Muscles appear to grow, rather than shrink, in some critically ill COVID-19 patients, finds new research being presented at Euroanaesthesia, the annual meeting of the European Society of Anaesthesiology and Intensive Care (ESAIC), held online this year.
Bed rest and mechanical ventilation can lead to muscle wastage, which can hamper recovery and affect mobility and quality of life. Previous research has shown that muscle fibres atrophy by almost 20% after a week in ICU. There are concerns, however, that Covid may lead to even greater muscle damage.
To find out more, Dr Toon Mostien and colleagues at the Jessa Hospital, Hasselt, and Hasselt University, Belgium took muscle biopsies from critically ill Covid patients before and after intensive care admission.
Eighteen patients had their vastus lateralis, the largest and most powerful muscle in the thigh, biopsied multiple times from 1-3 days before ICU admission to 5-8 days after admission.
The patients had an average age of 69 years and 82% were male.
The samples were examined under the microscope for any changes that had occurred during the first week in ICU.
Type I muscle fibres (which support endurance activities) grew by 5.74% and type 2 fibres (which support quick, powerful moments) shrank by 5.17% but the changes weren’t statistically significant.
To the researchers’ surprise, the muscle fibres of four patients, however, increased “massively” in size. Type I fibres had swollen by 62% and type II fibres by 32%.
However, if these patients were excluded from the calculations, the remaining patients showed significant muscle wastage, says Dr Mostien. Type I fibres shrank by 11% and type 2 fibres by 17%.
It isn’t known why the muscle fibres increased in size in four of the patients but one possibility is that their immune response to Covid damaged their mitochondria, the tiny structures that provide cells with energy.
This drop in energy could lead to more water accumulating inside the muscle cells, causing them to swell.
This type of swelling can lead to muscle fibres dying and so it is likely the increase in muscle fibre size was only temporary, says Dr Mostien.
The researchers also examined of the number of capillary contacts – the number of capillaries perfusing the muscle fibres with the oxygen and nutrients they need to thrive.
This decreased by 5.37% and 9.68% for type I and type II muscle fibres, respectively. Dr Mostien says: “Although the results were not significant, a drop in perfusion of almost 10% could potentially contribute to muscle fibre destruction.”
Dr Mostien concludes: “There are concerns that immune response to Covid can exacerbate muscle wastage, meaning that critically ill Covid patients experience more severe muscle damage than the general ICU population.
“Given the global burden of COVID-19, it is vital we learn more about this and our research is an important first step.”
European Journal of Anaesthesiology
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