Amyotrophic Lateral Sclerosis (aka ALS or Lou Gehrig’s Disease)
Original Editor - Norma Cervera
- 1 Definition of the disease or condition 
- 2 Background epidemiology to the disease
- 3 Aetiology (the cause or set of causes) 
- 4 Pathophysiology
- 5 Clinical Manifestations
- 6 Diagnosis
- 7 Treatment/Management
- 8 Current and Future Research
- 9 Resources
- 10 Recent Related Research (from Pubmed)
- 11 References
Definition of the disease or condition 
Motor neurone disease, also known as amyotrophic lateral sclerosis (ALS), is a rare condition that progressively damages parts of the nervous system. Attacking both the upper and lower motor neurones. This is known as neurodegeneration and it affects the:
- Motor neurons
- Cerebral cortex
- Brain stem
- Spinal cord
The upper motor neurones (UMN) originate in the cerebral cortex and brain stem, they pass information onto the lower motor neurones (LMN) and from there information is sent down to the peripheral muscles. The UMN sends messages to the LMN to produce movements such as walking or chewing. The LMN control movements in the arms, legs, chest, face, throat and tongue. The disease leads to disrupted signals between the UMN and LMN which causes muscular dysfunction. This leads to muscle weakness and often visible wasting. The disease is terminal and death is usually attributed to respiratory failure as there is progressive weakening of the diaphragm.
Descriptions of the disease date back to at least 1824. In 1869, the connection between the symptoms and the underlying neurological problems (involvement of cortico-spinal tract) were first described by Jean-Martin Charcot. In 1874 Charcot began using the term amyotrophic lateral sclerosis (ALS). The disease became widely publicised in the United States when it affected the famous baseball player Lou Gehrig, and later when the ice bucket challenge became popular in 2014.
Motor neuron disease is an ‘umbrella term’ for several subtypes, ALS being the most common form.
• ALS is the most common motor neuron disease
• For about half of those with the condition the mean life expectancy from onset of symptoms to death is 2-4 yrs
• Only 20% live beyond 5yrs
• 5% of those diagnosed had it before they were 47 years old
• Incidence peaks between 55 and 65 years of age
• Clinicians are reporting that they are seeing increasing numbers of younger ALS patients.
• Currently there is no cure for motor neurone disease.
• Most common in men
• Yearly incidence is 1-2 per 100,000
• Family history of either motor neurone disease or a related condition called frontotemporal dementia.
• Autosomal dominant
• Ratio 1:1 (men to women)
• Mean age onset 47 years of age
• Represents 5-10% of all ALS occurrences
• Affects around two in every 100,000 people in the UK each year.
• There are about 5,000 people living with the condition in the UK at any one time.
It’s essentially unknown but several factors may be involved:
- Genetic – this is not true for all cases but some mutations have been identified in some individuals. In these cases, it is not uncommon to have several cases in one family.
- Biochemistry – it appears that MND mainly occurs through the activation of calcium-dependant enzymatic pathways.
- Premature ageing of some motor cells may lead to damage and destruction if these cells. This then puts pressure on the surviving cells
In the progression of the disease there is a loss of motor neurones from the anterior horn of the spinal cord, the primary motor cortex and from the hypoglossal nucleus in the lower medulla. Surrounding glial cells are also affected. Shrinkage and discolouration of the anterior nerve roots in the spinal cord occurs because of axonal degeneration of the neurones and the accompanying demyelination.
The pathophysiology behind the disease appears to be multi-factorial with complex interactions between genetics and molecular pathways.
Potential cellular & molecular mechanisms that contribute to the neuro degeneration of MND:
• Abnormal mitochondria functioning
• Increased oxidative stress
• Increased free radicals
• Impaired axonal transport
• Sodium-potassium pump dysfunction
• Increased inflammatory mediators
• Increased toxin secretion
Potential gene mutations that are harmful to neurons and could contribute to the disease:
- Weakened grip
- Weakness at shoulder
- Weakness at ankle or hip
- Widespread twitching of the muscles (fasciculations)
- Muscle cramps
- Visible wasting of the muscles with significant weight loss
- Increasingly slurred speech (dysarthria)
- Difficulty swallowing (dysphagia)
- Breathing difficulties
- Shortness of breath
- Waking up frequently during the night because the brain is temporarily starved of oxygen when lying down
- Muscle weakness
- Muscle Atrophy
- Movement difficulty
- Excess saliva from reduced swallowing
- Thicker saliva may sometimes be difficult to clear from the chest or throat due to weakening of muscles
- Excess yawning
- Difficulties with concentration, planning and use of language
- Fronto-temporal dementia – this affects their ability to problem solve and respond to new situations
- Breathing difficulties, such as shortness of breath
- Increasing body paralysis
- Significant shortness of breath
These are not directly caused by the disease but are related to the stress of living with it.
There is no single test that diagnoses an individual with ALS. However, several characteristics of the disease can be identified and therefore used to point practitioners in the right direction. El Escorial Criteria mentions the specific characteristics and features that need to be displayed in an individual for a proper ALS diagnosis; although they are not exclusive. It classifies diagnosis into four different categories depending on severity of upper (UMN) as well as lower motor neuron (LMN) degeneration (which must not be explained by the presence another neurological disorder). Physicians use a combination of a few methods such as electromyography and neuroimaging to identify UMN and LMN degeneration which is the most prominent feature in neurodegenerative disorders. Furthermore, current research is looking into whole-brain magnetic resonance spectroscopic imaging (MRSI) as a source of determining disability levels in ALS in the future.
- With the exception of one genetic test, no definitive diagnostic test or biological marker exists for ALS – however, not all individuals with the disease present with this gene
- El Escorial Criteria for diagnosis of ALS (revised): 
The diagnosis of Amyotrophic Lateral Sclerosis (ALS) requires-
A - the presence of:
- evidence of lower motor neuron (LMN) degeneration by clinical, electrophysiological or neuropathologic examination,
- evidence of upper motor neuron (UMN) degeneration by clinical examination, and
- progressive spread of symptoms or signs within a region or to other regions, as determined by history or examination.
B - the absence of:
- electrophysiological and pathological evidence of other disease processes that might explain the signs of LMN and/or UMN degeneration, and
- neuroimaging evidence of other disease processes that might explain the observed clinical and electrophysiological sign
Clinically Definite ALS
Clinical evidence alone by the presence of UMN, as well as LMN signs, in three regions.
Clinically Probable ALS
Clinical evidence alone by UMN and LMN signs in at least two regions with some UMN signs necessarily rostral to (above) the LMN signs.
Clinically Probable with Laboratory support ALS
Clinical signs of UMN and LMN dysfunction are in only one region, or when UMN signs alone are present in one region, and LMN signs defined by EMG criteria are present in at least two limbs, with proper application of neuroimaging and clinical laboratory protocols to exclude other causes.
Clinically Possible ALS
Clinical signs of UMN and LMN dysfunction are found together in only one region or UMN signs are found alone in two or more regions; or LMN signs are found rostral to UMN signs and the diagnosis of Clinically Probable – Laboratory supported ALS cannot be proven by evidence on clinical grounds in conjunction with electro diagnostic, neurophysiologic, neuroimaging or clinical laboratory studies. Other diagnoses must have been excluded to accept a diagnosis of Clinically possible ALS.
(Clinically Suspected ALS is a pure LMN syndrome, wherein the diagnosis of ALS could not be regarded as sufficiently certain to include the patient in a research study. Hence, this category is deleted from the revised El Escorial Criteria for the Diagnosis of ALS.)
There is no cure or standard treatment for ALS so the focus is on supportive treatments that aim to maintain the individuals’ quality of life. However treatment should take a holistic approach as the disease can be very distressing for the individual and their family, it is important not only to focus on the physical aspect of the disease but also the emotional and psychosocial components.
Physiotherapy, respiratory and occupational therapy and social care are important in the care of those with ALSs. Dieticians can help ensure that those with ALS eat a balanced diet and receive proper nutrition to help them maintain weight and keep up their strength as individuals can often lose weight as their ability to swallow is impaired. Dieticians can also advise patients as certain foods, such as dairy products could contribute to the production of thicker secretions.
As the disease progresses breathing becomes increasingly difficult and the use of non-invasive ventilation can significantly improve the quality of life and may also increase the patient’s life expectancy by about 7 months.
Exercises should focus on improving posture, preventing joint immobility, and slowing the progressive muscle weakening and atrophy. Stretching and strengthening exercises may help reduce spasticity, increase range of motion and improve circulation.
Additional therapy for those with speech, chewing, and swallowing difficulties may be required.
Other modalities, such as heat application may help relieve pain.
Assistive devices such as supports or braces, orthotics, speech synthesizers, and wheelchairs may help some people retain independence.
Current and Future Research
Research options fall largely into three categories: drugs, gene therapy, and stem cells.
Clinical trials are testing whether different drugs or interventions are safe and effective in slowing the progression of ALSs in patient volunteers.
Cellular and molecular studies seek to understand the mechanisms that trigger motor neurons to degenerate.
|| Overview of Amyotrophic Lateral Sclerosis
Dr. Leo McCluskey provides an overview of Amyotrophic Lateral Sclerosis at the February 2012 FTD Caregiver Conference, University of Pennsylvania, Philadelphia, PA.
Recent Related Research (from Pubmed)
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- National Institute of Neurological Disorders and Stroke. Motor Neurone Diseases Fact Sheet. http://www.ninds.nih.gov/disorders/motor_neuron_diseases/detail_motor_neuron_diseases.htm#260803144 (Accessed 4th May 2015)
- NHS Information http://www.nhs.uk/Conditions/Motor-neurone-disease/Pages/Symptoms.aspx (accessed April 28th at 11:49)
- Kiernan, M.C., Vucic, S., Cheah, B.C., Turner, M.R., Eisen, A., Hardiman, O., Burrell, J.R., Zoing, M.C. Amyotrophic lateral sclerosis. Lancet 2011; 377; 942-55 http://www.thelancet.com/journals/lancet/article/PIIS0140-6736%2810%2961156-7/abstract (accessed 4th May 2015)
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- Ben Garside. Amyotrophic Lateral Sclerosis (ALS) Part 5. Available from: http://www.youtube.com/watch?v=k5sAyo82FeE [last accessed 15/01/15]|}
- Ben Garside. Amyotrophic Lateral Sclerosis (ALS) Part 6. Available from: http://www.youtube.com/watch?v=oFhSsnmx-BE [last accessed 15/01/15]|}
- Ben Garside. Amyotrophic Lateral Sclerosis (ALS) Part 7. Available from: http://www.youtube.com/watch?v=Mk5D-JAYBJU [last accessed 15/01/15]|}
- Gent, C. Understanding motor neurone disease. Nursing and Residential Care 2013; 14;12; 646-649. http://dx.doi.org.gcu.idm.oclc.org/10.12968/nrec.2012.14.12.646 (Accessed 18th May 2015).
- Weyton Tam. Seeking ALS Answers: Range of Motion Therapy. Available from: http://www.youtube.com/watch?v=myoazlf9pdc [last accessed 15/01/16]
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