Charcot–Marie–Tooth disease

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Charcot-Marie-Tooth disease
Other names: Charcot–Marie–Tooth neuropathy, peroneal muscular atrophy,[1] Dejerine-Sottas syndrome
Charcot-marie-tooth foot.jpg
The foot of a person with Charcot–Marie–Tooth disease with the characteristic lack of muscle, a high arch, and claw toes.
Pronunciation
SpecialtyNeurology, orthopedics
SymptomsGradual onset of weakness starting in the legs, muscle loss[2]
ComplicationsFoot deformity, trouble walking[3]
Usual onset10 to 30 years old[2]
DurationLifelong[2]
TypesCMT1, CMT2, CMT3, CMT4, CMTX[2][1]
CausesGenetic mutation[2]
Risk factorsFamily history[2]
Diagnostic methodNerve conduction study, genetic testing, nerve biopsy, nerve imaging[2]
Differential diagnosisSpinal muscular atrophy with respiratory distress type 1 (SMARD1), muscular dystrophy, multiple sclerosis[2][4]
TreatmentPhysical therapy, orthotic devices, exercise, surgery[2]
PrognosisProgressive[2]
Frequency1 in 2,500[2]

Charcot–Marie–Tooth disease (CMT) is a group of disorders that affects peripheral nerves.[3] Symptoms include gradual onset of muscle weakness starting in the legs and eventually involving the arms.[2] Both sides are affected and loss of muscle mass occurs.[2] Onset of symptoms is generally in a persons 10s or 20s.[2] About 25% of people experience pain and some develop numbness.[2][1]

It can occurs due to a number of different genetic mutations.[3] Most commonly it is due to issues with PMP22 on chromosome 17.[2] It can be autosomal dominant, X-linked, or autosomal recessive.[2] It is classified as a hereditary motor and sensory neuropathy.[2] Diagnosis may be supported by nerve conduction study, genetic testing, nerve biopsy, and nerve imaging.[2]

Treatment is supportive care which may include physical therapy, orthotic devices, and exercise programs.[2] Surgery may be done to improve foot, hip, or spine problems.[2] While the disease does not generally affect life expectancy, people do worsen with time and it can affect activities of daily living.[2]

Charcot–Marie–Tooth disease affecting about 1 in 2,500 people making it the most commonly inherited neuromuscular disorder.[2] Males are more commonly affected than females.[4] The condition was first described in 1886 by Jean-Martin Charcot, Pierre Marie, and Howard Henry Tooth.[2]

Signs and symptoms

Symptoms of CMT usually begin in early childhood or early adulthood, but can begin later. Some people do not experience symptoms until their early 30s or 40s. Usually, the initial symptom is foot drop early in the course of the disease. This can also cause hammer toe, where the toes are always curled. Wasting of muscle tissue of the lower parts of the legs may give rise to a "stork leg" or "inverted champagne bottle" appearance. Weakness in the hands and forearms occurs in many people as the disease progresses.

Loss of touch sensation in the feet, ankles, and legs, as well as in the hands, wrists, and arms occurs with various types of the disease. Early- and late-onset forms occur with 'on and off' painful spasmodic muscular contractions that can be disabling when the disease activates. High-arched feet (pes cavus) or flat-arched feet (pes planus) are classically associated with the disorder.[5] Sensory and proprioceptive nerves in the hands and feet are often damaged, while unmyelinated pain nerves are left intact. Overuse of an affected hand or limb can activate symptoms including numbness, spasm, and painful cramping.

Symptoms and progression of the disease can vary. Involuntary grinding of teeth and squinting are prevalent, and often go unnoticed by the person affected. Breathing can be affected in some, as can hearing, vision, and neck and shoulder muscles. Scoliosis is common, causing hunching and loss of height. Hip sockets can be malformed. Gastrointestinal problems can be part of CMT,[6][7] as can difficulty chewing, swallowing, and speaking (due to atrophy of vocal cords).[8] A tremor can develop as muscles waste. Pregnancy has been known to exacerbate CMT, as well as severe emotional stress. Patients with CMT must avoid periods of prolonged immobility such as when recovering from a secondary injury, as prolonged periods of limited mobility can drastically accelerate symptoms of CMT.[9]

Pain due to postural changes, skeletal deformations, muscle fatigue, and cramping is fairly common in people with CMT. It can be mitigated or treated by physical therapies, surgeries, and corrective or assistive devices. Analgesic medications may also be needed if other therapies do not provide relief from pain.[10] Neuropathic pain is often a symptom of CMT, though, like other symptoms of CMT, its presence and severity vary from case to case. For some people, pain can be significant to severe and interfere with daily life activities. However, pain is not experienced by all people with CMT. When neuropathic pain is present as a symptom of CMT, it is comparable to that seen in other peripheral neuropathies, as well as postherpetic neuralgia and complex regional pain syndrome, among other diseases.[11]

Causes

Charcot–Marie–Tooth disease is caused by genetic mutations that cause defects in neuronal proteins. Nerve signals are conducted by an axon with a myelin sheath wrapped around it. Most mutations in CMT affect the myelin sheath, but some affect the axon.

CMT is a heterogeneous disease and the mutations linked to it may occur in a number of different genes.[12] Based on the affected gene, CMT is categorized into several types and subtypes.[13]

Chromosome 17

The most common cause of CMT (70–80% of the cases) is the duplication of a large region on the short arm of chromosome 17 that includes the gene PMP22.

Some mutations affect the gene MFN2, on chromosome 1, which codes for a mitochondrial protein. Mutated MFN2 causes the mitochondria to form large clusters, or clots, which are unable to travel down the axon towards the synapses. This prevents the synapses from functioning.[14]

X-linked CMT and Schwann cells

CMT can also be produced by X-linked mutations, and is named X-linked CMT (CMTX). In CMTX, mutated connexons create non-functional gap junctions that interrupt molecular exchange and signal transport.[15][16][17]

The mutation can appear in GJB1 coding for connexin 32, a gap junction protein expressed in Schwann cells. Because this protein is also present in oligodendrocytes, demyelination can appear in the CNS.[18]

Schwann cells create the myelin sheath, by wrapping its plasma membrane around the axon.[15]

Neurons, Schwann cells, and fibroblasts work together to create a functional nerve. Schwann cells and neurons exchange molecular signals by gap junctions that regulate survival and differentiation.

Demyelinating Schwann cells causes abnormal axon structure and function. They may cause axon degeneration, or they may simply cause axons to malfunction.[19]

The myelin sheath allows nerve cells to conduct signals faster. When the myelin sheath is damaged, nerve signals are slower, and this can be measured by a common neurological test, electromyography. When the axon is damaged, though, this results in a reduced compound muscle action potential.[20]

Diagnosis

CMT can be diagnosed through three different forms of tests: measurement of the speed of nerve impulses (nerve conduction studies), a biopsy of the nerve, and DNA testing. DNA testing can give a definitive diagnosis, but not all the genetic markers for CMT are known. CMT is first most noticed when someone develops lower leg weakness, such as foot drop, or foot deformities, including hammertoes and high arches, but signs alone do not lead to diagnosis. Patients must be referred to a physician specialising in neurology or rehabilitation medicine. To see signs of muscle weakness, the neurologist may ask patients to walk on their heels or to move part of their leg against an opposing force. To identify sensory loss, the neurologist tests for deep-tendon reflexes, such as the knee jerk, which are reduced or absent in CMT. The doctor may also ask the patient's family history since CMT is hereditary. The lack of family history does not rule out CMT, but is helpful to rule out other causes of neuropathy, such as diabetes or exposure to certain chemicals or drugs.[21]

In 2010, CMT was one of the first diseases where the genetic cause of a particular patient's disease was precisely determined by sequencing the whole genome of an affected individual. This was done by the scientists employed by the Charcot Marie Tooth Association (CMTA)[22][13] Two mutations were identified in a gene, SH3TC2, known to cause CMT. Researchers then compared the affected patient's genome to the genomes of the patient's mother, father, and seven siblings with and without the disease. The mother and father each had one normal and one mutant copy of this gene, and had mild or no symptoms. The offspring who inherited two mutant genes presented fully with the disease.

Histology

The constant cycle of demyelination and remyelination, which occurs in CMT, can lead to the formation of layers of myelin around some nerves, termed an "onion bulb". These are also seen in chronic inflammatory demyelinating polyneuropathy.[23] Muscles show fiber type grouping, a similarly nonspecific finding that indicates a cycle of denervation/reinnervation. Normally, type I and type II muscle fibers show a checkerboard-like random distribution. However, when reinnervation occurs, the group of fibers associated with one nerve are of the same type. The standard for indicating fiber type is histoenzymatic adenosine triphosphatase (ATPase at pH 9.4).[24]

Management

Often, the most important goal for patients with CMT is to maintain movement, muscle strength, and flexibility. Therefore, an interprofessional team approach with occupational therapy (OT), physical therapy (PT), orthotist, podiatrist, and or orthopedic surgeon is recommended.[25] PT typically focuses on muscle-strength training, muscle stretching, and aerobic exercise, while OT can provide education on energy conservation strategies and activities of daily living. Physical therapy should be involved in designing an exercise program that fits a person's personal strengths and flexibility. Bracing can also be used to correct problems caused by CMT. An orthotist may address gait abnormalities by prescribing the use of ankle-foot orthoses. These orthoses help control foot drop and ankle instability and often provide a better sense of balance for patients.

Appropriate footwear is also very important for people with CMT, but they often have difficulty finding well-fitting shoes because of their high arched feet and hammer toes. Due to the lack of good sensory reception in the feet, CMT patients may also need to see a podiatrist for assistance in trimming nails or removing calluses that develop on the pads of the feet. Lastly, patients can also decide to have surgery performed by a podiatrist or an orthopedic surgeon. Surgery may help to stabilize the patients' feet or correct progressive problems. These procedures include straightening and pinning the toes, lowering the arch, and sometimes, fusing the ankle joint to provide stability.[9] CMT patients must take extra care to avoid falling as fractures take longer to heal in someone with an underlying disease process. Additionally, the resulting inactivity may cause the CMT to worsen.[9] The Charcot–Marie–Tooth Association classifies the chemotherapy drug vincristine as a "definite high risk" and states, "vincristine has been proven hazardous and should be avoided by all CMT patients, including those with no symptoms."[26] Several corrective surgical procedures can be done to improve the physical condition of the affected individuals.[27]

Prognosis

The severity of symptoms varies widely even for the same type of CMT. Cases of monozygotic twins with varying levels of disease severity have been reported, showing that identical genotypes are associated with different levels of severity (see penetrance). Some patients are able to live a normal life and are almost or entirely asymptomatic.[28] A 2007 review stated that, "life expectancy is not known to be altered in the majority of cases."[29]

History

The disease is named after those who classically described it: the Frenchman Jean-Martin Charcot (1825–1893), his pupil Pierre Marie (1853–1940),[30] and the Briton Howard Henry Tooth (1856–1925).[31]

See also

References

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  2. 2.00 2.01 2.02 2.03 2.04 2.05 2.06 2.07 2.08 2.09 2.10 2.11 2.12 2.13 2.14 2.15 2.16 2.17 2.18 2.19 2.20 2.21 2.22 2.23 Nagappa, M; Sharma, S; Taly, AB (January 2020). "Charcot Marie Tooth". PMID 32965834. {{cite journal}}: Cite journal requires |journal= (help)
  3. 3.0 3.1 3.2 "Charcot-Marie-Tooth disease | Genetic and Rare Diseases Information Center (GARD) – an NCATS Program". rarediseases.info.nih.gov. Archived from the original on 23 November 2020. Retrieved 18 December 2020.
  4. 4.0 4.1 Ferri, Fred F. (2012). Ferri's Netter Patient Advisor E-Book. Elsevier Health Sciences. p. 647. ISBN 978-1-4557-2826-8. Archived from the original on 2021-08-28. Retrieved 2020-12-19.
  5. Le, Tao; Bhushan, Vikas (6 January 2014). First Aid for the USMLE Step 1 2014. McGraw-Hill Education. ISBN 9780071831420. Archived from the original on 17 February 2017. Retrieved 4 September 2014. Typically autosomal dominant inheritance pattern associated with scoliosis and foot deformities (high or flat arches).
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  14. Baloh, R. H.; Schmidt, R. E.; Pestronk, A.; Milbrandt, J. (2007). "Altered Axonal Mitochondrial Transport in the Pathogenesis of Charcot-Marie-Tooth Disease from Mitofusin 2 Mutations". Journal of Neuroscience. 27 (2): 422–30. doi:10.1523/JNEUROSCI.4798-06.2007. PMC 6672077. PMID 17215403.
  15. 15.0 15.1 Berger, Philipp; Young, Peter; Suter, Ueli (2002). "Molecular cell biology of Charcot-Marie-Tooth disease". Neurogenetics. 4 (1): 1–15. doi:10.1007/s10048-002-0130-z. PMID 12030326.
  16. Kleopa, Kleopas; Lupski, James R. (December 2011). "The Role of Gap Junctions in Charcot-Marie-Tooth Disease". Journal of Neuroscience. 31 (49): 17753–17760. doi:10.1523/JNEUROSCI.4824-11.2011. PMC 6634164. PMID 22159091.
  17. Szigeti, Kinga; Lupski, James R. (April 2009). "Charcot-Marie-Tooth disease". European Journal of Human Genetics. 17 (6): 703–710. doi:10.1038/ejhg.2009.31. PMC 2947101. PMID 19277060.
  18. Georgios Koutsi et al. X linked Charcot-Marie-Tooth disease and multiple sclerosis: emerging evidence for an association, Neurogenetics, doi: https://doi.org/10.1136/jnnp-2018-319014 Archived 2021-08-28 at the Wayback Machine
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  21. "Diagnosing CMT". Charcot–Marie–Tooth Association. Archived from the original on 2020-05-11. Retrieved 2020-05-30.
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  23. Midroni, Gyl; Bilbao, Juan M.; with the technical assistance of Cohen, Sandra M. (1995). Biopsy diagnosis of peripheral neuropathy. Boston: Butterworth-Heinemann. pp. 75–103. ISBN 9780750695527.
  24. Dubowitz, Victor; Sewry, Caroline A.; toxic, Anders Oldfors; with contribution on; Lane, drug-induced myopathies by Russell (2013). Muscle biopsy : a practical approach (Fourth ed.). Philadelphia: Saunders/Elsevier. ISBN 978-0702043406.
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  26. "Medical Alert". Charcot-Marie-Tooth Association. Archived from the original on 2007-07-02. Retrieved 2007-08-21.
  27. Anand N, Levine, DB, Burke S, Bansal M. Neuropathic spinal atrophy in Charcot–Marie–Tooth disease. J Bone Joint Surg. 1997; 79-A:1235–39.
  28. Pareyson, Davide; Marchesi, Chiara (2009-07-01). "Diagnosis, natural history, and management of Charcot–Marie–Tooth disease". The Lancet. Neurology. 8 (7): 654–667. doi:10.1016/S1474-4422(09)70110-3. ISSN 1474-4422. PMID 19539237.
  29. Aboussouan, Loutfi S.; Lewis, Richard A.; Shy, Michael E. (2007-02-09). "Disorders of Pulmonary Function, Sleep, and the Upper Airway in Charcot-Marie-Tooth Disease". Lung. 185 (1): 1–7. doi:10.1007/s00408-006-0053-9. ISSN 0341-2040. PMID 17294338.
  30. "Sur une forme particulière d'atrophie musculaire progressive, souvent familiale débutant par les pieds et les jambes et atteignant plus tard les mains". Revue Médicale. 6: 97–138. 1886.
  31. "The peroneal type of progressive muscular atrophy". dissertation. London. 1886.

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