Add to ORKGPublished by International Electronic Journal of Pure and Applied Mathematics Volume 6 No. 2 2013, 83-103Mathematical models are used to provide insights into the mechanisms and dynamics of the progression of viral infection in vivo. Untangling the dynamics between HIV and CD4+ cellular populations and molecular interactions can be used to investigate the effective points of interventions in the HIV life cycle. With that in mind, we develop and analyze a stochastic model for In-Host HIV dynamics that includes combined therapeutic treatment and intracellular delay between the infection of a cell and the emission of viral particles. The unique feature is that both therapy and the intracellular delay are incorporated into the model. We sho...
Human Immunodeficiency Virus (HIV) is an intracellular parasite that attacks cells of the immune sys...
Aims: To construct a clinically plausible mathematical model of the patho-physiological dynamics of ...
Mathematical modeling of biological systems is crucial to effectively and efficiently developing tre...
Published PaperUntangling the dynamics between HIV and CD4 cellular populations and molecular intera...
Conference paper presented at “The 2nd EAUMP Conference” on 22nd – 25th August 2012. Arusha - Tanza...
Conference paper presented at “SU International Mathematics Research Meeting" on 23rd – 26th July 20...
AbstractThe dynamics of human immunodeficiency virus infection under antiretroviral therapy is inves...
M. Sc. University of KwaZulu-Natal, Pietermaritzburg 2015.Most existing models have considered the i...
Infection with HIV-1, degrading the human immune system and recent advances of drug therapy to arres...
Drug resistance to single therapeutic treatment in HIV infected individuals has promoted research in...
Replication of Human Immunodeficiency Virus type 1 (HIV) in infected CD4+ T cells represents a key d...
Abstract This paper seeks to unveil the niche of delay differential equation in harmonizing low HIV...
In this paper we study a delay mathematical model for the dynamics of HIV in HIV-specific CD4 + T he...
National Science Foundation of China [10775114]A stochastic spatial model based on the Monte Carlo a...
In this paper, the patho-physiological dynamics of HIV-1 induced AIDS is analyzed using a system of ...
Human Immunodeficiency Virus (HIV) is an intracellular parasite that attacks cells of the immune sys...
Aims: To construct a clinically plausible mathematical model of the patho-physiological dynamics of ...
Mathematical modeling of biological systems is crucial to effectively and efficiently developing tre...
Published PaperUntangling the dynamics between HIV and CD4 cellular populations and molecular intera...
Conference paper presented at “The 2nd EAUMP Conference” on 22nd – 25th August 2012. Arusha - Tanza...
Conference paper presented at “SU International Mathematics Research Meeting" on 23rd – 26th July 20...
AbstractThe dynamics of human immunodeficiency virus infection under antiretroviral therapy is inves...
M. Sc. University of KwaZulu-Natal, Pietermaritzburg 2015.Most existing models have considered the i...
Infection with HIV-1, degrading the human immune system and recent advances of drug therapy to arres...
Drug resistance to single therapeutic treatment in HIV infected individuals has promoted research in...
Replication of Human Immunodeficiency Virus type 1 (HIV) in infected CD4+ T cells represents a key d...
Abstract This paper seeks to unveil the niche of delay differential equation in harmonizing low HIV...
In this paper we study a delay mathematical model for the dynamics of HIV in HIV-specific CD4 + T he...
National Science Foundation of China [10775114]A stochastic spatial model based on the Monte Carlo a...
In this paper, the patho-physiological dynamics of HIV-1 induced AIDS is analyzed using a system of ...
Human Immunodeficiency Virus (HIV) is an intracellular parasite that attacks cells of the immune sys...
Aims: To construct a clinically plausible mathematical model of the patho-physiological dynamics of ...
Mathematical modeling of biological systems is crucial to effectively and efficiently developing tre...