Reclassification of cardiovascular risk using integrated clinical and molecular biosignatures: Design of and rationale for the Measurement to Understand the Reclassification of Disease of Cabarrus and Kannapolis (MURDOCK) Horizon 1 Cardiovascular Disease Study

Svati H Shah; Christopher B Granger; Elizabeth R Hauser; William E Kraus; Jie-Lena Sun; Karen Pieper; Charlotte L Nelson; Elizabeth R Delong; Robert M Califf; L Kristin Newby; MURDOCK Horizon 1 Cardiovascular Disease Investigators

doi:10.1016/j.ahj.2010.06.051

Reclassification of cardiovascular risk using integrated clinical and molecular biosignatures: Design of and rationale for the Measurement to Understand the Reclassification of Disease of Cabarrus and Kannapolis (MURDOCK) Horizon 1 Cardiovascular Disease Study

Am Heart J. 2010 Sep;160(3):371-379.e2. doi: 10.1016/j.ahj.2010.06.051.

Authors

Svati H Shah¹, Christopher B Granger, Elizabeth R Hauser, William E Kraus, Jie-Lena Sun, Karen Pieper, Charlotte L Nelson, Elizabeth R Delong, Robert M Califf, L Kristin Newby; MURDOCK Horizon 1 Cardiovascular Disease Investigators

Collaborators

MURDOCK Horizon 1 Cardiovascular Disease Investigators:
Robert M Califf, Lawrence Carin, Marie Davidian, Elizabeth R Delong, Christopher B Granger, Elizabeth R Hauser, William E Kraus, Joseph Lucas, Arthur Moseley, Charlotte L Nelson, L Kristin Newby, Christopher B Newgard, Karen Pieper, Svati H Shah, Jie-Lena Sun, Butch Tsiatis, Terry Walker

Affiliation

¹ Duke University Medical Center, Durham, NC, USA.

PMID: 20826242
DOI: 10.1016/j.ahj.2010.06.051

Abstract

Background: Clinical predictive models leave gaps in our ability to stratify cardiovascular risk. High-throughput molecular profiling promises to improve risk classification.

Methods: Horizon 1 of the Measurement to Understand the Reclassification of Disease of Cabarrus and Kannapolis (MURDOCK) Study was conceived to apply emerging molecular techniques to existing data sets to characterize mechanistic diversity underlying complex human diseases, response to therapy, and prognosis. No previous studies have applied multiple, complementary molecular techniques in combination with well-developed clinical risk models to refine cardiovascular risk prediction. The MURDOCK Cardiovascular Disease Study will assess molecular profiles integrated with clinical data in "clinomic" profiles for cardiovascular risk classification.

Conclusion: Herein, we describe the design of and rationale for the MURDOCK Cardiovascular Disease Study.

MeSH terms

Cardiovascular Diseases / epidemiology*
Cardiovascular Diseases / genetics*
Gene Expression Profiling / methods*
Genomics / methods*
Humans
Models, Statistical
Myocardial Infarction / epidemiology
Myocardial Infarction / genetics
North Carolina
Patient Selection
Precision Medicine*
Proportional Hazards Models
Research Design*
Risk Assessment / classification*