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Optimizing distribution of pandemic influenza antiviral drugs

Optimizing distribution of pandemic influenza antiviral drugs
Optimizing distribution of pandemic influenza antiviral drugs
We provide a data-driven method for optimizing pharmacybased distribution of antiviral drugs during an influenza pandemic in terms of overall access for a target population and apply it to the state of Texas, USA. We found that during the 2009 influenza pandemic, the Texas Department of State Health Services achieved an estimated statewide access of 88% (proportion of population willing to travel to the nearest dispensing point). However, access reached only 34.5% of US postal code (ZIP code) areas containing <1,000 underinsured persons. Optimized distribution networks increased expected access to 91% overall and 60% in hard-to-reach regions, and 2 or 3 major pharmacy chains achieved near maximal coverage in well-populated areas. Independent pharmacies were essential for reaching ZIP code areas containing <1,000 underinsured persons. This model was developed during a collaboration between academic researchers and public health officials and is available as a decision support tool for Texas Department of State Health Services at a Web-based interface.
1080-6059
251-258
Singh, Bismark
9d3fc6cb-f55e-4562-9d5f-42f9a3ddd9a1
Huang, Hsin Chan
cb0e54c5-b241-4c91-9738-b295c2de2e75
Morton, David P.
3e053a27-b1bb-4764-b807-c6ab0a133bbe
Johnson, Gregory P.
d3f35edb-f85a-472c-93b4-55fe0b2decfc
Gutfraind, Alexander
0b82eb23-7574-4a17-b4f9-3695c7397a19
Galvani, Alison P.
a7191028-360e-4faf-8798-e1ecf080828e
Clements, Bruce
d6c41bd7-7df4-4784-a753-6db6f0374d51
Meyers, Lauren A.
4f9ada54-8b4c-4607-ad88-dafb19fa06b3
et al.
Singh, Bismark
9d3fc6cb-f55e-4562-9d5f-42f9a3ddd9a1
Huang, Hsin Chan
cb0e54c5-b241-4c91-9738-b295c2de2e75
Morton, David P.
3e053a27-b1bb-4764-b807-c6ab0a133bbe
Johnson, Gregory P.
d3f35edb-f85a-472c-93b4-55fe0b2decfc
Gutfraind, Alexander
0b82eb23-7574-4a17-b4f9-3695c7397a19
Galvani, Alison P.
a7191028-360e-4faf-8798-e1ecf080828e
Clements, Bruce
d6c41bd7-7df4-4784-a753-6db6f0374d51
Meyers, Lauren A.
4f9ada54-8b4c-4607-ad88-dafb19fa06b3

Singh, Bismark, Huang, Hsin Chan and Morton, David P. , et al. (2015) Optimizing distribution of pandemic influenza antiviral drugs. Emerging Infectious Diseases, 21 (2), 251-258. (doi:10.3201/eid2102.141024).

Record type: Article

Abstract

We provide a data-driven method for optimizing pharmacybased distribution of antiviral drugs during an influenza pandemic in terms of overall access for a target population and apply it to the state of Texas, USA. We found that during the 2009 influenza pandemic, the Texas Department of State Health Services achieved an estimated statewide access of 88% (proportion of population willing to travel to the nearest dispensing point). However, access reached only 34.5% of US postal code (ZIP code) areas containing <1,000 underinsured persons. Optimized distribution networks increased expected access to 91% overall and 60% in hard-to-reach regions, and 2 or 3 major pharmacy chains achieved near maximal coverage in well-populated areas. Independent pharmacies were essential for reaching ZIP code areas containing <1,000 underinsured persons. This model was developed during a collaboration between academic researchers and public health officials and is available as a decision support tool for Texas Department of State Health Services at a Web-based interface.

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More information

Published date: 1 February 2015
Additional Information: Publisher Copyright: © Centers for Disease Control and Prevention (CDC). All rights reserved.

Identifiers

Local EPrints ID: 471302
URI: http://eprints.soton.ac.uk/id/eprint/471302
DOI: doi:10.3201/eid2102.141024
ISSN: 1080-6059
PURE UUID: 04367d3a-1b15-48c1-9157-7b1138e3a30f
ORCID for Bismark Singh: ORCID iD orcid.org/0000-0002-6943-657X

Catalogue record

Date deposited: 02 Nov 2022 17:41
Last modified: 17 Mar 2024 04:16

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Contributors

Author: Bismark Singh ORCID iD
Author: Hsin Chan Huang
Author: David P. Morton
Author: Gregory P. Johnson
Author: Alexander Gutfraind
Author: Alison P. Galvani
Author: Bruce Clements
Author: Lauren A. Meyers
Corporate Author: et al.

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