HIV and Sexually Transmitted Infection Epidemic Potential of Networks of Men Who Have Sex With Men in Two Cities

Overview

Journal Epidemiology

Specialty Public Health

Date 2021 Jun 26

PMID 34172692

Citations 4

Authors

Emeli J Anderson

Kevin M Weiss

Martina M Morris

Travis H Sanchez

Pragati Prasad

Samuel M Jenness

Affiliations

Soon will be listed here.

Abstract

Background: The speed with which a pathogen circulates in a sexual network is a function of network connectivity. Cross-sectional connectivity is a function of network features like momentary degree and assortative mixing. Temporal connectivity is driven by partner acquisition rates. The forward-reachable path (FRP) has been proposed as a summary measure of these two aspects of transmission potential. We use empirical data from San Francisco and Atlanta to estimate the generative parameters of the FRP and compare results to the HIV/sexually transmitted infection epidemics in each city.

Methods: We used temporal exponential random graph models to estimate the generative parameters for each city's dynamic sexual network from survey data. We then simulated stochastic dynamic networks from the fitted models and calculated the FRP for each realization, overall, and stratified by partnership type and demographics.

Results: The overall mean and median paths were higher in San Francisco than in Atlanta. The overall paths for each city were greater than the sum of the paths in each individual partnership network. In the casual partnership network, the mean path was highest in the youngest age group and lowest in the oldest age group, despite the fact that the youngest group had the lowest mean momentary degree and past-year partner counts.

Conclusions: The FRP by age group revealed the additional utility of the measure beyond the temporal and cross-sectional network connectivity measures. Other nonnetwork factors are still necessary to infer total epidemic potential for any specific pathogen.

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References

Grey J, Bernstein K, Sullivan P, Purcell D, Chesson H, Gift T . Estimating the Population Sizes of Men Who Have Sex With Men in US States and Counties Using Data From the American Community Survey. JMIR Public Health Surveill. 2016; 2(1):e14. PMC: 4873305. DOI: 10.2196/publichealth.5365. View

Handcock M, Hunter D, Butts C, Goodreau S, Morris M . statnet: Software Tools for the Representation, Visualization, Analysis and Simulation of Network Data. J Stat Softw. 2008; 24(1):1548-7660. PMC: 2447931. DOI: 10.18637/jss.v024.i01. View

Goodreau S, Rosenberg E, Jenness S, Luisi N, Stansfield S, Millett G . Sources of racial disparities in HIV prevalence in men who have sex with men in Atlanta, GA, USA: a modelling study. Lancet HIV. 2017; 4(7):e311-e320. PMC: 5706457. DOI: 10.1016/S2352-3018(17)30067-X. View

Murray E, Robins J, Seage G, Freedberg K, Hernan M . A Comparison of Agent-Based Models and the Parametric G-Formula for Causal Inference. Am J Epidemiol. 2017; 186(2):131-142. PMC: 5860229. DOI: 10.1093/aje/kwx091. View

Jenness S, Goodreau S, Morris M . EpiModel: An R Package for Mathematical Modeling of Infectious Disease over Networks. J Stat Softw. 2018; 84. PMC: 5931789. DOI: 10.18637/jss.v084.i08. View

Marmor M, Sheppard H, Donnell D, Bozeman S, Celum C, Buchbinder S . Homozygous and heterozygous CCR5-Delta32 genotypes are associated with resistance to HIV infection. J Acquir Immune Defic Syndr. 2001; 27(5):472-81. DOI: 10.1097/00126334-200108150-00009. View

Morris M, Epstein H, Wawer M . Timing is everything: international variations in historical sexual partnership concurrency and HIV prevalence. PLoS One. 2010; 5(11):e14092. PMC: 2991312. DOI: 10.1371/journal.pone.0014092. View

Handcock M, Jones J . Likelihood-based inference for stochastic models of sexual network formation. Theor Popul Biol. 2004; 65(4):413-22. DOI: 10.1016/j.tpb.2003.09.006. View

Amirkhanian Y . Social networks, sexual networks and HIV risk in men who have sex with men. Curr HIV/AIDS Rep. 2014; 11(1):81-92. PMC: 3944100. DOI: 10.1007/s11904-013-0194-4. View

10.

Kojima N, Klausner J . Disparities in the Testing, Treating, Suppressing, and Preventing HIV Infection Among Underserved Populations. AIDS Res Hum Retroviruses. 2019; 35(9):786-787. PMC: 6735321. DOI: 10.1089/AID.2019.0094. View

11.

Zlotorzynska M, Sullivan P, Sanchez T . The Annual American Men's Internet Survey of Behaviors of Men Who Have Sex With Men in the United States: 2016 Key Indicators Report. JMIR Public Health Surveill. 2019; 5(1):e11313. PMC: 6401665. DOI: 10.2196/11313. View

12.

Moody J, Adams J, Morris M . Epidemic potential by sexual activity distributions. Netw Sci (Camb Univ Press). 2018; 5(4):461-475. PMC: 5809000. DOI: 10.1017/nws.2017.3. View

13.

Hamilton D, Handcock M, Morris M . Degree distributions in sexual networks: a framework for evaluating evidence. Sex Transm Dis. 2008; 35(1):30-40. PMC: 4370286. DOI: 10.1097/olq.0b013e3181453a84. View

14.

Armbruster B, Wang L, Morris M . Forward reachable sets: Analytically derived properties of connected components for dynamic networks. Netw Sci (Camb Univ Press). 2022; 5(3):328-354. PMC: 9435316. DOI: 10.1017/nws.2017.10. View

15.

Jones J, Handcock M . An assessment of preferential attachment as a mechanism for human sexual network formation. Proc Biol Sci. 2003; 270(1520):1123-8. PMC: 1691356. DOI: 10.1098/rspb.2003.2369. View

16.

Sullivan P, Khosropour C, Luisi N, Amsden M, Coggia T, Wingood G . Bias in online recruitment and retention of racial and ethnic minority men who have sex with men. J Med Internet Res. 2011; 13(2):e38. PMC: 3221372. DOI: 10.2196/jmir.1797. View

17.

Eaton J, Hallett T, Garnett G . Concurrent sexual partnerships and primary HIV infection: a critical interaction. AIDS Behav. 2010; 15(4):687-92. PMC: 3520057. DOI: 10.1007/s10461-010-9787-8. View

18.

Morris M, Kurth A, Hamilton D, Moody J, Wakefield S . Concurrent partnerships and HIV prevalence disparities by race: linking science and public health practice. Am J Public Health. 2009; 99(6):1023-31. PMC: 2679771. DOI: 10.2105/AJPH.2008.147835. View

19.

Chandra C, Weiss K, Kelley C, Marcus J, Jenness S . Gaps in Sexually Transmitted Infection Screening Among Men who Have Sex with Men in Pre-exposure Prophylaxis (PrEP) Care in the United States. Clin Infect Dis. 2020; 73(7):e2261-e2269. PMC: 8492145. DOI: 10.1093/cid/ciaa1033. View

20.

Jenness S, Weiss K, Goodreau S, Gift T, Chesson H, Hoover K . Incidence of Gonorrhea and Chlamydia Following Human Immunodeficiency Virus Preexposure Prophylaxis Among Men Who Have Sex With Men: A Modeling Study. Clin Infect Dis. 2017; 65(5):712-718. PMC: 5848234. DOI: 10.1093/cid/cix439. View