Журнал микробиологии, эпидемиологии и иммунобиологии (Dec 2022)

Hepatitis C virus care cascade for children in Moscow Region

  • Elena R. Meskina,
  • Lidiya A. Galkina,
  • Elena E. Tselipanova,
  • Nuriniso D. Odinaeva

DOI
https://doi.org/10.36233/0372-9311-330
Journal volume & issue
Vol. 99, no. 5
pp. 525 – 539

Abstract

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Background. Children and adolescents with infection caused by the hepatitis C virus (HCV) have not been given sufficient attention due to mild forms of HCV and delays in approval of antiviral treatment regimens. Omissions in the studies of pediatric cohorts and shortcomings of management policies aimed at children should be eliminated by improving screening coverage and access to treatment. The aim of the study was to present the results of the cascade sequence of diagnostic testing, care and treatment of children with HCV in the Moscow Region (MR). Materials and methods. The study included all HCV seropositive children of MR (n = 175), who underwent screening tests, and it did not include patients living with HIV/HCV coinfection. Children were observed from 2017 to 2022. The HCV RNA was detected in 164 children and HCV genotypes were identified in 99 children. The stage of liver fibrosis was assessed in 73 children by transient elastography and by FIB-4 index calculation. Results. In MR, 93.7% of seropositive children were tested for HCV RNA; 71.2% of adolescents over 12 years of age received treatment. The prevalence of HCV seropositivity was estimated at 0.113/1,000 children population; the prevalence of chronic HCV infection was at least 0.059/1,000. The dominant HCV subtypes were GT 1b (43.4% [the 95% confidence interval, 33.553.8%]), GT 3a (23.2% [15.332.8%]) and GT 3a/3b (20.2% [12.829.5%]). The incidence of viremic HCV infection per 100,000 children was 3.3 among children under 3 years of age; 7.0 among children aged 36 years; 7.7 among children aged 711 years, 4.4 among adolescents older than 12 years. Natural HCV clearance was reported at the frequency of 19.5% [13.826.4%]. Extrahepatic manifestations were of rare occasion 2.9% [0.96.5%]. Vertical transmission was the primary route of HCV transmission (78.3% [71.484.2%]); infection is assumed to occur during medical invasive procedures 7.4% [4.012.4%], drug using 0.6% [0.013.10%], in the family household 0.6% [0.013.10%]. New cases of HCV infection were more frequently detected during routine examination of children prior to hospitalization or children born to mothers with HCV. Viremic HCV was confirmed in 90.2% [84.694.3%], including HCV infection in 53.4% [45.061.6%], chronic liver disease in 35.8% [28.144.1%] having low activity and occasional consequences (the fibrosis METAVIR score of F1 and F1-2 17.8% [9.828.5%]). No significant clinical and epidemiological differences between the natural course of chronic HCV infection and the liver disease caused by HCV have been found. The burden of pediatric HCV in MR is aggravated by a significant proportion of socially vulnerable patients and patients with comorbid conditions. Conclusion. One of the solutions for detection of new pediatric cases of HCV infection in MR can be offered by improvement of collaboration and continuity of care among healthcare organizations and early treatment of women of childbearing age. Further research is required to evaluate the effectiveness of routine testing of all socially vulnerable pediatric groups. Early application of pan-genotypic antiviral treatment regimens can contribute significantly to control of the HCV infection incidence in children.

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