Misplaced Pages

Cramp

Article snapshot taken from Wikipedia with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.
(Redirected from Leg cramps) Pathological, often painful, involuntary muscle contraction For other uses, see Cramp (disambiguation). Not to be confused with seizure or spasm. Medical condition
Cramp
Symptomssudden muscle pain and a paralysis-like immobility
Treatmentquinine, stretching, massage, and drinking liquids

A cramp is a sudden, involuntary, painful skeletal muscle contraction or overshortening associated with electrical activity; while generally temporary and non-damaging, they can cause significant pain and a paralysis-like immobility of the affected muscle. A cramp usually goes away on its own over a period of several seconds or (sometimes) minutes. Cramps are common and tend to occur at rest, usually at night (nocturnal leg cramps). They are also often associated with pregnancy, physical exercise or overexertion, and age (common in older adults); in such cases, cramps are called idiopathic, because there is no underlying pathology. In addition to those benign conditions cramps are also associated with many pathological conditions.

Cramp definition is narrower than the definition of muscle spasm: spasms include any involuntary abnormal muscle contractions, while cramps are sustained and painful. True cramps can be distinguished from other cramp-like conditions. Cramps are different from muscle contracture, which is also painful and involuntary, but which is electrically silent. The main distinguishing features of cramps from dystonia are suddenness with acute onset of pain, involvement of only one muscle and spontaneous resolution of cramps or their resolution after stretching the affected muscle. Restless leg syndrome is not considered the same as muscle cramps and should not be confused with rest cramps.

Causes

Skeletal muscle cramps may be caused by muscle fatigue or a lack of electrolytes such as sodium (a condition called hyponatremia), potassium (called hypokalemia), or magnesium (called hypomagnesemia). Some skeletal muscle cramps do not have a known cause. Motor neuron disorders (e.g., amyotrophic lateral sclerosis), metabolic disorders (e.g., liver failure), some medications (e.g., diuretics and inhaled beta‐agonists), and haemodialysis may also cause muscle cramps.

Causes of cramping include hyperflexion, hypoxia, exposure to large changes in temperature, dehydration, or low blood salt. Muscle cramps can also be a symptom or complication of pregnancy; kidney disease; thyroid disease; hypokalemia, hypomagnesemia, or hypocalcaemia (as conditions); restless legs syndrome; varicose veins; and multiple sclerosis.

As early as 1965, researchers observed that leg cramps and restless legs syndrome can result from excess insulin, sometimes called hyperinsulinemia.

Skeletal muscle cramps

See also: Exercise-associated muscle cramps

Under normal circumstances, skeletal muscles can be voluntarily controlled. Skeletal muscles that cramp the most often are the calves, thighs, and arches of the foot, and in North America are sometimes called a "Charley horse" or a "corky". Such cramping is associated with strenuous physical activity and can be intensely painful; however, they can even occur while inactive and relaxed. Around 40% of people who experience skeletal cramps are likely to endure extreme muscle pain, and may be unable to use the entire limb that contains the "locked-up" muscle group. It may take up to a week for the muscle to return to a pain-free state, depending on the person's fitness level, age, and several other factors.

Nocturnal leg cramps

See also: Charley horse

Nocturnal leg cramps are involuntary muscle contractions that occur in the calves, soles of the feet, or other muscles in the body during the night or (less commonly) while resting. The duration of nocturnal leg cramps is variable, with cramps lasting anywhere from a few seconds to several minutes. Muscle soreness may remain after the cramp itself ends. These cramps are more common in older people. They happen quite frequently in teenagers and in some people while exercising at night. Besides being painful, a nocturnal leg cramp can cause much distress and anxiety. The precise cause of these cramps is unclear. Potential contributing factors include dehydration, low levels of certain minerals (magnesium, potassium, calcium, and sodium, although the evidence has been mixed), and reduced blood flow through muscles attendant in prolonged sitting or lying down. Nocturnal leg cramps (almost exclusively calf cramps) are considered "normal" during the late stages of pregnancy. They can, however, vary in intensity from mild to extremely painful.

A lactic acid buildup around muscles can trigger cramps; however, they happen during anaerobic respiration when a person is exercising or engaging in an activity where the heartbeat rises. Medical conditions associated with leg cramps are cardiovascular disease, hemodialysis, cirrhosis, pregnancy, and lumbar canal stenosis. Differential diagnoses include restless legs syndrome, claudication, myositis, and peripheral neuropathy. All of them can be differentiated through careful history and physical examination.

Gentle stretching and massage, putting some pressure on the affected leg by walking or standing, or taking a warm bath or shower may help to end the cramp. If the cramp is in the calf muscle, dorsiflexing the foot (lifting the toes back toward the shins) will stretch the muscle and provide almost immediate relief. There is limited evidence supporting the use of magnesium, calcium channel blockers, carisoprodol, and vitamin B12.

Quinine is no longer recommended for treatment of nocturnal leg cramps due to potential fatal hypersensitivity reactions and thrombocytopenia. Arrhythmias, cinchonism, and hemolytic uremic syndrome can also occur at higher dosages.

Cramps caused by treatments

Various medications may cause nocturnal leg cramps:

Statins may sometimes cause myalgia and cramps among other possible side effects. Raloxifene (Evista) is a medication associated with a high incidence of leg cramps. Additional factors, which increase the probability for these side effects, are physical exercise, age, history of cramps, and hypothyroidism. Up to 80% of athletes using statins experience significant adverse muscular effects, including cramps; the rate appears to be approximately 10–25% in a typical statin-using population. In some cases, adverse effects disappear after switching to a different statin; however, they should not be ignored if they persist, as they can, in rare cases, develop into more serious problems. Coenzyme Q10 supplementation can be helpful to avoid some statin-related adverse effects, but currently there is not enough evidence to prove the effectiveness in avoiding myopathy or myalgia.

Treatment

Stretching, massage, and drinking plenty of liquids may be helpful in treating simple muscle cramps.

Medication

The antimalarial drug quinine is a traditional treatment that may be slightly effective for reducing the number of cramps, the intensity of cramps, and the number of days a person experiences cramps. Quinine has not been shown to reduce the duration (length) of a muscle cramp. Quinine treatment may lead to haematologic and cardiac toxicity. Due to its low effectiveness and negative side effects, its use as a medication for treating muscle cramps is not recommended by the FDA.

Magnesium is commonly used to treat muscle cramps. Moderate quality evidence indicates that magnesium is not effective for treating or preventing cramps in older adults. It is not known if magnesium helps cramps due to pregnancy, liver cirrhosis, other medical conditions, or exercising. Oral magnesium treatment does not appear to have significant major side effects, however, it may be associated with diarrhea and nausea in 11–37% of people who use this medicine.

With exertional heat cramps due to electrolyte abnormalities (primarily potassium loss and not calcium, magnesium, and sodium), appropriate fluids and sufficient potassium improves symptoms. Vitamin B complex, naftidrofuryl, lidocaine, and calcium channel blockers may be effective for muscle cramps.

Prevention

Adequate conditioning, stretching, mental preparation, hydration, and electrolyte balance are likely helpful in preventing muscle cramps.

See also

References

  1. ^ Minetto, Marco Alessandro; Holobar, Aleš; Botter, Alberto; Farina, Dario (Jan 2013). "Origin and development of muscle cramps". Exercise and Sport Sciences Reviews. 41 (1): 3–10. doi:10.1097/JES.0b013e3182724817. ISSN 1538-3008. PMID 23038243. S2CID 15263712.
  2. ^ Marotta, P. J.; Graziadei, I. W.; Ghent, C. N. (Nov 2000). "Muscle cramps: a 'complication' of cirrhosis". Canadian Journal of Gastroenterology. 14 Suppl D: 21D–25D. doi:10.1155/2000/214916. ISSN 0835-7900. PMID 11110608.
  3. Benzon, Honorio; Raja, Srinivasa N.; Fishman, Scott E.; Liu, Spencer S.; Cohen, Steven P. (2011-06-30). Essentials of Pain Medicine E-book. Elsevier Health Sciences. ISBN 978-1-4377-3593-2.
  4. "Muscle Cramps". medlineplus.gov. Retrieved 2022-09-15.
  5. "Nocturnal leg cramps". UpToDate. Retrieved 2022-09-21.
  6. ^ Garrison, Scott R.; Korownyk, Christina S.; Kolber, Michael R.; Allan, G. Michael; Musini, Vijaya M.; Sekhon, Ravneet K.; Dugré, Nicolas (September 2020). "Magnesium for skeletal muscle cramps". The Cochrane Database of Systematic Reviews. 2020 (9): CD009402. doi:10.1002/14651858.CD009402.pub3. ISSN 1469-493X. PMC 8094171. PMID 32956536.
  7. "Muscle Cramps (Charley Horse) and Muscle Spasm Remedies". eMedicineHealth. Retrieved 2022-09-25.
  8. Gragossian, Alin; Bashir, Khalid; Friede, Rotem (September 6, 2020). "Hypomagnesemia". National Center for Biotechnology Information (NCBI). PMID 29763179. Retrieved October 14, 2020. Hypomagnesemia is an electrolyte disturbance caused when there is a low level of serum magnesium in the blood
  9. Muscle Cramps Symptoms, Causes, Treatment – Do all muscle cramps fit into the above categories on MedicineNet Archived 2008-08-24 at the Wayback Machine. Medicinenet.com. Retrieved on 2011-02-13.
  10. Bergan J. The Vein Book, Hardcover text, Editor Bergan J, 2007. ISBN 9780195399639
  11. Muscle Cramps at WebMD Archived 2007-10-15 at the Wayback Machine
  12. Roberts, HJ (1965). "Spontaneous Leg Cramps and "restless Legs" Due to Diabetogenic Hyperinsulinism: Observations on 131 Patients". Journal of the American Geriatrics Society. 13 (7): 602–38. doi:10.1111/j.1532-5415.1965.tb00617.x. PMID 14300967. S2CID 28096190.
  13. Night leg cramps - Mayo Clinic Archived 2011-09-23 at the Wayback Machine
  14. Weiner, Israel H (1980). "Nocturnal Leg Muscle Cramps". JAMA. 244 (20): 2332–3. doi:10.1001/jama.1980.03310200066033. PMID 7431559. Archived from the original on 28 December 2010. Retrieved 26 October 2011.
  15. Schwellnus MP, Nicol J, Laubscher R, Noakes TD (2004). "Serum electrolyte concentrations and hydration status are not associated with exercise associated muscle cramping (EAMC) in distance runners". Br J Sports Med. 38 (4): 488–492. doi:10.1136/bjsm.2003.007021. PMC 1724901. PMID 15273192.
  16. Sulzer NU, Schwellnus MP, Noakes TD (July 2005). "Serum electrolytes in Ironman triathletes with exercise-associated muscle cramping". Med Sci Sports Exerc. 37 (7): 1081–5. doi:10.1249/01.mss.0000169723.79558.cf. PMID 16015122. S2CID 12582883.
  17. ^ Allen RE, Kirby KA (2012). "Nocturnal Leg Cramps". American Family Physician. 86 (4): 350–355. PMID 22963024. Archived from the original on 2016-03-29.
  18. Wick M. "What causes leg cramps during pregnancy, and can they be prevented?". Mayo Clinic. Retrieved 2018-04-03.
  19. Ray, C. Claiborne (2009-06-09). "Q & A – A Charley Horse in Bed". The New York Times. Archived from the original on 2013-04-07. Retrieved 2009-06-09.
  20. Garrison SR, Dormuth CR, Morrow RL, Carney GA, Khan KM (January 2012). "Nocturnal leg cramps and prescription use that precedes them: a sequence symmetry analysis". Arch. Intern. Med. 172 (2): 120–6. doi:10.1001/archinternmed.2011.1029. PMID 22157068.
  21. Sinzinger H, O'Grady J (2004). "Professional athletes suffering from familial hypercholesterolaemia rarely tolerate statin treatment because of muscular problems". Br J Clin Pharmacol. 57 (4): 525–8. doi:10.1111/j.1365-2125.2003.02044.x. PMC 1884475. PMID 15025753.
  22. Bruckert E, Hayem G, Dejager S, Yau C, Bégaud B (2005). "Mild to moderate muscular symptoms with high-dosage statin therapy in hyperlipidemic patients—the PRIMO study". Cardiovasc Drugs Ther. 19 (6): 403–14. doi:10.1007/s10557-005-5686-z. PMID 16453090. S2CID 24525127.
  23. Dirks, A. J.; Jones, KM (2006). "Statin-induced apoptosis and skeletal myopathy". Am. J. Physiol., Cell Physiol. 291 (6): C1208–12. doi:10.1152/ajpcell.00226.2006. PMID 16885396. S2CID 13313618.
  24. Lamperti C, Naini AB, Lucchini V, et al. (2005). "Muscle coenzyme Q10 level in statin-related myopathy". Arch. Neurol. 62 (11): 1709–12. doi:10.1001/archneur.62.11.1709. PMID 16286544.
  25. ^ Bentley S (June 1996). "Exercise-induced muscle cramp. Proposed mechanisms and management". Sports Med. 21 (6): 409–20. doi:10.2165/00007256-199621060-00003. PMID 8784961. S2CID 24366112.
  26. ^ Katzberg HD, Khan AH, So YT (2010). "Assessment: Symptomatic treatment for muscle cramps (an evidence-based review): Report of the Therapeutics and Technology Assessment Subcommittee of the American Academy of Neurology". Neurology. 74 (8): 691–6. doi:10.1212/WNL.0b013e3181d0ccca. PMID 20177124.
  27. Bergeron MF (March 2003). "Heat cramps: fluid and electrolyte challenges during tennis in the heat". J Sci Med Sport. 6 (1): 19–27. doi:10.1016/S1440-2440(03)80005-1. PMID 12801207.

External links

ClassificationD
External resources
Symptoms and conditions relating to muscle
Pain
Inflammation
Destruction
Low ATP reservoir
Abnormal movement
Other
Signs and symptoms relating to movement and gait
Gait
Coordination
Abnormal movement
Posturing
Paralysis
Weakness
Range of motion
Other
Underwater diving
Diving equipment
Basic equipment
Breathing gas
Buoyancy and
trim equipment
Decompression
equipment
Diving suit
Helmets
and masks
Instrumentation
Mobility
equipment
Safety
equipment
Underwater
breathing
apparatus
Open-circuit
scuba
Diving rebreathers
Surface-supplied
diving equipment
Diving
equipment
manufacturers
Diving support equipment
Access equipment
Breathing gas
handling
Decompression
equipment
Platforms
Underwater
habitat
Remotely operated
underwater vehicles
Safety equipment
General
Freediving
Activities
Competitions
Equipment
Freedivers
Hazards
Historical
Organisations
Professional diving
Occupations
Military
diving
Military
diving
units
Underwater
work
Salvage diving
Diving
contractors
Tools and
equipment
Underwater
weapons
Underwater
firearm
Recreational diving
Specialties
Diver
organisations
Diving tourism
industry
Diving events
and festivals
Diving safety
Diving
hazards
Consequences
Diving
procedures
Risk
management
Diving team
Equipment
safety
Occupational
safety and
health
Diving medicine
Diving
disorders
Pressure
related
Oxygen
Inert gases
Carbon dioxide
Breathing gas
contaminants
Immersion
related
Treatment
Personnel
Screening
Research
Researchers in
diving physiology
and medicine
Diving medical
research
organisations
Law
History of underwater diving
Archeological
sites
Underwater art
and artists
Engineers
and inventors
Historical
equipment
Diver
propulsion
vehicles
Military and
covert operations
Scientific projects
Awards and events
Incidents
Dive boat incidents
Diver rescues
Early diving
Freediving fatalities
Offshore
diving
incidents
Professional
diving
fatalities
Scuba diving
fatalities
Publications
Manuals
Standards and
Codes of Practice
General non-fiction
Research
Dive guides
Training and registration
Diver
training
Skills
Recreational
scuba
certification
levels
Core diving skills
Leadership skills
Specialist skills
Diver training
certification
and registration
organisations
Commercial diver
certification
authorities
Commercial diving
schools
Free-diving
certification
agencies
Recreational
scuba
certification
agencies
Scientific diver
certification
authorities
Technical diver
certification
agencies
Cave
diving
Military diver
training centres
Military diver
training courses
Underwater sports
Surface snorkeling
Snorkeling/breath-hold
Breath-hold
Open Circuit Scuba
Rebreather
Sports governing
organisations
and federations
Competitions
Underwater divers
Pioneers
of diving
Underwater
scientists
archaeologists and
environmentalists
Scuba record
holders
Underwater
filmmakers
and presenters
Underwater
photographers
Underwater
explorers
Aquanauts
Writers and journalists
Rescuers
Frogmen
Commercial salvors
Science of underwater diving
Diving
physics
Diving
physiology
Decompression
theory
Diving
environments
Classification
Impact
Other
Deep-submergence
vehicle
Submarine rescue
Deep-submergence
rescue vehicle
Submarine escape
Escape set
Special
interest
groups
Neutral buoyancy
facilities for
Astronaut training
Other
Categories: