Litcius/Paper detail

Association between serum GDF-15, myostatin, and sarcopenia in cardiovascular surgery patients

Riichi Nishikawa, Taira Fukuda, Akiko Haruyama, Ikuko Shibasaki, Suomi Yamaguchi, Takuo Arikawa, Syotaro Obi, Hirohisa Amano, Hiroshi Yagi, Masashi Sakuma, Shichiro Abe, Hirotsugu Fukuda, Shigeru Toyoda, Toshiaki Nakajima

2022IJC Heart & Vasculature13 citationsDOIOpen Access PDF

Abstract

Background: Myostatin is a negative regulator of skeletal muscle mass. On the other hand, growth differentiation factor (GDF)-15 is associated with lower muscle strength and muscle mass. We investigated the relationship between serum GDF-15, myostatin, and sarcopenia in patients receiving cardiovascular surgery through a ROC curve and a multivariate regression analysis. Methods: Skeletal muscle mass index (SMI) by bioelectrical impedance analysis, hand-grip strength, knee extension strength, and walking speed were measured. Preoperative serum GDF-15 and myostatin levels were determined by ELISA. The sarcopenia index could be expressed as: -0.0042 × [myostatin] + 0.0007 × [GDF-15] + 0.0890 × age + 1.4030 × sex - 0.2679 × body mass index (BMI) - 2.1186. A ROC curve was plotted to identify the optimal cutoff level of the sarcopenia index to detect sarcopenia. Results: 120 patients receiving cardiovascular surgery were included in the study. SMI, hand-grip strength, knee extension strength, and walking speed inversely correlated with GDF-15, but positively correlated with myostatin. In the multivariate stepwise regression analysis, SMI was a determinant of myostatin, and both GDF-15 and myostatin were determinants of SMI and muscle thickness, even after adjustment for age, sex, and BMI. A ROC curve showed that the sarcopenia index was a determinant of sarcopenia (cutoff value -1.0634, area under the curve 0.901, sensitivity 96.9%, specificity 70.9%). Conclusion: GDF-15 and myostatin are associated with skeletal muscle volume in patients receiving cardiovascular surgery, but these associations are different. The sarcopenia index calculated from GDF-15 and myostatin levels may be a biomarker of sarcopenia.

Topics & Concepts

MyostatinSarcopeniaMedicineInternal medicineAssociation (psychology)Skeletal musclePsychologyPsychotherapistGDF15 and Related BiomarkersMuscle Physiology and DisordersNutrition and Health in Aging