BMC Cardiovascular Disorders (Apr 2024)

Left ventricular strain changes at high altitude in rats: a cardiac magnetic resonance tissue tracking imaging study

  • Yanqiu Sun,
  • Chenhong Zhang,
  • Bo He,
  • Lei Wang,
  • Dengfeng Tian,
  • Zhiqiang Kang,
  • Lixin Chen,
  • Ruiwen Li,
  • Jialiang Ren,
  • Yong Guo,
  • Yonghai Zhang,
  • Dingda Duojie,
  • Qiang Zhang,
  • Fabao Gao

DOI
https://doi.org/10.1186/s12872-024-03886-z
Journal volume & issue
Vol. 24, no. 1
pp. 1 – 8

Abstract

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Abstract Background Long-term exposure to a high altitude environment with low pressure and low oxygen could cause abnormalities in the structure and function of the heart. Myocardial strain is a sensitive indicator for assessing myocardial dysfunction, monitoring myocardial strain is of great significance for the early diagnosis and treatment of high altitude heart-related diseases. This study applies cardiac magnetic resonance tissue tracking technology (CMR-TT) to evaluate the changes in left ventricular myocardial function and structure in rats in high altitude environment. Methods 6-week-old male rats were randomized into plateau hypoxia rats (plateau group, n = 21) as the experimental group and plain rats (plain group, n = 10) as the control group. plateau group rats were transported from Chengdu (altitude: 360 m), a city in a plateau located in southwestern China, to the Qinghai-Tibet Plateau (altitude: 3850 m), Yushu, China, and then fed for 12 weeks there, while plain group rats were fed in Chengdu(altitude: 360 m), China. Using 7.0 T cardiac magnetic resonance (CMR) to evaluate the left ventricular ejection fraction (EF), end-diastolic volume (EDV), end-systolic volume (ESV) and stroke volume (SV), as well as myocardial strain parameters including the peak global longitudinal (GLS), radial (GRS), and circumferential strain (GCS). The rats were euthanized and a myocardial biopsy was obtained after the magnetic resonance imaging scan. Results The plateau rats showed more lower left ventricular GLS and GRS (P 0.05). Conclusions After 12 weeks of exposure to high altitude low-pressure hypoxia environment, the left ventricular global strain was partially decreased and myocardium is damaged, while the whole heart ejection fraction was still preserved, the myocardial strain was more sensitive than the ejection fraction in monitoring cardiac function.

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