Modeling shrimp biomass and viral infection for production of biological countermeasures

In this paper we develop a mathematical model for the rapid productionof large quantities of therapeutic and preventive countermeasures. Wecouple equations for biomass production with those for vaccine production inshrimp that have been infected with a recombinant viral vector expressing aforeign an...

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Main Authors: H. Thomas Banks, V. A. Bokil, Shuhua Hu, A. K. Dhar, R. A. Bullis, C. L. Browdy, F.C.T. Allnutt
Format: Article
Language:English
Published: AIMS Press 2006-07-01
Series:Mathematical Biosciences and Engineering
Subjects:
Online Access:https://www.aimspress.com/article/doi/10.3934/mbe.2006.3.635
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author H. Thomas Banks
V. A. Bokil
Shuhua Hu
A. K. Dhar
R. A. Bullis
C. L. Browdy
F.C.T. Allnutt
author_facet H. Thomas Banks
V. A. Bokil
Shuhua Hu
A. K. Dhar
R. A. Bullis
C. L. Browdy
F.C.T. Allnutt
author_sort H. Thomas Banks
collection DOAJ
description In this paper we develop a mathematical model for the rapid productionof large quantities of therapeutic and preventive countermeasures. Wecouple equations for biomass production with those for vaccine production inshrimp that have been infected with a recombinant viral vector expressing aforeign antigen. The model system entails both size and class-age structure.
format Article
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institution Kabale University
issn 1551-0018
language English
publishDate 2006-07-01
publisher AIMS Press
record_format Article
series Mathematical Biosciences and Engineering
spelling doaj-art-a3f63b3b0a224d29bf83e6d25344a2422025-01-24T01:52:27ZengAIMS PressMathematical Biosciences and Engineering1551-00182006-07-013463566010.3934/mbe.2006.3.635Modeling shrimp biomass and viral infection for production of biological countermeasuresH. Thomas Banks0V. A. Bokil1Shuhua Hu2A. K. Dhar3R. A. Bullis4C. L. Browdy5F.C.T. Allnutt6Center for Research in Scientific Computation, Raleigh, NC 27695-8205Center for Research in Scientific Computation, Raleigh, NC 27695-8205Center for Research in Scientific Computation, Raleigh, NC 27695-8205Center for Research in Scientific Computation, Raleigh, NC 27695-8205Center for Research in Scientific Computation, Raleigh, NC 27695-8205Center for Research in Scientific Computation, Raleigh, NC 27695-8205Center for Research in Scientific Computation, Raleigh, NC 27695-8205In this paper we develop a mathematical model for the rapid productionof large quantities of therapeutic and preventive countermeasures. Wecouple equations for biomass production with those for vaccine production inshrimp that have been infected with a recombinant viral vector expressing aforeign antigen. The model system entails both size and class-age structure.https://www.aimspress.com/article/doi/10.3934/mbe.2006.3.635latently-acutely infected.size/class-age structured population modelsshrimp growth/viral pro-gression dynamics
spellingShingle H. Thomas Banks
V. A. Bokil
Shuhua Hu
A. K. Dhar
R. A. Bullis
C. L. Browdy
F.C.T. Allnutt
Modeling shrimp biomass and viral infection for production of biological countermeasures
Mathematical Biosciences and Engineering
latently-acutely infected.
size/class-age structured population models
shrimp growth/viral pro-gression dynamics
title Modeling shrimp biomass and viral infection for production of biological countermeasures
title_full Modeling shrimp biomass and viral infection for production of biological countermeasures
title_fullStr Modeling shrimp biomass and viral infection for production of biological countermeasures
title_full_unstemmed Modeling shrimp biomass and viral infection for production of biological countermeasures
title_short Modeling shrimp biomass and viral infection for production of biological countermeasures
title_sort modeling shrimp biomass and viral infection for production of biological countermeasures
topic latently-acutely infected.
size/class-age structured population models
shrimp growth/viral pro-gression dynamics
url https://www.aimspress.com/article/doi/10.3934/mbe.2006.3.635
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