Title of article
Probability of resistance evolution for exponentially growing virus in the host
Author/Authors
Haeno، نويسنده , , HIROSHI and IWASA، نويسنده , , Yoh، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
9
From page
323
To page
331
Abstract
Chemotherapy for tumor and pathogenic virus often faces an emergence of resistant mutants, which may lead to medication failure. Here we study the risk of resistance to evolve in a virus population which grows exponentially. We assume that infected cells experience a “proliferation event” of virus at a random time and that the number of newly infected cells from an infected cell follows a Poisson distribution. Virus starts from a single infected cell and the virus infection is detected when the number of infected cells reaches a detection size. Initially virus is sensitive to a drug but later acquires resistance by mutations. We ask the probability that one or more cells infected with drug-resistant virus exist at the time of detection. We derive a formula for the probability of resistance and confirm its accuracy by direct computer simulations. The probability of resistance increases with detection size and mutation rate but decreases with the population growth rate of sensitive virus. The risk of resistance is smaller when more cells are newly infected by viral particles from a single infected cell if the viral growth rate is the same.
Keywords
Birth-and-death process , chemotherapy , HIV , virus dynamics , Drug resistance
Journal title
Journal of Theoretical Biology
Serial Year
2007
Journal title
Journal of Theoretical Biology
Record number
1538539
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