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073_16762-K3 Minimally Invasive Thoracoscopic Technique for LV Lead Implantation IN CRT: Long-Term Outcome

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A major goal in the study of complex traits is to decipher the causal interrelationships among correlated phenotypes. Current methods mostly yield undirected networks that connect phenotypes without causal orientation.… Click to show full abstract

A major goal in the study of complex traits is to decipher the causal interrelationships among correlated phenotypes. Current methods mostly yield undirected networks that connect phenotypes without causal orientation. Some of these connections may be spurious due to partial correlation that is not causal. We show how to build causal direction into an undirected network of phenotypes by including causal QTL for each phenotype. We evaluate causal direction for each edge connecting two phenotypes, using a LOD score. This new approach can be applied to many different population structures, including inbred and outbred crosses as well as natural populations, and can accommodate feedback loops. We assess its performance in simulation studies and show that our method recovers network edges and infers causal direction correctly at a high rate. Finally, we illustrate our method with an example involving gene expression and metabolite traits from experimental crosses.

Keywords: thoracoscopic technique; invasive thoracoscopic; minimally invasive; 16762 minimally; 073 16762; causal direction

Journal Title: JACC: Clinical Electrophysiology
Year Published: 2017

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