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A Cost-Minimization Analysis of Tissue-Engineered Constructs for Corneal Endothelial Transplantation

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Listed:
  • Tien-En Tan
  • Gary S L Peh
  • Benjamin L George
  • Howard Y Cajucom-Uy
  • Di Dong
  • Eric A Finkelstein
  • Jodhbir S Mehta

Abstract

Corneal endothelial transplantation or endothelial keratoplasty has become the preferred choice of transplantation for patients with corneal blindness due to endothelial dysfunction. Currently, there is a worldwide shortage of transplantable tissue, and demand is expected to increase further with aging populations. Tissue-engineered alternatives are being developed, and are likely to be available soon. However, the cost of these constructs may impair their widespread use. A cost-minimization analysis comparing tissue-engineered constructs to donor tissue procured from eye banks for endothelial keratoplasty was performed. Both initial investment costs and recurring costs were considered in the analysis to arrive at a final tissue cost per transplant. The clinical outcomes of endothelial keratoplasty with tissue-engineered constructs and with donor tissue procured from eye banks were assumed to be equivalent. One-way and probabilistic sensitivity analyses were performed to simulate various possible scenarios, and to determine the robustness of the results. A tissue engineering strategy was cheaper in both investment cost and recurring cost. Tissue-engineered constructs for endothelial keratoplasty could be produced at a cost of US$880 per transplant. In contrast, utilizing donor tissue procured from eye banks for endothelial keratoplasty required US$3,710 per transplant. Sensitivity analyses performed further support the results of this cost-minimization analysis across a wide range of possible scenarios. The use of tissue-engineered constructs for endothelial keratoplasty could potentially increase the supply of transplantable tissue and bring the costs of corneal endothelial transplantation down, making this intervention accessible to a larger group of patients. Tissue-engineering strategies for corneal epithelial constructs or other tissue types, such as pancreatic islet cells, should also be subject to similar pharmacoeconomic analyses.

Suggested Citation

  • Tien-En Tan & Gary S L Peh & Benjamin L George & Howard Y Cajucom-Uy & Di Dong & Eric A Finkelstein & Jodhbir S Mehta, 2014. "A Cost-Minimization Analysis of Tissue-Engineered Constructs for Corneal Endothelial Transplantation," PLOS ONE, Public Library of Science, vol. 9(6), pages 1-9, June.
  • Handle: RePEc:plo:pone00:0100563
    DOI: 10.1371/journal.pone.0100563
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    References listed on IDEAS

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    1. Elena Ezhkova & Elaine Fuchs, 2010. "An eye to treating blindness," Nature, Nature, vol. 466(7306), pages 567-568, July.
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    Cited by:

    1. Andri K. Riau & Zhuojian Look & Gary H. F. Yam & Craig Boote & Qian Ma & Evelina J. Y. Han & Nur Zahirah binte M. Yusoff & Hon Shing Ong & Tze-Wei Goh & Nuur Shahinda Humaira binte Halim & Jodhbir S. , 2024. "Impact of keratocyte differentiation on corneal opacity resolution and visual function recovery in male rats," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    2. Simone A. Huygens & Isaac Corro Ramos & Carlijn V. C. Bouten & Jolanda Kluin & Shih Ting Chiu & Gary L. Grunkemeier & Johanna J. M. Takkenberg & Maureen P. M. H. Rutten-van Mölken, 2020. "Early cost-utility analysis of tissue-engineered heart valves compared to bioprostheses in the aortic position in elderly patients," The European Journal of Health Economics, Springer;Deutsche Gesellschaft für Gesundheitsökonomie (DGGÖ), vol. 21(4), pages 557-572, June.

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