The shortage of nurses and medical technologists is accelerating. Shortages can be reduced by scheduling staff to precisely meet the hour-by-hour demand for medical service. Think of bank teller scheduling, where more staff are scheduled at peak demand. Current attempts to schedule to demand are relatively primitive: a small number of quantized fixed shifts, for example: 7am-3pm, 10am-6pm, 3pm-11pm, 7am-7pm, 7pm-7am, etc. is allowed. The pre-determined fixed shifts are rigid input parameters for the scheduling process and workers are assigned to the shifts. In this innovation, fixed shifts are replaced with flexible shift parameters;specifically, a range of start times and shift durations that are harmonious with worker lifestyles. These parameters become elastic inputs for the scheduling algorithm. The actual shift assigned to a worker on any particular day is computed with the objective to have just enough workers to meet the hour-by-hour demand. Phase I research successfully determined the efficacy of worker-friendly, flexible shift scheduling and found savings of 4 percent are possible. Four percent can cut the current worker shortfall significantly and corresponds to annual savings of $3.5 billion in healthcare costs. Despite many scientific studies of flexible shift scheduling, there is a dearth of practical commercial applications primarily due to the complexity of technologies employed in the research. In Phase II, a simple but powerful technology, Monte-Carlo simulation, will be employed. The hypothesis is that a Monte-Carlo simulation can be developed that uses worker-friendly, flexible shift parameters to precisely meet the hour-by-hour demand for medical service.
The Specific Aim i s to find an objective function that quantifies the goal of meeting hour-by-hour demand and a set of shift perturbations for the Monte-Carlo process to use during the simulation. The commercialized product will be a new module for DOCS Scheduler, Acme Express Inc.'s healthcare staff scheduling software that is already in the marketplace. The current DOCS Scheduler was designed for salaried (physicians) staff and uses fixed shifts. Using flexible shifts is an entirely different innovation and focuses on shift workers like nurses and medical technicians. A new module that saves 4 percent in healthcare staffing costs will be a market-changing, competitive advantage for Acme Express, Inc.

Public Health Relevance

An ageing population with increasing lifespan, coupled with healthcare worker retirements and high turnover, is exacerbating the shortage of healthcare workers. The USA nurse shortage of 200,000 workers in 2008 is estimated to be 1,000,000 by 2014, with similar estimates for medical technologists. Phase I found that healthcare worker shortage can be reduced by 4 percent and healthcare worker morale improved by using flexible shifts that are harmonious with worker lifestyles to schedule staff precisely according to demand for medical service. In Phase II, Acme Express, Inc. will employ a simple but powerful technology, Monte-Carlo Simulation, to automatically build the staff schedule, minimize periods of overstaffing, and significantly reduce healthcare labor costs.

Agency
National Institute of Health (NIH)
Institute
National Institute of Nursing Research (NINR)
Type
Small Business Innovation Research Grants (SBIR) - Phase II (R44)
Project #
2R44NR011129-02
Application #
7905529
Study Section
Special Emphasis Panel (ZRG1-HDM-B (10))
Program Officer
Cotton, Paul
Project Start
2008-09-29
Project End
2012-02-29
Budget Start
2010-03-03
Budget End
2011-02-28
Support Year
2
Fiscal Year
2010
Total Cost
$176,839
Indirect Cost
Name
Acme Express, Inc.
Department
Type
DUNS #
803679364
City
Cleveland
State
OH
Country
United States
Zip Code
44115