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Development of Low-Cost Locally Sourced Two-Component Compression Bandages in Western Kenya
INTRODUCTION: Compression therapy is well-established standard of care for chronic leg ulcers from venous disease and lymphedema. Chronic leg ulcers and lymphedema have a significant impact on quality of life, driven by pain, foul odor, and restricted mobility. Provision of layered compression thera...
Autores principales: | , , , , , , , |
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Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
Springer Healthcare
2018
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Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6109023/ https://www.ncbi.nlm.nih.gov/pubmed/29905913 http://dx.doi.org/10.1007/s13555-018-0248-z |
Sumario: | INTRODUCTION: Compression therapy is well-established standard of care for chronic leg ulcers from venous disease and lymphedema. Chronic leg ulcers and lymphedema have a significant impact on quality of life, driven by pain, foul odor, and restricted mobility. Provision of layered compression therapy in resource-limited settings, as in Western Kenya and other regions of sub-Saharan Africa, is a major challenge due to several barriers: availability, affordability, and access to healthcare facilities. When wound care providers from an Academic Model Providing Access to Healthcare (AMPATH) health center in Western Kenya noted that a donated, finite supply of two-component compression bandages was helping to heal chronic leg ulcers, they began to explore the potential of finding a local, sustainable solution. Dermatology and pharmacy teams from AMPATH collaborated with health center providers to address this need. METHODS: Following a literature review and examination of ingredients in prepackaged brand-name kits, essential components were identified: elastic crepe, gauze, and zinc oxide paste. All of these materials are locally available and routinely used for wound care. Two-component compression bandages were made by applying zinc oxide to dry gauze for the inner layer and using elastic crepe as the outer layer. Feedback from wound clinic providers was utilized to optimize the compression bandages for ease of use. RESULTS: Adjustments to assembly of the paste bandage included use of zinc oxide paste instead of zinc oxide ointment for easier gauze impregnation and cutting the inner layer gauze in half lengthwise to facilitate easier bandaging of the leg, such that there were two rolls of zinc-impregnated gauze each measuring 5 inches × 2 m. Adjustments to use of the compression bandage have included increasing the frequency of bandage changes from 7 to 3 days during the rainy seasons, when it is difficult to keep the bandage dry. Continuous local acquisition of all components led to lower price quotes for bulk materials, driving down the production cost and enabling a cost to the patient of 200 KSh (2 USD) per two-component compression bandage kit. Wound care providers have provided anecdotal reports of healed chronic leg ulcers (from venous stasis, trauma), improved lymphedema, and patient tolerance of compression. CONCLUSIONS: Low-cost locally sourced two-component compression bandages have been developed for use in Western Kenya. Their use has been initiated at an AMPATH health center and is poised to meet the need for affordable compression therapy options in Western Kenya. Studies evaluating their efficacy in chronic leg ulcers and Kaposi sarcoma lymphedema are ongoing. Future work should address adaptation of compression bandages for optimal use in Western Kenya and evaluate reproducibility of these bandages in similar settings, as well as consider home- or community-based care delivery models to mitigate transportation costs associated with accessing healthcare facilities. |
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