nach oben

Journal of Community Health

Erschienen in:

03.07.2019 | Original Paper

Spatial Clusters and Non-spatial Predictors of Tick-Borne Disease Diagnosis in Indiana

verfasst von: Oghenekaro Omodior, Sina Kianersi, Maya Luetke

Erschienen in: Journal of Community Health | Ausgabe 6/2019

Einloggen, um Zugang zu erhalten

Abstract

The purpose of this study was two-fold. First, we sought to identify spatial clusters of self-reported tick-borne disease (TBD) diagnosis in Indiana. Secondly, we determined the significant predictors of self-reported TBD diagnosis in a sample of Indiana residents. Study participants were selected from existing online panels maintained by Qualtrics and completed a cross-sectional survey (n = 3003). Our primary outcome of interest was self-reported TBD diagnosis (Yes/No). Cases and background population were aggregated to the county level. We used a purely spatial discrete Poisson model in SatScan® to determine significant clusters of high-risk TBD diagnosis counties. We also used X² tests in bivariate analyses, to identify potential predictor variables for inclusion in an initial model, and backward elimination selection method to identify the final model. Two clusters of counties with significant high relative risk of self-reported TBD diagnosis in the southeast and southwest of Indiana were detected. Males in Indiana were more likely to self-report TBD diagnosis compared to females. Study participants who conducted a thorough tick check after being outdoors were significantly less likely to report TBD diagnosis compared to those who did not. Increased positive perceptions of TBD personal protective measures were associated with reduced self-reported TBD diagnosis. Older study participants were less likely to self-report TBD diagnosis compared to younger participants. The identification of two clusters of TBD diagnosis in southern Indiana is consistent with a northern spread of TBDs and suggests a need for continued surveillance of the counties in the vicinity of the observed clusters. Future studies should be designed to identify risk factors for TBD diagnosis in the affected counties of Indiana.

Nur mit Berechtigung zugänglich

U.S. Centers for Disease Control and Prevention [CDC]. Behavioral risk factor surveillance system 2014. Retrieved May 25, 2019, from https://www.cdc.gov/brfss/about/index.htm.

Social Research Center. New South Wales Population health survey 2019. Retrieved May 25, 2019, from https://www.srcentre.com.au/our-research/new-south-wales-population-health-survey.

Department of Health and Human Services. Tick-Borne Disease Working Group-2018 report to Congress 2019. Retrieved March 20, 2019, from https://www.hhs.gov/sites/default/files/tbdwg-report-to-congress-2018.pdf.

Caminade, C., McIntyre, K. M., & Jones, A. E. (2018). Impact of recent and future climate change on vector-borne diseases. Annals of the New York Academy of Sciences., 1436, 157–173.CrossRef

Raghavan, R. K., Peterson, A. T., Cobos, M. E., Ganta, R., & Foley, D. (2019). Current and future distribution of the Lone Star Tick, Amblyomma americanum (L.)(Acari: Ixodidae) in North America. PloS ONE, 14(1), e0209082.CrossRef

Kugeler, K. J., Farley, G. M., Forrester, J. D., & Mead, P. S. (2015). Geographic distribution and expansion of human Lyme Disease, United States. Emerging Infectious Diseases, 21(8), 1455–1457.CrossRef

Adjemian, J. Z., Krebs, J., Mandel, E., & McQuiston, J. (2009). Spatial clustering by disease severity among reported Rocky Mountain spotted fever cases in the United States, 2001–2005. The American Journal of Tropical Medicine and Hygiene, 80(1), 72–77.CrossRef

Jones, E., Hinckley, A., Hook, S., Meek, J., Backenson, B., Kugeler, K., et al. (2018). Pet ownership increases human risk of encountering ticks. Zoonoses and Public Health, 65(1), 74–79.CrossRef

Richardson, M., Khouja, C., & Sutcliffe, K. (2018). Interventions to prevent Lyme disease in humans: A systematic review. Preventive Medicine Reports., 13, 16–22.CrossRef

10.

Connally, N. P., Durante, A. J., Yousey-Hindes, K. M., Meek, J. I., Nelson, R. S., & Heimer, R. (2009). Peridomestic Lyme disease prevention: Results of a population-based case–control study. American Journal of Preventive Medicine, 37(3), 201–206.CrossRef

11.

Omodior, O., Pennington-Gray, L., & Donohoe, H. (2015). Efficacy of the theory of planned behavior in predicting the intention to engage in tick-borne disease personal protective behavior amongst visitors to an outdoor recreation center. Journal of Park and Recreation Administration., 33(2), 37–53.

12.

Donohoe, H., Omodior, O., & Roe, J. (2018). Tick-borne disease occupational risks and behaviors of Florida Fish, Wildlife, and Parks Service employees: A health belief model perspective. Journal of Outdoor Recreation and Tourism, 22, 9–17.CrossRef

13.

Stefanoff, P., Rosinska, M., Samuels, S., White, D. J., Morse, D. L., & Randolph, S. E. (2012). A national case-control study identifies human socio-economic status and activities as risk factors for tick-borne encephalitis in Poland. PLoS ONE, 7(9), e45511.CrossRef

14.

Slunge, D., & Boman, A. (2018). Learning to live with ticks? The role of exposure and risk perceptions in protective behaviour against tick-borne diseases. PLoS ONE, 13(6), e0198286.CrossRef

15.

Aenishaenslin, C., Michel, P., Ravel, A., Gern, L., Milord, F., Waaub, J.-P., et al. (2015). Factors associated with preventive behaviors regarding Lyme disease in Canada and Switzerland: A comparative study. BMC Public Health, 15(1), 185.CrossRef

16.

Herrington, J. E., Jr. (2004). Risk perceptions regarding ticks and Lyme disease: A national survey. American Journal of Preventive Medicine, 26(2), 135–140.CrossRef

17.

Mowbray, F., Amlôt, R., & Rubin, G. J. (2014). Predictors of protective behaviour against ticks in the UK: A mixed methods study. Ticks and Tick-Borne Diseases, 5(4), 392–400.CrossRef

18.

Beaujean, D. J. M. A., Bults, M., van Steenbergen, J. E., & Voeten, H. A. C. M. (2013). Study on public perceptions and protective behaviors regarding Lyme disease among the general public in the Netherlands: Implications for prevention programs. BMC Public Health, 13(1), 225.CrossRef

19.

Arıkan, I., Kasifoglu, N., Metintas, S., & Kalyoncu, C. (2010). Knowledge, beliefs, and practices regarding tick bites in the Turkish population in a rural area of the Middle Anatolian Region. Tropical Animal Health and Production, 42(4), 669–675.CrossRef

20.

Centers for Disease Control and Prevention. Lyme Disease Charts and Figures: Most Recent Year 2018. Retrieved May 20, 2019, from https://www.cdc.gov/lyme/datasurveillance/charts-figures-recent.html.

21.

Bayles, B. R., Evans, G., & Allan, B. F. (2013). Knowledge and prevention of tick-borne diseases vary across an urban-to-rural human land-use gradient. Ticks and Tick-Borne Diseases, 4(4), 352–358.CrossRef

22.

Aenishaenslin, C., Bouchard, C., Koffi, J. K., & Ogden, N. H. (2017). Exposure and preventive behaviours toward ticks and Lyme disease in Canada: Results from a first national survey. Ticks and Tick-Borne Diseases, 8(1), 112–118.CrossRef

23.

Qualtrics. Qualtrics 2018. Retrieved December 21, 2018, from https://uits.iu.edu/qualtrics.

24.

Kulldorff, M., Heffernan, R., Hartman, J., Assunçao, R., & Mostashari, F. (2005). A space–time permutation scan statistic for disease outbreak detection. PLoS Medicine, 2(3), e59.CrossRef

25.

Kulldorff, M. (2017). SaTScan user guide for version 9.4. 2015.

26.

Tjur, T. (2009). Coefficients of determination in logistic regression models—A new proposal: The coefficient of discrimination. The American Statistician, 63(4), 366–372.CrossRef

27.

U.S. Department of Agriculture [USDA]. Indiana: Three rural classifications based on Census places n.d. Retrieved April 22, 2019, from https://www.ers.usda.gov/webdocs/DataFiles/53180/25569_IN.pdf?v=0.

28.

LoGiudice, K., Ostfeld, R. S., Schmidt, K. A., & Keesing, F. (2003). The ecology of infectious disease: Effects of host diversity and community composition on Lyme disease risk. Proceedings of the National Academy of Sciences, 100(2), 567–571.CrossRef

29.

Salkeld, D. J., & Lane, R. S. (2010). Community ecology and disease risk: Lizards, squirrels, and the Lyme disease spirochete in California, USA. Ecology, 91(1), 293–298.CrossRef

30.

Daltroy, L. H., Phillips, C., Lew, R., Wright, E., Shadick, N. A., Liang, M. H., et al. (2007). A controlled trial of a novel primary prevention program for Lyme disease and other tick-borne illnesses. Health Education & Behavior, 34(3), 531–542.CrossRef

31.

Butler, A. D., Sedghi, T., Petrini, J. R., & Ahmadi, R. (2016). Tick-borne disease preventive practices and perceptions in an endemic area. Ticks and Tick-Borne Diseases, 7(2), 331–337.CrossRef

32.

Wallace, L. A. (1991). Comparison of risks from outdoor and indoor exposure to toxic chemicals. Environmental Health Perspectives, 95, 7–13.CrossRef

33.

U.S. Centers for Disease Control and Prevention [CDC]. Anaplasmosis-epidemiology and statistics 2019. Retrieved May 27, 2019, from https://www.cdc.gov/anaplasmosis/stats/index.html.

34.

Flynn, J., Slovic, P., & Mertz, C. K. (1994). Gender, race, and perception of environmental health risks. Risk Analysis, 14(6), 1101–1108.CrossRef

35.

Slovic, P., & Peters, E. (2006). Risk perception and affect. Current Directions in Psychological Science, 15(6), 322–325.CrossRef

36.

Sheeran, P., Harris, P. R., & Epton, T. (2014). Does heightening risk appraisals change people’s intentions and behavior? A meta-analysis of experimental studies. Psychological Bulletin, 140(2), 511.CrossRef

Titel: Spatial Clusters and Non-spatial Predictors of Tick-Borne Disease Diagnosis in Indiana
verfasst von: Oghenekaro Omodior
Sina Kianersi
Maya Luetke
Publikationsdatum: 03.07.2019
Verlag: Springer US
Erschienen in: Journal of Community Health / Ausgabe 6/2019
Print ISSN: 0094-5145
Elektronische ISSN: 1573-3610
DOI: https://doi.org/10.1007/s10900-019-00691-0

Springer Medizin

Abstract

Bitte loggen Sie sich ein, um Zugang zu diesem Inhalt zu erhalten

Weitere Artikel der Ausgabe 6/2019

Increasing Birth Cohort Screening for Chronic Hepatitis C in a Primary Care Clinic with Panel Management

Perceptions of Pediatric Primary Care Among Mothers in Treatment for Opioid Use Disorder

The Role of Acculturation and Social Capital in Access to Health Care: A Meta-study on Hispanics in the US

Factors Associated with HPV Vaccination Uptake and HPV-Associated Cancers: A County-Level Analysis in the State of Alabama

Hepatitis B Virus Screening and Vaccination in First-generation African Immigrants: A Pilot Study

Characterizing Occupational Health Risks and Chemical Exposures Among Asian Nail Salon Workers on the East Coast of the United States