Myolysis Explained

Myolysis is the destruction or otherwise breakdown of muscle tissue.[1] It is used as a medical procedure in the treatment of fibroids,[2] particularly of the uterus.[3]

Medical usage

Myolysis involves the application of some energy source directed at fibroids, intended to stop blood flow and cause necrosis of the tumorous tissue while not damaging the surrounding tissue. Some of the methods used to achieve myolysis include application of heat (laser myolysis, myoma coagulation), cold (cryomyolysis), and focused ultrasound energy. The procedures involving the application of extreme heat or cold are typically performed laparoscopically.

Myolysis may result in pregnancy complications, such as uterine scarring, a weak uterine wall, or infection. It is not recommended for women who are pregnant or who may wish to become pregnant.

Laparoscopic myolysis

In laparoscopic myolysis, a small needle is inserted near the fibroid, and the tip of the needle is either heated or cooled to extreme temperatures, then applied to the fibroid until all the tumorous tissue has been treated.[4] One example of this is laser myolysis, in which a laser is used entirely remove the fibroid, or otherwise clot the blood flow to the fibroid, causing it to die. Another example is cryomyolysis, where a cryogenic gas (typically liquid nitrogen) is used to cool the tip of the needle, which freezes the fibroid.[5]

Myoma coagulation is another method for myolysis, in which an electric current is passed through a needle and into the fibroid, subjecting it to high temperatures.[6]

Other causes

Many venomous snakes can produce myotoxins in their venom, causing myolysis either locally, at the site of a bite, or systemically throughout the body.[7] [8] This can cause muscle pain, weakness, and myoglobinuria (with the color of urine varying from a deep red to a muddy brown), symptoms which can take several hours or days to manifest. Severe myolysis may in turn result in hyperkalemia, as the breakdown of muscle releases excessive potassium into the bloodstream.[9] Methods for identifying myolysis after such a snakebite can include testing for creatine kinase levels, which may be elevated, or evaluating myoglobin levels.[10]

Treatment with antivenom theoretically has little effect once myolysis has set in; however, even late antivenom treatment may still reduce the severity of injury. Since snake myotoxins primarily target individual muscle cells, muscle regeneration is possible, starting ~3 days after being bitten, and typically taking ~28 days to complete.[11]

See also

Notes and References

  1. Web site: myolysis . Merriam-Webster . 2 April 2024.
  2. Web site: Fibroid Myolysis . Fibroid Specialists of University Vascular . 2 April 2024.
  3. Web site: Uterine Fibroids . New York State Department of Health . 2 April 2024.
  4. Web site: Uterine fibroids . Brigham and Women's Hospital . Harvard Medical School . 2 April 2024.
  5. Goldfarb . Herbert A. . Myolysis Revisited . Journal of the Society of Laparoscopic & Robotic Surgeons . 2008 . 12 . 4 . 426–430 . 19275864 . 3015996 .
  6. Web site: Uterine fibroids . U.S. Department of Health and Human Services . 2 April 2024.
  7. Web site: Myolysis . WCH Clinical Toxinology Resources . University of Adelaide - Australia . 25 September 2024.
  8. Friedrich . M.J. . Efforts to Address Snakebite . JAMA . 17 July 2018 . 320 . 3 . 227 . 10.1001/jama.2018.9118 . 25 September 2024.
  9. Book: Brent . Jeffrey . White . Julian . Critical Care Toxicology: Overview of Snake Envenoming . 15 June 2017 . Springer Chem . 2279–2318 . 25 September 2024.
  10. Web site: White . Julian . AUSTRALIAN SNAKEBITE AND SPIDERBITE: INFORMATION FOR HOSPITAL LABORATORY STAFF . Government of South Australia Department of Health . 25 September 2024.
  11. Web site: WCH Clinical Toxinology Resources . WCH Clinical Toxinology Resources . University of Adelaide - Australia . 25 September 2024.