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Available Issues

December 4, 2012 - June 17, 2026

Available Issues

December 4, 2012 - June 17, 2026

Optimization of Telemedicine Appointments in Rural Areas

Published Online:20 Sep 2018https://doi.org/10.1287/serv.2018.0222

References

  • Bailey NTJ (1952) A study of queues and appointment systems in hospital out-patient departments, with special reference to waiting-times. J. Royal Statist. Soc. B Methodology 14(2):185–199.Google Scholar
  • Batun S, Denton BT, Huschka TR, Schaefer AJ (2011) Operating room pooling and parallel surgery processing under uncertainty. INFORMS J. Comput. 23(2):220–237.LinkGoogle Scholar
  • Begen MA, Queyranne M (2011) Appointment scheduling with discrete random durations. Math. Oper. Res. 36(2):240–257.LinkGoogle Scholar
  • Brahimi M, Worthington DJ (1991) Queueing models for out-patient appointment systems–a case study. J. Oper. Res. Soc. 42(9):733–746.Google Scholar
  • Bynum AB, Irwin CA, Cranford CO, Denny GS (2003) The impact of telemedicine on patients’ cost savings: Some preliminary findings. Telemedicine J. e-Health 9(4):361–367.CrossrefGoogle Scholar
  • Cayirli T, Veral E (2003) Outpatient scheduling in health care: A review of literature. Production Oper. Management 12(4):519–549.CrossrefGoogle Scholar
  • Chang SS, Boorjian SA, Chou R, Clark PE, Daneshmand S, Konety BR, Pruthi R, et al.. (2016) Diagnosis and treatment of non-muscle invasive bladder cancer: AUA/SUO guideline. J. Urology 196(4):1021–1029.CrossrefGoogle Scholar
  • Chu S, Boxer R, Madison P, Kleinman L, Skolarus T, Altman L, Bennett C, Shelton J (2015) Veterans affairs telemedicine: Bringing urologic care to remote clinics. Urology 86(2):255–261.CrossrefGoogle Scholar
  • Daniel H, Sulmasy LS (2015) Policy recommendations to guide the use of telemedicine in primary care settings: An American College of Physicians Position Paper. Ann. Internal Medicine 163(10):787–789.CrossrefGoogle Scholar
  • Darkins A (2014) The growth of telehealth services in the Veterans Health Administration between 1994 and 2014: A study in the diffusion of innovation. Telemedicine e-Health 20(9):761–768.CrossrefGoogle Scholar
  • Davis LE, Coleman J, Harnar J, King MK (2014) Teleneurology: Successful delivery of chronic neurologic care to 354 patients living remotely in a rural state. Telemedicine e-Health 20(5):473–477.CrossrefGoogle Scholar
  • Denton B, Gupta D (2003) A sequential bounding approach for optimal appointment scheduling. IIE Trans. 35(11):1003–1016.CrossrefGoogle Scholar
  • Dorrian C, Ferguson J, Ah-See K, Barr C, Lalla K, Van der Pol M, McKenzie L, Wootton R (2009) Head and neck cancer assessment by flexible endoscopy and telemedicine. J. Telemedicine Telecare 15(3):118–121.CrossrefGoogle Scholar
  • Dorsey E, Deuel LM, Voss TS, Finnigan K, George BP, Eason S, Miller D, Reminick JI, Appler A, Polanowicz J (2010) Increasing access to specialty care: A pilot, randomized controlled trial of telemedicine for Parkinson’s disease. Movement Disorders 25(11):1652–1659.CrossrefGoogle Scholar
  • Erdogan SA, Denton B (2013) Dynamic appointment scheduling of a stochastic server with uncertain demand. INFORMS J. Comput. 25(1):116–132.LinkGoogle Scholar
  • Fernández ME, Gonzales A, Tortolero-Luna G, Williams J, Saavedra-Embesi M, Chan W, Vernon SW (2009) Effectiveness of Cultivando la Salud: A breast and cervical cancer screening promotion program for low-income Hispanic women. Amer. J. Public Health 99(5):936–943.CrossrefGoogle Scholar
  • Gupta D, Denton B (2008) Appointment scheduling in health care: Challenges and opportunities. IIE Trans. 40(9):800–819.CrossrefGoogle Scholar
  • Gurobi Optimization, Inc. (2016) Gurobi optimizer reference manual. Accessed April 14, 2017, http://www.gurobi.com.Google Scholar
  • Gustke SS, Balch DC, West VL, Rogers LO (2000) Patient satisfaction with telemedicine. Telemedicine J. 6(1):5–13.CrossrefGoogle Scholar
  • Haddad N, Grant I, Eswaran H (2015) Telemedicine for patients with epilepsy: A pilot experience. Epilepsy Behav. 44(2015):1–4.CrossrefGoogle Scholar
  • Hassin R, Mendel S (2008) Scheduling arrivals to queues: A single-server model with no-shows. Management Sci. 54(3):565–572.LinkGoogle Scholar
  • Hitt WC, Low G, Bird TM, Ott R (2013) Telemedical cervical cancer screening to bridge medicaid service care gap for rural women. Telemedicine e-Health 19(5):403–408.CrossrefGoogle Scholar
  • Ho C-J, Lau H-S (1992) Minimizing total cost in scheduling outpatient appointments. Management Sci. 38(12):1750–1764.LinkGoogle Scholar
  • Hougen HY, Lobo JM, Corey T, Jones R, Rheuban K, Schenkman NS, Krupski TL (2016) Optimizing and validating the technical infrastructure of a novel tele-cystoscopy system. J. Telemedicine Telecare 22(7):397–404.CrossrefGoogle Scholar
  • Jansson B (1966) Choosing a good appointment system-a study of queues of the type(D, M,1). Oper. Res. 14(2):292–312.LinkGoogle Scholar
  • Kong Q, Lee C-Y, Teo C-P, Zheng Z (2013) Scheduling arrivals to a stochastic service delivery system using copositive cones. Oper. Res. 61(3):711–726.LinkGoogle Scholar
  • Latorre-Núñez G, Lüer-Villagra A, Marianov V, Obreque C, Ramis F, Neriz L (2016) Scheduling operating rooms with consideration of all resources, post anesthesia beds and emergency surgeries. Comput. Indust. Engrg. 97(2016):248–257.CrossrefGoogle Scholar
  • Lee H, Jackson JN, Mills JT, Lobo JM, Horton BJ, Lee KD, Sims T, et al.. (2017) Tele-cystoscopy: Feasibility of training allied health professionals in cystoscopy for bladder cancer surveillance. Working paper, University of Virginia, Charlottesville.Google Scholar
  • Mercer A (1960) A queuing problem in which the arrival times of the customers are scheduled. J. Royal Statist. Soc. B 22(1):108–113.Google Scholar
  • Muthuraman K, Lawley M (2008) A stochastic overbooking model for outpatient clinical scheduling with no-shows. IIE Trans. 40(9):820–837.CrossrefGoogle Scholar
  • Office of the National Coordinator for Health Information Technology (2017) Health It Playbook. Accessed April 14, 2017, https://www.healthit.gov/playbook/patient-engagement/#Telehealth.Google Scholar
  • Paskett E, Tatum C, Rushing J, Michielutte R, Bell R, Foley KL, Bittoni M, Dickinson SL, McAlearney AS, Reeves K (2006) Randomized trial of an intervention to improve mammography utilization among a triracial rural population of women. J. National Cancer Inst. 98(17):1226–1237.CrossrefGoogle Scholar
  • Quinley KE, Gormley RH, Ratcliffe SJ, Shih T, Szep Z, Steiner A, Ramogola-Masire D, Kovarik CL (2011) Use of mobile telemedicine for cervical cancer screening. J. Telemedicine Telecare 17(4):203–209.CrossrefGoogle Scholar
  • R Core Team (2013) R: A Language and Environment for Statistical Computing (R Foundation for Statistical Computing, Vienna).Google Scholar
  • Sabria F, Daganzo CF (1989) Approximate expressions for queuing systems with scheduled arrivals and established service order. Transportation Sci. 23(3):159–165.LinkGoogle Scholar
  • Wang PP (1993) Static and dynamic scheduling of customer arrivals to a single-server system. Naval Res. Logist. 40(3):345–360.CrossrefGoogle Scholar
  • Wildi SM, Kim CY, Glenn TF, Mackey HA, Viator GE, Wallace MB, Hawes RH (2004) Tele-endoscopy: A way to provide diagnostic quality for remote populations. Gastrointestinal Endoscopy 59(1):38–43.CrossrefGoogle Scholar
  • Zeng B, Turkcan A, Lin J, Lawley M (2010) Clinic scheduling models with overbooking for patients with heterogeneous no-show probabilities. Ann. Oper. Res. 178(1):121–144.CrossrefGoogle Scholar
  • Zhang Y, Shen S, Erdogan SA (2017) Distributionally robust appointment scheduling with moment-based ambiguity set. Oper. Res. Lett. 45(2):139–144.CrossrefGoogle Scholar
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