search

UMD    AML





A chart from the Vaccine Allocation Model workbook helps public health officials see how many people would receive vaccinations, and how much of an unmet demand remains for additional vaccine. Dark color bars represent allocations; lighter bars depict unmet demand.

A chart from the Vaccine Allocation Model workbook helps public health officials see how many people would receive vaccinations, and how much of an unmet demand remains for additional vaccine. Dark color bars represent allocations; lighter bars depict unmet demand.

 

In the case of mass vaccination against the H1N1 (swine) flu, the federal government has identified target groups in the population and prioritized them into different tiers. Persons in higher-priority tiers will receive vaccinations first.

Should state or local jurisdictions receive a limited number of vaccinations (doses of vaccine), their public health officials will have to determine how many persons from which target groups can be treated.

A research team led by Associate Professor Jeffrey Herrmann (ME/ISR) has developed and released Vaccine Allocation Model v.1.4, a Microsoft Excel workbook that helps to answer this question.

Vaccine Allocation Model can help public health officials determine if a given number of doses of a vaccine will be sufficient to vaccinate (treat) everyone who wishes to be treated. If the number of doses is insufficient, the Vaccine Allocation Model will determine how many persons in different target groups can receive treatment.

The Vaccine Allocation Model can be used either in the advance planning stages of a vaccination campaign or for support during a campaign. It is based on information published in Guidance on Allocating and Targeting Pandemic Influenza Vaccine, a joint publication of the U.S. Department of Health and Human Services and the U.S. Department of Homeland Security.

Based on the pandemic severity, the number of vaccinations available, and the population of each target group in a state or jurisdiction, the model determines how many persons in each target group can be treated in a way that follows the federal government priorities.

Herrmann?s team worked closely on the model with their partners at the Montgomery County, Maryland, Advanced Practice Center for Public Health Emergency Preparedness and Response. Rachel Abbey of their staff, along with Hiro Toiya at the Hawaii State Department of Health, provided valuable feedback on draft versions of the model.

The model can be downloaded free of charge at the Vaccine Allocation Model website.

You can read more about the model at Dr. Herrmann?s Public Health Preparedness Modeling blog.

July 17, 2009


«Previous Story  

 

 

Current Headlines

Search Open for Full-Time Faculty Positions in Mechanical Engineering

Maryland Engineers Take On Big Challenges in Medicine

CEEE Study Explores How AI Can Reduce HVAC Energy Consumption

Justin Di Palo: Advancing Sustainable Living

Colton Honored with Microfluidics on Glass Award

How Much Wood Could a Heat Pump Dry?

Jump Start Program Gives CEEE Grad Students a Boost

UMD to Host International Graduate Engineering Course on Sustainability

State-of-the-Art 3D Nanoprinter Now at UMD

Das Named Pioneering Researcher by Chemical Communications

 
 
Back to top  
AML Home Clark School Home UMD Home ENME Home