Musculoskeletal injuries are among the most common causes of disability worldwide,with early detection and appropriate intervention critical to minimizing long-term complications.Infrared thermography(IRT)has emerged ...Musculoskeletal injuries are among the most common causes of disability worldwide,with early detection and appropriate intervention critical to minimizing long-term complications.Infrared thermography(IRT)has emerged as a noninvasive,real-time imaging modality that captures superficial temperature changes reflecting underlying physiological processes such as inflammation and vascular alterations.This review explores the fundamental principles of medical thermography,differentiates between passive and active approaches,and outlines key technological advancements including artificial intelligence integration.The clinical utility of IRT is discussed in various contexts–ranging from acute soft tissue injuries and overuse syndromes to chronic pain and rehabilitation monitoring.Comparative insights with conventional imaging techniques such as ultrasound and magnetic resonance imaging are also presented.While IRT offers functional imaging capabilities with advantages in portability,safety,and speed,its limitations–such as lack of deep-tissue penetration and protocol standardization–remain significant barriers to broader adoption.Future directions include the integration of IRT with other imaging modalities and digital health platforms to enhance musculoskeletal assessment and injury prevention strategies.展开更多
BACKGROUND Orthobiologics-biological substances like platelet-rich plasma(PRP),bone marrow aspirate concentrate,and stem cells-are increasingly used in musculoskeletal care to promote tissue repair and reduce reliance...BACKGROUND Orthobiologics-biological substances like platelet-rich plasma(PRP),bone marrow aspirate concentrate,and stem cells-are increasingly used in musculoskeletal care to promote tissue repair and reduce reliance on invasive surgery.Despite global momentum,India's clinical adoption remains underexplored.AIM To inform education,policy,and resource allocation for the safe and effective adoption of orthobiologics in musculoskeletal care.METHODS A cross-sectional electronic survey was conducted from January to March 2025 among orthopaedic surgeons,academicians,and trainees across India.The questionnaire assessed demographics,knowledge of orthobiologics,attitudes toward training and subspecialization,usage trends,regulatory awareness,and perceived barriers.Data were analyzed using descriptive statistics andχ2/Fisher’s exact tests,with P<0.05 considered significant.RESULTS A total of 1280 valid responses were collected.Awareness of orthobiologics was high(97%),with PRP being the most familiar and widely used(80%).Formal training was reported by only 31%,though 85%showed interest in structured education,and 68%supported orthobiologics as a subspecialty.Satisfaction with clinical outcomes averaged 6.5±2.3 out of 10 points.Barriers included high treatment cost(64%),poor patient awareness(90%),and limited access to biologics labs(18%).Regulatory understanding was moderate,with academic-affiliated clinicians more informed about stem cell guidelines.CONCLUSION Indian orthopaedic professionals demonstrate strong awareness and optimism toward orthobiologics,but widespread gaps in training,infrastructure,and regulation hinder broader adoption.Strategic investments in education,standardized protocols,and accessible facilities are essential to support safe and evidence-driven integration of regenerative therapies into clinical practice.展开更多
Molecular hydrogen(H2)demonstrates selective antioxidant and anti-inflammatory properties with therapeutic potential across musculoskeletal conditions including osteoarthritis,rheumatoid arthritis,exercise-induced mus...Molecular hydrogen(H2)demonstrates selective antioxidant and anti-inflammatory properties with therapeutic potential across musculoskeletal conditions including osteoarthritis,rheumatoid arthritis,exercise-induced muscle damage,chronic pain syndromes,tendinopathies,and muscle atrophy.This review critically evaluates preclinical and clinical evidence for H2 therapy and identifies research gaps.A comprehensive search of PubMed,EMBASE,and Cochrane Library(up to April 2025)yielded 45 eligible studies:25 preclinical and 20 clinical trials.Preclinical models consistently showed reductions in reactive oxygen species,inflammatory cytokines,and improved cell viability.Clinical trials reported symptomatic relief in osteoarthritis,decreased Disease Activity Score 28 in rheumatoid arthritis,and accelerated clearance of muscle damage markers.Delivery methods varied-hydrogen-rich water,gas inhalation,and saline infusion-hindering direct comparison.Mechanistic biomarkers were inconsistently reported,limiting understanding of target engagement.Common limitations included small sample sizes,short durations,and protocol heterogeneity.Despite these constraints,findings suggest H2 may serve as a promising adjunctive therapy via antioxidant,anti-inflammatory,and cytoprotective mechanisms.Future research should prioritize standardized delivery protocols,robust mechanistic endpoints,and longer-term randomized trials to validate clinical efficacy and optimize therapeutic strategies.展开更多
Knee osteoarthritis(OA)is a debilitating condition with limited long-term treatment options.The therapeutic potential of mesenchymal stem cells(MSCs),particularly those derived from bone marrow aspirate concentrate,ha...Knee osteoarthritis(OA)is a debilitating condition with limited long-term treatment options.The therapeutic potential of mesenchymal stem cells(MSCs),particularly those derived from bone marrow aspirate concentrate,has garnered attention for cartilage repair in OA.While the iliac crest is the traditional site for bone marrow harvesting(BMH),associated morbidity has prompted the exploration of alternative sites such as the proximal tibia,distal femur,and proximal humerus.This paper reviews the impact of different harvesting sites on mesenchymal stem cell(MSC)yield,viability,and regenerative potential,emphasizing their relevance in knee OA treatment.The iliac crest consistently offers the highest MSC yield,but alternative sites within the surgical field of knee procedures offer comparable MSC characteristics with reduced morbidity.The integration of harvesting techniques into existing knee surgeries,such as total knee arthroplasty,provides a less invasive approach while maintaining thera-peutic efficacy.However,variability in MSC yield from these alternative sites underscores the need for further research to standardize techniques and optimize clinical outcomes.Future directions include large-scale comparative studies,advanced characterization of MSCs,and the development of personalized harvesting strategies.Ultimately,the findings suggest that optimizing the site of BMH can significantly influence the quality of MSC-based therapies for knee OA,enhancing their clinical utility and patient outcomes.展开更多
The critical role of patient-reported outcome measures(PROMs)in enhancing clinical decision-making and promoting patient-centered care has gained a profound significance in scientific research.PROMs encapsulate a pati...The critical role of patient-reported outcome measures(PROMs)in enhancing clinical decision-making and promoting patient-centered care has gained a profound significance in scientific research.PROMs encapsulate a patient's health status directly from their perspective,encompassing various domains such as symptom severity,functional status,and overall quality of life.By integrating PROMs into routine clinical practice and research,healthcare providers can achieve a more nuanced understanding of patient experiences and tailor treatments accordingly.The deployment of PROMs supports dynamic patient-provider interactions,fostering better patient engagement and adherence to tre-atment plans.Moreover,PROMs are pivotal in clinical settings for monitoring disease progression and treatment efficacy,particularly in chronic and mental health conditions.However,challenges in implementing PROMs include data collection and management,integration into existing health systems,and acceptance by patients and providers.Overcoming these barriers necessitates technological advancements,policy development,and continuous education to enhance the acceptability and effectiveness of PROMs.The paper concludes with recommendations for future research and policy-making aimed at optimizing the use and impact of PROMs across healthcare settings.展开更多
Purpose–This study aims to propose a cooperative adhesion control method for trains with multiple motors electric locomotives.The method is intended to optimize the output torque of each motor,maximize the utilizatio...Purpose–This study aims to propose a cooperative adhesion control method for trains with multiple motors electric locomotives.The method is intended to optimize the output torque of each motor,maximize the utilization of train adhesion within the total torque command,reduce the train skidding/sliding phenomenon and achieve optimal adhesion utilization for each axle,thus realizing the optimal allocation of the multi-motor electric locomotives.Design/methodology/approach–In this study,a model predictive control(MPC)-based cooperative maximum adhesion tracking control method for multi-motor electric locomotives is presented.Firstly,train traction system with multiple motors is constructed in accordance with Newton’s second law.These equations include the train dynamics equations,the axle dynamics equations,and the wheel-rail adhesion coefficient equations.Then,a new MPC-based multi-axle adhesion co-optimization method is put forward.This method calculates the optimal output torque through real-time iteration based on the known reference slip speed to achieve multi-axle co-optimization under different circumstances.Findings–This paper presents a MPC system designed for the cooperative control of multi-axle adhesion.The results indicate that the proposed control system is able to optimize the adhesion of multiple axles under numerous different conditions and achieve the optimal power distribution based on the reduction of train skidding/sliding.Originality/value–This study presents a novel cooperative adhesion tracking control scheme.It is designed for multi-motor electric locomotives,which has rarely been studied before.And simulations are carried out in different conditions,including variable surfaces and motor failing.展开更多
In the intricate landscape of healthcare,vicarious liability looms large,shaping the responsibilities and actions of healthcare practitioners and administrators alike.Illustrated by a poignant scenario of a medication...In the intricate landscape of healthcare,vicarious liability looms large,shaping the responsibilities and actions of healthcare practitioners and administrators alike.Illustrated by a poignant scenario of a medication error,this article navigates the complexities of vicarious liability in healthcare.It explains the legal basis and ramifications of this theory,emphasizing its importance in fostering responsibility,protecting patient welfare,and easing access to justice.The paper explores the practical effects of vicarious responsibility on day-to-day operations,leadership practices,and decision-making processes via the eyes of senior consultants,junior doctors,and hospital administrators.Through comprehensive insights and real-world examples,it underscores the imperative of fostering a culture of accountability,communication,and quality care to navigate the intricate web of liabilities inherent in modern healthcare.展开更多
The intricate interplay between natural compounds like curcumin and the gut microbiome has gained significant attention in recent years due to their potential therapeutic implications in various health conditions.Curc...The intricate interplay between natural compounds like curcumin and the gut microbiome has gained significant attention in recent years due to their potential therapeutic implications in various health conditions.Curcumin,a polyphenolic compound derived from turmeric,exhibits diverse pharmacological properties,including anti-inflammatory,antioxidant,and anticancer effects.Understanding how curcumin modulates gut microbiota composition and function is crucial for elucidating its therapeutic mechanisms.This review examines the current literature on the interactions between curcumin and the gut microbiome.A systematic search of relevant databases was conducted to identify studies investigating the effects of curcumin on gut microbial diversity and abundance.Key findings from studies exploring curcumin's efficacy in neurological disorders,gastrointestinal diseases,and metabolic dysfunction are synthesized and discussed.Studies have demonstrated that curcumin supplementation can modulate gut microbiota composition and function,leading to beneficial effects on gut health and homeostasis.Mechanisms underlying curcumin's therapeutic effects include immune modulation,neuroprotection,and inflammation regulation.However,challenges such as poor bioavailability and safety concerns remain significant hurdles to overcome.The interactions between curcumin and the gut microbiome hold promise for therapeutic interventions in a diverse range of health conditions.Further research is needed to optimize curcumin formulations,improve bioavailability,and address safety concerns.展开更多
The gut microbiome comprises a vast community of microbes inhabiting the human alimentary canal,playing a crucial role in various physiological functions.These microbes generally live in harmony with the host;however,...The gut microbiome comprises a vast community of microbes inhabiting the human alimentary canal,playing a crucial role in various physiological functions.These microbes generally live in harmony with the host;however,when dysbiosis occurs,it can contribute to the pathogenesis of diseases,including osteoporosis.Osteoporosis,a systemic skeletal disease characterized by reduced bone mass and increased fracture risk,has attracted significant research attention concerning the role of gut microbes in its development.Advances in molecular biology have highlighted the influence of gut microbiota on osteoporosis through mechanisms involving immunoregulation,modulation of the gut-brain axis,and regulation of the intestinal barrier and nutrient absorption.These microbes can enhance bone mass by inhibiting osteoclast differentiation,inducing apoptosis,reducing bone resorption,and promoting osteoblast proliferation and maturation.Despite these promising findings,the therapeutic effectiveness of targeting gut microbes in osteoporosis requires further investigation.Notably,gut microbiota has been increasingly studied for their potential in early diagnosis,intervention,and as an adjunct therapy for osteoporosis,suggesting a growing utility in improving bone health.Further research is essential to fully elucidate the therapeutic potential and clinical application of gut microbiome modulation in the management of osteoporosis.展开更多
This article explores the ethical considerations surrounding the reporting of offlabel and experimental treatments in medical case reports,with a focus on fields such as oncology,psychiatry,and pediatrics.It emphasize...This article explores the ethical considerations surrounding the reporting of offlabel and experimental treatments in medical case reports,with a focus on fields such as oncology,psychiatry,and pediatrics.It emphasizes the balance between innovation and evidence-based medicine,highlighting the critical role of case reports in disseminating clinical experiences and advancing medical knowledge.The discussion delves into the ethical framework guiding case reporting,including principles of patient autonomy,informed consent,non-maleficence,beneficence,justice,and transparency.Challenges such as negative outcome reporting,commercial interests,and the balance between innovation and caution are examined.Recommendations for ethical vigilance,the development of comprehensive guidelines,and the role of regulatory bodies are proposed to ensure patient safety and uphold scientific integrity.The article concludes by underscoring the importance of a collaborative effort among clinicians,researchers,ethicists,and regulatory bodies to foster the responsible advancement of medical science while adhering to the highest ethical standards.展开更多
Graphical abstracts(GAs)are emerging as a pivotal tool in medical literature,enhancing the dissemination and comprehension of complex clinical data through visual summaries.This editorial highlights the significant ad...Graphical abstracts(GAs)are emerging as a pivotal tool in medical literature,enhancing the dissemination and comprehension of complex clinical data through visual summaries.This editorial highlights the significant advantages of GAs,including improved clarity,increased reader engagement,and enhanced visibility of research findings.By transforming intricate scientific data into accessible visual formats,these abstracts facilitate quick and effective knowledge transfer,crucial in clinical decision-making and patient care.However,challenges such as potential data misrepresentation due to oversimplification,the skill gap in graphic design among researchers,and the lack of standardized creation guidelines pose barriers to their widespread adoption.Additionally,while software such as Adobe Illustrator,BioRender,and Canva are commonly employed to create these visuals,not all researchers may be proficient in their use.To address these issues,we recommend that academic journals establish clear guidelines and provide necessary design training to researchers.This proactive approach will ensure the creation of high-quality GAs,promote their standardization,and expand their use in clinical reporting,ultimately benefiting the medical community and improving healthcare outcomes.展开更多
High-concentration single-atom doping remains a formidable challenge due to the propensity for single atoms to form clusters or aggregate at elevated concentrations.Herein,high-concentration (10.8 wt%) Zn singleatom-d...High-concentration single-atom doping remains a formidable challenge due to the propensity for single atoms to form clusters or aggregate at elevated concentrations.Herein,high-concentration (10.8 wt%) Zn singleatom-doped porous tubular g-C_(3)N_(4)(ZCN) was successfully obtained via a template-free,one-step calcination method,exhibiting excellent photocatalytic performance.The confinement of the pore walls suppresses the Zn atom'smigration and aggregation,enhancing the Zn single-atom stability.ZCN exhibited excellent photodegradation performance against tetracycline with outstanding stability.Moreover,ZCN displayed remarkable sterilization performance,achieving a 100%inactivation of Staphylococcus aureus within 90 min of visible-light exposure.Density functional theory calculations demonstrated that the Zn single-atom sites act as pivotal photocatalytic active sites,with the presence of Zn single atoms notably augmenting charge separation efficiency.This work provides a novel approach for managing photocatalytic efficiency through enlarging single-atom doping,offering an avenue for pollutant photodegradation and sterilization.展开更多
The minimal clinically important difference(MCID)represents a pivotal metric in bridging the gap between statistical significance and clinical relevance,addressing the direct impact of medical interventions from the p...The minimal clinically important difference(MCID)represents a pivotal metric in bridging the gap between statistical significance and clinical relevance,addressing the direct impact of medical interventions from the patient's perspective.This comprehensive review analyzes the evolution,applications,and challenges of MCID across medical specialties,emphasizing its necessity in ensuring that clinical outcomes not only demonstrate statistical significance but also offer genuine clinical utility that aligns with patient expectations and needs.We discuss the evolution of MCID since its inception in the 1980s,its current applications across various medical specialties,and the methodologies used in its calculation,highlighting both anchor-based and distribution-based approaches.Furthermore,the paper delves into the challenges associated with the application of MCID,such as methodological variability and the interpretation difficulties that arise in clinical settings.Recommendations for the future include standardizing MCID calculation methods,enhancing patient involvement in setting MCID thresholds,and extending research to incorporate diverse global perspectives.These steps are critical to refining the role of MCID in patient-centered healthcare,addressing existing gaps in methodology and interpretation,and ensuring that medical interventions lead to significant,patient-perceived improvements.展开更多
BACKGROUND Osteoarthritis(OA)is a prevalent joint disorder requiring innovative treatment approaches.AIM To evaluate the use of nanofat,a specialized form of adipose tissue-derived cells,in the treatment of OA,by exam...BACKGROUND Osteoarthritis(OA)is a prevalent joint disorder requiring innovative treatment approaches.AIM To evaluate the use of nanofat,a specialized form of adipose tissue-derived cells,in the treatment of OA,by examining its efficacy,safety profile,mechanisms of action,comparative effectiveness,and long-term outcomes.METHODS A comprehensive review of preclinical studies,clinical trials,and in vitro investigations was conducted.The included studies provided insights into the potential role of nanofat in OA treatment,addressing its efficacy,safety profile,mechanisms of action,comparative effectiveness,and long-term outcomes.RESULTS Clinical studies consistently reported the efficacy of nanofat in providing pain relief and functional improvement in patients with OA.Local adverse events were limited to the injection site,such as localized pain and inflammation,and resolved within a few days to weeks.Systemic adverse events were rare,and no significant long-term complications were observed.Mechanistically,nanofat was found to enhance chondrocyte proliferation,reduce inflammation,and promote angiogenesis,thereby contributing to its therapeutic effects.CONCLUSION Nanofat therapy holds promise as a therapeutic option for managing OA,providing pain relief,functional improvement,and potential tissue regeneration.The safety profile of nanofat treatment appears favorable,but long-term data are still limited.Standardized protocols,larger randomized controlled trials,longer follow-up periods,and cost-effectiveness evaluations are warranted to establish optimal protocols,comparative effectiveness,and long-term outcomes.Despite current limitations,nanofat therapy demonstrates translational potential and should be considered in clinical practice for OA treatment,with careful patient selection and monitoring.展开更多
With emerging scientific breakthroughs,it has been established that gut microbiome dysbiosis has an undeniable correlation with hepatic diseases through complex interlinked metabolic pathways.There’s always been a ne...With emerging scientific breakthroughs,it has been established that gut microbiome dysbiosis has an undeniable correlation with hepatic diseases through complex interlinked metabolic pathways.There’s always been a need for new therapeutic options to deal with the rising prevalence of metabolic dysfunctionassociated steatotic liver disease,liver cirrhosis,alcoholic liver disease,hepatocellular carcinoma etc.Several researchers have studied the role of probiotics and prebiotics in altering gut microbiome to tackle microbial dysbiosis which has been proven to be the cause of several metabolic disorders.However,postbiotics remain an untapped potential due to the limited literature on their intake and associated benefits.These bioactive compounds include short chain fatty acids such as butyrate,propionate and acetate,exopolysaccharides,inactivated strains such as Akkermansia muciniphila and Bacillus coagulans etc.,have hepatoprotective effects which are highlighted in this article.This review aims to discuss the findings of postbiotics research,their classification and their diverse role in serving as a therapeutic option for liver diseases.展开更多
Stromal vascular fraction(SVF)therapy is a promising regenerative medicine strategy derived from adipose tissue,containing a heterogeneous mix of cells,including adipose-derived stem,endothelial,and immune cells.Despi...Stromal vascular fraction(SVF)therapy is a promising regenerative medicine strategy derived from adipose tissue,containing a heterogeneous mix of cells,including adipose-derived stem,endothelial,and immune cells.Despite its potential in treating conditions like osteoarthritis,chronic wounds,and myo-cardial ischemia,significant challenges impede its clinical translation.Key obstacles include biological variability in SVF composition,unclear mechanisms of action,regulatory ambiguities,and the technical difficulty of ensuring stan-dardized and scalable isolation methods.Furthermore,patient-specific factors,ethical concerns,and the need for comprehensive efficacy assessment complicate clinical application.Addressing these challenges requires advancements in technology,regulatory flexibility,interdisciplinary collaboration,and person-alized therapeutic approaches.Innovations such as automated isolation systems,advanced biomaterials,and CRISPR-based gene editing are potential solutions to improve the therapeutic reliability of SVF.A structured roadmap,including preclinical research,regulatory approval,and post-market surveillance,is proposed to advance SVF therapies from the laboratory to clinical practice.Future directions should focus on large-scale clinical trials,biomarker development,real-world evidence generation,and standardization of protocols to enhance the safety,efficacy,and accessibility of SVF,ultimately realizing its potential as a versatile therapeutic in regenerative medicine.展开更多
BACKGROUND Ankle normative values are limited compared to isokinetic knee assessments.Chronic ankle instability correlates with agonist-antagonist imbalances,decreased evertor/invertor ratio,and plantar flexion defici...BACKGROUND Ankle normative values are limited compared to isokinetic knee assessments.Chronic ankle instability correlates with agonist-antagonist imbalances,decreased evertor/invertor ratio,and plantar flexion deficits.Strengthening programs targeting evertor/invertor and dorsiflexor/plantar flexor balance help reduce injury recurrence.Bilateral neuromuscular deficits compromise the contralateral side,rendering healthy limbs unsuitable as recovery references.Defining normative healthy ankle parameters is crucial for establishing precise limits in nonsurgical treatments and sports return criteria.While the limb symmetry index(LSI)is used for knees with a cutoff of>90%,no such standardization exists for the ankle.AIM To comprehensively evaluate isokinetic ankle strength profiles in non-athletic individuals.METHODS This is a cross-sectional study.Two hundred ankles were evaluated using the Biodex 3 System to assess eversion,inversion,dorsiflexion,and plantar flexion.Healthy individuals with an active lifestyle and no previous injuries were evaluated.The Maximum Torque,Agonist/Antagonist Ratio,LSI,and Muscular Deficiency Index(MDI)and the correlation with demographic variables were evaluated.RESULTS The mean age(mean±SD)was 38.5±13.5 years,and the body mass index(BMI)was 25.8±4.2 in 69 men and 31 women.The mean maximum torque values by gender were(mean±SD):22.3±6.6 female(F)and 33.4±9.9 male(M)N/m for eversion;30.10±10.0(F)and 37.0±11.6 N/m(M)for inversion,37.4±10.0(F)and 53.6±13.0 N/m(M)for dorsiflexion,and 100.4±37.2(F)and 158.1±33.4(M)N/m for flexion.There was no correlation between age or BMI and maximum torque.The evertors/invertors ratio was 88.8%,and the dorsiflexors/plantar flexors ratio was 36.1%.The MDI and LSI were balanced between sides for every movement,having an average global difference of less than 10%.CONCLUSION These findings provide gender-specific normative isokinetic values for the ankle in healthy,physically active adults.These reference parameters—especially LSI and MDI above 90%—can support clinical decision-making in rehabilitation planning and return-to-sport assessment,offering objective benchmarks for functional recovery.展开更多
BACKGROUND In intertrochanteric fractures,the positive medial cortex support reduction is considered to provide a non-anatomical buttress that helps in controlled collapse.AIM To analyze the concept of medial cortical...BACKGROUND In intertrochanteric fractures,the positive medial cortex support reduction is considered to provide a non-anatomical buttress that helps in controlled collapse.AIM To analyze the concept of medial cortical reduction(MCR)and its clinical and radiological association in geriatric intertrochanteric femur fractures.METHODS Geriatric patients who presented with AO/OTA 31A1 and 31A2 femur fractures and treated with proximal femoral nailing between July 2021 and June 2023 were include in this prospective cohort study.Based on the degree of MCR,they were divided into positive,neutral,or negative MCR groups.The demographic baseline characteristics,postoperative radiographic femoral neck-shaft angle and neck length were analyzed at 6,12 and 24 weeks post-surgery.Functional outcomes such as modified Harris Hip Score(HHS)and time to full-weight bearing were also analyzed.RESULTS 47 patients(Male:Famale 35:12)with mean age of 65.8±4.2 years were included in this study.Twenty-two cases had neutral support,nine had negative support,and sixteen had positive support in the medial cortex postoperatively.Baseline characteristics of the three groups were comparable.No significant differences were found in the femur neck length and femur neck-shaft angle changes post-surgery between the groups.The modified HHS was not found to be significant between the groups(P=0.883)as that of the time to full weight bearing(P=0.789).CONCLUSION The type of reduction achieved based on medial cortical alignment does not affect the femur neck length shortening or varus collapse.Future randomized controlled trials are needed to validate the findings noted in the study.展开更多
Two thioamino acids and four fiuorinated amino acids were employed to substitute either partially or entirely the Ile_(2),Ser_(3),Ile_(6),and Ser_(7) residues of Leu_(10)-teixobactin to prepare ten analogues and the b...Two thioamino acids and four fiuorinated amino acids were employed to substitute either partially or entirely the Ile_(2),Ser_(3),Ile_(6),and Ser_(7) residues of Leu_(10)-teixobactin to prepare ten analogues and the bioactivity of them was investigated.The SAR studies revealed that Ile_(6) was tolerable for both thioamidation and fiuoridation,while Ser_(7) was identified as the most tolerable site for thioamidation.Analogue 1a demonstrated comparable or slightly improved antibacterial activity,superior protease stability compared to Leu_(10)-teixobactin,while not exhibiting obvious cytotoxicity against mammalian cells.展开更多
Cartilage,as a specialized connective tissue,underpins joint mobility and mech-anical load distribution while exhibiting inherently limited self-repair capabilities.This comprehensive review redefines the current land...Cartilage,as a specialized connective tissue,underpins joint mobility and mech-anical load distribution while exhibiting inherently limited self-repair capabilities.This comprehensive review redefines the current landscape of cartilage imaging by exploring conventional and advanced modalities used to assess both the structural and biochemical attributes of cartilage.Whereas conventional radio-graphy and ultrasound offer rudimentary,indirect assessments,cutting-edge techniques-including magnetic resonance imaging(MRI)-based sequences such as T2 mapping,delayed gadolinium-enhanced MRI of cartilage,and sodium MRI-enable early detection of molecular alterations in the cartilage matrix.In ad-dition,hybrid approaches like positron emission tomography-MRI are emerging to provide integrative molecular and structural insights.This article critically appraises imaging strategies in the context of regenerative interventions,high-lighting technical innovations,persistent challenges,and future directions to facilitate improved diagnostic accuracy and therapeutic monitoring.展开更多
文摘Musculoskeletal injuries are among the most common causes of disability worldwide,with early detection and appropriate intervention critical to minimizing long-term complications.Infrared thermography(IRT)has emerged as a noninvasive,real-time imaging modality that captures superficial temperature changes reflecting underlying physiological processes such as inflammation and vascular alterations.This review explores the fundamental principles of medical thermography,differentiates between passive and active approaches,and outlines key technological advancements including artificial intelligence integration.The clinical utility of IRT is discussed in various contexts–ranging from acute soft tissue injuries and overuse syndromes to chronic pain and rehabilitation monitoring.Comparative insights with conventional imaging techniques such as ultrasound and magnetic resonance imaging are also presented.While IRT offers functional imaging capabilities with advantages in portability,safety,and speed,its limitations–such as lack of deep-tissue penetration and protocol standardization–remain significant barriers to broader adoption.Future directions include the integration of IRT with other imaging modalities and digital health platforms to enhance musculoskeletal assessment and injury prevention strategies.
文摘BACKGROUND Orthobiologics-biological substances like platelet-rich plasma(PRP),bone marrow aspirate concentrate,and stem cells-are increasingly used in musculoskeletal care to promote tissue repair and reduce reliance on invasive surgery.Despite global momentum,India's clinical adoption remains underexplored.AIM To inform education,policy,and resource allocation for the safe and effective adoption of orthobiologics in musculoskeletal care.METHODS A cross-sectional electronic survey was conducted from January to March 2025 among orthopaedic surgeons,academicians,and trainees across India.The questionnaire assessed demographics,knowledge of orthobiologics,attitudes toward training and subspecialization,usage trends,regulatory awareness,and perceived barriers.Data were analyzed using descriptive statistics andχ2/Fisher’s exact tests,with P<0.05 considered significant.RESULTS A total of 1280 valid responses were collected.Awareness of orthobiologics was high(97%),with PRP being the most familiar and widely used(80%).Formal training was reported by only 31%,though 85%showed interest in structured education,and 68%supported orthobiologics as a subspecialty.Satisfaction with clinical outcomes averaged 6.5±2.3 out of 10 points.Barriers included high treatment cost(64%),poor patient awareness(90%),and limited access to biologics labs(18%).Regulatory understanding was moderate,with academic-affiliated clinicians more informed about stem cell guidelines.CONCLUSION Indian orthopaedic professionals demonstrate strong awareness and optimism toward orthobiologics,but widespread gaps in training,infrastructure,and regulation hinder broader adoption.Strategic investments in education,standardized protocols,and accessible facilities are essential to support safe and evidence-driven integration of regenerative therapies into clinical practice.
文摘Molecular hydrogen(H2)demonstrates selective antioxidant and anti-inflammatory properties with therapeutic potential across musculoskeletal conditions including osteoarthritis,rheumatoid arthritis,exercise-induced muscle damage,chronic pain syndromes,tendinopathies,and muscle atrophy.This review critically evaluates preclinical and clinical evidence for H2 therapy and identifies research gaps.A comprehensive search of PubMed,EMBASE,and Cochrane Library(up to April 2025)yielded 45 eligible studies:25 preclinical and 20 clinical trials.Preclinical models consistently showed reductions in reactive oxygen species,inflammatory cytokines,and improved cell viability.Clinical trials reported symptomatic relief in osteoarthritis,decreased Disease Activity Score 28 in rheumatoid arthritis,and accelerated clearance of muscle damage markers.Delivery methods varied-hydrogen-rich water,gas inhalation,and saline infusion-hindering direct comparison.Mechanistic biomarkers were inconsistently reported,limiting understanding of target engagement.Common limitations included small sample sizes,short durations,and protocol heterogeneity.Despite these constraints,findings suggest H2 may serve as a promising adjunctive therapy via antioxidant,anti-inflammatory,and cytoprotective mechanisms.Future research should prioritize standardized delivery protocols,robust mechanistic endpoints,and longer-term randomized trials to validate clinical efficacy and optimize therapeutic strategies.
文摘Knee osteoarthritis(OA)is a debilitating condition with limited long-term treatment options.The therapeutic potential of mesenchymal stem cells(MSCs),particularly those derived from bone marrow aspirate concentrate,has garnered attention for cartilage repair in OA.While the iliac crest is the traditional site for bone marrow harvesting(BMH),associated morbidity has prompted the exploration of alternative sites such as the proximal tibia,distal femur,and proximal humerus.This paper reviews the impact of different harvesting sites on mesenchymal stem cell(MSC)yield,viability,and regenerative potential,emphasizing their relevance in knee OA treatment.The iliac crest consistently offers the highest MSC yield,but alternative sites within the surgical field of knee procedures offer comparable MSC characteristics with reduced morbidity.The integration of harvesting techniques into existing knee surgeries,such as total knee arthroplasty,provides a less invasive approach while maintaining thera-peutic efficacy.However,variability in MSC yield from these alternative sites underscores the need for further research to standardize techniques and optimize clinical outcomes.Future directions include large-scale comparative studies,advanced characterization of MSCs,and the development of personalized harvesting strategies.Ultimately,the findings suggest that optimizing the site of BMH can significantly influence the quality of MSC-based therapies for knee OA,enhancing their clinical utility and patient outcomes.
文摘The critical role of patient-reported outcome measures(PROMs)in enhancing clinical decision-making and promoting patient-centered care has gained a profound significance in scientific research.PROMs encapsulate a patient's health status directly from their perspective,encompassing various domains such as symptom severity,functional status,and overall quality of life.By integrating PROMs into routine clinical practice and research,healthcare providers can achieve a more nuanced understanding of patient experiences and tailor treatments accordingly.The deployment of PROMs supports dynamic patient-provider interactions,fostering better patient engagement and adherence to tre-atment plans.Moreover,PROMs are pivotal in clinical settings for monitoring disease progression and treatment efficacy,particularly in chronic and mental health conditions.However,challenges in implementing PROMs include data collection and management,integration into existing health systems,and acceptance by patients and providers.Overcoming these barriers necessitates technological advancements,policy development,and continuous education to enhance the acceptability and effectiveness of PROMs.The paper concludes with recommendations for future research and policy-making aimed at optimizing the use and impact of PROMs across healthcare settings.
基金supported by Scientific Research Projects of China Association of Metros(CAMET-KY-2022039)State Key Laboratory of Traction and Control System of EMU and Locomotive(2023YJ386).
文摘Purpose–This study aims to propose a cooperative adhesion control method for trains with multiple motors electric locomotives.The method is intended to optimize the output torque of each motor,maximize the utilization of train adhesion within the total torque command,reduce the train skidding/sliding phenomenon and achieve optimal adhesion utilization for each axle,thus realizing the optimal allocation of the multi-motor electric locomotives.Design/methodology/approach–In this study,a model predictive control(MPC)-based cooperative maximum adhesion tracking control method for multi-motor electric locomotives is presented.Firstly,train traction system with multiple motors is constructed in accordance with Newton’s second law.These equations include the train dynamics equations,the axle dynamics equations,and the wheel-rail adhesion coefficient equations.Then,a new MPC-based multi-axle adhesion co-optimization method is put forward.This method calculates the optimal output torque through real-time iteration based on the known reference slip speed to achieve multi-axle co-optimization under different circumstances.Findings–This paper presents a MPC system designed for the cooperative control of multi-axle adhesion.The results indicate that the proposed control system is able to optimize the adhesion of multiple axles under numerous different conditions and achieve the optimal power distribution based on the reduction of train skidding/sliding.Originality/value–This study presents a novel cooperative adhesion tracking control scheme.It is designed for multi-motor electric locomotives,which has rarely been studied before.And simulations are carried out in different conditions,including variable surfaces and motor failing.
文摘In the intricate landscape of healthcare,vicarious liability looms large,shaping the responsibilities and actions of healthcare practitioners and administrators alike.Illustrated by a poignant scenario of a medication error,this article navigates the complexities of vicarious liability in healthcare.It explains the legal basis and ramifications of this theory,emphasizing its importance in fostering responsibility,protecting patient welfare,and easing access to justice.The paper explores the practical effects of vicarious responsibility on day-to-day operations,leadership practices,and decision-making processes via the eyes of senior consultants,junior doctors,and hospital administrators.Through comprehensive insights and real-world examples,it underscores the imperative of fostering a culture of accountability,communication,and quality care to navigate the intricate web of liabilities inherent in modern healthcare.
文摘The intricate interplay between natural compounds like curcumin and the gut microbiome has gained significant attention in recent years due to their potential therapeutic implications in various health conditions.Curcumin,a polyphenolic compound derived from turmeric,exhibits diverse pharmacological properties,including anti-inflammatory,antioxidant,and anticancer effects.Understanding how curcumin modulates gut microbiota composition and function is crucial for elucidating its therapeutic mechanisms.This review examines the current literature on the interactions between curcumin and the gut microbiome.A systematic search of relevant databases was conducted to identify studies investigating the effects of curcumin on gut microbial diversity and abundance.Key findings from studies exploring curcumin's efficacy in neurological disorders,gastrointestinal diseases,and metabolic dysfunction are synthesized and discussed.Studies have demonstrated that curcumin supplementation can modulate gut microbiota composition and function,leading to beneficial effects on gut health and homeostasis.Mechanisms underlying curcumin's therapeutic effects include immune modulation,neuroprotection,and inflammation regulation.However,challenges such as poor bioavailability and safety concerns remain significant hurdles to overcome.The interactions between curcumin and the gut microbiome hold promise for therapeutic interventions in a diverse range of health conditions.Further research is needed to optimize curcumin formulations,improve bioavailability,and address safety concerns.
文摘The gut microbiome comprises a vast community of microbes inhabiting the human alimentary canal,playing a crucial role in various physiological functions.These microbes generally live in harmony with the host;however,when dysbiosis occurs,it can contribute to the pathogenesis of diseases,including osteoporosis.Osteoporosis,a systemic skeletal disease characterized by reduced bone mass and increased fracture risk,has attracted significant research attention concerning the role of gut microbes in its development.Advances in molecular biology have highlighted the influence of gut microbiota on osteoporosis through mechanisms involving immunoregulation,modulation of the gut-brain axis,and regulation of the intestinal barrier and nutrient absorption.These microbes can enhance bone mass by inhibiting osteoclast differentiation,inducing apoptosis,reducing bone resorption,and promoting osteoblast proliferation and maturation.Despite these promising findings,the therapeutic effectiveness of targeting gut microbes in osteoporosis requires further investigation.Notably,gut microbiota has been increasingly studied for their potential in early diagnosis,intervention,and as an adjunct therapy for osteoporosis,suggesting a growing utility in improving bone health.Further research is essential to fully elucidate the therapeutic potential and clinical application of gut microbiome modulation in the management of osteoporosis.
文摘This article explores the ethical considerations surrounding the reporting of offlabel and experimental treatments in medical case reports,with a focus on fields such as oncology,psychiatry,and pediatrics.It emphasizes the balance between innovation and evidence-based medicine,highlighting the critical role of case reports in disseminating clinical experiences and advancing medical knowledge.The discussion delves into the ethical framework guiding case reporting,including principles of patient autonomy,informed consent,non-maleficence,beneficence,justice,and transparency.Challenges such as negative outcome reporting,commercial interests,and the balance between innovation and caution are examined.Recommendations for ethical vigilance,the development of comprehensive guidelines,and the role of regulatory bodies are proposed to ensure patient safety and uphold scientific integrity.The article concludes by underscoring the importance of a collaborative effort among clinicians,researchers,ethicists,and regulatory bodies to foster the responsible advancement of medical science while adhering to the highest ethical standards.
文摘Graphical abstracts(GAs)are emerging as a pivotal tool in medical literature,enhancing the dissemination and comprehension of complex clinical data through visual summaries.This editorial highlights the significant advantages of GAs,including improved clarity,increased reader engagement,and enhanced visibility of research findings.By transforming intricate scientific data into accessible visual formats,these abstracts facilitate quick and effective knowledge transfer,crucial in clinical decision-making and patient care.However,challenges such as potential data misrepresentation due to oversimplification,the skill gap in graphic design among researchers,and the lack of standardized creation guidelines pose barriers to their widespread adoption.Additionally,while software such as Adobe Illustrator,BioRender,and Canva are commonly employed to create these visuals,not all researchers may be proficient in their use.To address these issues,we recommend that academic journals establish clear guidelines and provide necessary design training to researchers.This proactive approach will ensure the creation of high-quality GAs,promote their standardization,and expand their use in clinical reporting,ultimately benefiting the medical community and improving healthcare outcomes.
基金financially supported by the National Key Research and Development Program of China(No.2023YFF0612601)the Key Research and Development Program of Zhejiang Province(No.2023C02038)+2 种基金the Key Research and Development Program of Ningbo(No.2022Z178)China Construction Technology Research and Development Project(No.CSCEC-2021-Z-5)Zhejiang Provincial Natural Science Foundation of China(No.LQ23B010003)
文摘High-concentration single-atom doping remains a formidable challenge due to the propensity for single atoms to form clusters or aggregate at elevated concentrations.Herein,high-concentration (10.8 wt%) Zn singleatom-doped porous tubular g-C_(3)N_(4)(ZCN) was successfully obtained via a template-free,one-step calcination method,exhibiting excellent photocatalytic performance.The confinement of the pore walls suppresses the Zn atom'smigration and aggregation,enhancing the Zn single-atom stability.ZCN exhibited excellent photodegradation performance against tetracycline with outstanding stability.Moreover,ZCN displayed remarkable sterilization performance,achieving a 100%inactivation of Staphylococcus aureus within 90 min of visible-light exposure.Density functional theory calculations demonstrated that the Zn single-atom sites act as pivotal photocatalytic active sites,with the presence of Zn single atoms notably augmenting charge separation efficiency.This work provides a novel approach for managing photocatalytic efficiency through enlarging single-atom doping,offering an avenue for pollutant photodegradation and sterilization.
文摘The minimal clinically important difference(MCID)represents a pivotal metric in bridging the gap between statistical significance and clinical relevance,addressing the direct impact of medical interventions from the patient's perspective.This comprehensive review analyzes the evolution,applications,and challenges of MCID across medical specialties,emphasizing its necessity in ensuring that clinical outcomes not only demonstrate statistical significance but also offer genuine clinical utility that aligns with patient expectations and needs.We discuss the evolution of MCID since its inception in the 1980s,its current applications across various medical specialties,and the methodologies used in its calculation,highlighting both anchor-based and distribution-based approaches.Furthermore,the paper delves into the challenges associated with the application of MCID,such as methodological variability and the interpretation difficulties that arise in clinical settings.Recommendations for the future include standardizing MCID calculation methods,enhancing patient involvement in setting MCID thresholds,and extending research to incorporate diverse global perspectives.These steps are critical to refining the role of MCID in patient-centered healthcare,addressing existing gaps in methodology and interpretation,and ensuring that medical interventions lead to significant,patient-perceived improvements.
文摘BACKGROUND Osteoarthritis(OA)is a prevalent joint disorder requiring innovative treatment approaches.AIM To evaluate the use of nanofat,a specialized form of adipose tissue-derived cells,in the treatment of OA,by examining its efficacy,safety profile,mechanisms of action,comparative effectiveness,and long-term outcomes.METHODS A comprehensive review of preclinical studies,clinical trials,and in vitro investigations was conducted.The included studies provided insights into the potential role of nanofat in OA treatment,addressing its efficacy,safety profile,mechanisms of action,comparative effectiveness,and long-term outcomes.RESULTS Clinical studies consistently reported the efficacy of nanofat in providing pain relief and functional improvement in patients with OA.Local adverse events were limited to the injection site,such as localized pain and inflammation,and resolved within a few days to weeks.Systemic adverse events were rare,and no significant long-term complications were observed.Mechanistically,nanofat was found to enhance chondrocyte proliferation,reduce inflammation,and promote angiogenesis,thereby contributing to its therapeutic effects.CONCLUSION Nanofat therapy holds promise as a therapeutic option for managing OA,providing pain relief,functional improvement,and potential tissue regeneration.The safety profile of nanofat treatment appears favorable,but long-term data are still limited.Standardized protocols,larger randomized controlled trials,longer follow-up periods,and cost-effectiveness evaluations are warranted to establish optimal protocols,comparative effectiveness,and long-term outcomes.Despite current limitations,nanofat therapy demonstrates translational potential and should be considered in clinical practice for OA treatment,with careful patient selection and monitoring.
文摘With emerging scientific breakthroughs,it has been established that gut microbiome dysbiosis has an undeniable correlation with hepatic diseases through complex interlinked metabolic pathways.There’s always been a need for new therapeutic options to deal with the rising prevalence of metabolic dysfunctionassociated steatotic liver disease,liver cirrhosis,alcoholic liver disease,hepatocellular carcinoma etc.Several researchers have studied the role of probiotics and prebiotics in altering gut microbiome to tackle microbial dysbiosis which has been proven to be the cause of several metabolic disorders.However,postbiotics remain an untapped potential due to the limited literature on their intake and associated benefits.These bioactive compounds include short chain fatty acids such as butyrate,propionate and acetate,exopolysaccharides,inactivated strains such as Akkermansia muciniphila and Bacillus coagulans etc.,have hepatoprotective effects which are highlighted in this article.This review aims to discuss the findings of postbiotics research,their classification and their diverse role in serving as a therapeutic option for liver diseases.
文摘Stromal vascular fraction(SVF)therapy is a promising regenerative medicine strategy derived from adipose tissue,containing a heterogeneous mix of cells,including adipose-derived stem,endothelial,and immune cells.Despite its potential in treating conditions like osteoarthritis,chronic wounds,and myo-cardial ischemia,significant challenges impede its clinical translation.Key obstacles include biological variability in SVF composition,unclear mechanisms of action,regulatory ambiguities,and the technical difficulty of ensuring stan-dardized and scalable isolation methods.Furthermore,patient-specific factors,ethical concerns,and the need for comprehensive efficacy assessment complicate clinical application.Addressing these challenges requires advancements in technology,regulatory flexibility,interdisciplinary collaboration,and person-alized therapeutic approaches.Innovations such as automated isolation systems,advanced biomaterials,and CRISPR-based gene editing are potential solutions to improve the therapeutic reliability of SVF.A structured roadmap,including preclinical research,regulatory approval,and post-market surveillance,is proposed to advance SVF therapies from the laboratory to clinical practice.Future directions should focus on large-scale clinical trials,biomarker development,real-world evidence generation,and standardization of protocols to enhance the safety,efficacy,and accessibility of SVF,ultimately realizing its potential as a versatile therapeutic in regenerative medicine.
文摘BACKGROUND Ankle normative values are limited compared to isokinetic knee assessments.Chronic ankle instability correlates with agonist-antagonist imbalances,decreased evertor/invertor ratio,and plantar flexion deficits.Strengthening programs targeting evertor/invertor and dorsiflexor/plantar flexor balance help reduce injury recurrence.Bilateral neuromuscular deficits compromise the contralateral side,rendering healthy limbs unsuitable as recovery references.Defining normative healthy ankle parameters is crucial for establishing precise limits in nonsurgical treatments and sports return criteria.While the limb symmetry index(LSI)is used for knees with a cutoff of>90%,no such standardization exists for the ankle.AIM To comprehensively evaluate isokinetic ankle strength profiles in non-athletic individuals.METHODS This is a cross-sectional study.Two hundred ankles were evaluated using the Biodex 3 System to assess eversion,inversion,dorsiflexion,and plantar flexion.Healthy individuals with an active lifestyle and no previous injuries were evaluated.The Maximum Torque,Agonist/Antagonist Ratio,LSI,and Muscular Deficiency Index(MDI)and the correlation with demographic variables were evaluated.RESULTS The mean age(mean±SD)was 38.5±13.5 years,and the body mass index(BMI)was 25.8±4.2 in 69 men and 31 women.The mean maximum torque values by gender were(mean±SD):22.3±6.6 female(F)and 33.4±9.9 male(M)N/m for eversion;30.10±10.0(F)and 37.0±11.6 N/m(M)for inversion,37.4±10.0(F)and 53.6±13.0 N/m(M)for dorsiflexion,and 100.4±37.2(F)and 158.1±33.4(M)N/m for flexion.There was no correlation between age or BMI and maximum torque.The evertors/invertors ratio was 88.8%,and the dorsiflexors/plantar flexors ratio was 36.1%.The MDI and LSI were balanced between sides for every movement,having an average global difference of less than 10%.CONCLUSION These findings provide gender-specific normative isokinetic values for the ankle in healthy,physically active adults.These reference parameters—especially LSI and MDI above 90%—can support clinical decision-making in rehabilitation planning and return-to-sport assessment,offering objective benchmarks for functional recovery.
文摘BACKGROUND In intertrochanteric fractures,the positive medial cortex support reduction is considered to provide a non-anatomical buttress that helps in controlled collapse.AIM To analyze the concept of medial cortical reduction(MCR)and its clinical and radiological association in geriatric intertrochanteric femur fractures.METHODS Geriatric patients who presented with AO/OTA 31A1 and 31A2 femur fractures and treated with proximal femoral nailing between July 2021 and June 2023 were include in this prospective cohort study.Based on the degree of MCR,they were divided into positive,neutral,or negative MCR groups.The demographic baseline characteristics,postoperative radiographic femoral neck-shaft angle and neck length were analyzed at 6,12 and 24 weeks post-surgery.Functional outcomes such as modified Harris Hip Score(HHS)and time to full-weight bearing were also analyzed.RESULTS 47 patients(Male:Famale 35:12)with mean age of 65.8±4.2 years were included in this study.Twenty-two cases had neutral support,nine had negative support,and sixteen had positive support in the medial cortex postoperatively.Baseline characteristics of the three groups were comparable.No significant differences were found in the femur neck length and femur neck-shaft angle changes post-surgery between the groups.The modified HHS was not found to be significant between the groups(P=0.883)as that of the time to full weight bearing(P=0.789).CONCLUSION The type of reduction achieved based on medial cortical alignment does not affect the femur neck length shortening or varus collapse.Future randomized controlled trials are needed to validate the findings noted in the study.
基金supported by the National Natural Science Foundation of China(No.21977111)the Natural Science Foundation of Guangdong Province(No.2023A1515011765)Shenzhen Science and Technology Program(Nos.JCYJ20220818101404010,JCYJ20220818100412028)。
文摘Two thioamino acids and four fiuorinated amino acids were employed to substitute either partially or entirely the Ile_(2),Ser_(3),Ile_(6),and Ser_(7) residues of Leu_(10)-teixobactin to prepare ten analogues and the bioactivity of them was investigated.The SAR studies revealed that Ile_(6) was tolerable for both thioamidation and fiuoridation,while Ser_(7) was identified as the most tolerable site for thioamidation.Analogue 1a demonstrated comparable or slightly improved antibacterial activity,superior protease stability compared to Leu_(10)-teixobactin,while not exhibiting obvious cytotoxicity against mammalian cells.
文摘Cartilage,as a specialized connective tissue,underpins joint mobility and mech-anical load distribution while exhibiting inherently limited self-repair capabilities.This comprehensive review redefines the current landscape of cartilage imaging by exploring conventional and advanced modalities used to assess both the structural and biochemical attributes of cartilage.Whereas conventional radio-graphy and ultrasound offer rudimentary,indirect assessments,cutting-edge techniques-including magnetic resonance imaging(MRI)-based sequences such as T2 mapping,delayed gadolinium-enhanced MRI of cartilage,and sodium MRI-enable early detection of molecular alterations in the cartilage matrix.In ad-dition,hybrid approaches like positron emission tomography-MRI are emerging to provide integrative molecular and structural insights.This article critically appraises imaging strategies in the context of regenerative interventions,high-lighting technical innovations,persistent challenges,and future directions to facilitate improved diagnostic accuracy and therapeutic monitoring.
