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Discordance between 'actual' and 'scheduled' check-in times at a heart failure clinic

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Listed:
  • Eiran Z Gorodeski
  • Emer Joyce
  • Benjamin T Gandesbery
  • Eugene H Blackstone
  • David O Taylor
  • W H Wilson Tang
  • Randall C Starling
  • Rory Hachamovitch

Abstract

Introduction: A 2015 Institute Of Medicine statement “Transforming Health Care Scheduling and Access: Getting to Now”, has increased concerns regarding patient wait times. Although waiting times have been widely studied, little attention has been paid to the role of patient arrival times as a component of this phenomenon. To this end, we investigated patterns of patient arrival at scheduled ambulatory heart failure (HF) clinic appointments and studied its predictors. We hypothesized that patients are more likely to arrive later than scheduled, with progressively later arrivals later in the day. Methods and results: Using a business intelligence database we identified 6,194 unique patients that visited the Cleveland Clinic Main Campus HF clinic between January, 2015 and January, 2017. This clinic served both as a tertiary referral center and a community HF clinic. Transplant and left ventricular assist device (LVAD) visits were excluded. Punctuality was defined as the difference between ‘actual’ and ‘scheduled’ check-in times, whereby negative values (i.e., early punctuality) were patients who checked-in early. Contrary to our hypothesis, we found that patients checked-in late only a minority of the time (38% of visits). Additionally, examining punctuality by appointment hour slot we found that patients scheduled after 8AM had progressively earlier check-in times as the day progressed (P

Suggested Citation

  • Eiran Z Gorodeski & Emer Joyce & Benjamin T Gandesbery & Eugene H Blackstone & David O Taylor & W H Wilson Tang & Randall C Starling & Rory Hachamovitch, 2017. "Discordance between 'actual' and 'scheduled' check-in times at a heart failure clinic," PLOS ONE, Public Library of Science, vol. 12(11), pages 1-13, November.
    • Handle: RePEc:plo:pone00:0187849
    DOI: 10.1371/journal.pone.0187849
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    References listed on IDEAS

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    1. Ishwaran, Hemant & Kogalur, Udaya B. & Gorodeski, Eiran Z. & Minn, Andy J. & Lauer, Michael S., 2010. "High-Dimensional Variable Selection for Survival Data," Journal of the American Statistical Association, American Statistical Association, vol. 105(489), pages 205-217.
    2. Christina Twyman-Saint Victor & Andrew J. Rech & Amit Maity & Ramesh Rengan & Kristen E. Pauken & Erietta Stelekati & Joseph L. Benci & Bihui Xu & Hannah Dada & Pamela M. Odorizzi & Ramin S. Herati & , 2015. "Radiation and dual checkpoint blockade activate non-redundant immune mechanisms in cancer," Nature, Nature, vol. 520(7547), pages 373-377, April.
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