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Abstract

Thirty-five years since the discovery of the human immunodeficiency virus (HIV), the epidemic is still ongoing in France. To guide HIV prevention strategies and monitor their impact, it is essential to understand the dynamics of the HIV epidemic. The indicator for reporting the progress of new infections is the HIV incidence. Given that HIV is mainly transmitted by undiagnosed individuals and that earlier treatment leads to less HIV transmission, it is essential to know the number of infected people unaware of their HIV-positive status as well as the time between infection and diagnosis. Our approach is based on a non-homogeneous multi-state Markov model describing the progression of the HIV disease. We propose a penalized likelihood approach to estimate the HIV incidence curve as well as the diagnosis rates. The HIV incidence curve was approximated using cubic M-splines, while an approximation of the cross-validation criterion was used to estimate the smoothing parameter. In a simulation study, we evaluate the performance of the model for reconstructing the HIV incidence curve and diagnosis rates. The method is illustrated in the population of men who have sex with men using HIV surveillance data collected by the French Institute for Public Health Surveillance since 2004.

Keywords

HIV incidence multi-state Markov model penalized likelihood notification data surveillance

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References

UNAIDS/WHO working group on global HIV/AIDS and STI surveillance. Estimating HIV incidence using HIV case surveillance. Glion: UNAIDS, 2015.

Walker

Garcia-Calleja

Heaton

, et al. Epidemiological analysis of the quality of HIV sero-surveillance in the world: how well do we track the epidemic? AIDS 2001; 15: 1545–1554.

Barnighausen

Wallrauch

Welte

, et al. HIV incidence in rural South Africa: comparison of estimates from longitudinal surveilance and cross-sectional cbed assay testing. PLoS One 2008; 3.

Barin

Nardone

Monitoring HIV epidemiology using assays for recent infection: where are we?

Eurosurveillance 2008; 13.

Birrel

Chadborn

Noel Gill

, et al. Estimating trends in incidence, time-to-diagnosis and undiagnosed prevalence using a cd4-based Bayesian back-calculation. Stat Commun Inf Dis 2012; 4: 757–780.

Marty

Cazein

Panjo

, et al. Revealing geographical and population heterogeneity in HIV incidence, undiagnosed HIV prevalence and time to diagnosis to improve prevention and care: estimates for france. J Int AIDS Soc 2018; 21.

Aalen

Farewell

De Angelis

, et al. A Markov model for HIV disease progression including the effect of HIV diagnosis and treatment: application to aids prediction in England and Wales. Stat Med 2007; 16: 2191–2210.

Sweeting

De Angelis

Aalen

Bayesian back-calculation using a multi-state model with application to HIV.

Stat Med 2005; 24: 3991–4007.

Sommen

Alioum

Commenges

A multistate approach for estimating the incidence of human immunodeficiency virus by using HIV and AIDS french surveillance data.

Stat Med 2009; 28: 1554–1568.

10.

Le Vu

Le Strat

Barin

, et al. Population-based HIV-1 incidence in France, 200308:a modelling analysis. Lancet Inf Dis 2010; 10: 682–687.

11.

Sommen

Commenges

Le Vu

, et al. Estimation of the distribution of infection times using longitudinal serological markers of HIV: implications for the estimation of HIV incidence. Biometrics 2011; 67: 467–475.

12.

Lot

Cazein

Pillonel

, et al. Premiers rsultats du nouveau dispositif de surveillance de l’infection vih et situation du sida au 30 septembre 2003. Bulletin Epidmiologique Hebdomadaire 2004; 24: 102–110.

13.

Barin

Meyer

Lancar

, et al. Development and validation of an immunoassay for identification of recent human immunodeficiency virus type 1 infections and its use on dried serum spots. J Clin Microbiol 2005; 43: 4441–4447.

14.

Cazein

Sommen

Pillonel

, et al. HIV screening activity and circumstances of new HIV diagnoses, France 2018. Bulletin Epidmiologique Hebdomadaire 2019; 31: 615–624.

15.

Brookmeyer

Liao

The analysis of delays in disease reporting: methods and results for the acquired immunodeficiency syndrome.

Am J Epidemiol 1990; 132: 355–365.

16.

White

Royston

Wood

Multiple imputation using chained equations: issues and guidance for practice.

Stat Med 2009; 30: 377–399.

17.

Bodner

What improves with increased missing data imputations?

Struct Equat Model 2008; 15: 651–675.

18.

Rubin

Multiple imputation after 18+ years. J Am Stat Assoc 2012; 91: 473–489.

19.

Jamil

Prestage

Fairley

, et al. Effect of availability of HIV self-testing on HIV testing frequency in gay and bisexual men at high risk of infection (forth): a waiting-list randomised controlled trial. Lancet HIV 2017; 4: 241–250.

20.

Centers for Diseases Control and Prevention. Revised classification system for HIV infection and expanded surveillance case definition for aids among adolescents and adults. Morbid Mortal Wkly Rep 1992; 41: 1–19.

21.

Alioum

Commenges

Thibault

. A multistate approach for estimating the incidence of human immunodeficiency virus by using data from a prevalent cohort study. J R Stat Soc Ser C (Appl Stat) 2005; 54: 739–752.

22.

Becker

Marschner

A method for estimating the age-specific relative risk of HIV infection from aids incidence data. Biometrika 1993; 80: 165–178.

23.

Becker

Lewis

, et al. Age-specific back-projection of HIV diagnosis data. Stat Med 2003; 22: 2177–2190.

24.

Rosenberg

Backcalculation models of age-specific HIV incidence rates.

Stat Med 1994; 13: 1975–1990.

25.

Brizzi

Birrell

Plummer

, et al. Extending bayesian back-calculation to estimate age and time specific HIV incidence. Lifetime Data Anal 2019; 25: 757–780.

26.

Good

Gasking

Nonparametric roughness penalties for probability densities. Biometrika 1971; 58: 255–277.

27.

Good

Gasking

Density estimation and bump-hunting by the penalized likelihood method exemplified by scattering and meteorite data. J Am Stat Assoc 1980; 75: 42–56.

28.

Joly

Commenges

A penalized likelihood approach for arbitrarily consored and truncated data: application to age-specific incidence of dementia. Biometrics 1998; 54: 203–212.

29.

O’Sullivan

Yandell

Raynor

Automatic smoothing of regression functions in generalized linear models. J Am Stat Assoc 1986; 81: 96–103.

30.

Whaba

Spline models for observational data. Philadelphia: Society for Industrial and Applied Mathematics, 1990.

31.

Commenges

Joly

Ggout-Petit

, et al. Choise between semi-parametric estimators of Markov and non-Markov multi-state models from coarsened observations. Scand J Stat 2007; 34: 33–52.

32.

Marquardt

An algorithm for least-squares estimation of non linear parameters. SIAM J Appl Math 1963; 11: 431–441.

33.

Whaba

Bayesian confidence intervals for the cross-validated smoothing splines. J R Stat Soc B 1983; 45: 133–150.

34.

Ayilara

Zhang

Sajobi

, et al. Impact of missing data on bias and precision when estimating change in patient-reported outcomes from a clinical registry. Health Qual Life Outcomes 2019; 17.

35.

Haute Autorite de Sante. Reevaluation de la strategie de depistage de l’infection vih en france - synthese, conclusions et recommandations. Saint-Denis: Haute Autorite de Sante, 2017.

36.

Bellocco

Pagano

Multinomial analysis of smoothed HIV back-calculation models incorporating uncertainty in the aids incidence.

Stat Med 2001; 20: 2017–2033.

37.

Rosenberg

Goedert

Estimating the cumulative incidence of HIV infection among persons with haemophilia in the United States of America. Stat Med 1998; 17: 155–168.

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A multi-state Markov model using notification data to estimate HIV incidence,number of undiagnosed individuals living with HIV,and delay between infection and diagnosis: Illustration in France,2008–2018

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