Atrial Fibrillation Clinical Trial
Official title:
Personalized Warfarin Dosing Using Genomics and Computational Intelligence
This study will create a computer program that can be used to help dose a drug called warfarin for the prevention of blood clotting. The study will collected specific information about those patients receiving this drug and use that information to create a computer program that will predict the effects of the drug. With this prediction program in place, the investigators can perform a series of "what if I gave this amount of drug" simulations to determine the best dose of drug for that patient. Once the computer programs are developed, the investigators will test the program in patients that actually need this drug. They will also include genetic information into the prediction since it has been shown that this information can affect how well the drug works. Patients will have this genetic information determined during this study.
The objective of this project is to develop new techniques to incorporate genomic data into
pharmacodynamic models to improve the dosing of chronically administered drugs.
Specifically, the investigators look to improve warfarin therapy by decreasing the
variability in the effect of this drug using information about the subjects genotype and
computational intelligence. The investigators propose to achieve our objectives using a
prospective, randomized, controlled clinical trial of a computer program that they will
develop from both historical and prospective data. This computer program will be tested
against a control group using standard warfarin dosing, and a group using standard dosing
plus subject genotype. Warfarin dose and response data will be obtained from patients seen
in the Louisville VA anticoagulation clinic. Following informed consent, subject genotype
for cytochrome P450 allele 2C9 (2C9) and vitamin K epoxide reductase complex subunit 1
(VKORC1) will be determined. Other data routinely obtained to aid in warfarin dosing will
also be recorded. Using this information, the investigators will develop many different
models for warfarin dosing using incrementally more information. Each of these models will
be tested using computer simulation until they have obtained the best model. This model will
be used in a pilot study to test performance in real time. The results of the pilot study
will then be used to power a final clinical trial of standard dosing, standard dosing and
genetic information, computer dosing, and computer dosing plus genetic information.
The specific aims of this research are:
1. Determine the structure and the type of neural network model for predictions from
historically obtained data. (Computer Model)
2. Prospectively develop an individualized neural network and nonlinear mixed effect
modelling (NONMEM) model capable of predicting erythropoietin dosing for chronic
in-center hemodialysis patients using adaptive techniques.
3. Develop computer programs based on neural computing that can be used in a clinical
setting. (Computer Model)
4. Determine the utility of the computer programs prospectively in the clinical setting.
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Endpoint Classification: Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Health Services Research
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