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April 16, 2013 - May 25, 2026

Available Issues

April 16, 2013 - May 25, 2026

Dynamic Allocation of Kidneys to Candidates on the Transplant Waiting List

Published Online:1 Aug 2000https://doi.org/10.1287/opre.48.4.549.12418

References

  • Ahn J. H., Hornberger J. C. Involving patients in the cadaveric kidney transplant allocation process: a decision-theoretic perspective. Management Sci. (1996) 42:629–641LinkGoogle Scholar
  • Allen R. D. M., Chapman J. R.A Manual of Renal Transplantation (1994) (Edward Arnold, London) Google Scholar
  • American Medical Association Ethical considerations in the allocation of organs and other scarce medical resources among patients. Archives of Internal Medicine (1995) 155:29–40CrossrefGoogle Scholar
  • Avram F., Bertsimas D., Ricard M., Kelly F. P., Williams R. Fluid models of sequencing problems in open queueing networks: an optimal control approach. Stochastic Networks (1995) 71(Springer-Verlag, New York) 199–234Proceedings of the IMACrossrefGoogle Scholar
  • Bailey M. A., Mathieu D. Economics issues in organ substitution technology. Organ Substitution Technology: Ethical; Legal and Public Policy Issues (1988) (Westview Press, Boulder, CO) Google Scholar
  • Chertow G. M., Milford E. L., Mackenzie H. S., Brenner B. M. Antigen independent determinants of cadaveric renal allograft failure. J. Amer. Medical Assoc. (1996) 276:1732–1736CrossrefGoogle Scholar
  • Cox D. R., Oakes D.Analysis of Survival Data (1984) (Chapman and Hall, London) Google Scholar
  • David I. A sequential assignment match process with general renewal arrival times. Probab. Engrg. Info. Sci. (1995) 9:475–492CrossrefGoogle Scholar
  • David I., Yechiali U. A time-dependent stopping problem with application to live organ transplants. Oper. Res. (1985) 33:491–504LinkGoogle Scholar
  • David I., Yechiali U. Sequential assignment match processes with arrivals of candidates and offers. Probab. Engrg. Info. Sci. (1990) 4:413–430CrossrefGoogle Scholar
  • David I., Yechiali U. One-attribute sequential assignment match processes in discrete time. Oper. Res. (1995) 43:879–884LinkGoogle Scholar
  • Deniston O. L., Carpentier-Alting P., Kneisley J., Hawthorne V. M., Port F. K. Assessment of quality of life in end-stage renal disease. Health Services Res. (1989) 24:555–578Google Scholar
  • Derman C., Lieberman G. J., Ross S. M. A sequential stochastic assignment problem. Management Sci. (1972) 18:349–355LinkGoogle Scholar
  • Ellison M. D., Breen T. J., Guo T. G., Cunningham P. R. G., Daily O. P. Blacks and whites on the UNOS renal waiting list: waiting times and patient demographics compared. Transplantation Proc. (1993) 25:2462–2466Google Scholar
  • Gaston R. S., et al. Racial equity in renal transplantation. J. Amer. Medical Assoc. (1993) 270:1352–1356CrossrefGoogle Scholar
  • Gaston R. S., Hudson S. L., Julian B. A., Laskow D. A., Deiehoi M. H. Impact of donor/recipient size matching on outcomes in renal transplantation. Transplantation (1996) 61:383–388CrossrefGoogle Scholar
  • Gaylin D. S., Held P. J., Port F. K., Hunsicker L. G., Wolfe R. A. The impact of comorbid and sociodemographic factors on access to renal transplantation. J. Amer. Medical Assoc. (1993) 269:603–608CrossrefGoogle Scholar
  • Ghjertson D. W., Terasaki P. I., Takemoto B. S., Mickey M. R. National allocation of cadaveric kidneys by HLA matching. New England. J. Medicine (1991) 324:1032–1036CrossrefGoogle Scholar
  • Gittins J. C.Multi-Armed Bandit Allocation Indices (1989) (Wiley, New York) Google Scholar
  • Gold M. R., Siegel J. E., Russell L. B., Weinstein M. C.Cost-Effectiveness in Health and Medicine (1996) (Oxford University Press, New York) CrossrefGoogle Scholar
  • Hartl R. F., Sethi S. R., Vickson R. G. A survey of the maximum principles for optimal control problems with state constrains. SIAM Rev. (1995) 37:181–218CrossrefGoogle Scholar
  • Held P. J., Kahan B. K., Hunsicker L. G., Liska D., Wolfe R. A. The impact of HLA mismatches on the survival of first cadaveric kidney transplants. New England J. Medicine (1994) 331:765–770CrossrefGoogle Scholar
  • Hornberger J., Redelmeir D., Petersen J. Variability among methods to assess patient's well-being and consequent cost-effectiveness analysis. J. Clinical Epidemiology (1991) 45:505–512CrossrefGoogle Scholar
  • Hornberger J., Ahn J. H. Deciding eligibility for transplantation when a donor kidney becomes available. Medical Decision Making (1997) 17:160–170CrossrefGoogle Scholar
  • Horwood J. W., Whittle P. Optimal control in the neighborhood of an optimal equilibrium with examples from fishery models. IMA J. Math. Appl. Medical Biology (1986) 3:129–142CrossrefGoogle Scholar
  • Kasiske B. L., Neylan J. F., Riggio R. I., Danovitch G. M., Kahana L. The effect of race on access and outcome in transplantation. New England J. Medicine (1991) 324:302–307CrossrefGoogle Scholar
  • Kerman R. H., Kimball P. M., Van Buren C. T., Lewis R. M., Cavazos D. Influence of race on crossmatch outcome and recipient eligibility for transplantation. Transplantation (1992) 53:64–67CrossrefGoogle Scholar
  • Key P. B. Optimal control and trunk reservation in loss networks. Probab. Engrg. Info. Sci. (1990) 4:203–242CrossrefGoogle Scholar
  • Loomes G., McKenzie L. The use of QALYs in health care decision making. Soc. Sci. Medicine (1989) 28:299–308CrossrefGoogle Scholar
  • Larson R. C. Perspectives on queues: social justice and the psychology of queueing. Oper. Res. (1987) 35:895–905LinkGoogle Scholar
  • Miles A. M. V., Sumrani N., John S., Markell M. A., Distant D. A. The effect of kidney size on cadaveric renal allograft outcome. Transplantation (1996) 61:894–897CrossrefGoogle Scholar
  • OIGThe Distribution of Organs for Transplantations: Expectations and Practices (1991) . U.S. Department of Health and Human Services,Publication OE1-01-89-00550Google Scholar
  • Opelz G., Wujciak T. Cadaveric kidneys should be allocated according to the HLA match. Transplantation Proc. (1995) 27:93–99Google Scholar
  • Opelz G., Wujciak T., Schwartz V., Back D., Mytilincos J. Collaborative transplant study analysis of graft survival in blacks. Transplantation Proc. (1993) 25:2443–2445Google Scholar
  • Ott T. J., Krishnan K. R., Akiyama M. State dependent routing of telephone traffic in the use of separable routing schemes. Proceedings of the 11th International Teletraffic Congress (1985) (Elsevier, Amsterdam) Google Scholar
  • Paltiel A. D. Organ allocation and the secretary problem. Medical Decision Making (1997) 17:231–232CrossrefGoogle Scholar
  • Pritsker A. B. Life and death decisions: organ transplantation allocation policy analysis. OR/MS Today (1998) 25(4):22–28Google Scholar
  • Richardson J., Nord E. The importance of perspective in the measurement of quality-adjusted life years. Medical Decision Making (1997) 17:33–41CrossrefGoogle Scholar
  • Righter R. A resource allocation problem in a random environment. Oper. Res. (1989) 37:329–338LinkGoogle Scholar
  • Ruth R. J., Wyszewianski L., Herline G. Kidney transplantation: a simulation model for examining demand and supply. Management Sci. (1985) 31:515–526LinkGoogle Scholar
  • Sanfilippo F. P., Vaughn W. K., Peters T. G., Shield C. F., Adams P. L. Factors affecting the waiting time of cadaveric kidney transplant candidates in the United States. J. Amer. Medical Assoc. (1992) 267:247–252CrossrefGoogle Scholar
  • Torrence G. W. Measurement of health state utilities for economic appraisal. J. Health Econom. (1986) 5:1–30CrossrefGoogle Scholar
  • UNOSUNOS Public-Use Data Tape (1995) (UNOS, VA) Google Scholar
  • UNOS Facts and Statistics about Transplantation. (1997) . World Wide Web http://204.127.237.11:80/stats.htmGoogle Scholar
  • USRDS1995 Annual Report (1995) . World Wide Web http://www.med.umich/usrds/Google Scholar
  • Van Houwelingen H. C., Thorogood J. Construction, validation and updating of a prognostic model for kidney graft survival. Statistics in Medicine (1995) 14:1999–2008CrossrefGoogle Scholar
  • Wein L. M., Zenios S. A., Nowak M. A. Dynamic multidrug therapies for HIV: a control theoretic approach. J. Theoretical Biology (1997) 185:15–29CrossrefGoogle Scholar
  • Wujciak T., Opelz G. Computer analysis of cadaver kidney allocation procedures. Transplantation (1993) 55:516–521Google Scholar
  • Yuan Y., Gafni A., Russell J. D., Ludwin D. Development of a central matching system for the allocation of cadaveric kidneys: a simulation of clinical effectiveness. Medical Decision Making (1994) 14:124–136CrossrefGoogle Scholar
  • Zenios S. A. Health care applications of optimal control theory. (1996) . Unpublished Ph.D. Thesis, Operations Research Center, M.I.T, Cambridge, MAGoogle Scholar
  • Zenios S. A. Modeling the transplant waiting list: a queueing model with reneging. Queueing Systems (1999) 31:239–251CrossrefGoogle Scholar
  • Zenios S. A., Chertow G. M., Wein L. M. Dynamic allocation of kidneys to candidates on the transplant waiting list. (1997) . Graduate School of Business, Stanford University, Research Paper Series. No. 1429Google Scholar
  • Zenios S. A., Chertow G. M., Wein L. M. Evidence-based organ allocation. (1998) . Graduate School of Business, Stanford University, Research Paper Series. No. 1552Google Scholar
  • Zenios S. A., Chertow G. M., Wein L. M. Evidence-based organ allocation. Amer. J. Medicine (1999) 107:52–61CrossrefGoogle Scholar
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