SBIR-STTR Award

Low Cost HIV Drug Susceptibility Profiling
Award last edited on: 3/5/07

Sponsored Program
SBIR
Awarding Agency
NIH : NIAID
Total Award Amount
$637,430
Award Phase
2
Solicitation Topic Code
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Principal Investigator
Robert W Kwiatkowski

Company Information

Third Wave Technologies Inc

502 South Rosa Road
Madison, WI 53719
   (608) 273-8933
   N/A
   www.twt.com
Location: Single
Congr. District: 02
County: Dane

Phase I

Contract Number: 1R43AI043117-01
Start Date: 00/00/00    Completed: 00/00/00
Phase I year
1998
Phase I Amount
$100,000
(Adapted from Applicant's Abstract): The goal of this proposal is to create a simple, accurate and low cost method for drug susceptibility profiling HIV-positive patients. It is proposed to use linear signal amplification to rapidly detect unique nucleic acid sequences that may be present as a small fraction (<0.1 - 10%) of the virus population. The PI contends that this makes the method well suited for detection of targeted mutations in the variable genetic background characteristic of HIV. This phase I study describes detection of 4 highly prevalent HIV mutations in the pol gene that reduce susceptibility to widely used reverse transcriptase inhibitors. The proposal includes plans to validate the methodology on clinical samples.Proposed Commercial Application:Not avaliable

Thesaurus Terms:
AIDS /HIV test, HIV infection, antiAIDS agent, drug metabolism, drug screening /evaluation, gene expression biotechnology, gene mutation, health care cost /financing, method development, nucleic acid sequence, virus genetics

Phase II

Contract Number: 2R44AI043117-02
Start Date: 00/00/00    Completed: 00/00/00
Phase II year
2000
(last award dollars: 2001)
Phase II Amount
$537,430

The objective of this proposal is to create a high-throughput, low-cost system for predicting the success of antiviral treatment of individuals infected by Human Immunodeficiency Virus (HIV). The core of our approach is the Invader assay, a linear signal amplification method suitable for point mutation detection, even of low-level minority alleles in mixed populations. The Invader assay's high specificity, achieved through the combined power of allele specific hybridization and structure-specific enzymatic recognition, permits the detection of HIV drug resistance mutations present as only a small fraction (less than 0.1%) of the total population. In Phase II, we propose to develop an integrated, low-cost HIV genotyping platform to detect all established mutations affecting resistance to antiviral therapy. We will adapt the pilot assay to a microtiter plate-based format which we will validate on clinical samples obtained from Stanford University. This system will be highly accurate for the detection of the critical and secondary mutations leading to reduced susceptibility to the front-line antiviral agents currently FDA-approved in the U.S. The major impact of this innovation will be its ability to predict the success of individual treatment regimens through the detection of early emergent alleles leading to drug resistance. PROPOSED COMMERCIAL APPLICATION: Marketing surveys indicate a potential market of $270 million for nucleic acid-based HIV genotyping due to the high incidence 6f resistance and the side effects associated with anti-viral treatments. While the clinical impact of early detection of drug resistance mutations has not yet been demonstrated, since it has been beyond the capabilities of existing technologies, a low-cost assay with the ability to detect low levels of these mutations has the potential to be of enormous value in predicting patient response