Your search keyword '"BONE injuries"' showing total 10,386 results

1. Distribution of bone fragments in angled shots: an experimental study conducted on composite models containing artificial bone plates.

Author

Geisenberger, Dorothee, Große Perdekamp, Markus, Glardon, Matthieu, Kromeier, Jan, Pollak, Stefan, and Thierauf-Emberger, Annette

Subjects

*ARTIFICIAL bones, *BONE injuries, *PROJECTILES, *GELATIN, *BULLETS, *GUNSHOT wounds

Abstract

In conventional gunshot injuries to targets containing bone the resulting osseous fragments do not precede but follow the bullet on its further way through adjacent soft tissues. The term "secondary projectiles" for the particles does not appear to be appropriate since they are not believed to have enough energy necessary for creating their own wound channels away from the temporary cavity. Former studies have shown that in angled shots to glass panes the bulk of splinters does not follow the bullet's trajectory: The majority of the glass fragments, especially the larger ones, move at right angles to the pane shot through. The aim of the presented study was to examine whether osseous fragments behave like glass splinters in angled shots to flat synthetic bone. In this context, it should also be assessed, whether the bone fragments might act as secondary projectiles in rare cases. To answer these questions, test shots were fired to composite models consisting of flat synthetic bone and ballistic gelatin. Pistol cartridges 9 mm Luger were used to fire the shots which were video-documented with a high-speed camera. Afterwards, the composite models underwent CT examination and macroscopic inspection. Video-documentation revealed that the larger bone particles from the perforation site move at a roughly right angle from the osseous sheet into the gelatin, causing an eccentric bulge of the temporary cavity. The smaller bone fragments were also lodged along the bullet's path, predominantly in the cracks radiating from the permanent wound channel. [ABSTRACT FROM AUTHOR]

Published

2024

2. A frequency-dependent model for bone remodeling using a micromorphic porous medium subjected to harmonic mechanical loading.

Author

Lu, Yanfei

Subjects

*ENERGY dissipation, *BONE remodeling, *EXTRACELLULAR fluid, *VISCOELASTIC materials, *BONE injuries

Abstract

In this paper, the bone tissue was modeled as a linear viscoelastic material saturated with interstitial fluid. We considered a specific case of harmonic loading and related the mechanical stimuli to the loading frequency. In this way, we could include the inertial effect in the model while not having to deal with the perturbation during each loading period. Two types of mechanical signals were considered: strain energy and dissipation energy. A parametric study revealed the dependency of the two signals on loading frequency and material property. The evolution of the apparent mass density supported the parametric study's findings. Under the three different frequency loadings, the strain energy-stimulated samples experienced identical remodeling scenarios. The samples stimulated with dissipation energy, on the other hand, exhibited a strong frequency dependence. An additional study was performed to investigate the effect of long-term variations in the loading frequency on the remodeling process. This demonstrated the model's capabilities in designing and evaluating load regimes for rehabilitation following a bone injury or bone reconstruction. [ABSTRACT FROM AUTHOR]

Published

2024

3. Preparation and properties of biomimetic bone repair hydrogel with sandwich structure.

Author

Kong, Xiaoli, Tian, Lin, Li, Weidong, and Han, Tingliang

Subjects

*SANDWICH construction (Materials), *FINITE element method, *ARCHITECTURAL design, *BONE growth, *BONE injuries

Abstract

One of the critical factors that determines the biological properties of scaffolds is their structure. Due to the mechanical and structural discrepancies between the target bone and implants, the poor internal architecture design and difficulty in degradation of conventional bone implants may cause several adverse outcomes. To date, many scaffolds, such as 3-D printed sandwich structures, have been successfully developed for the repair of bone defects; however, the steps of these methods are complex and costly. Hydrogels have emerged as a unique scaffold material for repairing bone defects because of their good biocompatibility and excellent physicochemical properties. However, studies exploring bioinspired hydrogel scaffolds with hierarchical structures are scarce. More efforts are needed to incorporate bioinspired structures into hydrogel scaffolds to achieve optimal osteogenic properties. In this study, we developed a low-cost and easily available hydrogel matrix that mimicked the natural structure of the bone's porous sandwich to promote new bone growth and tissue integration. A comprehensive evaluation was conducted on the microstructure, swelling rate, and mechanical properties of this hydrogel. Furthermore, a 3D finite element analysis was employed to model the structure-property relationship. The results indicate that the sandwich-structured hydrogel is a promising scaffold material for bone injury repair, exhibiting enhanced compressive stress, elastic modulus, energy storage modulus, and superior force transmission. [ABSTRACT FROM AUTHOR]

Published

2024

4. Relative Energy Deficiency in Sport (REDs): Endocrine Manifestations, Pathophysiology and Treatments.

Author

Angelidi, Angeliki M, Stefanakis, Konstantinos, Chou, Sharon H, Valenzuela-Vallejo, Laura, Dipla, Konstantina, Boutari, Chrysoula, Ntoskas, Konstantinos, Tokmakidis, Panagiotis, Kokkinos, Alexander, Goulis, Dimitrios G, Papadaki, Helen A, and Mantzoros, Christos S

Subjects

STRESS fractures (Orthopedics), SEX (Biology), THERAPEUTICS, BONE injuries, WOMEN athletes, MENSTRUATION disorders

Abstract

Research on lean, energy-deficient athletic and military cohorts has broadened the concept of the Female Athlete Triad into the Relative Energy Deficiency in Sport (REDs) syndrome. REDs represents a spectrum of abnormalities induced by low energy availability (LEA), which serves as the underlying cause of all symptoms described within the REDs concept, affecting exercising populations of either biological sex. Both short- and long-term LEA, in conjunction with other moderating factors, may produce a multitude of maladaptive changes that impair various physiological systems and adversely affect health, well-being, and sport performance. Consequently, the comprehensive definition of REDs encompasses a broad spectrum of physiological sequelae and adverse clinical outcomes related to LEA, such as neuroendocrine, bone, immune, and hematological effects, ultimately resulting in compromised health and performance. In this review, we discuss the pathophysiology of REDs and associated disorders. We briefly examine current treatment recommendations for REDs, primarily focusing on nonpharmacological, behavioral, and lifestyle modifications that target its underlying cause-energy deficit. We also discuss treatment approaches aimed at managing symptoms, such as menstrual dysfunction and bone stress injuries, and explore potential novel treatments that target the underlying physiology, emphasizing the roles of leptin and the activin-follistatin-inhibin axis, the roles of which remain to be fully elucidated, in the pathophysiology and management of REDs. In the near future, novel therapies leveraging our emerging understanding of molecules and physiological axes underlying energy availability or lack thereof may restore LEA-related abnormalities, thus preventing and/or treating REDs-related health complications, such as stress fractures, and improving performance. [ABSTRACT FROM AUTHOR]

Published

2024

5. Structural Functions of 3D‐Printed Polymer Scaffolds in Regulating Cell Fates and Behaviors for Repairing Bone and Nerve Injuries.

Author

Zhang, Tongling, Shan, Wenpeng, Le Dot, Marie, and Xiao, Pu

Subjects

*NERVOUS system injuries, *CELL differentiation, *CELLULAR control mechanisms, *BONE injuries, *CELL anatomy, *BONE regeneration

Abstract

Tissue repair and regeneration, such as bone and nerve restoration, face significant challenges due to strict regulations within the immune microenvironment, stem cell differentiation, and key cell behaviors. The development of 3D scaffolds is identified as a promising approach to address these issues via the efficiently structural regulations on cell fates and behaviors. In particular, 3D‐printed polymer scaffolds with diverse micro‐/nanostructures offer a great potential for mimicking the structures of tissue. Consequently, they are foreseen as promissing pathways for regulating cell fates, including cell phenotype, differentiation of stem cells, as well as the migration and the proliferation of key cells, thereby facilitating tissue repairs and regenerations. Herein, the roles of structural functions of 3D‐printed polymer scaffolds in regulating the fates and behaviors of numerous cells related to tissue repair and regeneration, along with their specific influences are highlighted. Additionally, the challenges and outlooks associated with 3D‐printed polymer scaffolds with various structures for modulating cell fates are also discussed. [ABSTRACT FROM AUTHOR]

Published

2024

6. Biomechanical evaluation of an experimental internal ring fixator (RingFix) for stabilization of pelvic ring injuries on an osteoporotic bone model.

Author

Arand, Charlotte, Hartung, Christian, Mehler, Dorothea, Gercek, Erol, Wollstädter, Jochen, Wagner, Daniel, and Rommens, Pol M.

Subjects

*PELVIS, *PELVIC bones, *BONE injuries, *INTEGRAL domains, *PELVIC fractures, *FRACTURE fixation

Abstract

During the last decades, effective pain reduction and early mobilization were identified as the central priorities in therapy of insufficiency fractures of the pelvis. For operative treatment minimally-invasive stabilization techniques are favored. While there is consensus on the significance of sufficient dorsal stabilization the role of additional fixation of the anterior fracture component stays under discussion. Within the present study we developed an internal ring fixator system (RingFix) with the question whether an in-itself-closed construct can improve stability of the entire ring structure. RingFix was evaluated on an osteoporotic bone model with a standardized FFP IIIc fracture within an established biomechanical setup regarding its primary stabilization potential. Further, it was compared to transiliac–transsacral screw fixation with and without stabilization of the anterior fracture component. The transiliac–transsacral fixation with separate screw fixation of the anterior fracture showed significantly higher stability than the RingFix and the transiliac–transsacral screw fixation without anterior stabilization. Our results show that stabilization of the anterior fracture component relevantly improves the stability of the entire ring construct. As a bridging stabilizer, RingFix shows biomechanical advantages over an isolated dorsal fracture fixation, but inferior results than direct stabilization of the single fracture components. [ABSTRACT FROM AUTHOR]

Published

2024

7. Multivitamin Compliance Reduces Injuries of Female Recruits at Air Force Basic Training: A Randomized Controlled Cohort Study.

Author

Kasper, Korey B, Cockerell, Meredith, Escamilla, Clarissa, and Gonzalez, Richard

Subjects

*BASIC training (Military education), *OVERUSE injuries, *BONE injuries, *EDUCATIONAL films, *CHI-squared test

Abstract

Introduction Department of the Air Force basic military training (BMT) is the 7.5-week initial entry training for all enlisting U.S. Air Force and Space Force recruits. Overuse musculoskeletal injuries (MSKI) during training threaten success in BMT, and trainees with nutritional deficiencies are at higher risk. Several efforts are made at BMT to mitigate these issues to help trainees graduate on time, such as the distribution of multivitamins (MVI) to female recruits. However, trainee compliance with the prescribed MVI has been reported to be low, calling into question the effectiveness of this intervention. This study evaluated the effect of briefing modality offered to these trainees at the time of distribution on educational effectiveness, MVI compliance, and injury rates. Materials and Methods This was a randomized controlled cohort study of BMT female trainees. Subjects included all female trainees of a single iteration of BMT concurrently completing training within the same squadron. At the outset of training, cohorts were randomly educated in one of two ways regarding the provided MVI. The control cohort (n  = 80) was presented with the standard educational video created by BMT-registered dietitians, while the test cohort (n  = 79) was presented the video and then also briefed in-person by a group of subject matter experts. At the end of BMT, the trainees completed a questionnaire regarding their knowledge, confidence, and compliance with the MVI. Additionally, a routinely collected training database was queried and analyzed for differences in injuries and training outcomes using the chi-squared test with significance set to α ≤ 0.05. Results Although both cohorts found their educational presentation useful, the "in-person" cohort reported significantly higher compliance rates and were found to be diagnosed with MSKI and bone stress injuries at significantly lower rates (43% and 66% relative risk reductions, respectively). Conclusions Education to female BMT trainees regarding the MVI, which included a face-to-face discussion with subject matter experts, resulted in greater compliance and reduced incidence of MSKI and bone stress injury, compared to a video prepared by registered dietitians alone. Such educational approaches should continue to be strived for in this and other military population health measures. This study's implication of MVI efficacy for injury risk reduction in female trainees should be further studied, verified, and improved upon in this and other populations. [ABSTRACT FROM AUTHOR]

Published

2024

8. An Upper Paleolithic horse mandible with an embedded lithic projectile: Insights into 16,500 cal BP hunting strategies through a unique case of bone injury from Cantabrian Spain.

Author

Cueto, Marián, Camarós, Edgard, Chauvin, Adriana, Ontañón, Roberto, and Arias, Pablo

Subjects

*PALEOLITHIC Period, *HORSES, *BONE injuries, *TAPHONOMY, *MANDIBLE

Abstract

Embedded artifacts in osteoarchaeological remains may be key to approaching hunting strategies and other behavioral‐related issues such as technological development. However, that kind of evidence is not common within the archaeological record and often not well‐characterized, especially for faunal remains from prehistoric sites. Here, we present and discuss a unique case of a horse (Equus caballus) mandible with an embedded lithic remains from the Upper Paleolithic (ca. 17,300–16,200 cal BP) from La Garma cave in Cantabria, Spain. Our macro‐ and microscopic faunal and lithic integrated analysis suggests that the case presented here is a potential perimortem hunting lesion, representing an uncommon hunting strategy during the Magdalenian period. Furthermore, this study, representing the first case of its kind in the Iberian Peninsula, emphasizes the importance of the taphonomic analysis of bone surfaces to approach the understanding of past human behaviors. [ABSTRACT FROM AUTHOR]

Published

2024

9. Prevalence of reducing carbohydrate intake and fasted training in elite endurance athletes and association with bone injury.

Author

Raleigh, Conor, Madigan, Sharon, Sinnott‐O'Connor, Ciara, Sale, Craig, Norton, Catherine, and Carson, Brian P.

Subjects

*BONE injuries, *HEALTH literacy, *CARBOHYDRATES, *FOOD consumption, *DIETARY patterns, *RESEARCH funding, *SPORTS injuries, *QUESTIONNAIRES, *BODY composition, *QUANTITATIVE research, *DESCRIPTIVE statistics, *MOTIVATION (Psychology), *RESEARCH, *NUTRITIONAL status, *ENDURANCE sports training, *COMPARATIVE studies, *ATHLETIC ability, *FASTING

Abstract

There are conflicting reports both within the lay media and scientific literature regarding the use and benefit of dietary practices that aim to reduce CHO intake in endurance athletes. This study aimed to determine the prevalence of intentional reduction of CHO intake and fasted training in elite endurance‐based athletes using a semi‐quantitative questionnaire. Bone is a nutritionally modulated tissue; therefore, this study also aimed to explore if these dietary practices are potentially associated with bone injury incidence. The reported reduction of CHO intake was prevalent (28%) with the primary motivation being maintenance or manipulation of body composition. However, discrepancies in athletes' awareness of CHO intake were identified providing a potential avenue of intervention especially within applied practice. The use of fasted training was more prevalent (38%) with athletes using this practice for both body composition manipulation and promoting a desired adaptive response. Forty‐four per cent of participants had suffered a radiographically confirmed bone injury at some point in their career. There was no association between reduction in CHO intake and bone injury incidence; however, the incidence of bone injury was 1.61 times higher in those who currently use fasted training compared to those who have never used it or who have used it in the past. Although a direct causal link between these dietary practices and the incidence of bone injury cannot be drawn, it provides robust justification for future investigations of the potential mechanisms that could explain this finding. Highlights: The self‐reported use of reductions in CHO intake (28%) and fasted training (38%) is prevalent in elite endurance‐based athletes and comparable to previous investigations in this area. Controlling body composition and promoting adaptive responses were common rationales for use.The incidence of bone injury is also high (44%) and there may be some association between bone injury incidence and fasted training. Further controlled experimental studies are required to determine the direct effect of nutritional strategies commonly adopted by endurance athletes on bone metabolism both acutely and chronically.There appears to be a gap in some athlete's knowledge and awareness of CHO rich foods and appropriate consumption of CHO to support endurance training and performance according to current guidelines. Future work should aim to explore and address this area further. [ABSTRACT FROM AUTHOR]

Published

2024

10. Bone turnover biomarkers reflect radiation-induced bone injuries in women with non-metastatic rectal cancer.

Author

Magnusson, Per, Sääf, Maria, Martling, Anna, Svanström Röjvall, Annika, Atanasova, Diana, Wilamowski, Franciszek, Flöter Rådestad, Angelique, Buchli, Christian, and Segelman, Josefin

Subjects

BONE injuries, MAGNETIC resonance imaging, RECTAL cancer, ALKALINE phosphatase, BONE remodeling

Abstract

Preoperative radiotherapy (RT) for non-metastatic rectal cancer reduces local recurrence rates but can cause pelvic insufficiency fractures. Despite the high morbidity from RT-induced skeletal injuries, predictive and preventive measures are lacking. How these injuries are reflected by bone biomarkers are largely unknown. The aim was to assess longitudinal changes in bone biomarkers and their relation to RT-related bone injuries in women with rectal cancer. This longitudinal cohort study includes 47 women with non-metastatic rectal cancer treated with surgery ± preoperative RT with or without chemotherapy. Sclerostin, bioactive sclerostin, C-terminal telopeptide cross-links of collagen type I (CTX), bone-specific alkaline phosphatase (BALP), and type I procollagen intact N-terminal propeptide (PINP) were measured at baseline, after RT, and 1 yr postoperatively. Pelvic magnetic resonance imaging was used for detection of skeletal injury. Sixteen of 36 (44%) irradiated women had radiation-induced bone injuries and were compared to 11 women (RT–) and 20 women (RT+) without bone injuries. Serum CTX, BALP, and PINP increased during the first year after RT in women with radiation-induced bone injuries. The difference in mean change of CTX (p=.037) and BALP (p=.042) was conferred by longitudinal regression analyses adjusted for serum estradiol. Serum sclerostin and bioactive sclerostin remained stable over time. Taken together, bone markers may be of interest for future research on fracture prediction or preventive measures in women susceptible to radiation-induced bone injury. Due to few measure points, the full pattern cannot be captured regarding the relation over time between bone biomarkers and skeletal injury from irradiation. Lay Summary: Radiation therapy (RT) for rectal cancer before surgery reduces the risk of cancer recurrence, but can cause injuries to the pelvic bone. Despite the high morbidity from RT-caused skeletal injuries, predictive and preventive measures are lacking. How these bone injuries are reflected by bone biomarkers measured in serum is largely unknown. The aim of this study was to measure serum bone biomarkers and their relation to RT-related bone injuries in women with rectal cancer. The study group included 47 women with rectal cancer treated with surgery ± preoperative RT. Pelvic magnetic resonance imaging was used for detection of skeletal injury. The bone biomarkers sclerostin, bioactive sclerostin, C-terminal telopeptide cross-links of collagen type I (CTX), bone-specific alkaline phosphatase (BALP), and type I procollagen intact N-terminal propeptide (PINP) were measured at baseline, after RT, and 1 yr after surgery. Sixteen of 36 (44%) irradiated women had radiation-caused bone injuries and were compared to 31 women without bone injuries. Serum CTX, BALP, and PINP increased during the first year after RT in women with radiation-caused bone injuries. In summary, bone markers may be of interest for future research on fracture prediction or preventive measures in women prone to radiation-caused bone injury. [ABSTRACT FROM AUTHOR]

Published

2024

11. Serial Ultrasonography for the Assessment of Healing of Lower Extremity Bone Stress Injury and Correlation With Return to Sport/Exercise.

Author

Toresdahl, Brett G., Conway, Justin, Miller, Theodore T., Goolsby, Marci A., Geannette, Christian S., Quijano, Brianna, and Callahan, Lisa R.

Subjects

SPORTS re-entry, MAGNETIC resonance imaging, BONE injuries, HEALING, PROGNOSIS

Abstract

Background: Lower extremity bone stress injuries (BSIs) are common among athletes who participate in high-impact activities. Conventional imaging is limited in assessing healing of BSIs. Hypothesis: Serial ultrasonography (US) can identify changes in appearance of lower extremity BSIs over time that can be correlated with symptoms and return to exercise/sport. Study Design: Cohort observational study. Level of Evidence: Level 3. Methods: Adults 18 to 50 years old with a recent exercise-associated BSI of distal tibia/fibula or metatarsals diagnosed by magnetic resonance imaging (MRI) were enrolled. US was performed every 2 weeks for 12 weeks. The sonographic appearance (soft tissue edema, periosteal reaction, hyperemia on power Doppler, callus) was correlated with the numerical rating scale (NRS) for pain and ability to return to sport/exercise. Results: A total of 30 patients were enrolled (mean age, 35.3 ± 7.7 years; 21 [70.0%] female). The tibia was most frequently affected (n = 15, 50.0%), followed by metatarsals (n = 14, 46.7%) and fibula (n = 1, 3.3%). At week 4, 25 of 30 (83.3%) had at least 1 US finding associated with the BSI. The degree of hyperemia was correlated with NRS at weeks 4 and 6 (Spearman correlations [ρ] 0.45 [0.09, 0.69] and 0.42 [0.07, 0.67], respectively), as well as return to sport/exercise at week 6 (ρ -0.45 [-0.68, -0.09]). US soft tissue edema was also correlated with NRS at week 6 (ρ 0.38 [0.02, 0.65]). Conclusion: Serial US of lower extremity BSIs can provide objective measures of healing. US findings were correlated with clinical outcomes at multiple timepoints. Clinical Relevance: US may have advantages over conventional imaging for monitoring healing of lower extremity BSIs. Further research is needed to better understand the prognostic value of these sonographic indicators of BSI healing and role in assessing readiness for return to sport/exercise. [ABSTRACT FROM AUTHOR]

Published

2024

12. High prevalence of stress fractures and long-term amenorrhoea in high endurance female athletes: The misleading lack of correlation with bone mineral density.

Author

García-Alonso, M. and Corral-Gudino, L.

Subjects

BONE injuries, RISK assessment, STATISTICAL correlation, CROSS-sectional method, PHOTON absorptiometry, BONE density, OVERUSE injuries, HEALTH status indicators, ENDURANCE sports, DISEASE prevalence, DESCRIPTIVE statistics, CHRONIC diseases, MEDICAL students, ODDS ratio, RESEARCH, FEMUR, LUMBAR vertebrae, ATHLETIC ability, CONFIDENCE intervals, STRESS fractures (Orthopedics), AMENORRHEA, DISEASE risk factors, DISEASE complications

Abstract

Females who engage in high levels of sports have a high prevalence of menstrual cycle disorders and bone stress injuries (BSI). In this study, we determined the prevalence of menstrual disorders and fractures in female athletes and their association with bone mineral density (BMD) parameters. Cross-Sectional Study. Forty-one female athletes from a public High-Performance Regional Centre; 24 high-endurance athletes (HEA) and 17 other athletes, were included. To form the control group, we invited medical students from a public University. Twenty-nine non-athletes (NA) were included. A health surveys and a dual-energy X-ray absorptiometry (DXA) were conducted for all participants. Among the participants (median age, 24 years; body mass index, 21 kg/m2), the percentage of long-term amenorrhoea was 42 % in HEA vs. 0 % in NHEA (OR 25.35; 95 % CI 1.37–470.50, p = 0.008) or 10 % in NA (OR 6.20; 95 % CI 1.46–26.24, p = 0.022), and the percentage of BSI was 29 % in HEA vs. 0 % in NHEA or NA. Both groups of female athletes (HEA and NHEA) showed higher Z-scores than those of NA in the femur; however, only NHEA had a significant increase in the BMD on lumbar spine than that of NA. The prevalence of long-term amenorrhoea and/or BSI was significantly higher in the HEA than in the NHEA or NA females. In contrast, HEA, like NHEA, had higher BMD values in the femur than those of controls. It is unlikely that DXA parameters can be used to estimate cortical BSI risk in this population. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

13. Differences in cricket fast bowling kinematics between grass and artificial surface pitches.

Author

Alway, Peter, Felton, Paul, James, Iain, King, Mark, and McErlain-Naylor, Stuart

Subjects

*CRICKET bowling, *ARTIFICIAL feet, *MOTION analysis, *SYNTHETIC sporting surfaces, *BONE injuries

Abstract

Cricket fast bowling training and research are often conducted on artificial turf, while matches are played on natural grass. It is unknown if technique differs between the different surfaces; therefore, the aim of this study was to explore if fast bowling technique differed between surfaces. Shoe slip distance and kinematic and temporal parameters previously associated with ball release velocity and lumbar bone stress injury were determined for eight male sub-elite fast bowlers using three-dimensional motion analysis on grass and artificial surfaces. Paired t-test and statistical parametric mapping were used to identify differences in technique between surfaces. Significantly greater slip distance was observed during back and front foot contact on the artificial surface compared to bowling on the grass surface. No kinematic or temporal parameter significantly differed between surfaces, therefore fast bowling technique is likely similar between grass and artificial surfaces, and previous research utilising artificial surfaces in fast bowling research is likely to be valid. [ABSTRACT FROM AUTHOR]

Published

2024

14. Taking a Closer Look: "Evaluating Online Video Content for Rehabilitation after Distal Radius Fracture".

Author

Laggner, Roberta, Huber, Dominikus, Hasenoehrl, Timothy, Sternik, Julia, Stoffer Marx, Michaela, Weber-Stallecker, Rita, Crevenna, Richard, Thalhammer, Gerhild, and Heisinger, Stephan

Subjects

*DISTAL radius fractures, *INTERNET content, *STREAMING video & television, *BONE injuries, *REHABILITATION

Abstract

Background: Fractures of the distal radius are among the most common bone injuries, and their frequency is constantly increasing, leading to an elevated need for subsequent rehabilitation. This growing need has led to the emergence of online content aimed at providing guidance on rehabilitation. Nonetheless, unreviewed online content raises concerns about its reliability; therefore, the objective of this study was to evaluate the quality, reliability, and comprehensiveness of online videos concerning rehabilitation following a distal radius fracture. Methods: A total of 240 YouTube videos were screened, identifying 33 videos that met the inclusion criteria. These selected videos were evaluated by five independent experts from various professional groups, using the Global Quality Scale, the DISCERN reliability tool, and the JAMA Benchmark Score, as well as a structured set of questions to assess their comprehensiveness and coverage of pertinent aspects. Results: The observers' assessment of the Global Quality Scale exhibited a broad spectrum of viewpoints, indicating considerable variability in evaluations. In most cases, therapy aligned well with the diagnosed condition, and most raters deemed the indication and instruction in the videos acceptable. A proportion of 87% of the videos was deemed suitable for home training by at least three raters. However, a concerning trend emerged, as potential risks and pitfalls were scarcely addressed. Conclusions: The moderate overall quality of the videos and the divergence in expert opinions highlight the need for a regulatory authority to ensure adherence to guidelines and maintain high-quality content. Additionally, our results raise concerns about the applicability of established assessment tools in this context. [ABSTRACT FROM AUTHOR]

Published

2024

15. Bone stress injuries in athletics (track and field) championships: findings from a prospective injury surveillance conducted across 24 international championships with 29,147 registered athletes.

Author

Hoenig, Tim, Tenforde, Adam S., Hollander, Karsten, Junge, Astrid, Branco, Pedro, Vinther, Anders, and Edouard, Pascal

Subjects

SPORTS events, TRACK & field, WORLD championships, BONE injuries, OLYMPIC Games

Abstract

Background: Athletics (track and field) athletes are prone to develop bone stress injuries (BSIs) but epidemiological data on BSIs from top-level sports events are scarce. Objective: To describe the incidence and characteristics of BSIs during 24 international athletics championships held from 2007 to 2023. Methods: BSI-related data were prospectively collected during 24 international athletics championships, including the Olympic Games (n = 3), World Outdoor Championships (n = 4), European Outdoor Championships (n = 6), World Indoor Championships (n = 3) and European Indoor Championships (n = 8). Descriptive and comparative statistics were used to assess the epidemiological characteristics of BSIs. Results: BSIs accounted for 1.5% of all reported injuries (n = 36; 1.2 per 1000 registered athletes (95%CI 0.8 to 1.6)). No significant difference of BSI incidence was detected between female (2.0 per 1000 athletes (95%CI: 0.9 to 2.3)) and male athletes (0.9 per 1000 athletes (95%CI: 0.4 to 1.4)) (relative risk (RR) = 1.73, 95%CI: 0.88 to 3.40). BSI incidence was significantly higher during outdoor championships (1.6 per 1000 registered athletes (95%CI: 1.0 to 2.1)) as compared to indoor championships (0.2 per 1000 registered athletes (95%CI: 0.0 to 0.5)) (RR = 10.4, 95%CI: 1.43 to 76.0). Most BSIs were sustained in the foot (n = 50%) or leg (n = 33%). BSIs were reported in athletes participating in endurance disciplines (52.8%) or in explosive disciplines (47.2%). Conclusions: BSIs represent a small portion of injuries sustained during international athletics championships. Collective results suggest that injury rates are higher in outdoor competitions as compared to indoor competitions. The most common injury locations comprise the foot and leg. Clinical Trial Number: Not applicable. [ABSTRACT FROM AUTHOR]

Published

2024

16. Osteoblastic Cell Sheet Engineering Using P(VCL-HEMA)-Based Thermosensitive Hydrogels Doped with pVCL@Icariin Nanoparticles Obtained with Supercritical CO 2 -SAS.

Author

García-Sobrino, Rubén, Casado-Losada, Isabel, Caltagirone, Carmen, García-Crespo, Ana, García, Carolina, Rodríguez-Hernández, Juan, Reinecke, Helmut, Gallardo, Alberto, Elvira, Carlos, and Martínez-Campos, Enrique

Subjects

*SMALL molecules, *BONE regeneration, *CELL differentiation, *BONE injuries, *BONE cells

Abstract

New clinical strategies for treating severe bone and cartilage injuries are required, especially for use in combination with implant procedures. For this purpose, p(VCL-co-HEMA) thermosensitive hydrogels have been activated with icariin-loaded nanoparticles to be used as bone-cell-harvesting platforms. Supercritical CO2-SAS technology has been applied to encapsulate icariin, a small molecule that is involved in osteoblastic differentiation. Thus, physical-chemical analysis, including swelling and transmittance, showed the impact of HEMA groups in hydrogel composition. Moreover, icariin (ICA) release from p(VCL-co-HEMA) platforms, including pVCL@ICA nanoparticles, has been studied to evaluate their efficacy in relevant conditions. Finally, the thermosensitive hydrogels' cell compatibility, transplant efficiency, and bone differentiation capacity were tested. This study identifies the optimal formulations for icariin-activated hydrogels for both control and HEMA formulations. Using this technique, osteoblastic sheets that were rich in collagen type I were successfully transplanted and recultivated, maintaining an optimal extracellular matrix (ECM) composition. These findings suggest a new cell-sheet-based therapy for bone regeneration purposes using customized and NP-activated pVCL-based cell platforms. [ABSTRACT FROM AUTHOR]

Published

2024

17. Apoptosis and Inflammation Involved with Fluoride-Induced Bone Injuries.

Author

Wang, Miao, Luo, Kangting, Sha, Tongtong, Li, Qian, Dong, Zaichao, Dou, Yanjie, Zhang, Huanxia, Zhou, Guoyu, Ba, Yue, and Yu, Fangfang

Abstract

Background: Excessive fluoride exposure induces skeletal fluorosis, but the specific mechanism responsible is still unclear. Therefore, this study aimed to identify the pathogenesis of fluoride-induced bone injuries. Methods: We systematically searched fluoride-induced bone injury-related genes from five databases. Then, these genes were subjected to enrichment analyses. A TF (transcription factor)–mRNA–miRNA network and protein–protein interaction (PPI) network were constructed using Cytoscape, and the Human Protein Atlas (HPA) database was used to screen the expression of key proteins. The candidate pharmacological targets were predicted using the Drug Signature Database. Results: A total of 85 studies were included in this study, and 112 osteoblast-, 35 osteoclast-, and 41 chondrocyte-related differential expression genes (DEGs) were identified. Functional enrichment analyses showed that the Atf4, Bcl2, Col1a1, Fgf21, Fgfr1 and Il6 genes were significantly enriched in the PI3K-Akt signaling pathway of osteoblasts, Mmp9 and Mmp13 genes were enriched in the IL-17 signaling pathway of osteoclasts, and Bmp2 and Bmp7 genes were enriched in the TGF-beta signaling pathway of chondrocytes. With the use of the TF–mRNA–miRNA network, the Col1a1, Bcl2, Fgfr1, Mmp9, Mmp13, Bmp2, and Bmp7 genes were identified as the key regulatory factors. Selenium methyl cysteine, CGS-27023A, and calcium phosphate were predicted to be the potential drugs for skeletal fluorosis. Conclusions: These results suggested that the PI3K-Akt signaling pathway being involved in the apoptosis of osteoblasts, with the IL-17 and the TGF-beta signaling pathways being involved in the inflammation of osteoclasts and chondrocytes in fluoride-induced bone injuries. [ABSTRACT FROM AUTHOR]

Published

2024

18. The Impact of E-Cigarettes on Oral Injuries and Bone Fractures.

Author

Głogowska, Karen, Wojtas, Mikołaj, Piątkiewicz, Julia, Krzyżanowska, Maria, Kapica, Marcin, Nowak, Gabriela, Żmijewska, Aleksandra, Sztybór, Mateusz, Maleszewska, Monika, and Kopacz, Wojciech

Subjects

BONE injuries, BONE fractures, ELECTRONIC cigarettes, LITERATURE reviews, ORAL hygiene, ORAL tradition

Abstract

Introduction The rising prevalence of electronic cigarette (e-cigarette) use has prompted concerns regarding its potential health implications. While much attention has focused on respiratory and cardiovascular effects, injuries, oral trauma, and bone fractures linked to e-cigarette use have received less scrutiny. This paper aims to comprehensively review the landscape of injuries, oral trauma, and bone fractures induced by e-cigarettes, shedding light on this underexplored facet of e-cigarette-related harm. Material and Methods This literature review has analyzed 16 papers. Inclusion criteria: researches and case reports published after 2015. PubMed and Google Scholar has been searched to identify the papers. Analysis of the Literature Existing literature suggests a growing incidence of injuries, oral trauma, and bone fractures associated with e-cigarette use, albeit with limited systematic investigation. Mechanisms underlying these injuries range from device malfunctions to inadvertent impacts during use. Case reports highlight a spectrum of injuries, including oral burns, dental trauma, and skeletal fractures, often involving the face and mouth regions. Conclusions Despite the lack of comprehensive epidemiological data emerging evidence underscores the need for heightened awareness and preventive measures to mitigate e-cigarette-related injuries. Enhanced education, regulation of e-cigarette devices, and promotion of safer usage practices are crucial steps towards reducing the burden of e-cigarette-related harm on oral and skeletal health. [ABSTRACT FROM AUTHOR]

Published

2024

19. Bone injury imaging in knee and ankle joints using fast-field-echo resembling a CT using restricted echo-spacing MRI: a feasibility study.

Author

Nan Wang, Zhengshi Jin, Funing Liu, Lihua Chen, Ying Zhao, Liangjie Lin, Ailian Liu, and Qingwei Song

Subjects

ANKLE joint, KNEE joint, ANKLE, KNEE, BONE injuries, ANKLE injuries, KNEE injuries

Abstract

Purpose: To explore the consistency of FRACTURE (Fast-field-echo Resembling A CT Using Restricted Echo-spacing) MRI and X-Ray/computerized tomography (CT) in the evaluation of bone injuries in knee and ankle joints. Methods: From Nov. 2020 to Jul. 2023, 42 patients with knee joint or ankle joint injuries who underwent FRACTURE MRI examinations were retrospectively collected. 11 patients were examined by both X-Ray and FRACTURE examinations. 31 patients were examined by both CT and FRACTURE examinations. The fracture, osteophyte, and bone destruction of the joints were evaluated by two radiologists using X-Ray/CT and FRACTURE images, respectively. Kappa test was used for consistency analysis. Results: The evaluation consistency of fracture, osteophyte and bone destruction via X-Ray and FRACTURE images by radiologist 1 were 0.879, 0.867 and 0.847 respectively, and for radiologist 2 were 0.899, 0.930, and 0.879, respectively. The evaluation consistency of fracture, osteophyte and bone destruction via CT and FRACTURE images by radiologist 1 were 0.938, 0.937 and 0.868 respectively, and for radiologist 2 were 0.961, 0.930, and 0.818, respectively. Conclusion: For fracture, osteophyte, and bone destruction of knee and ankle joints. FRACTURE MRI showed a high consistency with X-Ray/CT examinations. [ABSTRACT FROM AUTHOR]

Published

2024

20. Advancing bone regeneration: Unveiling the potential of 3D cell models in the evaluation of bone regenerative materials.

Author

Hao, Minglu, Xue, Linyuan, Wen, Xiaobo, Sun, Li, Zhang, Lei, Xing, Kunyue, Hu, Xiaokun, Xu, Jiazhen, and Xing, Dongming

Subjects

BONE regeneration, REGENERATION (Biology), BONE injuries, TISSUE engineering, TWO-dimensional models, PLATELET-rich plasma

Abstract

Bone, a rigid yet regenerative tissue, has garnered extensive attention for its impressive healing abilities. Despite advancements in understanding bone repair and creating treatments for bone injuries, handling nonunions and large defects remains a major challenge in orthopedics. The rise of bone regenerative materials is transforming the approach to bone repair, offering innovative solutions for nonunions and significant defects, and thus reshaping orthopedic care. Evaluating these materials effectively is key to advancing bone tissue regeneration, especially in difficult healing scenarios, making it a critical research area. Traditional evaluation methods, including two-dimensional cell models and animal models, have limitations in predicting accurately. This has led to exploring alternative methods, like 3D cell models, which provide fresh perspectives for assessing bone materials' regenerative potential. This paper discusses various techniques for constructing 3D cell models, their pros and cons, and crucial factors to consider when using these models to evaluate bone regenerative materials. We also highlight the significance of 3D cell models in the in vitro assessments of these materials, discuss their current drawbacks and limitations, and suggest future research directions. This work addresses the challenge of evaluating bone regenerative materials (BRMs) crucial for bone tissue engineering. It explores the emerging role of 3D cell models as superior alternatives to traditional methods for assessing these materials. By dissecting the construction, key factors of evaluating, advantages, limitations, and practical considerations of 3D cell models, the paper elucidates their significance in overcoming current evaluation method shortcomings. It highlights how these models offer a more physiologically relevant and ethically preferable platform for the precise assessment of BRMs. This contribution is particularly significant for "Acta Biomaterialia" readership, as it not only synthesizes current knowledge but also propels the discourse forward in the search for advanced solutions in bone tissue engineering and regeneration. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

21. Non-microsurgical salvage of complex soft tissue defects in the lower extremity with transposition fasciocutaneous flaps.

Author

Akdeniz, Hande and Dikmen, Adile

Subjects

*PERFORATOR flaps (Surgery), *FREE flaps, *COMMINUTED fractures, *HOSPITAL supplies, *BONE injuries, *PRESSURE ulcers, EXTERNAL fixators

Abstract

Background: Early soft tissue management is crucial in lower extremity defects, particularly those involving vital tissue exposure, bone integrity impairment or underlying instrumentation material. In the recent literature, free flaps and perforator flaps are considered as suitable options for this region. However early microsurgery planning may not be possible in every center due to the surgical experience, equipment or hospital and patient related factors. In such cases, transposition fasciocutaneous flaps emerge as a more accessible and efficient choice. Methods: All patients who underwent reconstruction with a random pattern transposition flap due to tissue defect in the lower extremity between 2019 and 2023 were retrospectively analyzed. Demographic characteristics, comorbidities, and defect mechanisms were recorded. Additionally, information regarding bone injuries, interventions performed, duration between injury and reconstruction, pre- and post-reconstruction cultures, and antibiotic treatments were documented. Post-reconstruction complications, ambulation period, and discharge time were also assessed. The limitations of microsurgery and reasons for flap planning were noted. Results: Twelve patients were included in this study. The mean age of the patients was 44 (20–67). The mechanism of defects were gunshot (6), fall (3), traffic accident (1), pressure ulcer (1), and tumor excision (1). In three patients (25%) who have previously undergone an operation for soft tissue defect, but there was exposed titanium implant or bone due to skin necrosis, a transposition flap was performed as a salvage procedure. In addition, 8 patients (73%) had multiple or comminuted bone fractures and 1 patient (8.3%) had a single bone fracture. While fixation was performed with titanium implants in 41.7% (5 patients) of the patients in the defect area, the fracture was stabilized with an external fixator in 2 patients and with a Kishner wire in 1 patient. Wound healing was observed good in 10 patients without other complex surgical intervention. Partial necrosis was observed in one patient due to infection. Partial dehiscence was observed in another patient with a pressure ulcer in the calcaneal region which was left to heal secondarily. Conclusions: Transposition fasciocutaneous flaps offers rapid planning process, easy disection and functionally and aesthetically benefits with proper planning. They should be considered as a simple option as salvage of complex soft tissue reconstruction. Level of evidence: Level IV, Therapeutic [ABSTRACT FROM AUTHOR]

Published

2024

22. First record of palaeopathologies in appendicular bones of the Triassic pseudosuchians Erpetosuchidae and Aetosauria based on microstructural approaches.

Author

PONCE, DENIS A., CERDA, IGNACIO A., and DESOJO, JULIA B.

Subjects

*RADIAL bone, *BONE injuries, *BONE growth, *SHIN splints, *TIBIA, *FIBULA

Abstract

Pseudosuchians were the dominant group of archosaurs on continental ecosystems during the Triassic. However, studies that report palaeopathologies based on osteohistological evidence in this group are scarce. Here, two cases of palaeopathologies found in appendicular bones of two clades of pseudosuchians are presented: Aetosauria, a distal fragment of the fibula of Aetosauroides scagliai and Erpetosuchidae, the distal half of the tibia of Tarjadia ruthae from the Ischigualasto and Chañares formations, respectively (province of La Rioja, Argentina). The cortex in both specimens is composed of woven-fibred bone in the deepest part and by parallel-fibred bone in the subperiosteum. Towards the outermost portion of the cortex, a thin layer of periosteal bone with an irregular margin is recorded, mainly formed by a fibrolamellar bone vascularized with relatively wide and anastomosed radial canals. These features are compatible with a specific tissue recognized in pathological conditions, the radial fibrolamellar bone (RFB), generated by periosteal reactive bone. Additionally, a thin layer of parallel-fibred/lamellar bone crossed this structure in A. scagliai and surrounding the outermost portion in both specimens. The presence of RFB shows an abnormally accelerated bony overgrowth. However, due to the short thickness of this layer and the subsequent formation of parallel-fibred bone, it indicates a slowdown in its development and a possible recovery of the pathological condition. The configuration of the injury is compatible with periostitis and it constitutes the first record of this type of pathologies in non-crocodylomorph pseudosuchians. As the causes for this benign injury, it is inferred a non-traumatic stress followed by a pyogenic infection. [ABSTRACT FROM AUTHOR]

Published

2024

23. Evaluation of Outcome of Percutaneous Fixation in Management of Unstable Metacarpal.

Author

Said, Mahmoud Mabruk, Sultan, Abd El Alem, and Abouelhagag, Ahmed Abdeldayem

Subjects

*SURGICAL complications, *BONE injuries, *BOUQUETS, *INTRAMEDULLARY fracture fixation, *EVERYDAY life, *PROGNOSIS

Abstract

Background: Injuries to the metacarpal bones are widespread and may severely limit a person's ability to go about their everyday lives. Unstable fractures usually need surgical intervention. Objectives: This study aimed to investigate how well Kirschner wires percutaneous fixing improves the prognosis of patients with unstable metacarpal fractures. Patients and methods: Fifteen patients with unstable metacarpal fractures were included in this study. They were treated by percutaneous fixation at Sharm El Sheikh Hospital through the period from 2017 to 2019. Nine patients in group 1 had antegrade intramedullary bouquet fixation and six in group 2 had transverse pinning. The results were evaluated using the total active movements (TAM) score after clinical and radiological follow-ups. Results: The mean patient age was 33.26 years. There were no statistically significant differences between the groups when it came to the intervals of time before fixation (p=0.64) and time until union (p=0.44). Results showed that both group 1 (76.77%) and group 2 (66.66%) when evaluated using TAM scores (p=0.26), had very good results. There were also no statistically significant differences between both groups in terms of the duration of follow-up or surgical complications (p=0.39 and p=0.35 respectively). Conclusion: There were no major variations in clinical or radiological outcomes between intramedullary and transverse pinning approaches when it comes to percutaneous fixation with Kirschner wires for unstable metacarpal fractures. Both methods provided equivalent results. [ABSTRACT FROM AUTHOR]

Published

2024

24. Incidence and Risk Factors for Bone Stress Injuries in United States Air Force Special Warfare Trainees.

Author

Johnson, Andrew S, Brismée, Jean-Michel, Hooper, Troy L, Hintz, Courtney N, and Hando, Benjamin R

Subjects

*BONE injuries, *AIR forces, *SPORTS participation, *MILITARY science, *HISTORY of sports

Abstract

Objectives To determine (1) the incidence rate of lower extremity (LE) bone stress injuries (BSIs) in United States Air Force Special Warfare (AFSPECWAR) trainees during the first 120 days of training, and (2) factors associated with sustaining a LE BSI. Design Retrospective cohort study. Methods AFSPECWAR Airmen (n  = 2,290, mean age = 23.7 ± 3.6 years) entering an intensive 8-week preparatory course "SW-Prep" between October 2017 and May 2021. We compared anthropometric measurements, previous musculoskeletal injury (MSKI), fitness measures, and prior high-impact sports participation in those that did and did not suffer a BSI during the 120-day observation period using independent t -tests and chi-square tests. A multivariable binary logistic regression was used to determine factors associated with suffering a BSI. Results A total of 124 AFSPECWAR trainees suffered a BSI during the surveillance period, yielding an incidence proportion of 5.41% and an incidence rate of 1.4 BSIs per 100 person-months. The multivariate logistic regression revealed that lower 2-minute sit-up scores, no prior history of participation in a high-impact high-school sport, and a history of prior LE MSKI were associated with suffering a BSI. A receiver operator characteristic curve analysis yielded an area under the curve (AUC) of 0.727. Conclusion BSI incidence proportion for our sample was similar to those seen in other military settings. Military trainees without a history of high-impact sports participation who achieve lower scores on sit-ups tests and have a history of LE MSKI have a higher risk for developing a LE BSI during the first 120 days of AFSPECWAR training. [ABSTRACT FROM AUTHOR]

Published

2024

25. Hamatometacarpal Fracture-Dislocations: Clinical Evaluation, Treatment Strategies, and Outcomes.

Author

Ünal, Melih, Hekim, Hanife Hale, Hasoğlan, Cemal, May, Hasan, and Acar, Baver

Subjects

*GRIP strength, *SYMPTOMS, *DELAYED diagnosis, *AXIAL loads, *BONE injuries

Abstract

Objective: Hamatometacarpal fracture-dislocations (HMFD) are rare hand injuries resulting from axial loading. This study aimed to present the clinical presentation and outcomes of HMFD, which is rare and likely to be missed in the emergency department. Methods: A retrospective analysis of 15 patients who underwent surgical intervention for HMFD between 2015 and 2023 was conducted. At the last follow-up, the presence of union, malunion, residual subluxation, and Kellgren-Lawrence grading scale were evaluated. Time to diagnosis, time to return to work (RTW), level of difficulty in working, grip strength, and disabilities of the arm, shoulder, and hand (DASH) scores were evaluated. Results: The mean patient age was 30.6 years. Most injuries (93.3%) were due to punching. Open reduction was performed in 73.3% of cases. No complications were reported during the mean of 52.3-month follow-up. Open reduction was associated with a lower DASH scores. Hand-intensive work was correlated with a longer time to RTW and higher difficulty to RTW. Delayed diagnosis was correlated with worse grip strength, but not with significantly different DASH scores. Conclusion: HMFD is a rare hand injury that presents as a diagnostic challenge. Achieving anatomical reduction is crucial for restoring hand function. Therefore, comprehensive treatment strategies should be planned individually, taking into account patients's injury patterns. [ABSTRACT FROM AUTHOR]

Published

2024

26. Production of Agarose-Hydroxyapatite Composites via Supercritical Gel Drying, for Bone Tissue Engineering.

Author

Zanotti, Alessandra, Baldino, Lucia, Cardea, Stefano, and Reverchon, Ernesto

Subjects

*TISSUE engineering, *YOUNG'S modulus, *HYDROXYAPATITE, *BONE injuries, *AGAROSE, *HYDROXYAPATITE coating

Abstract

Bone tissue engineering (BTE) is the most promising strategy to repair bones injuries and defects. It relies on the utilization of a temporary support to host the cells and promote nutrient exchange (i.e., the scaffold). Supercritical CO2 assisted drying can preserve scaffold nanostructure, crucial for cell attachment and proliferation. In this work, agarose aerogels, loaded with hydroxyapatite were produced in view of BTE applications. Different combinations of agarose concentration and hydroxyapatite loadings were tested. FESEM and EDX analyses showed that scaffold structure suffered from partial closure when increasing filler concentration; hydroxyapatite distribution was homogenous, and Young's modulus improved. Looking at BTE applications, the optimal combination of agarose and hydroxyapatite resulted to be 1% w/w and 10% w/v, respectively. Mechanical properties showed that the produced composites could be eligible as starting scaffold for BTE, with a Young's Modulus larger than 100 kPa for every blend. [ABSTRACT FROM AUTHOR]

Published

2024

27. Epidemiology of Bone-Stress Injuries and Health Care Use in Pac-12 Cross-Country Athletes.

Author

Wayner, Robert Aaron, Brown Crowell, Cathleen N., Bovbjerg, Viktor, Federicson, Michael, Soucy, Michael, Choe, SeokJae, and Simon, Janet E.

Subjects

*BONE injuries, *MEDICAL care use, *SPORTS medicine, *LONG-distance running, *OVERUSE injuries, *DATA analysis, *SPORTS injuries, *SEX distribution, *PHYSICAL training & conditioning, *DESCRIPTIVE statistics, *RESEARCH methodology, *SPORTS events, *MEDICAL records, *ACQUISITION of data, *STATISTICS, *HEALTH facilities, *CONFIDENCE intervals, *DATA analysis software, *STRESS fractures (Orthopedics), *EPIDEMIOLOGICAL research, *DISEASE risk factors

Abstract

Bone-stress injury (BSI) is common in collegiate athletes. Injury rates and health care use in running athletes are not well documented. To describe the rate and classification of injury and associated health care use in collegiate cross-country runners with BSI. Descriptive epidemiology study. Sports medicine facilities participating in the Pac-12 Health Analytics Program. Pac-12 Conference collegiate cross-country athletes. Counts of injury and health care resources used for each injury. Injury rates were calculated based on athlete-seasons. A total of 168 BSIs were reported over 4 seasons from 80 team-seasons (34 men's and 46 women's team-seasons) and 1220 athlete-seasons, resulting in 1764 athletic training services and 117 physician encounters. Bone-stress injuries represented 20% of all injuries reported by cross-country athletes. The average BSI rate was 0.14 per athlete-season. Injury rates were higher in female (0.16) than male (0.10) athletes and higher in the 2019–2020 season (0.20) than the 2020–2021 (0.14), 2018–2019 (0.12), and 2021–2022 (0.10) seasons. Most BSIs occurred in the lower leg (23.8%) and the foot (23.8%). The majority of injuries were classified as overuse and time loss (72.6%) and accounted for most of the athletic training services (75.3%) and physician encounters (72.6%). We found a mean of 10.89 athletic training services per overuse and time-loss injury and 12.20 athletic training services per overuse and non–time-loss injury. Mean occurrence was lower for physician encounters (0.70), prescription medications (0.04), tests (0.75), procedures (0.01), and surgery (0.02) than for athletic training services (10.50). Bone-stress injuries are common in collegiate cross-country runners and require considerable athletic training resources. Athletic trainers should be appropriately staffed for this population, and suspected BSIs should be confirmed with a medical diagnosis. Future investigators should track treatment codes associated with BSI to determine best-practice patterns. [ABSTRACT FROM AUTHOR]

Published

2024

28. M2 Macrophages Guide Periosteal Stromal Cell Recruitment and Initiate Bone Injury Regeneration.

Author

Lu, Dazhuang, Zhang, Yingfei, Liang, Shimin, Li, Yang, Qing, Jia, Gu, Lanxin, Xu, Xiuyun, Wang, Zeying, Gao, Xin, Liu, Hao, Zhang, Xiao, Zhou, Yongsheng, and Zhang, Ping

Subjects

PERIOSTEUM, BONE regeneration, STROMAL cells, BONE injuries, MACROPHAGES, RNA sequencing

Abstract

The periosteum plays a critical role in bone repair and is significantly influenced by the surrounding immune microenvironment. In this study, we employed 10× single-cell RNA sequencing to create a detailed cellular atlas of the swine cranial periosteum, highlighting the cellular dynamics and interactions essential for cranial bone injury repair. We noted that such injuries lead to an increase in M2 macrophages, which are key in modulating the periosteum's immune response and driving the bone regeneration process. These macrophages actively recruit periosteal stromal cells (PSCs) by secreting Neuregulin 1 (NRG1), a crucial factor in initiating bone regeneration. This recruitment process emphasizes the critical role of PSCs in effective bone repair, positioning them as primary targets for therapeutic interventions. Our results indicate that enhancing the interaction between M2 macrophages and PSCs could significantly improve the outcomes of treatments aimed at cranial bone repair and regeneration. [ABSTRACT FROM AUTHOR]

Published

2024

29. Calcium phosphate graphene and Ti3C2Tx MXene scaffolds with osteogenic and antibacterial properties.

Author

Orlando, Jason D., Li, Li, Limbu, Tej B., Deng, Chenyun, Wolf, Michelle E., Vickery, Walker M., Yan, Fei, and Sydlik, Stefanie A.

Subjects

CALCIUM phosphate, GRAPHENE, BONE injuries, GRAPHENE oxide, ACID catalysts

Abstract

Bioactive degradable scaffolds that facilitate bone healing while fighting off initial bacterial infection have the potential to change established strategies of dealing with traumatic bone injuries. To achieve this a composite material made from calcium phosphate graphene (CaPG), and MXene was synthesized. CaPG was created by functionalizing graphene oxide with phosphate groups in the presence of CaBr with a Lewis acid catalyst. Through this transformation, Ca2+ and PO43− inducerons are released as the material degrades thereby aiding in the process of osteogenesis. The 2D MXene sheets, which have shown to have antibacterial properties, were made by etching the Al from a layered Ti3AlC2 (MAX phase) using HF. The hot‐pressed scaffolds made of these materials were designed to combat the possibility of infection during initial surgery and failure of osteogenesis to occur. These two failure modes account for a large percentage of issues that can arise during the treatment of traumatic bone injuries. These scaffolds were able to retain induceron‐eluting properties in various weight percentages and bring about osteogenesis with CaPG alone and 2 wt% MXene scaffolds demonstrating increased osteogenic activity as compared to no treatment. Additionally, added MXene provided antibacterial properties that could be seen at as little as 2 wt%. This CaPG and MXene composite provides a possible avenue for developing osteogenic, antibacterial materials for treating bone injuries. [ABSTRACT FROM AUTHOR]

Published

2024

30. Self‐designed surgical guides for accurate socket shield preparation: An in vitro evaluation supported by a clinical report.

Author

Zhang, Xin, Zhao, Linxiao, Li, Lei, and Wang, Jian

Subjects

ONE-way analysis of variance, ALVEOLAR process, CONE beam computed tomography, DIGITAL dental impression systems, MULTIPLE comparisons (Statistics), BONE injuries

Abstract

Purpose: To achieve accurate socket shield preparation with newly proposed guides that are based on guiding rails and to investigate the effect of rail format (unilateral or bilateral) and rail height on the accuracy and efficiency of the guides. Materials and methods: Two surgical guides based on grooved rails to guide the rotary instruments were produced. The first guide was used to cut the root into a labial shield with a pre‐designed form and a lingual one, while the second guide was used to reduce the socket shield to the alveolar bone crest. The CBCT and intraoral scan data were first obtained and superimposed using the software. After isolating the root which would be used as a socket shield, grooved rails were designed on two separate guide templates according to the chosen rotary instruments to obtain a labial shield with a pre‐designed form. An in vitro study was then conducted based on four cases in each group to determine the accuracy, efficiency, and optimal parameters of the guides, which was then verified with a clinical report. Comparisons between groups were performed with a one‐way analysis of variance (ANOVA, for comparison between multiple groups) and the Student‐Newman‐Keuls test (for comparison between two groups). Results: With these two guides, the root can be divided into two pieces, including a palatal one and a labial one with a pre‐designed form within a short time. Guide templates with bilateral rails more than 7 mm in height and those with unilateral rails 9 mm in height significantly increased the surgery accuracy, showing accurate shield preparation and decreased bone injury. Moreover, the guides with bilateral rails of more than 5 mm significantly decreased the surgery time for shield preparation. The presented case further verified the accuracy and efficiency of the guides. Conclusions: The newly proposed guides can help to accurately prepare the socket shield, resulting in long‐term stability of peri‐implant tissues. Moreover, bilateral guiding rails with a height of 7–9 mm are recommended in such a guided socket shield surgery. [ABSTRACT FROM AUTHOR]

Published

2024

31. Step type is associated with loading and ankle motion in tap dance.

Author

Polascik, Breanna A., Jiang, Yue, and Schmitt, Daniel

Subjects

*TAP dancing, *ANKLE, *FOOT, *GROUND reaction forces (Biomechanics), *BONE injuries, *JOINTS (Anatomy)

Abstract

Tap dance generates forces and joint motions that can lead to injury; however, little is known about the magnitude of load across different tap steps. The purpose of this study was to calculate peak vertical forces, average vertical foot velocities, and maximum/minimum ankle angles produced by tap dancers with different levels of experience performing the toe cannon, heel cannon, flap, and cramp roll. This prospective cross-sectional study included 14 female tap dancers aged ≥18 years with varying tap experience. Participants were recorded by three cameras while performing a choreographed tap combination containing four steps of interest on a force platform. Adjusting for experience and dancer-level clustering, we identified the steps—cramp roll and toe cannon—that had the highest peak vertical ground reaction force, angles, and velocities compared to flap and heel cannon. There was no effect of experience. The results supported our hypothesis and provide new insights into step production. Over time, the larger forces associated with these steps could pose an increased risk of injury to bones and joints when compared to smaller forces, which may suggest the importance of adjusting routines to reduce or avoid injury. [ABSTRACT FROM AUTHOR]

Published

2024

32. Principles of musculoskeletal sport injuries for epidemiologists: a review.

Author

Wang, Chinchin, Stovitz, Steven D., Kaufman, Jay S., Steele, Russell J., and Shrier, Ian

Subjects

MUSCULOSKELETAL system injuries, BONE injuries, INJURY risk factors, SPORTS injury prevention, CARTILAGE injuries, TISSUES, SPORTS injuries, SEVERITY of illness index, TENDON injuries, SPRAINS, EPIDEMIOLOGISTS

Abstract

Background: Musculoskeletal injuries are a common occurrence in sport. The goal of sport injury epidemiology is to study these injuries at a population level to inform their prevention and treatment. Main body: This review provides an overview of musculoskeletal sport injuries and the musculoskeletal system from a biological and epidemiologic perspective, including injury mechanism, categorizations and types of sport injuries, healing, and subsequent injuries. It is meant to provide a concise introductory substantive background of musculoskeletal sport injuries for epidemiologists who may not have formal training in the underlying anatomy and pathophysiology. Conclusion: An understanding of sport injuries is important for researchers in sport injury epidemiology when determining how to best define and assess their research questions and measures. [ABSTRACT FROM AUTHOR]

Published

2024

33. Timely delivery of bone marrow mesenchymal stem cells based on the inflammatory pattern of bone injury environment to promote the repair of calvarial bone defects in rats: An optimized strategy for bone tissue engineering.

Author

Zeng, Yuwei, Lou, Aiju, Zhong, Zhenmin, Cai, Yu, Yang, Yixi, Liang, Haifeng, Lin, Yucong, He, Zhuoxuan, Zhou, Lei, Zhang, Zhi-Yong, and Wang, Le

Subjects

*BONE regeneration, *MESENCHYMAL stem cells, *TISSUE engineering, *BONE marrow, *BONE injuries, *CHEMOTAXIS, *STEM cell transplantation

Abstract

Stem cell-based therapy plays a significant role in the repair of bone defects. However, traditional stem cell transplantation strategies in bone tissue engineering are characterized by low survival rates and unstable treatment outcomes. In this study, we propose a timely delivery strategy for inflammatory changes in the setting of bone injury to improve the survival rate of transplanted cells and bone repair. The results of cell tracing in vivo showed that this strategy could effectively improve the survival rate of low-dose exogenous transplanted cells in bone defect areas, and CD31 immunofluorescence and histological sections suggested that this strategy effectively promoted vascularization and new bone formation in the calvarial defect area. Subsequently, we analyzed the mechanism of action of the "Two-step" strategy from the perspective of inflammatory microenvironment regulation, and the results suggested that the first batch transplanted stem cells caused localized and transient increases in tissue apoptosis levels and inflammatory factors, and recruited macrophage chemotaxis, and the second batch of cells may promote pro-inflammatory - anti-inflammatory transformation of the tissue. Finally, mRNA sequencing results suggest that the first batch cells in the "Two-step" strategy are important initiators in bone repair, which not only actively regulate the immune microenvironment at the bone defect, but also guide richer cellular activity and more positive biochemical responses. Therefore, the "Two-step" strategy leads to efficient inflammatory environment regulation and superior bone repair effects, which may provide an alternative option for the treatment of bone defects in the future. [ABSTRACT FROM AUTHOR]

Published

2024

34. A Novel 3D‐Printed Bi‐Layer Cranial‐Brain Patch Promotes Brain Injury Repair and Bone Tissue Regeneration.

Author

Zhou, Liming, Liu, Huiling, Zhang, Borui, Wei, Chengxiu, Zhou, Shihao, Huang, Xiaoying, Zhong, Xiaoxuan, Zhang, Li, Bi, Wei, Liu, Jianghui, Liang, Yizhi, Jin, Long, and Guo, Rui

Subjects

*BONE regeneration, *BRAIN injuries, *MACROPHAGE colony-stimulating factor, *BONE injuries, *CEREBRAL edema, *CHEMICAL templates, *VENOM

Abstract

Traumatic brain injury (TBI), recognized as the world's most serious public health problem, currently lacks effective treatment options. The development of the patch has great clinical significance whether it is used as a skull implant material or TBI repair. In response to this critical health challenge, a novel 3D‐printed bi‐layer cranial‐brain patch (SMB6) with dual functionality, addressing both TBI repair and skull regeneration, is developed. In the first layer, the incorporation of high concentrations of mesoporous bioactive glass nanoparticles establishes a microenvironment for bone regeneration. Meanwhile, the second layer, comprised of methacrylated silk fibroin hydrogel, provides essential mechanical support for nanocell membrane vesicles loaded with macrophage colony‐stimulating factor and interleukin‐6. This innovative design aims to interrupt the cascade of secondary brain injury. In experimental models of TBI, SMB6 demonstrates remarkable efficacy in inhibiting brain edema, exerting therapeutic effects on blood vessels, nerves, and inflammation. Additionally, promising outcomes are observed in promoting bone regeneration in skull defect models. This work not only introduces a potential therapeutic patch for TBI‐related diseases but also provides novel insights for the clinical translation of cranial patches. [ABSTRACT FROM AUTHOR]

Published

2024

35. Bone Bruises and Concomitant Meniscus and Cartilage Damage in Anterior Cruciate Ligament Injuries: A Systematic Review and Meta-Analysis.

Author

Sohn, Sueen, AlShammari, Saad Mohammed, Lee, Jeong Han, and Kim, Man Soo

Subjects

*ANTERIOR cruciate ligament injuries, *MENISCUS injuries, *MENISCUS (Anatomy), *BONE injuries, *ORTHOPEDISTS, *CARTILAGE

Abstract

(1) Background: Bone bruises in acute anterior cruciate ligament (ACL) injuries are closely linked to the occurrence of simultaneous meniscal and cartilage damage. Despite the frequent occurrence of associated injuries including bone bruises, meniscus, and cartilage damage in patients with ACL injuries, a systematic review of the relationships between the presence of bone bruises and the extent of meniscus and cartilage injuries has yet to be conducted. (2) Methods: Multiple comprehensive databases, including MEDLINE, EMBASE, and the Cochrane Library, were searched for studies that evaluated the relationship between bone bruises and meniscus or cartilage injuries following ACL injuries. Study selection, data extraction, and meta-analysis were performed. The Methodological Index for Non-Randomized Studies (MINORS) was used for quality assessments, and Review Manager 5.3 was used for data analysis. (3) Results: Data were extracted from 22 studies encompassing a total of 2891 patients with ACL injuries. Among the included studies, six studies investigated the relationships between bone bruises and medial meniscus (MM) or lateral meniscus (LM) injuries, while three studies investigated the relationships between bone bruises and cartilage injuries. There were no significant correlations between the presence of bone bruises and MM injuries (relative risk (RR) = 1.32; p = 0.61). A quantitative analysis indicated that individuals with bone bruises had a 2.71-fold higher likelihood of sustaining LM injuries than those without bone bruises (RR = 2.71; p = 0.0003). The analysis confirmed a significant relationship between bone bruises and cartilage injuries (RR = 6.18; p = 0.003). (4) Conclusions: Bone bruises occur most frequently in the lateral compartment. Bone bruises resulting from ACL injuries are related to accompanying LM injuries and cartilage injuries. Knowing these associations and the frequency of injuries may allow orthopedic surgeons to promptly address ACL-related meniscus and cartilage injuries on MRI results and in future clinical practice. [ABSTRACT FROM AUTHOR]

Published

2024

36. Advancing Exoskeleton Development: Validation of a Robotic Surrogate to Measure Tibial Strain.

Author

McGrath, Robert L., Price, Ciera A., Johnson, William Brett, and Childers, Walter Lee

Subjects

*ANKLE, *FOOT, *BONE injuries, *STRAIN gages, *ROBOTICS, *SHEAR strain, *MATERIALS testing

Abstract

Bone stress injuries are prevalent among athletes and military recruits and can significantly compromise training schedules. The development of an ankle–foot orthosis to reduce tibial load and enable a faster return to activity will require new device testing methodologies capable of capturing the contribution of muscular force on tibial strain. Thus, an actuated robotic surrogate leg was developed to explore how tibial strain changes with different ankle–foot orthosis conditions. The purpose of this work was to assess the reliability, scalability, and behavior of the surrogate. A dual actuation system consisting of a Bowden cable and a vertical load applied to the femur via a material testing system, replicated the action-reaction of the Achilles-soleus complex. Maximum and minimum principal strain, maximum shear strain, and axial strain were measured by instrumented strain gauges at five locations on the tibia. Strains were highly repeatable across tests but did not consistently match in vivo data when scaled. However, the stiffness of the ankle–foot orthosis strut did not systematically affect tibial load, which is consistent with in vivo findings. Future work will involve improving the scalability of the results to match in vivo data and using the surrogate to inform exoskeletal designs for bone stress injuries. [ABSTRACT FROM AUTHOR]

Published

2024

37. ROLE OF MAGNETIC RESONANCE IMAGING IN EVALUATION OF TRAUMATIC ANKLE INJURIES.

Author

Krishna, Vindya, L., Vasanth kumar, A., Shreelatha, and Madappanavar, Anand

Subjects

*ANKLE injuries, *MAGNETIC resonance imaging, *BONE injuries, *LIGAMENT injuries, *JOINT diseases, *TENDON injuries

Abstract

Objective: This study aimed to comprehensively evaluate traumatic ankle injuries using Magnetic Resonance Imaging (MRI) and provide detailed insights into demographics, injury patterns, and prevalence. Methods: A total of 55 patients with suspected ankle injuries following trauma were included in this descriptive study. MRI was employed for evaluation, and data were collected over an 18-month period. Demographic details, injury types, and prevalence were systematically analyzed. Results: The study revealed a higher incidence of traumatic ankle injuries in the 21-30 age group, with a male predominance. Acute onset of symptoms, commonly associated with twisting, was observed. Ligament injuries were predominant (83.6%), with lateral ligaments, especially the Anterior Talofibular Ligament, most frequently affected. Tendon injuries, bone injuries (including contusions, fractures, osteochondral lesions, and osteonecrosis), and joint effusion were also identified. Conclusion: MRI emerged as a valuable tool for characterizing traumatic ankle injuries. Ligament injuries, particularly grade 1 sprains, predominated, emphasizing the role of lateral ligaments. Notable variations in injury patterns, tendon involvement, and bone injuries were elucidated. The study contributes to clinical understanding and highlights the importance of tailored treatment strategies based on imaging findings. [ABSTRACT FROM AUTHOR]

Published

2024

38. 胫神经损伤对胫骨单截骨骨搬移治疗效果的影响.

Author

许 奥, 王 斌, 方 均, 白崔魏, 吕梓宸, 程 康, 郑永鑫, and 王红涛

Subjects

*TIBIAL nerve, *NERVOUS system injuries, *BONE products, *PERIPHERAL nervous system, *BONE injuries, *HEALING, *WOUND healing

Abstract

BACKGROUND: Peripheral nerves play an important role in bone metabolism. In clinical practice, the specific impact of nerve injury on bone transport technology needs further study. OBJECTIVE: To investigate the effect of tibial nerve injury on the treatment of tibial slip by single-plane osteotomy. METHODS: Thirty-two patients with tibial bone defects admitted to Tangshan Second Hospital from May 2011 to June 2022 were selected. According to the presence or absence of tibial nerve injury, patients were divided into the tibial nerve injury group (n=16) and the non-tibial nerve injury group (n=16). Both groups were treated with single-plane osteotomy and bone slip. After treatment, the patients were followed up to collect the mineralization zone healing index, external fixation index, docking point healing and needle infection. After the removal of external fixation, the bone healing and functional evaluation were evaluated by a classification of the Association for the Study and Application of the Method of Ilizarov (ASAMI). RESULTS AND CONCLUSION: (1) All 32 patients were followed up for (25.28±4.79) months. There were no significant differences in bone healing time, external fixation time, healing index and external fixation index between the two groups (P > 0.05). Needle infection occurred in two cases of the tibial nerve injury group and one case of the non-tibial nerve injury group, all of which were PALEY I, and there was no significant difference between the two groups (P > 0.05). The non-union rate of the occlusal end of the tibial nerve injury group was 31%, and that of the non-tibial nerve injury group was 13%; there was no statistical difference between the two groups (P > 0.05). The excellent and good rate of ASAMI bone healing score in the two groups was 100%; the excellent and good rate of limb score was 81% in the tibial nerve injury group and 94% in the non-tibial nerve injury group; there was no statistical difference between the two groups (P > 0.05). (2) Our research shows that tibial nerve injury has no significant effect on the mineralization speed, external fixation time, union of the occlusal end, infection of the needle tract, and the quality of bone formation in the mineralized area of the single-plane osteotomy. [ABSTRACT FROM AUTHOR]

Published

2024

39. Addressing Challenges in Wildlife Rehabilitation: Antimicrobial-Resistant Bacteria from Wounds and Fractures in Wild Birds.

Author

Sánchez-Ortiz, Esther, Blanco Gutiérrez, María del Mar, Calvo-Fernandez, Cristina, Mencía-Gutiérrez, Aida, Pastor Tiburón, Natalia, Alvarado Piqueras, Alberto, Pablos-Tanarro, Alba, and Martín-Maldonado, Bárbara

Subjects

*WILDLIFE rehabilitation, *WILDLIFE rescue, *COMPOUND fractures, *BONE injuries, *BACTERIA, *HERBICIDE resistance, *BIRD conservation, *ACETABULARIA

Abstract

Simple Summary: Wildlife rescue centers frequently admit animals with injuries and bone fractures. Open fractures are common in birds due to their anatomy, and this can lead to complications like osteomyelitis, which implies a serious bone infection and often necrosis, or death of the affected bone tissue. Antibiotic therapy is crucial, but the rise in antimicrobial-resistant isolates in wildlife raises concerns about treatment efficacy. A study focused on isolating, identifying, and assessing antimicrobial resistance in bacteria from wounds and fractures in wild birds. Among 36 isolates, Staphylococcus spp. dominated (63.8%), with 82.6% exhibiting antimicrobial resistance, particularly to clindamycin, an antimicrobial key in the treatment of infected bone fractures. This escalating resistance poses a dual threat to wildlife—therapeutic failure and the spread of resistant bacteria in ecosystems. Injuries and bone fractures are the most frequent causes of admission at wildlife rescue centers. Wild birds are more susceptible to open fractures due to their anatomical structure, which can lead to osteomyelitis and necrosis. Antibiotic therapy in these cases is indispensable, but the increase of antimicrobial-resistant isolates in wildlife has become a significant concern in recent years. In this context, the likelihood of antibiotic failure and death of animals with infectious issues is high. This study aimed to isolate, identify, and assess the antimicrobial resistance pattern of bacteria in wounds and open fractures in wild birds. To this end, injured birds admitted to a wildlife rescue center were sampled, and bacterial isolation and identification were performed. Then, antimicrobial susceptibility testing was assessed according to the disk diffusion method. In total, 36 isolates were obtained from 26 different birds. The genera detected were Staphylococcus spp. (63.8%), Escherichia (13.9%), Bacillus (11.1%), Streptococcus (8.3%), and Micrococcus (2.8%). Among Staphylococcus isolates, S. lentus and S. aureus were the most frequent species. Antimicrobial resistance was detected in 82.6% of the isolates, among which clindamycin resistance stood out, and 31.6% of resistant isolates were considered multidrug-resistant. Results from this study highlight the escalating scope of antimicrobial resistance in wildlife. This level of resistance poses a dual concern for wildlife: firstly, the risk of therapeutic failure in species of significant environmental value, and, secondly, the circulation of resistant bacteria in ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

40. Ultrasonography in the diagnosis of pediatric distal forearm fracture: a systematic review.

Author

Ahmed, Ayman S. and Abdelhady, Ahmed E.

Subjects

*WRIST fractures, *BONE injuries, *CHILD patients, *ULTRASONIC imaging, *ELECTRONIC information resource searching

Abstract

Purpose: Distal forearm fractures are one of the commonest injuries in children due to falling on an outstretched hand. Plain X-ray is the gold standard test for diagnosing fractures of long bones but it exposes patients to radiation with its associated health hazards. The use of ultrasonography has been proposed as a safer diagnostic test. This review aimed to summarize the evidence regarding the diagnostic accuracy of bedside ultrasonography for identifying distal forearm fractures in pediatric patients. Methods: Electronic search of MEDLINE, EMBASE, Cochrane Library, Google Scholar, and Best Bets databases was conducted for studies published from inception to May 2017. The search terms used included "forearm" and "fractures" and "children." Results: Seven studies were included in the review. The overall accuracy of ultrasonography ranged from 78.6% to 99.5%. The sensitivity and specificity ranged from 85% to 100%, and from 73% to 100%, respectively. The area under the curve for ultrasonography ranged from 0.79 to 1.00. Conclusion: Ultrasound is a reliable diagnostic tool for the diagnosis of distal forearm fractures in children when performed by well-trained emergency doctors and through using an appropriate viewing method. Conducting larger prospective blinded studies on long bone injuries would be recommended. [ABSTRACT FROM AUTHOR]

Published

2024

41. Bone Bruise versus Fracture on MRI and the Relevance to Return to Play.

Author

Belair, Jeffrey A. and Zoga, Adam C.

Subjects

*SPORTS re-entry, *MEDICAL personnel, *BONE injuries, *MAGNETIC resonance imaging, *ELITE athletes

Abstract

We review the spectrum of acute osseous injuries in athletes, ranging from osseous contusion (bone bruise) injuries to nondisplaced cortical fractures. The basic biomechanical concepts, underlying histopathologic changes, and characteristic magnetic resonance imaging (MRI) features of acute osseous injuries are presented. Bone bruise injuries of varying severity are highlighted to showcase the breadth of imaging findings on MRI and methods for characterizing such lesions. We emphasize the importance of accurately assessing patterns of injury on MRI to communicate more effectively with team medical staff and recognize the implications on return to play. This article offers the foundational tools for approaching bone bruise injuries in elite athletes to add value to the diagnosis and treatment of this unique patient population. [ABSTRACT FROM AUTHOR]

Published

2024

42. An Overview on the Big Players in Bone Tissue Engineering: Biomaterials, Scaffolds and Cells.

Author

Ferraz, Maria Pia

Subjects

*TISSUE scaffolds, *TISSUE engineering, *BIOMATERIALS, *ORTHOPEDIC implants, *BONE injuries, *PRODUCTION methods

Abstract

Presently, millions worldwide suffer from degenerative and inflammatory bone and joint issues, comprising roughly half of chronic ailments in those over 50, leading to prolonged discomfort and physical limitations. These conditions become more prevalent with age and lifestyle factors, escalating due to the growing elderly populace. Addressing these challenges often entails surgical interventions utilizing implants or bone grafts, though these treatments may entail complications such as pain and tissue death at donor sites for grafts, along with immune rejection. To surmount these challenges, tissue engineering has emerged as a promising avenue for bone injury repair and reconstruction. It involves the use of different biomaterials and the development of three-dimensional porous matrices and scaffolds, alongside osteoprogenitor cells and growth factors to stimulate natural tissue regeneration. This review compiles methodologies that can be used to develop biomaterials that are important in bone tissue replacement and regeneration. Biomaterials for orthopedic implants, several scaffold types and production methods, as well as techniques to assess biomaterials' suitability for human use—both in laboratory settings and within living organisms—are discussed. Even though researchers have had some success, there is still room for improvements in their processing techniques, especially the ones that make scaffolds mechanically stronger without weakening their biological characteristics. Bone tissue engineering is therefore a promising area due to the rise in bone-related injuries. [ABSTRACT FROM AUTHOR]

Published

2024

43. Bone health and the masters runner.

Author

Raiser, Sara N., Schroeder, Allison N., Lawley, Richard J., and Tenforde, Adam S.

Subjects

BONE health, OSTEOPOROSIS, BONE injuries, OVERUSE injuries, PHYSICAL activity

Abstract

Masters runners are often defined as those ages 35 years and older who train and compete in running events. These runners represent a growing population of the overall running community and experience running‐related injuries including bone stress injuries (BSIs). Similar to younger runners, health considerations in masters runners include the goal to optimize bone health with focus on mitigating age‐associated loss of bone strength and preventing BSIs through a combination of ensuring appropriate physical activity, optimizing nutrition, and correcting faulty biomechanics. Importantly, BSIs in masters runners may include characteristics of both overuse injury from insufficient recovery and failure of bone weakened by age‐related loss of bone (insufficiency fractures). This narrative review covers the limited available research on strategies to optimize bone health in masters runners. Applying knowledge on masters athletes and extrapolating from other populations, we propose strategies on treatment and prevention of BSIs. Finally, the review highlights gaps in knowledge that require further age‐specific discoveries to advance treatment and prevention. [ABSTRACT FROM AUTHOR]

Published

2024

44. Interaction between immuno-stem dual lineages in jaw bone formation and injury repair.

Author

Ziyi Liu, Xutao Luo, and Ruoshi Xu

Subjects

BONE growth, BONE injuries, STEM cells, JAWS, HUMAN body

Abstract

The jawbone, a unique structure in the human body, undergoes faster remodeling than other bones due to the presence of stem cells and its distinct immune microenvironment. Long-term exposure of jawbones to an oral environment rich in microbes results in a complex immune balance, as shown by the higher proportion of activated macrophage in the jaw. Stem cells derived from the jawbone have a higher propensity to differentiate into osteoblasts than those derived from other bones. The unique immune microenvironment of the jaw also promotes osteogenic differentiation of jaw stem cells. Here, we summarize the various types of stem cells and immune cells involved in jawbone reconstruction. We describe the mechanism relationship between immune cells and stem cells, including through the production of inflammatory bodies, secretion of cytokines, activation of signaling pathways, etc. In addition, we also comb out cellular interaction of immune cells and stem cells within the jaw under jaw development, homeostasis maintenance and pathological conditions. This review aims to eclucidate the uniqueness of jawbone in the context of stem cell within immune microenvironment, hopefully advancing clinical regeneration of the jawbone. [ABSTRACT FROM AUTHOR]

Published

2024

45. Influence of the timing of surgery for cervical spinal cord injury without bone injury in the elderly: A retrospective multicenter study.

Author

Nori, Satoshi, Watanabe, Kota, Takeda, Kazuki, Yamane, Junichi, Kono, Hitoshi, Yokogawa, Noriaki, Sasagawa, Takeshi, Ando, Kei, Nakashima, Hiroaki, Segi, Naoki, Funayama, Toru, Eto, Fumihiko, Yamaji, Akihiro, Furuya, Takeo, Yunde, Atsushi, Nakajima, Hideaki, Yamada, Tomohiro, Hasegawa, Tomohiko, Terashima, Yoshinori, and Hirota, Ryosuke

Subjects

*SPINAL cord surgery, *SPINAL cord injuries, *BONE injuries, *OLDER patients, *MULTIPLE regression analysis

Abstract

Although previous studies have demonstrated the advantages of early surgery for traumatic spinal cord injury (SCI), the appropriate surgical timing for cervical SCIs (CSCIs) without bone injury remains controversial. Here, we investigated the influence of relatively early surgery within 48 h of injury on the neurological recovery of elderly patients with CSCI and no bone injury. In this retrospective multicenter study, we reviewed data from 159 consecutive patients aged ≥65 years with CSCI without bone injury who underwent surgery in participating centers between 2010 and 2020. Patients were followed up for at least 6 months following CSCI. We divided patients into relatively early (≤48 h after CSCI, n = 24) and late surgery (>48 h after CSCI, n = 135) groups, and baseline characteristics and neurological outcomes were compared between them. Multivariate analysis was performed to identify factors associated with neurological recovery. The relatively early surgery group demonstrated a lower prevalence of cardiac disease, poorer baseline American Spinal Injury Association (ASIA) impairment scale grade, and lower baseline ASIA motor score (AMS) than those of the late surgery group (P < 0.030, P < 0.001, and P < 0.001, respectively). Although the AMS was lower in the relatively early surgery group at 6 months following injury (P = 0.001), greater improvement in this score from baseline to 6-months post injury was observed (P = 0.010). Multiple linear regression analysis revealed that relatively early surgery did not affect postoperative improvement in AMS, rather, lower baseline AMS was associated with better AMS improvement (P < 0.001). Delirium (P = 0.006), pneumonia (P = 0.030), and diabetes mellitus (P = 0.039) negatively influenced postoperative improvement. Although further validation by future studies is required, relatively early surgery did not show a positive influence on neurological recovery after CSCI without bone injury in the elderly. [ABSTRACT FROM AUTHOR]

Published

2024

46. Unraveling the Role of RNase L Knockout in Alleviating Immune Response Activation in Mice Bone Marrow after Irradiation.

Author

Ding, Kexin, Li, Hujie, Tai, Fumin, Duan, Junzhao, Wang, Qiong, Zhai, Rui, Fu, Hanjiang, Ge, Changhui, and Zheng, Xiaofei

Subjects

*BONE marrow, *IMMUNE response, *IRRADIATION, *IONIZING radiation, *BONE injuries

Abstract

Ionizing radiation (IR) induces severe hematopoietic injury by causing DNA and RNA damage as well as activating the immune responses, necessitating the development of effective therapeutic strategies. Ribonuclease L (RNase L) as an innate immune response pathway is triggered by exogenous and endogenous abnormal dsRNA under viral infection and dyshomeostasis, thereby activating the immune responses. Thus, we investigated the effect of RNase L on irradiation-induced bone marrow damage using RNase L knockout (RNase L−/−) mice. Phenotypic analysis revealed that RNase L knockout mitigates irradiation-induced injury in the bone marrow. Further investigation into the mechanism of RNase L by RNA-seq, qRT-PCR, and CBA analysis demonstrated that RNase L deficiency counteracts the upregulation of genes related to immune responses induced by irradiation, including cytokines and interferon-stimulated genes. Moreover, RNase L deficiency inhibits the increased levels of immunoglobulins in serum induced by irradiation. These findings indicate that RNase L plays a role in the immune response induced by irradiation in the bone marrow. This study further enhances our understanding of the biological functions of RNase L in the immune response induced by irradiation and offers a novel approach for managing irradiation-induced bone marrow injury through the regulation of RNase L activation. [ABSTRACT FROM AUTHOR]

Published

2024

47. Development of Biocompatible Digital Light Processing Resins for Additive Manufacturing Using Visible Light-Induced RAFT Polymerization.

Author

Sarabia-Vallejos, Mauricio A., De la Fuente, Scarleth Romero, Tapia, Pamela, Cohn-Inostroza, Nicolás A., Estrada, Manuel, Ortiz-Puerta, David, Rodríguez-Hernández, Juan, and González-Henríquez, Carmen M.

Subjects

*ROSE bengal, *BONE injuries, *MINIMAL surfaces, *ETHYLENE glycol, *ALKALINE phosphatase, *POLYMERIZATION

Abstract

Patients with bone diseases often experience increased bone fragility. When bone injuries exceed the body's natural healing capacity, they become significant obstacles. The global rise in the aging population and the escalating obesity pandemic are anticipated to lead to a notable increase in acute bone injuries in the coming years. Our research developed a novel DLP resin for 3D printing, utilizing poly(ethylene glycol diacrylate) (PEGDA) and various monomers through the PET-RAFT polymerization method. To enhance the performance of bone scaffolds, triply periodic minimal surfaces (TPMS) were incorporated into the printed structure, promoting porosity and pore interconnectivity without reducing the mechanical resistance of the printed piece. The gyroid TPMS structure was the one that showed the highest mechanical resistance (0.94 ± 0.117 and 1.66 ± 0.240 MPa) for both variants of resin composition. Additionally, bioactive particles were introduced to enhance the material's biocompatibility, showcasing the potential for incorporating active compounds for specific applications. The inclusion of bioceramic particles produces an increase of 13% in bioactivity signal for osteogenic differentiation (alkaline phosphatase essay) compared to that of control resins. Our findings highlight the substantial improvement in printing precision and resolution achieved by including the photoabsorber, Rose Bengal, in the synthesized resin. This enhancement allows for creating intricately detailed and accurately defined 3D-printed parts. Furthermore, the TPMS gyroid structure significantly enhances the material's mechanical resistance, while including bioactive compounds significantly boosts the polymeric resin's biocompatibility and bioactivity (osteogenic differentiation). [ABSTRACT FROM AUTHOR]

Published

2024

48. The knowledge of movement experts about stretching effects: Does the science reach practice?

Author

Warneke, Konstantin, Konrad, Andreas, and Wilke, Jan

Subjects

*MEDICAL personnel, *SCIENTIFIC communication, *SCIENTIFIC knowledge, *MYALGIA, *BONE injuries

Abstract

Objective: Stretching is performed with numerous purposes in multiple settings such as prevention, rehabilitation, fitness training and sports. Its patterns of use substantially depend on the education and beliefs of health care and exercise professionals as they represent the multiplicators recommending and prescribing interventions to clients, patients and athletes. This study investigated movement experts' knowledge about the scientific evidence on stretching effects. Design: Survey study. Participants: A total of 117 exercise and health professionals (physiotherapists, sports scientists, coaches) attending a training convention in Austria (male: n = 44, female: n = 73, 36±11 years) completed a digital survey. With its 22 items, the questionnaire addressed the movement experts' awareness of the evidence on stretching effects regarding a variety of related topics selected based on the findings of topical systematic reviews. Results: The majority of the individuals (57–88%) assumed positive effects of stretching on recovery, prevention of muscle injury, range of motion, muscular imbalance and artery elasticity. No or adverse effects were mostly claimed on bone injury prevention, maximal/explosive strength, and delayed-onset muscle soreness. In only 10 of 22 items, participants' classifications were in accord with the scientific evidence. Conclusions: The awareness of research findings on stretching effects among exercise and health professionals is alarmingly low. Future studies may hence be geared to improve implementation and science communication. [ABSTRACT FROM AUTHOR]

Published

2024

49. Composite Cryogels Based on Hydroxyapatite and Polyvinyl Alcohol and the Study of Physicochemical and Mechanical Properties.

Author

Shalygina, Kseniia, Lytkina, Daria, Sadykov, Rustam, and Kurzina, Irina

Subjects

*HYDROXYAPATITE, *BONE regeneration, *MELTING points, *POLYVINYL alcohol, *INFRARED spectroscopy, *CELL survival, *BONE injuries

Abstract

Nowadays, due to the increasing number of diseases and injuries related to bone tissue, there is an acute problem of creating a material that could be incorporated into the bone tissue structure and contribute to accelerated bone regeneration. Such materials can be represented by a polymeric matrix that holds the material in the bone and an inorganic component that can be incorporated into the bone structure and promote accelerated bone regeneration. Therefore, in this work we investigated polyvinyl alcohol-based composite cryogels containing an in situ deposited inorganic filler, hydroxyapatite. The freezing temperature was varied during the synthesis process. The composition of the components was determined by infrared spectroscopy and the phase composition by X-ray phase analysis, from which it was found that the main phase of the composite is hydroxyapatite and that the particle size decreases with increasing freezing temperature. The elemental composition of the surface is dominated by carbon, oxygen, phosphorus and calcium; no impurities of other elements not typical for polyvinyl alcohol/ hydroxyapatite cryogels were found. Higher mechanical properties and melting points were observed at −15 °C. Cryogenic treatment parameters did not affect cell viability; however, cell viability was above 80% in all samples. [ABSTRACT FROM AUTHOR]

Published

2024

50. Effect of a Nursing Health Education Model Based on the Rosenthal Effect on Posttraumatic Growth of Patients with a First Accidental Fracture.

Author

Xuejiao Wang and Bei Cheng

Subjects

*BONE fractures, *BONE injuries, *PSYCHIATRIC nursing, *MENTAL depression, *ANXIETY

Abstract

Objective • To investigate the effect of a nursing health education model based on the Rosenthal effect on the posttraumatic growth of patients with a first accidental fracture. Methods • We recruited 212 patients with a first accidental fracture from February 2021 to February 2022; the patients were divided into a control group (n = 106) and an Rosenthal Group (n = 106). The control group received daily care during hospitalization, and the Rosenthal Group received treatment based on a Rosenthal effect health education model. We compared the 2 groups before and after treatment using the Chinese Posttraumatic Growth Inventory (C-PTGI), the Connor-Davidson Resilience Scale (CD-RISC), the Pittsburgh Sleep Quality Index (PSQI), a Visual Analog Scale (VAS) to assess pain, the 36-item Short Form Health Survey (SF-36) to assess quality of life, the Hamilton Anxiety Scale (HAMA), and the Hamilton Depression Scale (HAMD). Results • The psychological resilience of both groups of patients improved after treatment, as assessed by C-PTGI and CD-RISC (all P < .05), and the Rosenthal Group improved more than the control group after treatment (all P < .05). The sleep quality and pain scores, as measured by PSQI and VAS, improved for both groups of patients after treatment, and the Rosenthal group improved more than the control group after treatment (all P < .05). The quality of life, as assessed by SF-36, of both groups of patients was similar before treatment (all P > .05) and improved significantly after treatment (all P < .05). The patients’ depression and anxiety, as assessed by HAMA and HAMD, improved in both groups after treatment (all P < .05), and the Rosenthal group improved more than the control group after treatment (all P < .05). Conclusion • The Rosenthal effect nursing health education model promotes the posttraumatic psychological growth of patients with a first accidental fracture and enhances their psychological resilience, showing that the Rosenthal effect has important health benefits and can be promoted for clinical application to adjust a patient’s psychological state. [ABSTRACT FROM AUTHOR]

Published

2024