From the title of today’s post you can see that this is one for parents of older children and indeed some adults. I should add that personally I am not a fan of observational diagnoses like catatonia, because I am interested in the biological cause of the unwanted behaviors, as a means to find effective therapy. Catatonia is a very broad term, but in current psychiatry that is what we have.
I was recently contacted by a mother
whose adolescent son had regressed severely and she wanted to know what she had
done wrong. She had not done anything wrong of course. Now she has to figure
out what triggered the changes and how to reverse them. Catatonia is one
possibility and it has not been covered in this blog.
The word catatonic drifted into casual
English. Today, people use it informally to describe anyone who is completely
unresponsive, frozen, or motionless.
As a medical term a diagnosis of
catatonia is typically confirmed when an individual displays three or more of
the following features:
Stupor
& Mutism. Profound
unresponsiveness to the outside world, along with a lack of, or severely
reduced, speech.
Catalepsy
& Waxy Flexibility. The
tendency to passively hold bizarre, fixed postures against gravity or to
maintain a position exactly as it is set by someone else.
Negativism. An active or passive resistance to
instructions or movement.
Posturing. The spontaneous holding of unnatural, active
postures for long periods.
Stereotypy
& Mannerisms. Repetitive,
non-goal-directed movements (such as rocking or pacing) or odd caricatures of
normal actions.
Excitement/Agitation. Frenzied or purposeless motor activity that
does not seem influenced by external stimuli.
Echolalia
& Echopraxia. The involuntary
mimicking of someone else's speech or movements.
Catatonia often occurs in people with schizophrenia,
bipolar, or major depressive disorders. It can also be triggered by autoimmune
diseases, brain injuries, or even severe infections. About 10% of people with autism
will develop symptoms of catatonia. It can affect any level of autism.
Puberty can be the trigger for catatonia, but it can also develop much later in adulthood.
Diagnosing catatonia looks different
depending on the patient's age. For instance children are much more likely to
present with refusal to eat or drink and mutism, which caregivers sometimes
mistake for stubbornness or behavioral issues.
Autism-related catatonia can manifest differently than it does in non-autistic populations. It is often characterized
by a distinct pattern of gradual, late regression rather than a sudden, acute
physical freeze.
The "Late
Regression" Timeline
While autism is usually diagnosed in
early childhood, catatonia typically hits during adolescence or early
adulthood.
The Early Warn
Signs (Ages 10–14) Before
full-blown catatonia develops, young teens with autism often exhibit a gradual
increase in obsessive-compulsive routines, extreme physical slowness, or brief
episodes of "freezing".
Full Onset (Ages
15–19) Full-syndrome catatonia typically
solidifies during the peak of pubertal development. It is rare to see the full
syndrome in autistic children under the age of 15.
Unique symptoms
in autistic individuals
Because symptoms overlap with common
autistic traits, catatonia can be difficult to recognize.
Loss of Function
(Severe Regression). A sudden or
progressive inability to complete daily activities they previously mastered
(e.g., getting dressed, bathing, or using utensils).
Severe
"Freezing" and Stuckness.
Getting physically stuck mid-motion—such as freezing in a doorway or holding a
cup halfway to their mouth for minutes.
The
"Shutdown" Phenomenon.
Severe passivity where the individual stops talking (mutism), avoids all eye
contact, and refuses to eat or drink.
Hyperactive and
Self-Injurious Behaviors. Rather
than just freezing, autistic individuals frequently display hyperactive
catatonia, which includes repetitive, automatic, and severe self-injury (like
severe head-banging) that is unrelated to communicative distress.
Fluctuation Symptoms are notoriously variable—an
individual may seem heavily affected or locked in place in the morning but move
relatively normally by evening.
Why does it happen?
In autism, catatonia is frequently
triggered by extreme environmental stress, major life transitions (like leaving
school), trauma, severe anxiety, or co-occurring mood disorders.
Biological
drivers
While psychological and environmental
stress (such as extreme anxiety, bullying, or major routine changes) frequently
act as the spark, catatonia is ultimately a neurological breakdown. The primary
biological triggers, chemical imbalances, and genetic factors that cause the
brain to enter a catatonic state include:
1. Neurotransmitter imbalances
The
most widely accepted biological explanation for catatonia is a sudden, severe
imbalance of chemical messengers in the brain circuits that control movement
and behavior:
·
GABA Deficit:
GABA is the brain's primary calming/inhibitory neurotransmitter. In catatonia,
there can be a sudden drop in GABA-A receptor activity. Because the brain loses its
ability to regulate or slow down signals, motor pathways lock up. This explains
why benzodiazepines (which increase the sensitivity to a given amount of GABA) can often rapidly reverse the
condition.
·
Glutamate
Overdrive: Glutamate is an excitatory chemical. A spike in glutamatergic
activity, specifically involving NMDA receptors, can overstimulate the brain's
motor networks, forcing the body into fixed, rigid postures.
·
Dopamine Drop: A
sudden drop in dopamine activity—specifically at D2 receptors—paralyzes the
brain’s reward and movement centers. This mimics the chemical state seen in
Parkinson's disease, creating severe physical slowness or total immobility.
2. Neuroimmune and autoimmune triggers
The
immune system can directly attack the brain, causing acute neuroinflammation
that triggers catatonia.
·
Autoimmune
Encephalitis: Conditions like anti-NMDA receptor encephalitis occur when the
body mistakenly produces autoantibodies that attack NMDA receptors in the
brain. Catatonia is a primary symptom in up to 70% of these cases.
·
Systemic
Infections: In medically vulnerable or autistic individuals, severe underlying
infections (like a urinary tract infection, pneumonia, or a severe viral
illness) can trigger a massive cytokine response. This inflammation breaches
the blood-brain barrier, disrupting motor circuits and inducing catatonic behavior.
3. Structural brain differences
Neuroimaging
studies show that catatonia often stems from communication failures within
specific brain loops (the cortico-striato-thalamo-cortical circuits) which
govern motor planning.In autistic individuals with catatonia, MRI scans
frequently reveal abnormally small cerebellar structures. Because the
cerebellum is responsible for fine-tuning motor actions and smooth
coordination, these structural differences make the motor loop highly
vulnerable to completely breaking down under stress.
4. Genetic susceptibility
Catatonia can have a hereditary link. Genetic studies on families with a vulnerability
to periodic catatonia have identified specific genetic alterations.
Interestingly, susceptibility regions on chromosomes 15 and 22 are heavily
implicated in both autism and catatonia, suggesting a shared genetic
architecture that primes certain individuals for the condition.
5. Medication effects & withdrawal
Abrupt
biological shifts caused by pharmaceutical substances can paralyze the motor
system:
·
Dopamine
Blockers: Exposure to strong antipsychotic medications can sometimes block dopamine
receptors so aggressively that it induces catatonia .
·
Sedative
Withdrawal: Suddenly stopping medications that calm the central nervous system
(such as benzodiazepines or barbiturates) causes a rebound biological shock,
stripping away the brain’s chemical brakes and inducing a catatonic freeze. Always taper the dosage.
Mainstream therapy for catatonia
The treatment goal is to resolve any
physical freezing first, then address the underlying psychiatric or medical
cause.
Clinicians use a strict, stepped
protocol ranging from medications to medical procedures. The first-line medication
is Lorazepam (Ativan), a benzodiazepine. Lorazepam increases GABA-A activity,
restoring the brain's missing chemical brakes. Intravenous Lorazepam is given
to confirm the diagnosis if symptoms improve rapidly.
Electroconvulsive therapy (ECT) is the
definitive treatment for severe cases. ECT is deployed if a patient shows no
improvement after intensive Lorazepam trials. ECT is performed safely in a
hospital setting under general anesthesia and muscle relaxants.
Maintenance Therapy: Long-term,
periodic ECT may be required for individuals with chronic conditions.
Second-line options include glutamate
antagonists like Amantadine or Memantine, if first-line choices
fail. Alternative GABA agents like Zolpidem (Ambien) are sometimes utilized to break
treatment-resistant freezing. Medications to Avoid: Traditional dopamine-blocking
antipsychotics (like haloperidol) are generally not useful. Antipsychotics can worsen the motor paralysis or trigger Neuroleptic Malignant
Syndrome.
Peter’s thought’s
on mainstream therapy
The 30+% of level 3 autism who
respond to bumetanide would have an extreme negative (paradoxical) reaction to Lorazepam
(Ativan). They would get very aggressive and “go nuts.”
In most countries ECT is highly
regulated. It clearly is effective for some people, but it looks a rather crude
therapy to me.
The mainstream therapies look very “thin”
to me. I think much more should be possible.
I think the term catatonia is much too
vague and you need to know why these changes have occurred, then you can figure
out a therapy.
PANS can trigger the symptoms of
catatonia. In many counties PANS is still not recognized as a diagnosis. PANS (Pediatric
Acute-onset Neuropsychiatric Syndrome) would not respond to a benzodiazepine
drug like Lorazepam, but would instead require immunotherapy, which is
completely different.
As usual we come back to getting an observational like catatonia, autism or trendy new ones like ARFID (picky eating) is just the first step in the process. Then you need to find out why? What biological or behavioral factors are driving these symptoms. Then you can figure out how to treat them, or indeed choose not to treat them, if you are so inclined.
Could it be OCD
rather than catatonia?
One reason catatonia can be difficult
to recognize in autism is that several of its symptoms overlap with severe
obsessive-compulsive disorder (OCD). In fact, some studies have found that
obsessive-compulsive symptoms are very common in autistic individuals who later
develop catatonia.
Parents often report that their child
begins:
- Writing the same words repeatedly
- Talking about the same topics over and
over
- Performing increasingly rigid rituals
- Becoming distressed when routines are
interrupted
- Withdrawing socially
These symptoms may point to OCD,
catatonia, or a combination of both.
The key distinction is that OCD is
driven by obsessions and compulsions, whereas catatonia is characterized by a
loss of initiative and a decline in function. An autistic teenager with OCD may
be extremely active in performing rituals, while a teenager with catatonia may
become progressively slower, less spontaneous, and increasingly
"stuck."
Questions that may help distinguish
the two include:
- Does the person become anxious if
prevented from performing the behavior?
- Are they physically slower than before?
- Do they need prompting to start everyday
activities?
- Have they lost skills they previously
mastered?
- Are they spending long periods inactive
or frozen?
The two conditions can coexist. In
some cases, severe OCD may precede the development of catatonia.
Investigations
When a child, teenager, or adult with
autism experiences a significant regression after years of relative stability,
it is worth looking beyond the autism diagnosis itself.
One investigation I would seriously
consider is an EEG (electroencephalogram). Epilepsy or "just" abnormal electrical
activity in the brain can sometimes present as:
- Regression
- Social withdrawal
- Changes in communication
- Cognitive decline
- Repetitive behaviors
- Episodes of staring or unresponsiveness
Several studies have reported higher
rates of epilepsy among autistic individuals who develop catatonic symptoms.
An EEG may not identify the cause of
the regression, but it is a relatively straightforward way to investigate an
important and potentially treatable neurological contributor.
Other investigations may include:
- Sleep assessment
- Review of medications
- Assessment for OCD and anxiety disorders
- Evaluation for depression
- Screening for autoimmune or inflammatory
conditions where clinically indicated
The important point is that autism
itself is not usually a progressive condition. When someone loses skills after
years of stability, it is worth asking what has changed and whether there is a
treatable condition contributing to the decline.