Werdnig-hoffman disease
A group of inherited disorders characterized by degeneration of motor neurons
| Spinal Muscular Atrophy (SMA) | |
|---|---|
| File:Spinal Muscular Atrophy MRI.png | |
| Synonyms | SMA, Werdnig–Hoffmann disease, Kugelberg–Welander disease |
| Pronounce | N/A |
| Field | Neurology, Genetics |
| Symptoms | Muscle weakness, hypotonia, respiratory failure, motor delay |
| Complications | N/A |
| Onset | Infancy to adulthood (depending on type) |
| Duration | N/A |
| Types | SMA Type I, II, III, IV |
| Causes | Autosomal recessive mutation in the SMN1 gene |
| Risks | N/A |
| Diagnosis | Genetic testing, electromyography, muscle biopsy |
| Differential diagnosis | N/A |
| Prevention | N/A |
| Treatment | Gene therapy, antisense oligonucleotide therapy, supportive care |
| Medication | N/A |
| Prognosis | Varies by type; improved with modern treatments |
| Frequency | 1 in 6,000 to 10,000 live births |
| Deaths | N/A |
Spinal muscular atrophy (SMA) is a group of inherited disorders characterized by the progressive loss of motor neurons in the spinal cord and lower brainstem. These motor neurons are essential for controlling skeletal muscle activity such as walking, swallowing, breathing, and speaking.
Other Names
- Werdnig–Hoffmann disease (SMA Type I)
- Kugelberg–Welander disease (SMA Type III)
- Proximal spinal muscular atrophy
Pathophysiology
SMA involves the degeneration of alpha motor neurons, which are nerve cells in the anterior horn of the spinal cord and brainstem responsible for voluntary muscle movement. As these neurons die, communication between the nervous system and muscles breaks down, leading to muscle atrophy and weakness.
The loss of motor neurons results in:
- Reduced muscle tone (hypotonia)
- Diminished or absent deep tendon reflexes
- Progressive paralysis of proximal muscles
- Respiratory and swallowing complications in severe cases
Cause
The majority of SMA cases are caused by mutations or deletions in the SMN1 (Survival Motor Neuron 1) gene located on chromosome 5q13. This gene encodes the SMN protein, which is crucial for the survival of motor neurons.
A nearly identical gene, SMN2, exists but primarily produces a truncated, nonfunctional version of the SMN protein. The number of copies of SMN2 influences the severity of the disease — more copies often result in milder phenotypes.
Types
SMA is classified into several types based on the age of onset and the highest motor milestone achieved:
Type I (Werdnig–Hoffmann disease)
- **Onset:** Before 6 months of age
- **Severity:** Most severe and common form
- **Symptoms:** Severe muscle weakness, contractures, absent reflexes, feeding difficulties, respiratory failure
- **Prognosis:** Without intervention, most children do not survive beyond 2 years
Type II
- **Onset:** Between 6–18 months
- **Symptoms:** Can sit unsupported but cannot stand or walk unaided; scoliosis, joint contractures, restrictive lung disease
- **Prognosis:** Reduced lifespan, but many live into adolescence or young adulthood
Type III (Kugelberg–Welander disease)
- **Onset:** After 18 months (may be diagnosed in childhood or adolescence)
- **Symptoms:** Can walk independently but may lose mobility over time; musculoskeletal deformities, frequent respiratory infections
- **Prognosis:** Normal life expectancy with care; may require mobility aids
Type IV
- **Onset:** Adulthood (usually after age 21)
- **Symptoms:** Mild to moderate muscle weakness, especially in the lower limbs, occasional tremors or fatigue
- **Prognosis:** Normal life expectancy with minimal impact on daily activities
Diagnosis
Diagnosis is typically confirmed by:
- Genetic testing to identify mutations or deletions in the SMN1 gene
- Electromyography (EMG) and nerve conduction studies to assess motor unit abnormalities
- Muscle biopsy (rarely used now)
- Newborn screening in some regions
Treatment
Although there is no cure, several disease-modifying therapies have significantly changed the prognosis for SMA:
FDA-approved therapies
- Nusinersen (Spinraza) – An antisense oligonucleotide that modifies SMN2 splicing to produce more functional SMN protein
- Onasemnogene abeparvovec (Zolgensma) – A one-time gene therapy that delivers a functional copy of the SMN1 gene via AAV vector
- Risdiplam (Evrysdi) – An oral medication that enhances SMN2 splicing
Supportive care
- Respiratory therapy, mechanical ventilation, and airway clearance techniques
- Nutritional support, including feeding tubes for those with swallowing difficulty
- Physical therapy to maintain mobility and prevent contractures
- Orthopedic surgery for scoliosis or joint issues
Prognosis
The prognosis of SMA has improved dramatically with early diagnosis and modern therapies. Outcomes depend on the type and severity:
- Type I: Historically fatal, but with early treatment, survival and motor function can significantly improve
- Type II & III: Many live into adulthood with appropriate care
- Type IV: Generally mild with normal life expectancy
Early initiation of treatment offers the best outcomes, particularly before the loss of motor neurons becomes irreversible.
Epidemiology
SMA affects approximately:
- 1 in 6,000 to 10,000 live births worldwide
- Carrier frequency is about 1 in 40–50 individuals
It is one of the most common genetic causes of infant mortality.
See Also
- Muscular dystrophy
- Motor neuron disease
- Amyotrophic lateral sclerosis
- Newborn screening
- Neuromuscular disorder
- Gene therapy
- Assistive technology
WikiMD neurology
External links
- Comprehensive information from the National Institute of health.
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| Genetic diseases and disorders | ||||||||
|---|---|---|---|---|---|---|---|---|
This genetic diseases and disorders related article is a stub.
|
NIH genetic and rare disease info
Werdnig-hoffman disease is a rare disease.
| Rare and genetic diseases | ||||||
|---|---|---|---|---|---|---|
|
Rare diseases - Werdnig-hoffman disease
|
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