What is MND?

Motor Neurone Disease

Early MND Detection Checklist - Typical Early Warning Symptoms and Signs of MND

Early MND Detection Checklist

Typical Early Warning Symptoms and Signs of MND

Most MND symptoms are gradual in onset and get worse as time progresses. Symptoms are what the patient feels, and signs are what the doctor will see upon examination.

Symptoms include:

  • Muscle weakness, which usually starts in the hands and feet, and sometimes shoulders and hips
  • Hand weakness, manifesting itself in dropping things, difficulty opening jars and using nail clippers, worsening writing, etc.
  • Foot weakness results in tripping, difficulties climbing stairs – typically without pain or sensation loss
  • Difficulty with speech such as slurring, tongue weakness with twitches, and difficulty swallowing
  • Atrophy and/or twitching in muscles (fasciculations), cramps and stiffness
  • Changes in behavior like increased impulsivity, excessive laughing or crying

While these symptoms can be associated with many other disorders, people experiencing them should contact their GP and get a specialist Neurologist referral.

What the physician will see as signs of MND are:

  • Muscle atrophy and/or fasciculations, weakness, and increased deep tendon reflexes and/or increased tone or spasticity in a limb
  • Slurred and/or spastic speech, excess saliva, shortness of breath, and/or cognitive changes
  • Reduced lung capacity on spirometry
  • All of these signs will be in absence of sensory or other changes on examination

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What we are fighting

What is Motor Neurone Disease (MND)?

Motor Neurone Disease (MND) is the name given to a group of diseases in which the nerve cells (neurones) controlling the muscles that enable us to move around, speak, swallow and breathe fail to work normally and eventually die. With no nerves to activate them the muscles gradually weaken and waste.

The disease affects two groups of motor neurons within the central nervous system (CNS) that are involved in the initiation of muscle contraction and movement:

  • Upper Motor Neurons (UMN): cells originating in the motor cortex of the brain which travel down through the brainstem and spinal cord where they synapse with the lower motor neurons.
  • Lower Motor Neurons (LMN): cells originating within the spinal cord that send long processes called axons out of the spinal cord all the way to muscle where they synapse to cause muscle contraction

It is also known as Amyotrophic Lateral Sclerosis (ALS) or Lou Gehrig’s Disease in the US, named after the famous American Baseball player who succumbed to the disease. With no residual muscles or strength, MND patients are left motionless,mute, and trapped within their once active bodies. In the majority, the mind and intellect are left intact, with the sufferer bearing witness to it all.

The patterns of weakness and rate of progression vary from person to person, and while some people can live a long time with MND, the average life expectancy is 27 months from diagnosis.

MND - The Hard Facts

MND is a progressive, terminal neurological disease

  • Sufferers progressively lose the ability to walk, talk, feed themselves, swallow, and ultimately breathe
  • MND can affect anyone
  • About 10% of MND is familial – meaning that the disease is passed down from generation to generation within the same family.
  • The remaining 90% of people diagnosed with MND are classified as having sporadic disease meaning their is no family history of MND at the time of diagnosis.
  • Every day at least 2 people are diagnosed with MND in Australia
  • Every day at least 2 Australians die as a result of the disease
  • There is currently no truly effective treatment and no known cure
  • There is no single diagnostic test for MND – clinicians must rely on a combination of clinical signs found on examination of patient, evidence of progression and worsening of symptoms over time, and specialised neurophysiological testing such as nerve conduction studies and electromyography. In addition, the clinician works to “rule out” out potential diagnoses that may present in a similar way to MND. (Source: Kiernan MC et al. Lancet 2011; 377: 942-55)

When patients present to neurologists, the main clinical presentations of MND seen at diagnosis include:

  • Limb-onset ALS: with a combination of upper and lower motor neuron signs in the limbs (approximately 70% of MND patients present with limb onset disease)
  • Bulbar-onset ALS: presenting with speech and swallowing difficulties with limb features developing later in the course of the disease (approximately 25% of MND patients initially present with bulbar disease)
  • The less common primary lateral sclerosis (PLS) form with pure upper motor neuron involvement only
  • Progressive muscular atrophy (PMA) with pure lower motor neuron involvement at presentation
MND In Australia
  • More than 2000 people are currently fighting MND in Australia. 60% male and 40% female*
  • Average time from symptom onset to confirmation of diagnosis by a neurologist is 10 to 18 months*
  • Approximately 58% of people with MND are under the age of 65*
  • The total economic cost of MND in Australia was $2.37 billion in 2015. With around 2000 people currently fighting, this equates to $1.1 million per person*
  • For each year they live, every MND patient will on average require $31,598 worth of equipment. The average lifespan is between 2-5 years so this equates to an average lifetime cost of between $63,196 and $157,990 in equipment needs alone*. Carer, hospital expenses, loss of income, home modifications, wheelchair accessible vehicles, medication costs etc, are all above this. Estimated cost to live with the disease is around $200,000 per year depending on level of disability and needs of the individual. Source: Economic Analysis of MND in Australia 2015 report for Motor Neurone Disease Australia, Deloitte Access Economics.

MND Deaths

*Total deaths of all people with MND is the sum of deaths listed with MND as an underlying cause or as an associated cause

*Source : Australian Institute of Health and Wellbeing (AIHW)

What Are The Causes Of MND?

The cause of MND is not fully understood and no one key mechanism is known. Despite recent advances in genetics, scientists and neurologists do not yet know why MND strikes some people and not others.

An important step toward answering this question was made in 1993 when scientists discovered that mutations in the gene that produces the SOD1 enzyme were associated with some cases of familial or inherited MND. Although it is still not clear how mutations in the SOD1 gene lead to motor neuron degeneration, there is increasing evidence that mutant SOD1 protein can become toxic.

Since then, scientific and medical advances have allowed for rapid expansion of our understanding of the roles our genes play in health and disease. This is certainly true for motor neurone disease research, with over a dozen additional genetic mutations being identified in people living with MND (both familial and sporadic cases), each providing new insights into possible mechanisms of MND. The table below lists the genetic mutations currently known to unequivocally play a role in MND pathology. These genes can be grouped into several categories; genes that affect crucial proteins within a cell (so called “proteostasis”), genes that affect the role of RNA processing within the cell, and genes that distrub the function and structure of the motor neuron axon and distal terminal. Overall, it is becoming increasingly clear that a number of cellular defects can lead to motor neuron degeneration in MND.

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Source: Taylor J.P et al. Decoding ALS: from genes to mechanism. 2016. Nature 539: 197-206

A handful of factors have been proposed to be associated with MND; however, the only established risk factors to date are:

  • Older Age: MND is rare before the age of 40 years and increases exponentially with age therafter. Mean age of onset is 58-63 years for sporadic MND and 40-60 years for familial MND, with a peak incidence in those aged 70-79 years old.
  • Male Sex: men have a higher risk of MND than women, leading to a male-to-female ratio of 1.2-1.5
  • Family History of MND: About 10% of MND cases are transmitted in families, almost always as a “dominant trait” and frequently with high penetrance – this means that the offspring from an affected person has a 50% chance of inheriting the faulty gene, and if they do, there is a very high chance they will develop MND. If no family history of MND is identified, the diagnosis is assumed to be sporadic. The C9ORF72 gene (the function of which is as yet unknown) is located on chromosome 9 is the most common gene mutation associated with familial/inherited MND accounting for up to 40% of familial MND cases ( and up to 7%-11% of sporadic MD cases). Mutations in the SOD1 gene are found in 10-20% of familial MND cases (and between 1%-5% of sporadic MND cases).

Lifestyle factors that are under investigation as possibly or probably leading to increased susceptibility to MND include:

  • Smoking: According to an evidence based medical analysis, smoking is the only probable risk factor for MND (Source: Armon C. Smoking may be considered an established risk factor for sporadic ALS. Neurology. 2009;73(20):1693–1698). Intriguingly, smoking may be a risk factor among women, especially post-menopausal women for yet not understood reasons.
  • Dietary Factors: The most investigated relationship between dietary factors and MND is the inverse association between higher intake of antioxidants and a lower risk of MND, with inconsistent findings across studies for any definitive conclusions to be drawn.
  • Body Mass Index and Physical Fitness: There is a strong clinical impression that MND patients have a higher level of physical fitness and lower BMI than average at diagnosis. Longitudinal cohort studies have also suggested that low pre-diagnosis BMI is associated with a high risk of and greater mortality from MND.
  • Athleticism, Chronic Traumatic Encephalopathy, and Physical Exercise: Several studies have demonstrated an increased risk of MND among soccer players, other athletes, and individuals who engage in vigorous physical activity. Chronic Traumatic Encephalopathy (CTE) which results from repeated head injuries, has also been proposed as the underlying reason for the diagnosis of MND among professional athletes.

Environmental and Occupational risk factors under investigation as possibly playing a role in MND include:

  • Occupation: workers in various occupations with seemingly unrelated exposures have been reported to be potentially at risk of MND including athletes, carpenters, construction workers, house painters, laboratory technicians, leather workers, metal workers, tobacco workers, veterinarians, and welders. These occupations potentially involve work exposures to chemicals, pesticides, metals, and electromagnetic fields, but a common denominator between them has not been identified.
  • Metals: links between exposure to lead, iron, sellenium, copper, aluminium, arsenic, cadmium, cobalt, zinc, vanadium, and uranium have been reported, with increased levels of all these compounds reported in some MND patients relative to control subjects.
  • Pesticides: are in widespread use around the world, and several studies have shown an association between pesticide exposure and MND (particularly organochlorine compounds, pyrethroids, herbicides, and fumigants specifically).
  • β-methylamino-L-alanine : exposure to β-methylamino-L-alanine (BMAA), an atypical amino acid, has been proposed to explain the high incidence of MND (and other neurodegenerative conditions) in the western Pacific. BMAA is produced by cyanobacteria, and elevated levels have been reported in the brain and spinal cords of patients with MND compared to healthy controls or patients with other diseases.
  • Viruses: recent studies of the expression of human endogenous retroviral sequences have revealed significantly increased expression of HERV-K in the serum, muscle, and post mortem brain tissue of MND patients.

Source: Ingre C. et al. Risk Factors for amyotrophic lateral sclerosis. 2015. Clinical Epidemiology; 7: 181-193

What Are The Symptoms of MND?

For many patients the onset of MND may be difficult to pinpoint and many of the earliest signs and symptoms are commonly overlooked or dismissed as related to another cause. Some of the earliest symptoms may include fasciculations (muscle twitches), cramps, tight and stiff muscles, muscle weakness affecting an arm or a leg, slurred and nasal sounding speech, or difficulty chewing or swallowing. One of the cardinal features of MND is that overtime these symptoms progress, worsening in severity and also spreading to other areas of the body. These features often may lead to your doctor suspecting MND.

Many individuals first see the effects of the disease in a hand or arm as they experience difficulty with simple tasks requiring manual dexterity such as buttoning a shirt, writing, or turning a key in a lock. In other cases, symptoms initially affect one of the legs, and people experience awkwardness when walking or running or they notice that they are tripping or stumbling more often.

Regardless of the part of the body first affected by the disease, muscle weakness and atrophy spread to other parts of the body as the disease progresses. Individuals may develop problems with moving, swallowing (dysphagia), and speaking or forming words (dysarthria), as well as muscle spasticity, exaggerated reflexes, muscle weakness and atrophy, muscle cramps and fasciculations.

Although the sequence of emerging symptoms and the rate of disease progression vary from person to person, eventually individuals will not be able to stand or walk, get in or out of bed on their own, or use their hands and arms. Difficulty swallowing and chewing impair the person’s ability to eat normally and increase the risk of choking. Maintaining weight will then become a problem. Because cognitive abilities are relatively intact (cognitive changes are described in between 30% – 50% of cases), people are aware of their progressive loss of function and may become anxious and depressed.

A percentage of individuals may experience problems with memory or decision-making, and there is growing evidence that some may even develop a form of dementia over time. Health care professionals need to explain the course of the disease and describe available treatment options so that people can make informed decisions in advance. In later stages of the disease, individuals have difficulty breathing as the muscles of the respiratory system weaken. They eventually lose the ability to breathe on their own and must depend on ventilatory support for survival. Affected individuals also face an increased risk of pneumonia during later stages of MND.

How Is MND Diagnosed?

To be diagnosed with MND, people must have signs and symptoms of damage to either or both of the upper and lower motor neurons that cannot be attributed to other causes. No single test can provide a definitive diagnosis of MND; instead, the diagnosis of MND is primarily based on the symptoms and signs the neurologist observes in the patient and a series of tests to rule out other diseases. Sometimes the patient is observed to see if the symptoms and signs progress over time (one of the cardinal features of MND). Physicians obtain the individual’s full medical history and usually conduct a neurologic examination at regular intervals to assess whether symptoms such as muscle weakness, atrophy of muscles, hyperreflexia and spasticity are getting progressively worse.

mndals-differential-diagnosisSince MND symptoms in the early stages of the disease can be similar to those of a wide variety of other, more treatable diseases or disorders, appropriate tests must be conducted to exclude the possibility of other conditions. One of these tests is electromyography (EMG), a special recording technique that detects electrical activity in muscles. Certain EMG findings can support the diagnosis of MND. Another common test is a nerve conduction study (NCS), which measures electrical energy by assessing the nerve’s ability to send a signal. Specific abnormalities in the NCS and EMG may suggest, for example, that the individual has a form of peripheral neuropathy (damage to peripheral nerves) or myopathy (muscle disease) rather than MND.

The physician may order magnetic resonance imaging (MRI), a noninvasive procedure that uses a magnetic field and radio waves to take detailed images of the brain and spinal cord. Standard MRI scans are normal in people with ALS. However, they can reveal evidence of other problems that may be causing the symptoms, such as a spinal cord tumor, a herniated disk in the neck that compresses the spinal cord, syringomyelia (a cyst in the spinal cord), or cervical spondylosis (abnormal wear affecting the spine in the neck).

Based on the person’s symptoms and findings from the examination and from these tests, the physician may order tests on blood and urine samples to eliminate the possibility of other diseases as well as routine laboratory tests. In some cases, for example, if a physician suspects that the individual may have a myopathy rather than MND, a muscle biopsy may be performed.

Infectious diseases such as human immunodeficiency virus (HIV), human T-cell leukemia virus (HTLV), polio, West Nile virus, and Lyme disease can cause MND-like symptoms in some cases. Neurological disorders such as multiple sclerosis, post-polio syndrome, multifocal motor neuropathy, and spinal muscular atrophy also can mimic certain facets of the disease and should be considered by physicians attempting to make a diagnosis. Fasciculations, the fine rippling movements in the muscle, and muscle cramps also occur in benign conditions.

Because of the prognosis carried by this diagnosis and the variety of diseases or disorders that can resemble MND in the early stages of the disease, individuals may wish to obtain a second neurological opinion.

(Source: Kiernan MC et al. Lancet 2011; 377: 942-55)

How Is MND Treated?

Unfortunately, at present there is no known cure to Motor Neurone Disease (MND).

The first approved drug treatment for the disease, called Riluzole (Rilutek), became avalable in 1995. Riluzole is believed to reduce damage to motor neurons by decreasing the release of glutamate. Clinical trials with MND patients showed that Riluzole prolongs survival by around 3-4 months, mainly in those with difficulty swallowing. The drug could also extend the time before an individual needs ventilation support. Riluzole does not reverse the damage already done to motor neurons, and persons taking the drug must be monitored for liver damage and other possible side effects.

Other treatments for MND are designed to relieve symptoms and improve the quality of life for individuals with the disorder. This supportive care is best provided by multidisciplinary teams of health care professionals such as neurologists; pharmacists; physical, occupational, and speech therapists; nutritionists; and social workers and home care and hospice nurses. Working with patients and caregivers, these teams can design an individualized plan of medical and physical therapy and provide special equipment aimed at keeping patients as mobile and comfortable as possible.

(Source: Kiernan MC et al. Lancet 2011; 377: 942-55)

Physicians can prescribe medications to help reduce fatigue, ease muscle cramps, control spasticity, and reduce excess saliva and phlegm. Drugs also are available to help patients with pain, depression, sleep disturbances, and constipation. Pharmacists can give advice on the proper use of medications and monitor a patient’s prescriptions to avoid risks of drug interactions.

Physical therapy and special equipment can enhance an individual’s independence and safety throughout the course of MND. Range of motion and stretching exercises can help prevent painful spasticity and shortening (contracture) of muscles. Physiotherapists can recommend exercises that provide these benefits without overworking muscles. Occupational therapists can suggest devices such as ramps, braces, walkers, and wheelchairs that help individuals conserve energy and remain mobile.

People with MND who have difficulty speaking may benefit from working with a speech therapist. These health professionals can teach individuals adaptive strategies such as techniques to help them speak louder and more clearly. As MND progresses, speech therapists can help people develop ways for responding to yes-or-no questions with their eyes or by other nonverbal means and can recommend aids such as speech synthesizers and computer-based communication systems (so called Augmentative and Assistive Communication Devices AAC). These methods and devices help people communicate when they can no longer speak or produce vocal sounds.

Nutritional support is an important part of the care of people with MND and it is important that those diagnosed with MND maintain diets that provide enough calories, fiber, and fluid. The use of a feeding tube (PEG tube) also reduces the risk of choking and pneumonia that can result from inhaling liquids into the lungs. The tube is not painful and does not prevent individuals from eating food orally if they wish.

When the muscles that assist in breathing weaken and the patient begins to experience shortness of breath or difficulty coughing, use of nocturnal ventilatory assistance (intermittent positive pressure ventilation [IPPV] or bilevel positive airway pressure [BIPAP]) may be used to aid breathing during sleep. Often patients with MND are closely monitored for these breathing difficulties, and regularly assess their lung function both objectivelly and subjectively

Social workers may help patients, families, and caregivers with the medical, emotional, and financial challenges of coping with MND.

A palliative care referral may be made at some point in a patients course, to ensure adequate symptom control.

(Source: Kiernan MC et al. Lancet 2011; 377: 942-55)

research

MND Research Projects

Funded by Cure for MND Foundation

The Cure for MND Foundation is passionate about funding the best and brightest MND researchers in Australia and abroad to help expedite research into possible treatments and ultimately a cure so we may live in a world free of MND.

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Clinical Trials

Funded by Cure for MND Foundation

With no effective MND/ALS treatments currently available to slow or stop the disease, the Cure for MND Foundation is determined to bring real hope to Australian MND sufferers by funding and investing in clinical trials.

MND Associations in each Australian state can provide help for those seeking support.

Call the national freecall number 1800 777 175 to talk to someone from your state association team about support services available.

Without you MND will keep on killing…. Click to donate today

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