Possible Increase in Insulin Resistance and Concealed Glucose-coupled Potassium-lowering Mechanisms During Acute Coronary Syndrome Documented by Covariance Structure Analysis

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2017 Apr 22

PMID 28430816

Citations 8

Authors

Satoshi Ito

Tomohisa Nagoshi

Kosuke Minai

Yusuke Kashiwagi

Hiroshi Sekiyama

Akira Yoshii

Haruka Kimura

Yasunori Inoue

Kazuo Ogawa

Toshikazu D Tanaka

Takayuki Ogawa

Makoto Kawai

Michihiro Yoshimura

Affiliations

Soon will be listed here.

Abstract

Objective: Although glucose-insulin-potassium (GIK) therapy ought to be beneficial for ischemic heart disease in general, variable outcomes in many clinical trials of GIK in acute coronary syndrome (ACS) had a controversial impact. This study was designed to examine whether "insulin resistance" is involved in ACS and to clarify other potential intrinsic compensatory mechanisms for GIK tolerance through highly statistical procedure.

Methods And Results: We compared the degree of insulin resistance during ACS attack and remission phase after treatment in individual patients (n = 104). During ACS, homeostasis model assessment of insulin resistance (HOMA-IR) values were significantly increased (P<0.001), while serum potassium levels were transiently decreased (degree of which was indicated by ΔK) (P<0.001). This finding provides a renewed paradox, as ΔK, a surrogate marker of intrinsic GIK cascade activation, probably reflects the validated glucose metabolism during ischemic attack. Indeed, multiple regression analysis revealed that plasma glucose level during ACS was positively correlated with ΔK (P = 0.026), whereas HOMA-IR had no impact on ΔK. This positive correlation between ΔK and glucose was confirmed by covariance structure analysis with a strong impact (β: 0.398, P = 0.015). Intriguingly, a higher incidence of myocardial infarction relative to unstable angina pectoris, as well as a longer hospitalization period were observed in patients with larger ΔK, indicating that ΔK also reflects disease severity of ACS.

Conclusions: Insulin resistance most likely increases during ACS; however, ΔK was positively correlated with plasma glucose level, which overwhelmed insulin resistance condition. The present study with covariance structure analysis suggests that there are potential endogenous glucose-coupled potassium lowering mechanisms, other than insulin, regulating glucose metabolism during ACS.

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