Robert Solomon1, Premchand Anne2, Jordan Swisher3, Beshoy Nazeer2, Howard Rosman3, Rajendra H Mehta3, James J Maciejko3,2. 1. Division of Cardiology, Ascension St. John Hospital, 22101 Moross Rd, Detroit, Michigan, 48236, United States. rasolomon103@gmail.com. 2. Department of Internal Medicine, Ascension St. John Hospital, 22101 Moross Rd, Detroit, Michigan, 48236, United States. 3. Division of Cardiology, Ascension St. John Hospital, 22101 Moross Rd, Detroit, Michigan, 48236, United States.
Abstract
INTRODUCTION: Atherosclerotic cardiovascular disease (ASCVD) is the major cause of morbidity and mortality worldwide. Statins provide primary and secondary ASCVD prevention. Intolerance due to statin-associated myalgias reduces long-term adherence, thus muting potential benefits. AIM: Our analysis sought to determine whether transition from a lipophilic statin to a water-soluble statin, or correction of subclinical hypothyroidism and/or vitamin D insufficiency/deficiency (metabolic abnormalities), improved statin tolerance. METHODS: We performed a retrospective analysis of the data from patients referred to our lipid clinic because of statin intolerance. Patients intolerant to a lipophilic statin were switched to a water-soluble statin. Patients having vitamin D insufficiency/deficiency or subclinical hypothyroidism were re-challenged with a water-soluble statin (or lipophilic statin with minimal systemic exposure) after correction of the metabolic abnormality. RESULTS: 169 patients were statin intolerant. 86% (n = 145) were white and 48% (n = 81) were male. 82 of these patients had one or both metabolic abnormalities. The remaining patients (n = 87) had no metabolic abnormality, however, were unable to tolerate a lipophilic statin. 72% (n = 73) of eligible patients (n = 101), defined as those with a corrected metabolic abnormality or without a metabolic abnormality on a lipophilic statin, were able to tolerate a water-soluble statin or lipophilic statin with minimal systemic exposure. In addition, 75% (n = 127) of this total cohort met their LDL-C goal. CONCLUSIONS: Our findings suggest that either correction of subclinical hypothyroidism and/or vitamin D insufficiency/deficiency or transition from a lipophilic statin to water-soluble statin (or lipophilic statin with minimal systemic exposure) improves statin tolerance.
INTRODUCTION: Atherosclerotic cardiovascular disease (ASCVD) is the major cause of morbidity and mortality worldwide. Statins provide primary and secondary ASCVD prevention. Intolerance due to statin-associated myalgias reduces long-term adherence, thus muting potential benefits. AIM: Our analysis sought to determine whether transition from a lipophilic statin to a water-soluble statin, or correction of subclinical hypothyroidism and/or vitamin D insufficiency/deficiency (metabolic abnormalities), improved statin tolerance. METHODS: We performed a retrospective analysis of the data from patients referred to our lipid clinic because of statin intolerance. Patients intolerant to a lipophilic statin were switched to a water-soluble statin. Patients having vitamin D insufficiency/deficiency or subclinical hypothyroidism were re-challenged with a water-soluble statin (or lipophilic statin with minimal systemic exposure) after correction of the metabolic abnormality. RESULTS: 169 patients were statin intolerant. 86% (n = 145) were white and 48% (n = 81) were male. 82 of these patients had one or both metabolic abnormalities. The remaining patients (n = 87) had no metabolic abnormality, however, were unable to tolerate a lipophilic statin. 72% (n = 73) of eligible patients (n = 101), defined as those with a corrected metabolic abnormality or without a metabolic abnormality on a lipophilic statin, were able to tolerate a water-soluble statin or lipophilic statin with minimal systemic exposure. In addition, 75% (n = 127) of this total cohort met their LDL-C goal. CONCLUSIONS: Our findings suggest that either correction of subclinical hypothyroidism and/or vitamin D insufficiency/deficiency or transition from a lipophilic statin to water-soluble statin (or lipophilic statin with minimal systemic exposure) improves statin tolerance.