Background <p>Access to orthopaedic care in low- and middle-income countries is limited by device scarcity and high costs, despite the significantly greater burden of trauma. The reuse of reprocessed implants and equipment has emerged as a pragmatic solution, but safety assurance and governance remain inconsistent. We described current reuse practices in low- and middle-income countries, evaluated safety risks and mitigation strategies to balance equity and sustainability with patient protection, and highlighted opportunities to reduce healthcare costs.</p> Methods <p>We conducted a multinational, cross-sectional survey of orthopaedic clinicians in hospitals in low- or middle-income countries between June 2024 and February 2025. Primary outcomes were device-specific reuse prevalence and safety governance; secondary outcomes were reuse drivers and risks.</p> Results <p>A total of 113 respondents from 36 hospitals in seven low- and middle-income countries participated. The majority (84%) worked in university-based hospitals or postgraduate training centres, and most (78%) were orthopaedic and spine consultants or residents. External fixator components were most frequently reused (80%), with implantable pins or wires reused by 67%; 51% reported using reprocessed implantable devices at least weekly. Only 35% knew the exact source of reused implants; devices mostly originated from explants or de-sterilised but unimplanted stock. 55% used reprocessed implants without any quality testing or recertification, and 34% were unsure; just 8% reported formal re-evaluation. Ninety-eight per cent were unaware of any applicable guidelines. The reuse of reprocessed devices did not differ significantly by hospital affiliation, hospital resourcing, level of care, or respondent’s years of orthopaedic experience. Perceived benefits were affordability and access, while reported concerns included device failure, ethical/litigation issues, and patient disapproval—all amplified by variable reprocessing standards and poor traceability.</p> Conclusions <p>The use of reprocessed orthopaedic biomaterials is common in low- and middle-income countries. External fixator components are the most reprocessed implants, with cost and availability as the primary drivers. Unclear sourcing, weak quality assurance, and absent guidance create avoidable safety risks. Safer practice requires context-specific standards for sourcing/reprocessing, validated decontamination and sterilisation with full traceability, risk-stratified reuse, mandatory quality testing/recertification of reprocessed implants, informed consent that addresses reuse, and regular audit of practice compliance.</p>

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Balancing patient safety and sustainable healthcare for orthopaedic device utilization in resource-limited countries: insights from the REBOOT Study

  • Emmanuel O. Oladeji,
  • Olorunnisola Olatide,
  • Oluwafisayo Awi,
  • Ridwanullah O. Abdullateef,
  • Abdullahi Ringim,
  • Abdulahi Zubair,
  • Imobhio G. Okhifun,
  • Abdulquddus Ajibade,
  • Noah B. Oyedokun,
  • Oluwatobi Olayode,
  • Patrick Okonkwo,
  • Bismarck C. Iwueke,
  • Japheth O. Olaku,
  • Saidu I. Alhaji,
  • Suleiman T. Olorukooba,
  • Toluwani O. Orungbeja,
  • Michael K. Nzeako,
  • Emamizo U. Ojo-maliki,
  • Hadayat Ullah,
  • Adedamola Olaniyi,
  • Tochukwu Enemuo,
  • Oghofori Obakponovwe,
  • Samuel O. Ogunlade,
  • Abdul K. Bah,
  • Abidemi M. Ayodele,
  • Abiola M. Fawale,
  • Abrar U. Haq,
  • Adeola S. Adeniran,
  • Kayode A. Adesunkanmi,
  • Adewura R. Kazeem,
  • Adeyemi D. Ogunoye,
  • Ahmad Khan,
  • Aiman Khan,
  • Ajibade M. Oyegade,
  • Akinlolu M. Adewolu,
  • Akintunde Oyelami,
  • Akinyemi S. Akinpelumi,
  • Alex M. Kihunyu,
  • Anayochukwu J. Oke,
  • Aniebiet Ubaha,
  • Babatunde A. Osundina,
  • Bernard Hammond,
  • Bode L. Afeniforo,
  • Bukar Bunu,
  • Busari B. Animasaun,
  • Charles K. Aisudo,
  • Chioma M. Ajuyah,
  • Cyprian C. Nganwuchu,
  • Dahiru Sani,
  • Eveshoyan E. Daniels,
  • David K. Kokor,
  • Dung D. Chong,
  • Emeka C. Elumelu,
  • Fatiat O. Ayoade,
  • Franklin A. Achumba,
  • Friday J. Leba,
  • Gershom E. Igwe,
  • Hammed O. Alabi,
  • Hardy Elembwe,
  • Hari E. Akachuku,
  • Ibrahim Sabo,
  • Idowu O. Alaba,
  • Igbokwe C. Okwuchukwu,
  • Isaac M. Ahorklo,
  • Jemiludeen O. MorhasonBello,
  • Jesse Tanko,
  • John A. James,
  • Kabir K. Bello,
  • Killian T. Ninnang,
  • Kingsley I. Egwuonwu,
  • Kolawole S. Ayo-Oladapo,
  • Adetutu O. Lebi,
  • Margaret O. Popoola,
  • Mohammed A. Aliyu,
  • Muhammed O. Bashiru,
  • Musiliu A. Oladosu,
  • Nasiru Abba,
  • Nnaemeka A. Alor,
  • Nura M. Aliyu,
  • Sakirudeen A. Olamide,
  • Olusegun O. Olanipekun,
  • Olasode I. Akinmokun,
  • Olusegun E. Ayediran,
  • Oluwadayo A. Magbagbeola,
  • Oluwafeyikemi O. Olabisi,
  • Oluwajimi Gbotoso,
  • Oluwasegun A. Aremu,
  • Oluwaseun A. Amodu,
  • Oluwaseyi K. Idowu,
  • Oluwatoyin E. Olasehinde,
  • Oyedele S. Olaoye,
  • Prince C. Okolo,
  • Qazeem B. Adesola,
  • Rahman A. Afolabi,
  • Reuben M. Gibil,
  • Rich-Hope O. Abiye-Whyte,
  • Ridhwanullah A. Salawu,
  • Ridwan O. Maleeq,
  • Ronald A. Williams,
  • Saddam Hussain,
  • Sadiq Tijani,
  • Sakirudeen A. Olamide,
  • Samuel B. Agaja,
  • Samuel T. Oladejo,
  • SatiSamson Bawa,
  • Segun J. Oni,
  • Selim S. Oriloye,
  • Senyo Gudugbe,
  • Sherif T. Maruf,
  • Solomon J. Fadamijo,
  • Taofikat Ikotun,
  • Tathiya N. Fakuta,
  • Tavershima M. Tsavzua,
  • Temidayo J. Alarapon,
  • Temitope J. Oyadiran,
  • Timothy K. Olagbe,
  • Tobiloba E. Oyeyemi,
  • Tolulope O. Ogunrewo,
  • Udit Agrawal,
  • Umar Mohammed,
  • Uno O. Okpo,
  • Vernon Ipomai,
  • Victor Akinkuolie,
  • Yashim I. Ignatius,
  • Yau Musa,
  • Yitmwa Ngwan,
  • Yusuf O. Zakariyau

摘要

Background

Access to orthopaedic care in low- and middle-income countries is limited by device scarcity and high costs, despite the significantly greater burden of trauma. The reuse of reprocessed implants and equipment has emerged as a pragmatic solution, but safety assurance and governance remain inconsistent. We described current reuse practices in low- and middle-income countries, evaluated safety risks and mitigation strategies to balance equity and sustainability with patient protection, and highlighted opportunities to reduce healthcare costs.

Methods

We conducted a multinational, cross-sectional survey of orthopaedic clinicians in hospitals in low- or middle-income countries between June 2024 and February 2025. Primary outcomes were device-specific reuse prevalence and safety governance; secondary outcomes were reuse drivers and risks.

Results

A total of 113 respondents from 36 hospitals in seven low- and middle-income countries participated. The majority (84%) worked in university-based hospitals or postgraduate training centres, and most (78%) were orthopaedic and spine consultants or residents. External fixator components were most frequently reused (80%), with implantable pins or wires reused by 67%; 51% reported using reprocessed implantable devices at least weekly. Only 35% knew the exact source of reused implants; devices mostly originated from explants or de-sterilised but unimplanted stock. 55% used reprocessed implants without any quality testing or recertification, and 34% were unsure; just 8% reported formal re-evaluation. Ninety-eight per cent were unaware of any applicable guidelines. The reuse of reprocessed devices did not differ significantly by hospital affiliation, hospital resourcing, level of care, or respondent’s years of orthopaedic experience. Perceived benefits were affordability and access, while reported concerns included device failure, ethical/litigation issues, and patient disapproval—all amplified by variable reprocessing standards and poor traceability.

Conclusions

The use of reprocessed orthopaedic biomaterials is common in low- and middle-income countries. External fixator components are the most reprocessed implants, with cost and availability as the primary drivers. Unclear sourcing, weak quality assurance, and absent guidance create avoidable safety risks. Safer practice requires context-specific standards for sourcing/reprocessing, validated decontamination and sterilisation with full traceability, risk-stratified reuse, mandatory quality testing/recertification of reprocessed implants, informed consent that addresses reuse, and regular audit of practice compliance.