The great heterogeneity of the acute ischemic stroke population makes it difficult to detect treatment effects in clinical trials. An appropriately validated predictive risk model, using data available at study entry, will improve clinical trial design by 1) allowing more rational entry criteria which exclude patients who are very unlikely to benefit from treatment, 2) permitting randomization stratified by predicted outcome thereby reducing the impact of imbalance in small trials, and 3) allowing analysis of treatment effect adjusting for baseline risk which provides greater power to detect small but clinically important effects. In addition, a surrogate measure of long term outcome based on an updated risk prediction, obtained in the early post-stroke period may prove to be highly predictive of 3 month clinical outcome. A reliable surrogate measure may reduce costs, required sample sizes and missing outcome data in clinical trials. The goal of this application is to investigate these new methodologic tools aimed at reducing the impact of this heterogeneity on clinical stroke trials. We will address the following hypotheses. Hypothesis 1: a multivariable predictive risk model including 6 acute clinical variables and 1 acute imaging variable will predict 3 month outcome in acute ischemic stroke patients. Hypothesis 2: the model is a valid predictor of 3 month outcome in 2 independent data sets. Hypothesis 3: adjustment for predicted risk will 'increase the magnitude of the identified treatment effect of tPA in the NINDS tPA trial. Hypothesis 4: an updated risk prediction based on information available at day 5 post-stroke can reliably predict 3 month outcome in acute ischemic stroke patients. To test hypotheses 1 and 2, we will use multivariable logistic regression to establish the validity of the model in a prospective cohort of 360 acute stroke patients and 2 external data sets. We will evaluate model performance (discrimination, calibration) using standard methods. Hypothesis 3 will be tested by evaluating the effect of tPA on stroke outcomes adjusted for baseline risk in the NINDS tPA trial. We will test hypothesis 4 by determining; the risk of 3-month stroke outcomes based on information available at day 5 after symptom onset. The results of this effort should facilitate study design and increase the ability to detect treatment effects in acute stroke trials. This will be valuable to patients with stroke, providers, payers and developers of new drug therapies.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Mentored Patient-Oriented Research Career Development Award (K23)
Project #
5K23NS002168-05
Application #
6740270
Study Section
NST-2 Subcommittee (NST)
Program Officer
Gilbert, Peter R
Project Start
2000-05-19
Project End
2005-03-31
Budget Start
2004-04-01
Budget End
2005-03-31
Support Year
5
Fiscal Year
2004
Total Cost
$152,674
Indirect Cost
Name
University of Virginia
Department
Neurology
Type
Schools of Medicine
DUNS #
065391526
City
Charlottesville
State
VA
Country
United States
Zip Code
22904
Khatri, Pooja; Conaway, Mark R; Johnston, Karen C et al. (2012) Ninety-day outcome rates of a prospective cohort of consecutive patients with mild ischemic stroke. Stroke 43:560-2
Johnston, Karen C; Barrett, Kevin M; Ding, Yong Hong et al. (2009) Clinical and imaging data at 5 days as a surrogate for 90-day outcome in ischemic stroke. Stroke 40:1332-3
Barrett, Kevin M; Ding, Yong Hong; Wagner, Douglas P et al. (2009) Change in diffusion-weighted imaging infarct volume predicts neurologic outcome at 90 days: results of the Acute Stroke Accurate Prediction (ASAP) trial serial imaging substudy. Stroke 40:2422-7
Johnston, Karen C; Wagner, Douglas P; Wang, Xin-Qun et al. (2007) Validation of an acute ischemic stroke model: does diffusion-weighted imaging lesion volume offer a clinically significant improvement in prediction of outcome? Stroke 38:1820-5
Johnston, Karen C; Wagner, Douglas P (2006) Relationship between 3-month National Institutes of Health Stroke Scale score and dependence in ischemic stroke patients. Neuroepidemiology 27:96-100
Palesch, Yuko Y; Tilley, Barbara C; Sackett, David L et al. (2005) Applying a phase II futility study design to therapeutic stroke trials. Stroke 36:2410-4
Johnston, Karen C; Connors Jr, Alfred F; Wagner, Douglas P et al. (2004) Risk adjustment effect on stroke clinical trials. Stroke 35:e43-5
Rundek, Tanja; Nielsen, Kirsten; Phillips, Stephen et al. (2004) Health care resource use after acute stroke in the Glycine Antagonist in Neuroprotection (GAIN) Americas trial. Stroke 35:1368-74
Brown, Devin L; Johnston, Karen C; Wagner, Douglas P et al. (2004) Predicting major neurological improvement with intravenous recombinant tissue plasminogen activator treatment of stroke. Stroke 35:147-50
Johnston, Karen C; Connors Jr, Alfred F; Wagner, Douglas P et al. (2003) Predicting outcome in ischemic stroke: external validation of predictive risk models. Stroke 34:200-2

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