Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

At a glance: The STEP trials

A round-up of the STEP phase 3 clinical trials evaluating semaglutide for weight loss in people with overweight or obesity.
ADVANCED SEARCH
Log in
Top
BMC Health Services Research
Published in: BMC Health Services Research 1/2019

Open Access 01-12-2019 | Care | Research article

Using floating catchment area (FCA) metrics to predict health care utilization patterns

Authors: Paul L. Delamater, Ashton M. Shortridge, Rachel C. Kilcoyne

Published in: BMC Health Services Research | Issue 1/2019

Login to get access

Abstract

Background

Floating Catchment Area (FCA) metrics provide a comprehensive measure of potential spatial accessibility to health care services and are often used to identify geographic disparities in health care access. An unexplored aspect of FCA metrics is whether they can be useful in predicting where people actually seek care. This research addresses this question by examining the utility of FCA metrics for predicting patient utilization patterns, the flows of patients from their residences to facilities.

Methods

Using more than one million inpatient hospital visits in Michigan, we calculated expected utilization patterns from Zip Codes to hospitals using four FCA metrics and two traditional metrics (simple distance and a Huff model) and compared them to observed utilization patterns. Because all of the accessibility metrics rely on the specification of a distance decay function and its associated parameters, we conducted a sensitivity analysis to evaluate their effects on prediction accuracy.

Results

We found that the Three Step FCA (3SFCA) and Modified Two Step FCA (M2SFCA) were the most effective metrics for predicting utilization patterns, correctly predicting the destination hospital for nearly 74% of hospital visits in Michigan. These two metrics were also the least sensitive to changes to the distance decay functions and parameter settings.

Conclusions

Overall, this research demonstrates that FCA metrics can provide reasonable predictions of patient utilization patterns and FCA utilization models could be considered as a substitute when utilization pattern data are unavailable.
Appendix
Available only for authorised users
Literature
1.
Higgs G. The role of GIS for health utilization studies: literature review. Health Services Outcomes Res Methodology. 2009;9:84–99.CrossRef
2.
3.
Penchansky R, Thomas JW. The concept of access: definition and relationship to consumer satisfaction. Med Care. 1981;19:127–40.CrossRef
4.
Khan AA. An integrated approach to measuring potential spatial access to health care services. Socio Econ Plan Sci. 1992;26:275–87.CrossRef
5.
Guagliardo MF, Ronzio CR, Cheung I, Chacko E, Joseph JG. Physician accessibility: an urban case study of pediatric providers. Health Place. 2004;10:273–83.CrossRef
6.
Fransen K, Neutens T, De Maeyer P, Deruyter G. A commuter-based two-step floating catchment area method for measuring spatial accessibility of daycare centers. Health Place. 2015;32:65–73.CrossRef
7.
Bauer J, Groneberg DA. Measuring spatial accessibility of health care providers – introduction of a variable distance decay function within the floating catchment area (FCA) method. PLoS One. 2016;11:e0159148.CrossRef
8.
Langford M, Higgs G, Fry R. Multi-modal two-step floating catchment area analysis of primary health care accessibility. Health Place. 2016;38:70–81.CrossRef
9.
Shah TI, Bell S, Wilson K. Spatial accessibility to health care services: identifying under-serviced Neighbourhoods in Canadian urban areas. PLoS One. 2016;11:e0168208.CrossRef
10.
Vadrevu L, Kanjilal B. Measuring spatial equity and access to maternal health services using enhanced two step floating catchment area method (E2SFCA) – a case study of the Indian Sundarbans. Int J Equity Health. 2016;15:87.CrossRef
11.
Nasseh K, Eisenberg Y, Vujicic M. Geographic access to dental care varies in Missouri and Wisconsin. J Public Health Dent. 2017.
12.
Lian M, Struthers J, Schootman M. Comparing GIS-based measures in access to mammography and their validity in predicting neighborhood risk of late-stage breast Cancer. PLoS One. 2012;7:e43000.CrossRef
13.
Delamater PL, Messina JP, Grady SC, WinklerPrins V, Shortridge AM. Do more hospital beds Lead to higher hospitalization rates? A spatial examination of Roemer’s law. PLoS One. 2013;8:e54900.CrossRef
14.
Fishman J, McLafferty S, Galanter W. Does spatial access to primary care affect emergency department utilization for nonemergent conditions? Health Serv Res 2016;n/a-n/a.
15.
Alford-Teaster J, Lange JM, Hubbard RA, Lee CI, Haas JS, Shi X, et al. Is the closest facility the one actually used? An assessment of travel time estimation based on mammography facilities. Int J Health Geogr. 2016;15:8.CrossRef
16.
Ngui A, Apparicio P. Optimizing the two-step floating catchment area method for measuring spatial accessibility to medical clinics in Montreal. BMC Health Serv Res. 2011;11(1):–12.
17.
Folland ST. Predicting hospital market shares. Inquiry. 1983;20:34–44.PubMed
18.
Mayer JD. The distance behavior of hospital patients: a disaggregated analysis. Soc Sci Med. 1983;17:819–27.CrossRef
19.
McGuirk MA, Porell FW. Spatial patterns of hospital utilization: the impact of distance and time. Inquiry. 1984;21:84–95.PubMed
20.
Cohen MA, Lee HL. The determinants of spatial distribution of hospital utilization in a region. Med Care. 1985;23:27–38.CrossRef
21.
McLafferty S. Predicting the effect of hospital closure on hospital utilization patterns. Soc Sci Med. 1988;27:255–62.CrossRef
22.
Adams EK, Porell FW, Robbins JD. Estimating the utilization impacts of hospital closures through hospital choice models: a comparison of disaggregate and aggregate models. Socio Econ Plan Sci. 1996;30:139–53.CrossRef
23.
Lowe JM, Sen A. Gravity model applications in health planning: analysis of an Urban Hospital market. J Reg Sci. 1996;36:437–61.CrossRef
24.
Luo W, Qi Y. An enhanced two-step floating catchment area (E2SFCA) method for measuring spatial accessibility to primary care physicians. Health Place. 2009;15:1100–7.CrossRef
25.
Delamater PL. Spatial accessibility in suboptimally configured health care systems: a modified two-step floating catchment area (M2SFCA) metric. Health Place. 2013;24:30–43.CrossRef
26.
Wan N, Zou B, Sternberg T. A three-step floating catchment area method for analyzing spatial access to health services. Int J Geogr Inf Sci. 2012;26:1073–89.CrossRef
27.
Luo J. Integrating the Huff model and floating catchment area methods to analyze spatial access to healthcare services. Trans GIS. 2014;18:436–48.CrossRef
28.
29.
Delamater PL, Messina JP, Shortridge AM, Grady SC. Measuring geographic access to health care: raster and network-based methods. Int J Health Geogr. 2012;11(1):–18.
30.
Griffith JR. Quantitative techniques for hospital planning and control. Lexington, MA: Lexington Books; 1972.
31.
Radke J, Mu L. Spatial decompositions, modeling and mapping service regions to predict access to social programs. Ann GIS. 2000;6:105–12.CrossRef
32.
Luo W, Wang F. Measures of spatial accessibility to health care in a GIS environment: synthesis and a case study in the Chicago region. Environment and Planning B: Planning and Design. 2003;30:865–84.CrossRef
33.
Kwan M-P. Space-time and integral measures of individual accessibility: a comparative analysis using a point-based framework. Geogr Anal. 1998;30:191–216.CrossRef
34.
Pielou EC. Ecological diversity: Wiley; 1975.
35.
Smith B, Wilson JB. A Consumer’s guide to evenness indices. Oikos. 1996;76:70–82.CrossRef
36.
Schuurman N, Berube M, Crooks VA. Measuring potential spatial access to primary health care physicians using a modified gravity model. Can Geogr. 2010;54:29–45.CrossRef
37.
Wan N, Zhan FB, Zou B. Chow E. A relative spatial access assessment approach for analyzing potential spatial access to colorectal cancer services in Texas. Appl Geogr. 2011;32:291–9.CrossRef
Metadata
Title
Using floating catchment area (FCA) metrics to predict health care utilization patterns
Authors
Paul L. Delamater
Ashton M. Shortridge
Rachel C. Kilcoyne
Publication date
01-12-2019
Publisher
BioMed Central
Keyword
Care
Published in
BMC Health Services Research / Issue 1/2019
Electronic ISSN: 1472-6963
DOI
https://doi.org/10.1186/s12913-019-3969-5

Other articles of this Issue 1/2019

BMC Health Services Research 1/2019 Go to the issue

Research article

Access to care among Medicaid and uninsured patients in community health centers after the Affordable Care Act

Research article

The origins and implementation of an intervention to support healthcare staff to deliver compassionate care: exploring fidelity and adaptation in the transfer of Schwartz Center Rounds® from the United States to the United Kingdom

Research article

Experiences with interferon-free hepatitis C therapies: addressing barriers to adherence and optimizing treatment outcomes

Research article

Development and validation of a predictive model for American Society of Anesthesiologists Physical Status

Research article

Developing a measure to assess the quality of care transitions for older people

Research article

Staff perception of Lean, care-giving, thriving and exhaustion: a longitudinal study in primary care