Tick-Borne Diseases Network (TickNET)

Background

In the United States, there are several recognized tick-associated human illnesses including: Lyme disease (LD), Rocky Mountain spotted fever (RMSF), human granulocytic anaplasmosis (HGA), human monocytic ehrlichiosis (HME), tularemia, Southern tick-associated rash illness (STARI), tick-borne relapsing fever (TBRF), Colorado tick fever, Powassan encephalitis, and babesiosis. These tick-borne diseases (TBDs) account for the majority of vector-borne infections reported in the United States. Each year approximately 30,000 cases of Lyme disease are reported to the CDC, ranking it among the ten most common infectious diseases in the nation. However, recent estimates suggest that about 476,000 people may get Lyme disease annually in the U.S. Several TBDs can cause severe morbidity and even death.

National reporting for TBDs varies by state, and monitoring TBDs has been limited somewhat by diverse epidemiologic, laboratory, and clinical issues. Changes in reporting requirements over time and in various states result in an inability to evaluate changes in TBD incidence temporally (especially for Lyme disease).

Purpose

TickNET is a network created in 2007 to foster collaboration on surveillance, research, education, and prevention for tickborne diseases. Collaborators include various divisions within CDC and key state and local health departments. CDC provides extramural funding to participating health departments and partners through the Epidemiology and Laboratory Capacity for Infectious Diseases (ELC) cooperative agreement, to sustain and enhance surveillance for Lyme disease, and through the Emerging Infections Program (EIP), to promote applied research.

The ultimate goals of TickNET are to foster greater collaboration among CDC programs working on tickborne diseases, to enhance and integrate surveillance for tickborne diseases in partnership with states, and to facilitate applied research projects that address key public health questions regarding tickborne diseases. Through these efforts, CDC aims to better understand the burden of tickborne diseases and to develop tools to control their increasing incidence.

Activities

Connecticut has collaborated with CDC and other TickNET sites in Maryland, Minnesota, and New York on various projects including:

Evaluating national and state-specific (CT, MD, MN, NY) laboratory testing practices for Lyme and other tickborne diseases. The CT EIP staff took the lead on developing and implementing the survey. Results for this project were published in 2014 and 2016.

Lyme and other Tickborne Diseases Prevention Study (LTDPS): This was a randomized, blinded, placebo-controlled acaricide trial which took place in CT, MD, and NY to evaluate the efficacy of single springtime applications of acaricide on residential properties to prevent tickborne diseases. Results for this project were published in 2016.

Bait Box Intervention Study (BBI): The goal of this study was to investigate whether tickborne diseases can be prevented with the use of commercially available, SELECT TCS Tick Control System bait boxes, a rodent-targeted method of tick control. Results for this project were published in 2021.

Cost of Lyme Disease Study (COLD): This was a prospective, descriptive, cost of illness study related to Lyme disease. The CT EIP worked with the EIPs of MD, MN, and NY to assess the total societal and individual level costs of Lyme disease. Results for this project were published in 2022.

Knowledge, Attitudes, and Behavior Study (KAB): The goal of this study was to evaluate knowledge of tickborne diseases and risk perception, along with knowledge, attitudes, and behaviors regarding tick bite and tickborne disease prevention among persons living in selected areas of CT and MD. Results for this project were published in 2019.

Lyme Disease Vaccine Acceptability Survey: The primary objective of this survey was to determine the proportion of people in CT, MD, MN, and NY who would be vaccinated with a Lyme disease vaccine if one were available. Secondarily, the goal was to characterize the motivations for, and barriers against, getting a Lyme disease vaccine. Results for this project were published in 2022.

4-Poster Acceptability Survey: The goal of this survey was to evaluate the acceptability of 4-Poster Deer Treatment Devices as a community-wide method for reducing ticks important to human health in CT and NY. Results for this project were published in 2023.

4-Poster Feasibility Study: For this study TickNET researchers partnered with the town of Ridgefield, CT to understand the feasibility and operational logistics of deploying 4-posters on public land within a residential community. Results for this project were published in 2023.

TickNET Publications

Barriers to the Uptake of Tickborne Disease Prevention Measures: Connecticut, Maryland 2016-2017.Hansen AP, Wilkinson MM, Niesobecki S, Rutz H, Meek JI, Niccolai L, Hinckley AF, Hook S. J Public Health Manag Pract. 2024 Sep 24; 2024 Sep 24. PMID: 39321400.
Operational Considerations for Using Deer-Targeted 4-Poster Tick Control Devices in a Tick-borne Disease Endemic Community.Hornbostel VL, Meek JI, Hansen AP, Niesobecki SA, Nawrocki CC, Hinckley AF, Connally NP. J Public Health Manag Pract. 2024 Jan-Feb 01; 2023 Aug 9. PMID: 37566802.
Acceptability of 4-poster deer treatment devices for community-wide tick control among residents of high Lyme disease incidence counties in Connecticut and New York, USA.Nawrocki CC, Piedmonte N, Niesobecki SA, Rowe A, Hansen AP, Kaufman A, Foster E, Meek JI, Niccolai L, White J, Backenson B, Eisen L, Hook SA, Connally NP, Hornbostel VL, Hinckley AF. Ticks Tick Borne Dis. 2023 Nov; 2023 Jul 31. PMID: 37531890.
Economic Burden of Reported Lyme Disease in High-Incidence Areas, United States, 2014-2016.Hook SA, Jeon S, Niesobecki SA, Hansen AP, Meek JI, Bjork JKH, Dorr FM, Rutz HJ, Feldman KA, White JL, Backenson PB, Shankar MB, Meltzer MI, Hinckley AF. Emerg Infect Dis. 2022 Jun. PMID: 35608612.
Designing an Intervention Trial of Human-Tick Encounters and Tick-Borne Diseases in Residential Settings Using 4-Poster Devices to Control Ixodes scapularis (Acari: Ixodidae): Challenges for Site Selection and Device Placement.Connally NP, Rowe A, Kaufman A, Meek JI, Niesobecki SA, Hansen AP, White J, Nawrocki C, Foster E, Hinckley AF, Eisen L. J Med Entomol. 2022 May 11. PMID: 35294011.
Evaluating public acceptability of a potential Lyme disease vaccine using a population-based, cross-sectional survey in high incidence areas of the United States.Hook SA, Hansen AP, Niesobecki SA, Meek JI, Bjork JKH, Kough EM, Peterson MS, Schiffman EK, Rutz HJ, Rowe AJ, White JL, Peel JL, Biggerstaff BJ, Hinckley AF. Vaccine. 2022 Jan 21; 2021 Dec 8. PMID: 34895785.
Willingness to Pay for Select Tick-Borne Disease Prevention Measures in Endemic Areas.Niesobecki S, Rutz H, Niccolai L, Hook S, Feldman K, Hinckley A. J Public Health Manag Pract. 2022 Jan-Feb 01. PMID: 33729199.
Prevention of Lyme and other tickborne diseases using a rodent-targeted approach: A randomized controlled trial in Connecticut.Hinckley AF, Niesobecki SA, Connally NP, Hook SA, Biggerstaff BJ, Horiuchi KA, Hojgaard A, Mead PS, Meek JI. Zoonoses Public Health. 2021 Sep; 2021 May 28. PMID: 34050628.
Human-tick encounters as a measure of tickborne disease risk in lyme disease endemic areas.Hook SA, Nawrocki CC, Meek JI, Feldman KA, White JL, Connally NP, Hinckley AF. Zoonoses Public Health. 2021 Aug; 2021 Feb 7. PMID: 33554467.
Knowledge, attitudes, and behaviors regarding tick-borne disease prevention in endemic areas.Niesobecki S, Hansen A, Rutz H, Mehta S, Feldman K, Meek J, Niccolai L, Hook S, Hinckley A. Ticks Tick Borne Dis. 2019 Oct; 2019 Jul 29. PMID: 31431351.
Effectiveness of Residential Acaricides to Prevent Lyme and Other Tick-borne Diseases in Humans.Hinckley AF, Meek JI, Ray JA, Niesobecki SA, Connally NP, Feldman KA, Jones EH, Backenson PB, White JL, Lukacik G, Kay AB, Miranda WP, Mead PS. J Infect Dis. 2016 Jul 15; 2016 Jan 5. PMID: 26740276.
Testing practices and volume of non-Lyme tickborne diseases in the United States.Connally NP, Hinckley AF, Feldman KA, Kemperman M, Neitzel D, Wee SB, White JL, Mead PS, Meek JI. Ticks Tick Borne Dis. 2016 Feb; 2015 Oct 30. PMID: 26565931.
Lyme disease testing by large commercial laboratories in the United States.Hinckley AF, Connally NP, Meek JI, Johnson BJ, Kemperman MM, Feldman KA, White JL, Mead PS. Clin Infect Dis. 2014 Sep 1; 2014 May 30. PMID: 24879782.
Selection of neighborhood controls for a population-based Lyme disease case-control study by using a commercial marketing database.Connally NP, Yousey-Hindes K, Meek J. Am J Epidemiol. 2013 Jul 15; 2013 May 21. PMID: 23696105.
Peridomestic Lyme disease prevention: results of a population-based case-control study.Connally NP, Durante AJ, Yousey-Hindes KM, Meek JI, Nelson RS, Heimer R. Am J Prev Med. 2009 Sep. PMID: 19595558.
Spatial analysis of human granulocytic ehrlichiosis near Lyme, Connecticut.Chaput EK, Meek JI, Heimer R. Emerg Infect Dis. 2002 Sep. PMID: 12194771.

Program Manager

Sara Niesobecki, MPH, MS
Program Manager, TickNET
Connecticut Emerging Infections Program
One Church Street, 7th floor
New Haven, CT 06510
sara.niesobecki@yale.edu
203-737-6978