Objective: To assess the health service costs and benefits for the woman of
an earlier HIV diagnosis as a result of antenatal HIV testing.
Design: A model of maternal disease progression was developed based on the
rate of decline in CD4 cell counts and applied to two matched simulated coh
orts of women with identical initial CD4 cell levels and decline rates but
whose HIV diagnosis occurred at different times as a result of antenatal HI
V testing. UK data on CD4 cell count at HIV diagnosis and annual health ser
vice costs of care excluding antiretroviral therapy (ART) incurred at defin
ed states of CD4 cell count were taken from published UK data. Costs of tri
ple ART were added and effectiveness modelled by retarding the rate of CD4
cell count decline. Discounting cost at 6% and life-years at 2% per year, t
he additional costs per life-year gained by screening were calculated. Unce
rtainty was explored using sensitivity analysis.
Results: Costs per life-year gained by antenatal diagnosis of women were po
und 51 258 ($76 887) assuming untested women were diagnosed a median of 20.
4 months later than tested women, ART was initiated at a CD4 cell count of
350 x 10(6) cells/l and ART efficacy retarded decline in CD4 cell counts by
40% for life. Sensitivity analyses showed results were most sensitive to t
he assumed efficacy of lifetime ART and time assumed to HIV diagnosis for w
omen not tested in pregnancy.
Conclusion: This model provides a way of estimating the additional costs an
d benefits of future care for the woman resulting from an earlier HIV diagn
osis through antenatal testing. These should be included with the paediatri
c costs averted and life-years gained from interventions to reduce mother-t
o-child transmission in order to evaluate the cost-effectiveness of antenat
al screening in different populations and settings. (C) 1999 Lippincott Wil
liams & Wilkins.