilage loss, osteophytes, bone marrow lesions, effusion and synovitis (p < 0.01), and highly significant improvement in subchondral sclerosis (p < 0.0001). Conclusion: WJMSCs are safe and potentially effective in producing significant improvement in KOOS and MRI scores when administered intra-articularly in knee osteoarthritis cases under ultrasound guidance. [ABSTRACT FROM AUTHOR]

Published

2022

26. Semi-quantitative magnetic resonance imaging scoring of the knee detects previous injuries in professional soccer players.

Author

Welsch, Goetz Hannes, Behr, Anna-Maria, Frosch, Karl-Heinz, Tahir, Enver, Pachowsky, Milena, Henes, Frank Oliver, Adam, Gerhard, Maas, Kai-Jonathan, and Warncke, Malte Lennart

Subjects

*MAGNETIC resonance imaging, *KNEE joint, *SOCCER players, *PROFESSIONAL athletes, *KNEE injuries, *KNEE

Abstract

Purpose: The medical examination ("medical") is an important procedure in professional soccer since it has high economic relevance. In addition to clinical tests, magnetic resonance imaging (MRI) is used to assess joint health. In the present study, the reliability of semiquantitative knee MRI during the "medical" in professional soccer was tested, and its relationship with clinical data and days missed due to knee injury was observed. Methods: In this cross-sectional study, between 2012 and 2019, 69 newly assigned players (age 18–35 years) from a professional soccer club underwent MRI (3.0 T) of both knee joints during their "medical". Reported knee injuries and previously missed days due to injury were obtained from player anamnesis and the "transfermarkt.com" database. Based on the established "Whole-Organ Magnetic Resonance Imaging Score" (WORMS), two independent radiologists graded the MRI results. Further evaluation was based on the mean score of both knees. Results: The mean WORMS for all subjects was 13.9 (median 10.5, range 0–61). Players with previous injuries had significantly higher scores than players without reported injuries (22.1 ± 17.7 vs. 8.9 ± 4.4, p < 0.002). Three outliers (previously undetected injuries) in the group of players without reported injuries were observed (6.7%). The WORMS was significantly correlated with a prior knee injury (r: 0.424, p < 0.0001) and days missed due to injury (r: 0.489, p < 0.001). Age was correlated with the WORMS (r: 0.386, p < 0.001). In a linear regression model, prior injury was the only significant predictor of a high WORMS (p = 0.001). The WORMS was a significant predictor of days missed due to injury (p < 0.0002) and prior injury (sensitivity: 78%, specificity: 91%, p = 0.006). The intraclass correlation coefficient was excellent (0.89). Conclusion: Semiquantitative knee MRI for WORMS determination during the soccer "medical" is a robust and reliable method. Prior injury, even in players without documented trauma, was detected by the WORMS, and previously missed days due to injury were correlated with the semiquantitative MR knee score. Level of evidence: Level III. [ABSTRACT FROM AUTHOR]

Published

2022

27. Automated Radiology-Arthroscopy Correlation of Knee Meniscal Tears Using Natural Language Processing Algorithms.

Author

Li, Matthew D., Deng, Francis, Chang, Ken, Kalpathy-Cramer, Jayashree, and Huang, Ambrose J.

Abstract

Rationale and Objectives: Train and apply natural language processing (NLP) algorithms for automated radiology-arthroscopy correlation of meniscal tears.Materials and Methods: In this retrospective single-institution study, we trained supervised machine learning models (logistic regression, support vector machine, and random forest) to detect medial or lateral meniscus tears on free-text MRI reports. We trained and evaluated model performances with cross-validation using 3593 manually annotated knee MRI reports. To assess radiology-arthroscopy correlation, we then randomly partitioned this dataset 80:20 for training and testing, where 108 test set MRIs were followed by knee arthroscopy within 1 year. These free-text arthroscopy reports were also manually annotated. The NLP algorithms trained on the knee MRI training dataset were then evaluated on the MRI and arthroscopy report test datasets. We assessed radiology-arthroscopy agreement using the ensembled NLP-extracted findings versus manually annotated findings.Results: The NLP models showed high cross-validation performance for meniscal tear detection on knee MRI reports (medial meniscus F1 scores 0.93-0.94, lateral meniscus F1 scores 0.86-0.88). When these algorithms were evaluated on arthroscopy reports, despite never training on arthroscopy reports, performance was similar, though higher with model ensembling (medial meniscus F1 score 0.97, lateral meniscus F1 score 0.99). However, ensembling did not improve performance on knee MRI reports. In the radiology-arthroscopy test set, the ensembled NLP models were able to detect mismatches between MRI and arthroscopy reports with sensitivity 79% and specificity 87%.Conclusion: Radiology-arthroscopy correlation can be automated for knee meniscal tears using NLP algorithms, which shows promise for education and quality improvement. [ABSTRACT FROM AUTHOR]

Published

2022

28. Single isotropic 3D fast spin echo sequence compared with conventional 2D sequences for detecting meniscal and cruciate ligament tears in the knee

Author

Nevien Ezzat El-Liethy, Amr Samir Rashwan, and Heba Kamal

Subjects

Knee MRI, 3D versus 2D FSE, Meniscal and cruciate lesions, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Background This work was conducted to assess the diagnostic efficiency of isotropic three-dimensional VISTA-fast spin echo versus standard two-dimensional fast spin echo at 1.5 T MRI, in the assessment of internal knee derangement in symptomatic patients, aiming to obtain similar diagnostic accuracy in a shorter time span, with reduction of partial volume artifacts by thin continuous sections. Results This was a non-randomized control study including 39 patients (32 male and 7 females, mean age 37 years old). A correlative study was done utilizing MRI standard 2D FSE (protocol A) versus 3D-VISTA-FSE (protocol B) for medial meniscus (MM) and lateral meniscus (LM), as well as anterior cruciate ligament ACL lesions, comparing the MRI results with the findings of arthroscopy as the gold standard. Both protocols depicted medial meniscus lesions with accuracy, specificity, and sensitivity (97.44%, 96.30%, and 100% respectively), lateral meniscus lesions with accuracy, specificity, and sensitivity (97.44%, 100%, and 50% respectively), and ACL lesions with accuracy, specificity, and sensitivity (100%, 100%, and 100% respectively), while there were no PCL lesions depicted through the study population. Comparing the time factor between both protocols revealed protocol A to consume 13.7 min, while protocol B consumed 6.6 min. Conclusion Three-dimensional isotropic VISTA-FSE sequence, although having similar accuracy in diagnosing cruciate and meniscal lesions as the standard sequences, facilitates thin-section data acquisition and multi-planar image reformation in standard and non-standard planes, without intersection gaps that are crucial for the detection and dissection of compound structures; also, it allows a shorter time span, which is more advantageous for patients, particularly the traumatized and emergency patients.

Published

2020

29. Role of Ultrasonography in Detecting Meniscal Tear and its Correlation with Magnetic Resonance Imaging: An Observational Study

Author

Amit kumar Gupta, Akhilesh Kumar, and Vatsala Gupta

Subjects

knee mri, meniscus, ultrasound, Medical physics. Medical radiology. Nuclear medicine, R895-920, Surgery, RD1-811

Abstract

Introduction: A meniscal tear is the most common injury to the knee, and commonly occurring from both athletic events and activities of daily living. The diagnosis of a meniscal tear may require Magnetic Resonance Imaging (MRI), which is costly. In remote and rural parts of our country, MRI is not available so ultrasonographic examination of knee can be used as diagnostic tool to overcome financial burden to such population groups. Aim: To correlate the accuracy of Ultrasonography (USG) and MRI for diagnosing meniscal tears and also to correlate the specificity, sensitivity, and predictive values of USG for meniscal tears in comparison with MRI. Materials and Methods: It was an observational study. It included 50 patients who presented to our institute with complain of acute or chronic knee pain and restriction of movement with clinical signs and symptoms of meniscal tear with history of trauma. All patients underwent ultrasonographic examination of knee along with MRI and arthroscopy. The statistical analysis was done by using Statistical Package for Social Sciences (SPSS) 22.0 software. Accuracy, sensitivity, specificity, Positive Predictive Value (PPV) and Negative Predictive Value (NPV) were calculated based on detection of meniscal tear. Results: This study comprised of 50 patients: 45 were males and 5 were females whose median age was 29 years. Upon combining both medial and lateral menisci, USG showed mean accuracy of 72%, mean sensitivity of 48.6% and mean specificity of 85.7%. MRI showed mean accuracy of 76%, mean sensitivity of 50% and the mean specificity of 90.6%. Conclusion: According to this study, USG has shown reasonable accuracy, sensitivity, specificity, PPV and NPV in comparison to MRI in detecting meniscal lesions.This study has proved that USG can be a good negative test for meniscal tear as we can exclude normal meniscus from abnormal, thus patient with normal meniscus could be prevented from undergoing costly MRI as their initial investigation. So, it can be used as an effective diagnostic screening tool.

Published

2020

30. Evaluation of the Effect of Menisci on Tibial Slope and the Correlation With Body Mass Index.

Author

Yilmaz I, Lafci Fahrioglu S, Yuksel Bugdayci O, and Ilgi S

Abstract

Background One of the important factors affecting the biomechanics of the knee joint is the posterior tibial slope which is the tibial plateau's anatomical inclination toward the posterior of the sagittal plane. This inclination, which affects anterior-posterior stability, is important for the kinematics of the knee joint. Changes in the tibial slope may cause a deficit in the stability and function of the knee joint. We aimed to examine the inclination of the posterior horn of the meniscus and posterior tibial slope in healthy individuals and investigate the effect of body mass index on these measurements. Methodology A total of 34 magnetic resonance images and lateral knee radiographs were evaluated in this study. The study included individuals aged 15 to 78 without a history of previous injury or surgery of their knee. Results In the measurements made on magnetic resonance images, a statistically significant difference was found between 25% lateral meniscus slope (mean ± SD = 28.08 ± 1.88) and 25% medial meniscus slope (mean ± SD = 27.31 ± 1.41) (p = 0.05). At the same time, a statistically significant difference (p = 0.011) was found between 25% medial combined slope (mean ± SD = 29.05 ± 3.80) and 25% lateral combined slope (mean ± SD = 30.62 ± 2.99). There was no statistically significant difference between tibial and meniscus slopes, body mass index, gender, and age. Conclusions Our study results have shown that the 25% lateral meniscus and combined slopes are greater than the 25% medial meniscus slope., Competing Interests: Human subjects: Consent for treatment and open access publication was obtained or waived by all participants in this study. Near East University Scientific Research Ethics Board issued approval YDU/2021-901314. Animal subjects: All authors have confirmed that this study did not involve animal subjects or tissue. Conflicts of interest: In compliance with the ICMJE uniform disclosure form, all authors declare the following: Payment/services info: All authors have declared that no financial support was received from any organization for the submitted work. Financial relationships: All authors have declared that they have no financial relationships at present or within the previous three years with any organizations that might have an interest in the submitted work. Other relationships: All authors have declared that there are no other relationships or activities that could appear to have influenced the submitted work., (Copyright © 2024, Yilmaz et al.)

Published

2024

31. GPU Based Denoising Filter for Knee MRI

Author

Oza, Shraddha, Joshi, Kalyani R., Tavares, João Manuel R.S., Series Editor, Jorge, Renato Natal, Series Editor, Pandian, Durai, editor, Fernando, Xavier, editor, Baig, Zubair, editor, and Shi, Fuqian, editor

Published

2019

32. A Comparative Study on the Diagnostic Value of Conventional Spin Echo Proton Density and Fast Spin Echo Proton Density Sequences of Magnetic Resonance Imaging in Diagnosis of Meniscal Tear.

Author

Nalaini, Farhad, Mohammadi, Mahdi, Mahdavikian, Somayeh, and Farshchian, Nazanin

Subjects

MENISCUS injuries, MAGNETIC resonance imaging, MENISCUS (Anatomy), PROTONS, JOINTS (Anatomy), DIAGNOSIS

Abstract

Background & Objectives: Knee is the largest synovial joint in the body. Although FSE PD (fast spin echo proton density) imaging technique for the diagnosis of meniscal tear has replaced CSE PD (conventional spin echo proton density) technique in many MRI centers, several studies have questioned the effectiveness of FSE PD technique in diagnosis of meniscal tear. In this study, the diagnostic values of CSE PD and FSE PD techniques in evaluation of meniscus tear are compared. Materials: In this study, using CSE PD and FSE PD techniques, MRI was performed on 67 knees of patients with suspected meniscal tear referring to the MRI Center of Imam Reza Hospital (Kermanshah, Iran). Diagnostic arthroscopy was also performed for all patients. The data were entered SPSS version 20, and finally the results of MRI reports of the two techniques were compared in evaluation of meniscal tear taking into account the arthroscopic findings as the gold standard. Results: According to the results of this study, no significant difference was found in specificity and positive predictive value of the two techniques. However, the sensitivity and negative predictive values were significantly different, in such a way that the related values were 97% and 97% in the CSE PD technique and 69% and 73% in the FSE PD technique, respectively. Conclusion: Due to low sensitivity and high false negative results, MRI using FSE PD technique is not recommended as an alternative for CSE PD technique in evaluation of meniscal tear. [ABSTRACT FROM AUTHOR]

Published

2022

33. Clinical evaluation of 3D high-resolution isotropic knee MRI using Multi-Interleaved X-prepared TSE with inTUitive RElaxometry (MIXTURE) for simultaneous morphology and T2 mapping.

Author

Sakai, Takayuki, Yoneyama, Masami, Zhang, Shuo, Kitsukawa, Kaoru, Yokota, Hajime, Ichikawa, Rina, Aoki, Yasuchika, Watanabe, Atsuya, Sato, Yusuke, Yanagawa, Noriyuki, Murayama, Daichi, Ito, Hajime, Ochi, Shigehiro, and Miyati, Tosiaki

Subjects

*MAGNETIC resonance imaging, *KNEE joint, *KNEE, *MIXTURES, *MORPHOLOGY

Abstract

• The morphological images obtained by 3D MIXTURE have a contrast comparable to that of standard 2D TSE and have equivalent diagnostic performance. • The T2 map obtained by 3D MIXTURE is equivalent to the conventional multi-echo spin-echo (MESE) technique and shows no systematic bias. • The T2 map obtained by 3D MIXTURE correlates well with the location of the lesion on morphological images, allowing quantitative evaluation of the knee cartilage (T2 values of the lesion are consistent with those reported in the literature). Quantitative MRI techniques such as T2 mapping are useful in comprehensive evaluation of various pathologies of the knee joint yet require separate scans to conventional morphological measurements and long acquisition times. The recently introduced 3D MIXTURE (Multi-Interleaved X-prepared Turbo-Spin Echo with Intuitive Relaxometry) technique can obtain simultaneous morphologic and quantitative information of the knee joint. To compare MIXTURE with conventional methods and to identify differences in morphological and quantitative information. Phantom studies were conducted, and in vivo human scans were performed (20 patients) presented with knee arthralgia. MIXTURE is based on 3D TSE without and with T2 preparation modules in an interleaved manner for both morphology with PDW and fat suppressed T2W imaging as well as quantitative T2 mapping within one single scan. Image quality and lesion depiction were visually assessed and compared between MIXTURE and conventional 2D TSE by two experienced radiologists. Contrast-to-noise ratio was used to assess the adjacent tissue contrast in a quantitative way for both obtained PDW and fat suppressed T2W images. Quantitative T2 values were measured in phantom and from in vivo knee cartilage. The overall diagnostic confidence and contrast-to-noise ratio were deemed comparable between MIXTURE and 2D TSE. While the chosen T2 preparation modules for MIXTURE rendered consistent T2 values comparing to the current standard, measured cartilage T2 values ranged from 26.1 to 50.7 ms, with significant difference between the lesion and normal areas (p < 0.05). MIXTURE can help to provide high-resolution information for both anatomical and pathological assessment. [ABSTRACT FROM AUTHOR]

Published

2024

34. Five-minute knee MRI: An AI-based super resolution reconstruction approach for compressed sensing. A validation study on healthy volunteers.

Author

Terzis, Robert, Dratsch, Thomas, Hahnfeldt, Robert, Basten, Lajos, Rauen, Philip, Sonnabend, Kristina, Weiss, Kilian, Reimer, Robert, Maintz, David, Iuga, Andra-Iza, and Bratke, Grischa

Subjects

*COMPRESSED sensing, *ARTIFICIAL intelligence, *MAGNETIC resonance imaging, *MEDICAL care wait times, *CONVOLUTIONAL neural networks

Abstract

• Despite high demand, long MRI acquisition times lead to extended patient wait times. • CS-SuperRes reconstructions for low-resolution matches image quality of standard CS. • Using CS-SuperRes resulted in a 57% reduction in scan time. • 2D knee MRI protocol within 5 min while maintaining excellent image quality. • Enabling new ways for patients' logistics and workflow-management. To investigate the potential of combining Compressed Sensing (CS) and a newly developed AI-based super resolution reconstruction prototype consisting of a series of convolutional neural networks (CNN) for a complete five-minute 2D knee MRI protocol. In this prospective study, 20 volunteers were examined using a 3T-MRI-scanner (Ingenia Elition X, Philips). Similar to clinical practice, the protocol consists of a fat-saturated 2D-proton-density-sequence in coronal, sagittal and transversal orientation as well as a sagittal T1-weighted sequence. The sequences were acquired with two different resolutions (standard and low resolution) and the raw data reconstructed with two different reconstruction algorithms: a conventional Compressed SENSE (CS) and a new CNN-based algorithm for denoising and subsequently to interpolate and therewith increase the sharpness of the image (CS-SuperRes). Subjective image quality was evaluated by two blinded radiologists reviewing 8 criteria on a 5-point Likert scale and signal-to-noise ratio calculated as an objective parameter. The protocol reconstructed with CS-SuperRes received higher ratings than the time-equivalent CS reconstructions, statistically significant especially for low resolution acquisitions (e.g., overall image impression: 4.3 ± 0.4 vs. 3.4 ± 0.4, p < 0.05). CS-SuperRes reconstructions for the low resolution acquisition were comparable to traditional CS reconstructions with standard resolution for all parameters, achieving a scan time reduction from 11:01 min to 4:46 min (57 %) for the complete protocol (e.g. overall image impression: 4.3 ± 0.4 vs. 4.0 ± 0.5, p < 0.05). The newly-developed AI-based reconstruction algorithm CS-SuperRes allows to reduce scan time by 57% while maintaining unchanged image quality compared to the conventional CS reconstruction. [ABSTRACT FROM AUTHOR]

Published

2024

35. Comparative Analysis of Backbone Networks for Deep Knee MRI Classification Models

Author

Nataliya Shakhovska and Pavlo Pukach

Subjects

knee MRI, computer-assisted diagnostics, MRNet, deep learning, computer vision, Technology

Abstract

This paper focuses on different types of backbone networks for machine learning architectures which perform classification of knee Magnetic Resonance Imaging (MRI) images. This paper aims to compare different types of feature extraction networks for the same classification task, in terms of accuracy and performance. Multiple variations of machine learning models were trained based on the MRNet architecture, choosing AlexNet, ResNet, VGG-11, VGG-16, and Efficientnet as the backbone. The models were evaluated on the MRNet validation dataset, computing Area Under the Receiver Operating Characteristics Curve (ROC-AUC), accuracy, f1 score, and Cohen’s Kappa as evaluation metrics. The MRNet-VGG16 model variant shows the best results for Anterior Cruciate Ligament (ACL) tear detection. For general abnormality detection, MRNet-VGG16 is dominated by MRNet-Resnet in confidence between 0.5 and 0.75 and by MRNet-VGG11 for confidence more than 0.8. Due to the non-uniform nature of backbone network performance on different MRI planes, it is advisable to use an LR ensemble of: VGG16 on a coronal plane for all classification tasks; on an axial plane for abnormality and ACL tear detection; Alexnet on a sagittal plane for abnormality detection, and an axial plane for meniscal tear detection; and VGG11 on a sagittal plane for ACL tear detection. The results also indicate that the Cohen’s Kappa metric is valuable in model evaluation for the MRNet dataset, as it provides deeper insights on classification decisions.

Published

2022

36. Loading of the knee during 3.0T MRI is associated with significantly increased medial meniscus extrusion in mild and moderate osteoarthritis

Author

Stehling, Christoph, Souza, Richard B, Le Graverand, Marie-Pierre Hellio, Wyman, Bradley T, Li, Xiaojuan, Majumdar, Sharmila, and Link, Thomas M

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Clinical Research, Aging, Arthritis, Osteoarthritis, Biomedical Imaging, 2.1 Biological and endogenous factors, Aetiology, Musculoskeletal, Female, Humans, Magnetic Resonance Imaging, Male, Menisci, Tibial, Middle Aged, Osteoarthritis, Knee, Physical Stimulation, Reproducibility of Results, Sensitivity and Specificity, Stress, Mechanical, Weight-Bearing, Knee MRI, 3T, Loading, Meniscus, Nuclear Medicine & Medical Imaging, Clinical sciences

Abstract

PurposeStandard knee MRI is performed under unloading (ULC) conditions and not much is known about changes of the meniscus, ligaments or cartilage under loading conditions (LC). The aim is to study the influence of loading of different knee structures at 3Tesla (T) in subjects with osteoarthritis (OA) and normal controls.Materials and methods30 subjects, 10 healthy and 20 with radiographic evidence of OA (10 mild and 10 moderate) underwent 3T MRI under ULC and LC at 50% body weight. All images were analyzed by two musculoskeletal radiologists identifying and grading cartilage, meniscal, ligamentous abnormalities. The changes between ULC and LC were assessed. For meniscus, cartilage and ligaments the changes of lesions, signal and shape were evaluated. In addition, for the meniscus changes in extrusion were examined. A multivariate regression model was used for correlations to correct the data for the impact of age, gender, BMI. A paired T-Test was performed to calculate the differences in meniscus extrusion.ResultsSubjects with degenerative knee abnormalities demonstrated significantly increased meniscus extrusion under LC when compared to normal subjects (p=0.0008-0.0027). Subjects with knee abnormalities and higher KL scores showed significantly more changes in lesion, signal and shape of the meniscus (80% (16/20) vs. 20% (2/10); p=0.0025), ligaments and cartilage during LC.ConclusionThe study demonstrates that axial loading has an effect on articular cartilage, ligament, and meniscus morphology, which is more significant in subjects with degenerative disease and may serve as an additional diagnostic tool for disease diagnosis and assessing progression in subjects with knee OA.

Published

2012

37. MRI diagnosis in multiligamentous injuries of knee with associated dislocations and neurovasacular sequelae: a retrospective analysis of injury patterns

Author

Reddy Ravikanth, Manu J Abraham, Anoop Pilar, and Ashok Alapati

Subjects

anterior cruciate ligament, dislocation, femorotibial dislocation, knee MRI, multiligamentous injury, posterior cruciate ligament, posterolateral corner, posteromedial corner, Diseases of the musculoskeletal system, RC925-935

Abstract

Background Simultaneous injury of two or more knee ligaments with concurrent tears involving the anterior cruciate and medial collateral ligaments is considered to be associated with femorotibial knee dislocations (KD). The purpose of this study is to characterize multiligamentous knee injury patterns associated with dislocations on MRI and to describe the incidence of their sequelae such as tibial plateau fractures, peroneal nerve injuries, and posterolateral corner (PLC) injuries. Participants and methods After obtaining institutional ethical committee approval, we retrospectively identified 108 multiligamentous knee injuries in 100 patients who met with trauma and were treated at our tertiary care center between April 2014 and December 2018. Descriptive statistics were reported using numbers and percentages for categorical variables in cases of multiligamentous injuries, ipsilateral tibial plateau fractures, ipsilateral femoral fractures, peroneal nerve injury, arterial injury, compartment syndrome, and PLC injuries. Results The most common (39.8%) injury pattern was a combined disruption of the anterior cruciate ligament, posterior cruciate ligament, and PLC. Schenck KD III-M was the most common injury type in KD, constituting 16.7%. Medial-sided injuries were the most common injury patterns seen with KD. There was a significant risk of peroneal nerve injury with lateral-sided injuries. Conclusion KD, though rare, may have devastating clinical sequelae such as compartment syndrome if not recognized and treated. Therefore, it is necessary to recognize imaging findings of femorotibial joint dislocations and associated injuries to the adjacent neurovascular bundles.

Published

2019

38. Single isotropic 3D fast spin echo sequence compared with conventional 2D sequences for detecting meniscal and cruciate ligament tears in the knee.

Author

El-Liethy, Nevien Ezzat, Rashwan, Amr Samir, and Kamal, Heba

Abstract

Background: This work was conducted to assess the diagnostic efficiency of isotropic three-dimensional VISTA-fast spin echo versus standard two-dimensional fast spin echo at 1.5 T MRI, in the assessment of internal knee derangement in symptomatic patients, aiming to obtain similar diagnostic accuracy in a shorter time span, with reduction of partial volume artifacts by thin continuous sections. Results: This was a non-randomized control study including 39 patients (32 male and 7 females, mean age 37 years old). A correlative study was done utilizing MRI standard 2D FSE (protocol A) versus 3D-VISTA-FSE (protocol B) for medial meniscus (MM) and lateral meniscus (LM), as well as anterior cruciate ligament ACL lesions, comparing the MRI results with the findings of arthroscopy as the gold standard. Both protocols depicted medial meniscus lesions with accuracy, specificity, and sensitivity (97.44%, 96.30%, and 100% respectively), lateral meniscus lesions with accuracy, specificity, and sensitivity (97.44%, 100%, and 50% respectively), and ACL lesions with accuracy, specificity, and sensitivity (100%, 100%, and 100% respectively), while there were no PCL lesions depicted through the study population. Comparing the time factor between both protocols revealed protocol A to consume 13.7 min, while protocol B consumed 6.6 min. Conclusion: Three-dimensional isotropic VISTA-FSE sequence, although having similar accuracy in diagnosing cruciate and meniscal lesions as the standard sequences, facilitates thin-section data acquisition and multi-planar image reformation in standard and non-standard planes, without intersection gaps that are crucial for the detection and dissection of compound structures; also, it allows a shorter time span, which is more advantageous for patients, particularly the traumatized and emergency patients. [ABSTRACT FROM AUTHOR]

Published

2020

39. Automated Segmentation of Knee MRI Using Hierarchical Classifiers and Just Enough Interaction Based Learning: Data from Osteoarthritis Initiative

Author

Kashyap, Satyananda, Oguz, Ipek, Zhang, Honghai, Sonka, Milan, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Ourselin, Sebastien, editor, Joskowicz, Leo, editor, Sabuncu, Mert R., editor, Unal, Gozde, editor, and Wells, William, editor

Published

2016

40. Skin marker placement by technologist prior to knee MRI helps identify clinically relevant pathologies

Author

Vibhor Wadhwa, Eric Weissman, Daichi Hayashi, Yin Xi, and Avneesh Chhabra

Subjects

Knee MRI, MRI skin marker, Meniscus tear, Ligament tear, Cartilage defect, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Majority of musculoskeletal cross-sectional imaging requests have a non-revealing and non-specific clinical history of pain. However, the location of pain is very relevant towards arriving at a specific orthopedic diagnosis. The purpose of this research was to study the impact of skin marker placement and training of technologists prior to knee MRI in detection of clinically important findings. Methods Total 200 consecutive left knee MRIs were evaluated before and after technologist training with regards to marker placement at the site of clinical symptoms or palpable finding. Marker location in relation to the knee was recorded and important findings were classified as correlated important finding, non-correlated important finding, other compartment important finding in non-correlated cases, and diffuse abnormality, i.e. tri-compartmental cartilage defects in both correlated and non-correlated cases. Differences among scans before and after technologist training were analyzed. Results The marker placement was observed in higher proportion of patients in post-training scans (78% vs 60%, p = 0.00). The most common location of the marker was in anterior or anterolateral knee (32% and 34% cases, respectively). The marker-important finding correlation was also higher post training, but not statistically significant (53% versus 38%, p = 0.57). Important findings correlated with the marker in more than 50% of the scans in the post-training set. Conclusion Marker placement can aid in detection of clinically important imaging finding and technologist training aids in increased rates of marker placement and improved correlation.

Published

2017

41. Cartilage Topography Assessment With <scp>Local‐Area</scp> Cartilage Segmentation for Knee Magnetic Resonance Imaging

Author

Jeffrey Duryea, Erin L. Ashbeck, Alexander Mathiessen, C. Kent Kwoh, Emily Huang, and Edward J. Bedrick

Subjects

musculoskeletal diseases, business.industry, Cartilage, Osteoarthritis, medicine.disease, Sagittal plane, medicine.anatomical_structure, Knee mri, Rheumatology, medicine, Manual segmentation, Segmentation, Femur, Tibia, Nuclear medicine, business

Abstract

Local-area cartilage segmentation (LACS) software was developed to segment medial femur (MF) cartilage on magnetic resonance imaging (MRI). Our objectives were 1) to extend LACS to the lateral femur (LF), medial tibia (MT), and lateral tibia (LT), 2) to compare LACS to an established manual segmentation method, and 3) to visualize cartilage responsiveness over each cartilage plate.Osteoarthritis Initiative participants with symptomatic knee osteoarthritis (OA) were selected, including knees selected at random (n = 40) and knees identified with loss of cartilage based on manual segmentation (Chondrometrics GmbH), an enriched sample of 126 knees. LACS was used to segment cartilage in the MF, LF, MT, and LT on sagittal 3D double-echo steady-state MRI scans at baseline and at 2-year follow-up. We compared LACS and Chondrometrics average thickness measures by estimating the correlation in each cartilage plate and estimating the standardized response mean (SRM) for 2-year cartilage change. We illustrated cartilage loss topographically with SRM heatmaps.The estimated correlation between LACS and Chondrometrics measures was r = 0.91 (95% confidence interval [95% CI] 0.86, 0.94) for LF, r = 0.93 (95% CI 0.89, 0.95) for MF, r = 0.97 (95% CI 0.96, 0.98) for LT, and r = 0.87 (95% CI 0.81, 0.91) for MT. Estimated SRMs for LACS and Chondrometrics measures were similar in the random sample, and SRM heatmaps identified subregions of LACS-measured cartilage loss.LACS cartilage thickness measurement in the MF and LF and tibia correlated well with established manual segmentation-based measurement, with similar responsiveness to change, among knees with symptomatic knee OA. LACS measurement of cartilage plate topography enables spatiotemporal analysis of cartilage loss in future knee OA studies.

Published

2022

42. Evaluation of Bony Femoral Morphological Parameters in Anterior Cruciate Ligament Injury Using Magnetic Resonance Imaging: A Retrospective Unmatched Case-Control Study.

Author

Maheshwari S, Thomas J, Kuber R, Arkar R, Lamghare P, Avhad M, Tharmalingam T, Abraham K, Kharat A, Bhamare D, and Thomas J

Abstract

Background Over time, there has been a noticeable increase in anterior cruciate ligament (ACL) injuries. The current imperative is to anticipate predisposing factors and proactively prevent ACL injuries. The occurrence of ACL injuries has been linked to diverse factors associated with the morphology of the distal femur. Objectives Through this study, we aim to compare the anatomic variables of distal femur morphology such as notch width (NW), bicondylar width (BW), notch entrance width (NEW), and notch width index (NWI) between patients with ACL injuries and non-injured patients using MRI. We also aim to make a comparison of these factors between male and female genders to assess the gender variability. Material and methods A retrospective case-control study was conducted amongst patients who underwent MRI Knee scan for clinical suspicion of internal derangement during the study period. We selected the first 125 individuals who were found to have ACL injury in the MRI scans and selected another 125 individuals who had an intact ACL in the scans, to serve as controls in the study. Demographic information was retrieved from the hospital's electronic records, and the assessment of NW, NWI, BW, and NEW was conducted through a review of MRI sequences. They were then compared between the cases and control groups, as well as between male and female genders. Results The ACL-injured group exhibited statistically significant reductions in NW and NWI. While 17.39 mm was the mean NW among cases, 17.86 was the mean value among controls. Similarly, the mean NWI was 0.25 among patients with ACL injuries and 0.27 among controls. Gender-based comparisons also revealed statistically significant differences in NW and NWI measurements, where females were reported to have comparatively lower measurements. The mean NW for males and females in the injured group were 18.26 mm and 15.40 mm, respectively, while it was 18.71 mm and 16.90 mm, respectively, in the control group. In the case of NEW, males in the injured group had a slightly higher value (21.33 mm) than the controls (20.65). Females on the other hand exhibited a lower mean value of NEW in ACL-injured group (18.51 mm) in comparison to the non-injured (18.79 mm). BW did not seem to show a significant difference between the two groups. Conclusions In the studied population, ACL injuries demonstrated a higher occurrence in individuals with a narrow femoral intercondylar NWI. If any of these characteristics are identified in an MRI, it may be helpful to identify individuals who are at a higher risk of developing ACL injuries and may thereby help in planning preventative strategies., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2024, Maheshwari et al.)

Published

2024

43. A Machine Learning Approach for Knee Injury Detection from Magnetic Resonance Imaging

Author

Santilli, Massimiliano Mangone, Anxhelo Diko, Luca Giuliani, Francesco Agostini, Marco Paoloni, Andrea Bernetti, Gabriele Santilli, Marco Conti, Alessio Savina, Giovanni Iudicelli, Carlo Ottonello, and Valter

Subjects

knee MRI, machine learning, MRI, radiology, automated analysis

Abstract

The knee is an essential part of our body, and identifying its injuries is crucial since it can significantly affect quality of life. To date, the preferred way of evaluating knee injuries is through magnetic resonance imaging (MRI), which is an effective imaging technique that accurately identifies injuries. The issue with this method is that the high amount of detail that comes with MRIs is challenging to interpret and time consuming for radiologists to analyze. The issue becomes even more concerning when radiologists are required to analyze a significant number of MRIs in a short period. For this purpose, automated tools may become helpful to radiologists assisting them in the evaluation of these images. Machine learning methods, in being able to extract meaningful information from data, such as images or any other type of data, are promising for modeling the complex patterns of knee MRI and relating it to its interpretation. In this study, using a real-life imaging protocol, a machine-learning model based on convolutional neural networks used for detecting medial meniscus tears, bone marrow edema, and general abnormalities on knee MRI exams is presented. Furthermore, the model’s effectiveness in terms of accuracy, sensitivity, and specificity is evaluated. Based on this evaluation protocol, the explored models reach a maximum accuracy of 83.7%, a maximum sensitivity of 82.2%, and a maximum specificity of 87.99% for meniscus tears. For bone marrow edema, a maximum accuracy of 81.3%, a maximum sensitivity of 93.3%, and a maximum specificity of 78.6% is reached. Finally, for general abnormalities, the explored models reach 83.7%, 90.0% and 84.2% of maximum accuracy, sensitivity and specificity, respectively.

Published

2023

44. The accuracy of routine knee MR imaging in detection of acute neurovascular injury following multiligamentous knee injury.

Author

Atinga, Angela, Pearce, Dawn H., Whelan, Daniel B., Naraghi, Ali, and White, Lawrence M.

Subjects

KNEE injuries, MAGNETIC resonance imaging, POPLITEAL artery, PERONEAL nerve, STATISTICAL correlation, KNEE

Abstract

Objective: To assess the accuracy of routine knee MRI in detecting acute popliteal artery and/or common peroneal nerve (CPN) dysfunction following multiligamentous knee injury (MLKI), with correlation of MRI findings to clinical outcome. Materials and methods: Routine MRI knee examinations in 115 MLKI patients (54/115 with acute neurovascular injury, 61/115 without neurovascular injury) were retrospectively reviewed. Cases were classified by injury mechanism and ligamentous injuries sustained. MRI examinations were reviewed by two readers for vascular (arterial flow void, arterial calibre, intimal flap, perivascular hematoma) and CPN (intraneural T2-hyperintensity, calibre, discontinuity, perineural hematoma) injuries. Accuracy of routine knee MRI in the diagnosis of acute neurovascular injury and correlation of MRI findings to clinical outcome were evaluated. Results: Patients included 86/115 males, mean age 33 years. The accuracy of MRI in diagnosis of acute CPN injury was 80.6%, 83.6% (readers 1 and 2): sensitivity (78%, 79.7%), specificity (80%, 86.7%), PPV (78%, 82.5%), and NPV (82.7%, 84.4%). Increased intraneural T2 signal showed a significant correlation to acute CPN dysfunction (p < 0.05). MRI was 75%, 69.8% (readers 1 and 2) accurate in detecting acute vascular injury: sensitivity (73.3%, 86.7%), specificity (75.2%, 67.3%), PPV (30.5%, 36.1%), and NPV (95%, 97.1%). No MRI features of vascular injury showed a statistical correlation with clinical outcome. Neurovascular complications were more common in ultra-low-energy injuries and KD-V3L pattern of ligament disruption. Conclusion: Routine MRI is of limited accuracy in assessing vascular complication, but higher accuracy in assessing CPN injury following MLKI. Increased intraneural T2 signal on conventional knee MR imaging shows statistically significant association with clinically documented acute CPN dysfunction following MLKI. [ABSTRACT FROM AUTHOR]

Published

2019

45. Combined 5‐minute double‐echo in steady‐state with separated echoes and 2‐minute proton‐density‐weighted 2D FSE sequence for comprehensive whole‐joint knee MRI assessment.

Author

Chaudhari, Akshay S., Stevens, Kathryn J., Sveinsson, Bragi, Wood, Jeff P., Beaulieu, Christopher F., Oei, Edwin H.G., Rosenberg, Jarrett K., Kogan, Feliks, Alley, Marcus T., Gold, Garry E., and Hargreaves, Brian A.

Subjects

KNEE, ECHO, CONFIDENCE intervals

Abstract

Background: Clinical knee MRI protocols require upwards of 15 minutes of scan time. Purpose/Hypothesis: To compare the imaging appearance of knee abnormalities depicted with a 5‐minute 3D double‐echo in steady‐state (DESS) sequence with separate echo images, with that of a routine clinical knee MRI protocol. A secondary goal was to compare the imaging appearance of knee abnormalities depicted with 5‐minute DESS paired with a 2‐minute coronal proton‐density fat‐saturated (PDFS) sequence. Study Type: Prospective. Subjects: Thirty‐six consecutive patients (19 male) referred for a routine knee MRI. Field Strength/Sequences: DESS and PDFS at 3T. Assessment: Five musculoskeletal radiologists evaluated all images for the presence of internal knee derangement using DESS, DESS+PDFS, and the conventional imaging protocol, and their associated diagnostic confidence of the reading. Statistical Tests: Differences in positive and negative percent agreement (PPA and NPA, respectively) and 95% confidence intervals (CIs) for DESS and DESS+PDFS compared with the conventional protocol were calculated and tested using exact McNemar tests. The percentage of observations where DESS or DESS+PDFS had equivalent confidence ratings to DESS+Conv were tested with exact symmetry tests. Interreader agreement was calculated using Krippendorff's alpha. Results: DESS had a PPA of 90% (88–92% CI) and NPA of 99% (99–99% CI). DESS+PDFS had increased PPA of 99% (95–99% CI) and NPA of 100% (99–100% CI) compared with DESS (both P < 0.001). DESS had equivalent diagnostic confidence to DESS+Conv in 94% of findings, whereas DESS+PDFS had equivalent diagnostic confidence in 99% of findings (both P < 0.001). All readers had moderate concordance for all three protocols (Krippendorff's alpha 47–48%). Data Conclusion: Both 1) 5‐minute 3D‐DESS with separated echoes and 2) 5‐minute 3D‐DESS paired with a 2‐minute coronal PDFS sequence depicted knee abnormalities similarly to a routine clinical knee MRI protocol, which may be a promising technique for abbreviated knee MRI. Level of Evidence: 2 Technical Efficacy: Stage 2 J. Magn. Reson. Imaging 2018. [ABSTRACT FROM AUTHOR]

Published

2019

46. Coexistence of Trochlear Dysplasia and Anterior Cruciate Ligament Mucoid Degeneration and Relationship Between Dysplasia Degree and Mucoid Degeneration

Author

Huseyin Toprak, Gizem Timocin Yigman, and TOPRAK, HÜSEYİN

Subjects

Joint Instability, Trochlear dysplasia, Knee Joint, Anterior cruciate ligament, Positive correlation, 030218 nuclear medicine & medical imaging, Mucoid degeneration, Patellofemoral Joint, 03 medical and health sciences, 0302 clinical medicine, Knee mri, medicine, Humans, Radiology, Nuclear Medicine and imaging, In patient, Significant risk, Anterior Cruciate Ligament, business.industry, Anterior Cruciate Ligament Injuries, musculoskeletal, neural, and ocular physiology, Yigman G., Toprak H., -Coexistence of Trochlear Dysplasia and Anterior Cruciate Ligament Mucoid Degeneration and Relationship Between Dysplasia Degree and Mucoid Degeneration.-, Academic radiology, 2020, musculoskeletal system, medicine.disease, Magnetic Resonance Imaging, surgical procedures, operative, medicine.anatomical_structure, Dysplasia, 030220 oncology & carcinogenesis, Nuclear medicine, business, human activities

Abstract

Purpose Trochlear dysplasia (TD) is a developmental condition and classified in to four types by Dejour. Patients with TD are more likely to have anterior cruciate ligament (ACL) injury. Increased ACL loading caused by TD may result in ACL-mucoid degeneration (MD). The purpose of this study was to evaluate the presence of ACL-MD in patients with TD and investigate whether there was a correlation between ACL-MD and TD grade and tibial tuberosity-trochlear groove (TT-TG) distance. Materials and Methods Knee MR examinations of one hundred five patients with TD were included in this study. TD was graded according to Dejour (type A, B, C, and D), and Lippacher classification (low and high grade). TT-TG distance was also measured (15 mm considered as normal). Then ACL was assessed on MRI sequences for MD. Criteria for ACL-MD were thickened ACL with increased signal intensity on all MR sequences. Results Among 105 patients with TD, 35 patients (33,3%) had ACL-MD. One-half of the ACL-MD was noted in knees with type A TD (50,0%). According to Lippacher classification, one half of the patients with low-grade dyspslasia had ACL-MD (50,0%). There was also a positive correlation between ACL-MD and TT-TG distance. Conclusion TD and patellar instability are significant risk factors for ACL-MD. Due to the high prevelance of ACL-MD with TD we advised the preoperative evaluation of ACL with knee MRI.

Published

2022

47. Are structural abnormalities on knee MRI associated with osteophyte development? Data from the Osteoarthritis Initiative

Author

Muneaki Ishijima, J. Kumm, Martin Englund, Aleksandra Turkiewicz, B. Snoeker, Feng Zhang, Master Evidence Based Practice, and APH - Methodology

Subjects

Adult, Cartilage, Articular, Male, medicine.medical_specialty, Knee Joint, Radiography, Biomedical Engineering, Osteoarthritis, Cohort Studies, Knee mri, Rheumatology, Synovitis, medicine, Humans, Orthopedics and Sports Medicine, Longitudinal Studies, Meniscal tear, business.industry, Hazard ratio, Osteophyte, Middle Aged, Structural abnormalities, medicine.disease, Magnetic Resonance Imaging, Tibial Meniscus Injuries, Effusion, Orthopedic surgery, Osteophytes, Female, business, Nuclear medicine, Body mass index, MRI

Abstract

Summary Objective To assess which structural abnormalities on knee MRI are associated with development of osteophytes in middle-aged subjects without radiographic knee osteoarthritis. Design We included subjects from the Osteoarthritis Initiative, aged 40–55 years, Kellgren & Lawrence grade 0 in both knees, and knee MRIs from both knees available at baseline, 24, 48 and 72 months. Structural exposures on MRI assessed using MOAKS included cartilage damage, bone marrow lesions, meniscal tear, meniscal extrusion, and Hoffa/effusion synovitis. We assessed whether each structural exposure was associated with the development of osteophytes on MRI in the medial and lateral tibiofemoral, and patellofemoral compartment. We estimated hazard ratios (HR) including 95% confidence intervals (CI) for osteophyte development using a mixed complementary log–log regression model adjusted for age, sex, and body mass index. Results We included 680 knees from 340 subjects with a mean (SD) age of 50 years (3.0), and 51% men. In the medial tibiofemoral compartment, the absolute risk of osteophyte development in the first 24-month period was 4% in knees without, and 15% in knees with medial meniscal tear. Corresponding adjusted HR was 6.6 (95%CI = 3.4–12.9). In the lateral tibiofemoral compartment, the adjusted HR for developing osteophytes having a lateral meniscal tear was 3.3 (95%CI = 1.3–8.4). In the patellofemoral compartment, patellofemoral cartilage damage was most clearly associated with developing osteophytes (HR = 2.6, 95%CI = 1.8–3.7). Conclusions Meniscal tear seem to be the strongest structural risk factor for the development of tibiofemoral osteophytes, and patellofemoral cartilage damage for the development of patellofemoral osteophytes, respectively. Local biomechanical factors are important in early osteophyte development.

Published

2021

48. Deep Learning-reconstructed Parallel Accelerated Imaging for Knee MRI

Author

Lee SM, Kim M, Park C, Lee D, Kim KS, Jeong HS, and Choi MH

Subjects

Adult, Humans, Reproducibility of Results, Prospective Studies, Magnetic Resonance Imaging methods, Deep Learning

Abstract

Background: Deep learning (DL) can improve image quality by removing noise from accelerated MRI., Objective: To compare the quality of various accelerated imaging applications in knee MRI with and without DL., Method: We analyzed 44 knee MRI scans from 38 adult patients using the DL-reconstructed parallel acquisition technique (PAT) between May 2021 and April 2022. The participants underwent sagittal fat-saturated T2-weighted turbo-spin-echo accelerated imaging without DL (PAT-2 [2-fold parallel accelerated imaging], PAT-3, and PAT-4) and with DL (DL with PAT-3 [PAT-3DL] and PAT-4 [PAT-4DL]). Two readers independently evaluated subjective image quality (diagnostic confidence of knee joint abnormalities, subjective noise and sharpness, and overall image quality) using a 4-point grading system (1-4, 4=best). Objective image quality was assessed based on noise (noise power) and sharpness (edge rise distance)., Results: The mean acquisition times for PAT-2, PAT-3, PAT-4, PAT-3DL, and PAT-4DL sequences were 2:55, 2:04, 1:33, 2:04, and 1:33 min, respectively. Regarding subjective image quality, PAT-3DL and PAT-4DL scored higher than PAT-2. Objectively, DL-reconstructed imaging had significantly lower noise than PAT-3 and PAT-4 (P <0.001), but the results were not significantly different from those for PAT-2 (P >0.988). Objective image sharpness did not differ significantly among the imaging combinations (P =0.470). The inter-reader reliability ranged from good to excellent (κ = 0.761–0.832)., Conclusion: PAT-4DL imaging in knee MRI exhibits similar subjective image quality, objective noise, and sharpness levels compared with conventional PAT-2 imaging, with an acquisition time reduction of 47%., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2024

49. Anterolateral ligament injuries on magnetic resonance imaging and pivot-shift testing for rotational laxity.

Author

Barrera, Carlos M., Arizpe, Azael, Wodicka, Ross, Lesniak, Bryson P., Baraga, Michael G., Kaplan, Lee, and Jose, Jean

Abstract

Abstract Maintaining anterolateral rotational stability of the knee requires a complex set of structures, most notably the anterior cruciate ligament. However, lateral knee structures such as the anterolateral ligament (ALL) also play an important role. There has been controversy over the role the ALL plays in an ACL deficient knee to maintain rotational stability. In this study, we examined ACL deficient knees with and without intact ALLs, for rotatory laxity using a pivot shift examination. This was graded using International Knee Document Committee (IKDC) criteria. MRI was used to view the ALL and its status. We found no statistically significant difference in rotational stability of ACL deficient knees, with or without intact ALLs. We did however find a statistically significant association between injury to the ALL and other concomitant lateral structures such as the lateral collateral ligament, biceps femoris tendon, and iliotibial band. This supports that the ALL works in concert with the other lateral structures in the knee and the ACL, to provide rotational stability. This suggests that as an isolated structure, the ALL's contribution to clinical rotational stability is not significant, even in the presence of an ACL tear. [ABSTRACT FROM AUTHOR]

Published

2018

50. Simultaneous bilateral‐knee MR imaging.

Author

Kogan, Feliks, Levine, Evan, Chaudhari, Akshay S., Monu, Uchechukwuka D., Epperson, Kevin, Oei, Edwin H. G., Gold, Garry E., and Hargreaves, Brian A.

Abstract

Purpose: To demonstrate and evaluate the scan time and quantitative accuracy of simultaneous bilateral‐knee imaging compared with single‐knee acquisitions. Methods: Hardware modifications and safety testing was performed to enable MR imaging with two 16‐channel flexible coil arrays. Noise covariance and sensitivity‐encoding g‐factor maps for the dual‐coil‐array configuration were computed to evaluate coil cross‐talk and noise amplification. Ten healthy volunteers were imaged on a 3T MRI scanner with both dual‐coil‐array bilateral‐knee and single‐coil‐array single‐knee configurations. Two experienced musculoskeletal radiologists compared the relative image quality between blinded image pairs acquired with each configuration. Differences in T2 relaxation time measurements between dual‐coil‐array and single‐coil‐array acquisitions were compared with the standard repeatability of single‐coil‐array measurements using a Bland‐Altman analysis. Results: The mean g‐factors for the dual‐coil‐array configuration were low for accelerations up to 6 in the right–left direction, and minimal cross‐talk was observed between the two coil arrays. Image quality ratings of various joint tissues showed no difference in 89% (95% confidence interval: 85–93%) of rated image pairs, with only small differences (“slightly better” or “slightly worse”) in image quality observed. The T2 relaxation time measurements between the dual‐coil‐array configuration and the single‐coil configuration showed similar limits of agreement and concordance correlation coefficients (limits of agreement: −0.93 to 1.99 ms; CCC: 0.97 (95% confidence interval: 0.96–0.98)), to the repeatability of single‐coil‐array measurements (limits of agreement: −2.07 to 1.96 ms; CCC: 0.97 (95% confidence interval: 0.95–0.98)). Conclusion: A bilateral coil‐array setup can image both knees simultaneously in similar scan times as conventional unilateral knee scans, with comparable image quality and quantitative accuracy. This has the potential to improve the value of MRI knee evaluations. Magn Reson Med 80:529–537, 2018. © 2017 International Society for Magnetic Resonance in Medicine. [ABSTRACT FROM AUTHOR]

Published

2018