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| Credit: tremorjournal.org |
Athetosis is
a symptom characterized by slow, involuntary, convoluted, writhing movements of
the fingers, hands, toes, and feet and in some cases, arms, legs, neck and
tongue. Movements typical of athetosis are sometimes called athetoid
movements. Lesions to the brain are most often the direct cause of the
symptoms, particularly to the corpus striatum. This symptom does not occur
alone and is often accompanied by the symptoms of cerebral palsy, as it is
often a result of this disease. Treatments for athetosis are not very
effective, and in most cases are simply aimed at the uncontrollable movement,
rather than the cause itself.
Signs and
Symptoms
Athetosis
can vary from mild to severe motor dysfunction; it is generally characterized
by unbalanced, involuntary movements of muscle tone and a difficulty
maintaining a symmetrical posture. The associated motor dysfunction can be
restricted to a part of body or present throughout the body, depending on the
individual and the severity of the symptom. One of the pronounced signs can be
observed in the extremities in particular, as the writhing, convoluted movement
of the digits. Athetosis can appear as early as 18 months from birth with
first signs including difficulty feeding, hypotonia, spasm, and involuntary
writhing movements of the hands, feet, and face, which progressively worsen
through adolescence and at times of emotional distress. Athetosis is caused
by lesions in several brain areas such as the hippocampus and the motor
thalamus, as well as the corpus striatum; therefore children during the
developmental age could possibly suffer from cognitive deficits such as speech
impairment, hearing loss, and failed or delayed acquirement of sitting
balance.
Causes
Athetosis is
a symptom primarily caused by the marbling, or degeneration of the basal
ganglia. This degeneration is most commonly caused by
complications at birth or by Huntington's disease, in addition to rare cases in
which the damage may also arise later in life due to stroke or trauma. The two complications of particular interest are intranatal asphyxia
and neonatal jaundice.
Asphyxia
Asphyxia
directly causes basal ganglia damage due to lack of oxygen and therefore,
insufficient nutrient supply. The lesions caused by asphyxia
are most prominent on the caudate nucleus and the putamen. However, a
less-studied consequence of the resulting hypoxia is its effect on the
concentrations of the neurotransmitter dopamine within the synapses of neurons
in the basal ganglia. Hypoxia leads to an increase in the extracellular
dopamine levels and therefore, an increase in the activity of the dopaminergic
neurons. Furthermore, this increase in extracellular concentration is not
caused by an increase in the neurotransmitter synthesis, but instead on
inhibiting its reuptake back into the neurons and glial cells. Therefore,
there is an increased dopaminergic effect as dopamine remains in the synapse at
higher concentrations leading to additional post-synaptic response. As a
result, the uncontrollable writhing motions witnessed with athetosis deal with
the over-activity of synapses within the basal ganglia.
Neonatal
jaundice
Neonatal
jaundice is the other chief complication that leads to the basal ganglia damage
associated with this condition. Jaundice is caused by hyperbilirubinemia, or
abnormally high levels of bilirubin in the blood. Bilirubin is usually bound to
albumin immediately and sent to the liver. However, in neonatal jaundice, the
concentration of bilirubin overwhelms that of albumin and some of the bilirubin
remains unconjugated and can enter the brain through the blood–brain
barrier. Normally bilirubin would not be able to diffuse across the
blood–brain barrier, but in infants, the barrier is immature and has higher
permeability. Bilirubin is toxic as it prevents the phosphorylation of many
proteins, including synapsin I which binds vesicles in the presynaptic
terminal. Therefore it directly inhibits the exocytosis of neurotransmitters
and severely hinders the synapses it affects. In autopsies of children who
suffered from neonatal jaundice, chronic changes of neuronal loss, gliosis and
demyelination were observed in the basal ganglia and more specifically within
the globus pallidus.
Thalamic
stroke
Another
study was done where the onset of athetoid movement followed a thalamic stroke.
The thalamus is part of a pathway that is involved with the cortical feedback
loop in which signals from the cortex are relayed through the striatum,
pallidus and thalamus before making it back to the cortex. The striatum
receives excitatory inputs from the cortex and inhibits the pallidum. By doing
so it frees the thalamus from pallidal inhibition allowing the thalamus to send
excitatory outputs to the cortex. Therefore, the lesions to the thalamus or any
other part of this feedback loop can result in movement disorders as they can
alter the reactivity of one towards the other. Also, in a case of people
with thalamic stroke, a majority suffered severe sensory deficits and ataxia.
It is proposed that this loss of proprioception and the ensuing loss of
synergic stabilization may also lead to abnormal movements, such as those dealt
with in athetosis.
Treatments
There are
several different treatment approaches to dealing with athetosis. The most
common methods are the use of drugs, surgical intervention, and retraining movements
of the afflicted person. It is suggested that training a person to relearn
movements can be helpful in select situations. Though, generally, this type of
treatment will not work, in certain cases it can be found to be very helpful in
treating the symptom of athetosis.
Drugs can
also be used in the treatment of athetosis, however their collective
effectiveness is not very convincing. There is not a single drug that is a
standard among treatment. Many different medicines can be used, including:
Artane
Cogentin
Curare, though not practical due to respiratory paralysis
Tetrabenazine
Haloperidol
Thiopropazate
Diazepam
Most
instances of drug use where the symptoms seem to be lessened tend to be in more
mild cases of athetosis.
Treatment by
surgical intervention can obviously have the most immediate impact, again
however, it is not a cure-all. In patients that have cerebral palsy as the
cause of their athetosis, it has been demonstrated that a subthalamotomy tends
to help relieve the extent of athetosis in approximately half of patients.
Additionally, late 19th and early 20th century surgical accounts state that
athetosis can be relieved by the removal of a part of the cerebral motor cortex
or by cutting a part of the posterior spinal roots. Patients who undergo
surgical treatment to relieve the athetosis often see significant improvement
in the control of their limbs and digits. While surgery is often very
beneficial in the short term and can produce near immediate results, in the long
term it has been seen that its effects are not incredibly long lasting.
Related
disorders
Choreoathetosis
Chorea is
another condition which results from damage to the basal ganglia. Similar to
athetosis, it results from mutations affecting the pallidum inhibition of the
thalamus as well as increased dopaminergic activity at the level of the
striatum.[13] Considering the etiology of both disorders are fairly similar, it
comes as no surprise that chorea and athetosis can and usually do occur together
in a condition called choreoathetosis.
Cerebral
palsy
Athetosis is
a commonly occurring symptom in the disease cerebral palsy. Of all people
with the disease, between 16% and 25% of them actually exhibit the
symptom of athetosis. A component of this is the finding that most often the
symptoms that involve athetosis occur as a part of choreoathetosis as opposed
to athetosis alone.
It is also
noteworthy that the presence of athetosis in cerebral palsy (as well as other
conditions) causes a significant increase in a person’s basal resting metabolic
rate. It has been observed that those who have cerebral palsy with athetosis
require approximately 500 more Calories per day than their non-cerebral palsy
non-athetoid counterpart.
Pseudoathetosis
Pseudoathetosis
is a movement disorder, very similar to athetosis, in which the symptoms are
not differentiable from those of actual athetosis, however the underlying cause
is different. While actual athetosis is caused by damage to the brain,
specifically in the basal ganglia, pseudoathetosis is caused by the loss of
proprioception. The loss in proprioception is caused by damage to the area
between the primary somatosensory cortex and the muscle spindles and joint
receptors. Additionally, when observing an MRI, it can be seen that in the
brain of a psuetoathetoid patient, lesions on the brain are not seen in the
basal ganglia, the area that is oftentimes the cause of athetosis.
Social
implications
Athetosis is
characterized as a symptom that is present in many forms of central nervous
system disorders that affect the body movement coordination, such as cerebral
palsy. Children may struggle to engage in social communication, since the poor
coordination of the tongue and mouth muscles can reduce their speech ability
and hinder their social interaction to a greater degree. The caregivers of
the affected children are encouraged to closely monitor their nutrition and
growth and to provide them with hearing aids in order to relieve their symptoms
as well as supporting their academic plans. A growing number of patients is
shown to benefit from communication devices such as shorthand typing programs
and computer speech devices, as well as simple picture boards.
Patients
living with the disorder into their adulthood often have trouble being involved
in daily activities such as eating, walking, dressing, as well as performing
everyday tasks. They are consistently faced with challenges that limit themselves
from living on their own. They are more reluctant to be involved in social
activities and romantic relationships and more likely to develop poor
self-esteem and self-image related to their physical limitations as well as
cognitive disabilities, though such habitual thinking is shown to decline when
they feel they are accepted and supported by their peers. Patients are also
inclined to associate themselves with people who tend not to be engaged in
physical activities, according to the September 2008 issue of “Journal of
Physical Activity and Health.”
History
The first
noted case of athetosis was discovered by W. A. Hammond and described in his
book Diseases of the Nervous System in 1871.[9] Hammond was also the person who
created the term "athetosis", Greek for "without fixed
position". In his initial description of athetosis, the extent of the
uncontrolled movement was limited to the fingers and toes. In association with
this, he noted that the patients' calves and forearms were oftentimes flexed
and that movements were generally slow. Over the period of time leading into
the late 20th century, the definition of athetosis was expanded to include
movements of the neck, tongue, face, and even the trunk. Along with the
expansion of the symptoms came the recognition that it was a part of many
medical conditions, including cerebral palsy and stroke.
Research
directions
As athetosis
is relatively difficult to treat, efforts are being made to help those with the
condition live and perform tasks more effectively and more efficiently. One
such example of work that has been recently undertaken is a project to help
those affected with athetosis to use a computer with more ease. Software for
the control of the computer uses joysticks that perform linear filtering to aid
in control.
An
additional possible treatment option for those afflicted with the symptom is
neurostimulation. Studies have begun, and in cerebral palsy patients affected
with dystonia-choreoathetosis, it has been demonstrated that neurostimulation
has been an effective treatment in lessening symptoms in patients. There has
not been a tremendous amount of experimentation, though, in this as a possible
treatment option.
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