Hypotonia

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Hypotonia
ICD-10 P94.2, R27
ICD-9 781.3
DiseasesDB 21417
MedlinePlus 003298
MeSH D009123

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Synonyms and keywords: Muscle flaccidity; decreased muscle tone; flaccid muscle tone; floppy muscles.

Overview

Hypotonia is a condition of abnormally low muscle tone (the amount of tension or resistance to movement in a muscle), often involving reduced muscle strength. Hypotonia is not a specific medical disorder, but a potential manifestation of many different diseases and disorders that affect motor nerve control by the brain or muscle strength. Recognizing hypotonia, even in early infancy, is usually relatively straightforward, but diagnosing the underlying cause can be difficult and often unsuccessful. The long-term effects of hypotonia on a child's development and later life depend primarily on the severity of the muscle weakness and the nature of the cause. Some disorders have a specific treatment but the principal treatment for most hypotonia of idiopathic or neurologic cause is physical therapy to help the person compensate for the neuromuscular disability.

Causes

Some conditions known to cause hypotonia include:

Congenital - i.e. present from birth (including genetic disorders presenting within 6 months)

Acquired - i.e. onset occurs after birth

Common Causes

Causes by Organ System

Cardiovascular Down synrome, Noonan syndrome, Pompe disease, Trisomy E
Chemical / poisoning Mercury, Organophosphates, Tick paralysis
Dermatologic Griscelli syndrome type 1, Autosomal recessive cutis laxa type 2, Menkes disease, Wrinkly skin syndrome, Pellagra
Drug Side Effect Baclofen, Barbiturates, Benzodiazepines, Dantrolene, Diazepam, Flunitrazepam, Flurazepam, Lorazepam, Medazepam, Midazolam, Nitrazepam, Nordazepam, Oxazepam, Triazolam, Zopiclone
Ear Nose Throat Osteogenesis imperfecta
Endocrine Growth harmone deficiency, Hypothyroidism, Pituitary dwarfism
Environmental No underlying causes
Gastroenterologic Celiac disease, Sandifer syndrome, Galloway-Mowat syndrome
Genetic 17q21.31 deletion syndrome, 1p36 deletion syndrome, Alpers disease, Arakawa's syndrome II, Arylsulphatase A deficiency, Autosomal recessive cutis laxa type 2, Becker's muscular dystrophy, Biotinidase deficiency, Canavan disease, Carbohydrate deficient glycoprotein syndrome type 1a, Central core disease, Centronuclear myopathy, Christianson syndrome, Coffin-Siris syndrome, Congenital fiber-type disproportion myopathy, Congenital muscular dystrophy, Congenital myopathies, Congenital myotonic dystrophy, Cri-du-Chat syndrome, D-2-hydroxyglutarate dehydrogenase deficiency, D-bifunctional Protein Deficiency, De Grouchy Syndrome, Dejerine Sottas syndrome, Dibasic aminoaciduria type 2, Distal Trisomy 10q, Down syndrome, Duchenne muscular dystrophy, Ehlers-Danlos syndrome, Ethylmalonic encephalopathy, FG syndrome, Fragile X syndrome, Fukuyama congenital muscular dystrophy, Galactose epimerase deficiency, Galloway-Mowat syndrome, Gamma-aminobutyrate transaminase deficiency, Glucose transporter type 1 deficiency, Glycine encephalopathy, Glycogen storage diseases, Hereditary motor-sensory neuropathy, Infantile neuroaxonal dystrophy, Isodicentric 15, Joubert syndrome, Kabuki syndrome, Kennedy disease, Krabbe disease, Leigh's disease, Lesch-Nyhan syndrome, Long chain hydroxyacyl-CoA dehydrogenase deficiency, Lowe syndrome, Malonyl-CoA decarboxylase deficiency, Marfan's syndrome, McArdle disease, MECP2 duplication syndrome, Menkes disease, Methylmalonic acidemia, Mitochondrial DNA depletion syndrome, hepatocerebral form, Mitochondrial encephalomyopathy, Mitochondrial trifunctional protein deficiency, Mucolipidosis IV, Mulibrey nanism syndrome, Muscular dystrophy, Nemaline myopathy, Neonatal adrenoleukodystrophy, Noonan syndrome, Osteogenesis imperfecta, Pallister-Killian syndrome, Paramyotonia congenita, Patau's syndrome, Pelizaeus-Merzbacher disease, Periodic familial paralysis, Pitt-Hopkins syndrome, Plasma membrane carnitine transporter deficiency, Pompe disease, Pontocerebellar hypoplasia type 1, Prader-Willi syndrome, Propionic acidemia, Pyridoxine-dependent epilepsy, Pyruvate carboxylase deficiency, Rett syndrome, Rigid spine muscular dystrophy type 1, Riley-Day syndrome, Robinow syndrome, Salla disease, Short-chain acyl-coenzyme A dehydrogenase deficiency, Sialidosis, Smith-Lemli-Opitz syndrome, Sotos syndrome, Spinal muscular atrophy, Stuve-Weidemann syndrome, Succinic semialdehyde dehydrogenase deficiency, Succinyl-CoA synthetase deficiency, Tay-Sachs disease, Tetrasomy 12p , Tetrasomy 18p, Trisomy E, Urea cycle disorder, Valinemia , Vitamin D dependent rickets type 1, Walker-Warburg syndrome, Werdnig-Hoffman disease, Williams sy, drome, Wolf-Hirschhorn syndrome, Wrinkly skin syndrome, X linked immunoneurologic disorder, XXXX syndrome, XXXXX syndrome, XXXXY syndrome, Xylosylprotein 4-beta-galactosyltransferase deficiency, Young Simpson syndrome, Zellweger spectrum, Zellweger syndrome , Achondroplasia, Carey-Fineman-Ziter syndrome, Adult polyglucosan body disease, Cerebellar hypoplasia, 3-alpha-hydroxyacyl-CoA dehydrogenase deficiency, 3-Methylcrotonyl-CoA carboxylase deficiency, 3-Methylglutaconic aciduria type 4, Barth syndrome
Hematologic No underlying causes
Iatrogenic Abnormal vaccine reaction
Infectious Disease Infantile botulism, Intracranial abscess, Meningitis, Poliomyelitis, Sepsis, Encephalitis
Musculoskeletal / Ortho 22q13 deletion syndrome, Achondroplasia, Acute intervertebral disc herniation, Arthrogryposis , Benign congenital hypotonia, Carey-Fineman-Ziter syndrome, Congenital myasthenic syndromes, Dermatomyositis, Familial infantile myasthenia, Inclusion body myositis, Polymyositis, Transient neonatal myasthenia, 17q21.31 deletion syndrome, Arylsulphatase A deficiency, Becker's muscular dystrophy, Central core disease, Centronuclear myopathy, Coffin-Siris syndrome, Congenital fiber-type disproportion myopathy, Congenital myopathies, Congenital myotonic dystrophy, Cri-du-Chat syndrome, D-2-hydroxyglutarate dehydrogenase deficiency, Down syndrome, Duchenne muscular dystrophy, Ehlers-Danlos syndrome, Fukuyama congenital muscular dystrophy, Isodicentric 15, Kabuki syndrome, Kennedy disease, Marfan's syndrome, Mulibrey nanism syndrome, Muscular dystrophy, Nemaline myopathy, Paramyotonia congenita, Periodic familial paralysis, Prader-Willi syndrome, Rigid spine muscular dystrophy type 1, Robinow syndrome, Smith-Lemli-Opitz syndrome, Sotos syndrome, Spinal muscular atrophy, Stuve-Weidemann syndrome, Walker-Warburg syndrome, Werdnig-Hoffman disease, Williams syndrome, Wolf-Hirschhorn syndrome, XXXXY syndrome, Allan-Herndon-Dudley syndrome, Motor neuron disease, Myasthenia gravis
Neurologic Acute spinal cord injury, Adult polyglucosan body disease, Agenesis of the corpus callosum, Aicardi syndrome, Allan-Herndon-Dudley syndrome, Bell's palsy, Brain damage due to birth trauma, Bulbar palsy, Cerebellar ataxia, Cerebellar hypoplasia, Cerebellar syndrome, Cerebral malformations, Cerebral palsy, Cervical myelopathy, Chronic inflammatory demyelinating polyneuropathy, Encephalitis, Encephalocele, Friedreich ataxia, Glue-sniffing neuropathy, Intracranial tumor, Kernicterus, Miller Fisher syndrome, Motor neuron disease, Myasthenia gravis, Paresis, Peripheral neuropathy, Porencephaly, Postpoliomyelitis syndrome, Schizencephaly, Sensory integration dysfunction, Spinal cord tumor, Sydenham's chorea, Syringomyelia, Transverse myelitis, Griscelli syndrome type 1, Sandifer syndrome, 1p36 deletion syndrome, Alpers disease, Arakawa's syndrome II, Canavan disease, Christianson syndrome, Congenital muscular dystrophy, Dejerine Sottas syndrome, Distal Trisomy 10q, FG syndrome, Fragile X syndrome, Gamma-aminobutyrate transaminase deficiency, Glucose transporter type 1 deficiency, Hereditary motor-sensory neuropathy, Infantile neuroaxonal dystrophy, Joubert syndrome, Leigh's disease, MECP2 duplication syndrome, Neonatal adrenoleukodystrophy, Pallister-Killian syndrome, Patau's syndrome, Pelizaeus-Merzbacher disease, Pitt-Hopkins syndrome, Pontocerebellar hypoplasia type 1, Pyridoxine-dependent epilepsy, Rett syndrome, Riley-Day syndrome, Salla disease, Succinic semialdehyde dehydrogenase deficiency, Succinyl-CoA synthetase deficiency, XXXXX syndrome, Xylosylprotein 4-beta-galactosyltransferase deficiency, Young Simpson syndrome, Zellweger spectrum, Zellweger syndrome , Intracranial abscess, Meningitis, Poliomyelitis, Acute intervertebral disc herniation, Congenital myasthenic syndromes, Familial infantile myasthenia, Transient neonatal myasthenia, Subacute combined degeneration of the cord, Hypoxic ischemic encephalopathy, Guillain-Barre syndrome, Traumatic brain injury
Nutritional / Metabolic 3-alpha-hydroxyacyl-CoA dehydrogenase deficiency, 3-Methylcrotonyl-CoA carboxylase deficiency, 3-Methylglutaconic aciduria type 4, Barth syndrome, Gangliosidosis, Hypercalcemia, Hypermagnesemia, Hypervitaminosis, Hypoglycemia, Pellagra, Rickets, Subacute combined degeneration of the cord, Biotinidase deficiency, Carbohydrate deficient glycoprotein syndrome type 1a, D-bifunctional Protein Deficiency, Dibasic aminoaciduria type 2, Ethylmalonic encephalopathy, Galactose epimerase deficiency, Glycine encephalopathy, Glycogen storage diseases, Krabbe disease, Lesch-Nyhan syndrome, Long chain hydroxyacyl-CoA dehydrogenase deficiency, Malonyl-CoA decarboxylase deficiency, McArdle disease, Methylmalonic acidemia, Mitochondrial DNA depletion syndrome, hepatocerebral form, Mitochondrial encephalomyopathy, Mitochondrial trifunctional protein deficiency, Mucolipidosis IV, Plasma membrane carnitine transporter deficiency, Propionic acidemia, Pyruvate carboxylase deficiency, Short-chain acyl-coenzyme A dehydrogenase deficiency, Sialidosis, Tay-Sachs disease, Urea cycle disorder, Valinemia , Vitamin D dependent rickets type 1
Obstetric/Gynecologic Maternal drug use , Premature babies, Teratogenecity from inutero exposure to barbiturates, Teratogenecity from inutero exposure to benzodiazepines, Teratogenecity from inutero exposure to chlordiazepoxide, Teratogenecity from inutero exposure to chloroquine, Teratogenecity from inutero exposure to drugs, Brain damage due to birth trauma
Oncologic Intracranial tumor, Spinal cord tumor
Opthalmologic Lowe syndrome, 22q13 deletion syndrome, Aicardi syndrome
Overdose / Toxicity Barbiturates, Benzodiazepines, Dantrolene, Diazepam, Flunitrazepam, Flurazepam, Lorazepam, Medazepam, Midazolam, Nitrazepam, Nordazepam, Oxazepam, Triazolam, Zopiclone, Hypervitaminosis
Psychiatric No underlying causes
Pulmonary Hypoxic ischemic encephalopathy
Renal / Electrolyte No underlying causes
Rheum / Immune / Allergy Guillain-Barre syndrome, Celiac disease, X linked immunoneurologic disorder, Dermatomyositis, Inclusion body myositis, Polymyositis, Chronic inflammatory demyelinating polyneuropathy, Miller Fisher syndrome, Sydenham's chorea, Transverse myelitis
Sexual No underlying causes
Trauma Traumatic brain injury, Acute spinal cord injury
Urologic No underlying causes
Dental No underlying causes
Miscellaneous Premature babies

Causes in Alphabetical Order


Signs and objective manifestations

Hypotonic patients may display a variety of objective manifestations that indicate decreased muscle tone. Motor skills delay is often observed, along with hypermobile or hyperflexible joints, drooling and speech difficulties, poor reflexes, decreased strength, decreased activity tolerance, rounded shoulder posture, with leaning onto supports, and poor attention and motivation. The extent and occurrence of specific objective manifestations depends upon the age of the patient, the severity of the hypotonia, the specific muscles affected, and sometimes the underlying cause. For instance, some hypotonics may experience constipation, while others have no bowel problems.

Since hypotonia is most often diagnosed during infancy, it is also known as "floppy infant syndrome" or "infantile hypotonia." Infants who suffer from hypotonia are often described as feeling and appearing as though they are "rag dolls" or a "sack of jello," easily slipping through one's hands. This image demonstrates the floppiness of a hypotonic infant. They are unable to maintain flexed ligaments, and are able to extend them beyond normal lengths. Often, the movement of the head is uncontrollable, not in the sense of spasmatic movement, but chronic ataxia. Hypotonic infants often have difficulty feeding, as their mouth muscles cannot maintain a proper suck-swallow pattern, or a good breastfeeding latch.

Developmental delay

Children with normal muscle tone are expected to achieve certain physical abilities within an average timeframe after birth. Most low-tone infants have delayed developmental milestones, but the length of delay can vary widely. Motor skills are particularly susceptible to the low-tone disability. They can be divided into two areas, gross motor skills, and fine motor skills, both of which are affected. Hypotonic infants are late in lifting their heads while lying on their stomachs, rolling over, lifting themselves into a sitting position, remaining seated without falling over, balancing, crawling, and walking. Fine motor skills delays occur in grasping a toy or finger, transferring a small object from hand to hand, pointing out objects, following movement with the eyes, and self feeding.

Speech difficulties can result from hypotonia. Low-tone children learn to speak later than their peers, even if they appear to understand a large vocabulary, or can obey simple commands. Difficulties with muscles in the mouth and jaw can inhibit proper pronunciation, and discourage experimentation with word combination and sentence-forming. Since the hypotonic condition is actually an objective manifestation of some underlying disorder, it can be difficult to determine whether speech delays are a result of poor muscle tone, or some other neurological condition, such as mental retardation, that may be associated with the cause of hypotonia.

Muscle tone vs. muscle strength

The low muscle tone associated with hypotonia must not be confused with low muscle strength. In body building, good muscle tone is equated with good physical condition, with taut muscles, and a lean appearance, whereas an out-of-shape, overweight individual with fleshy muscles is said to have "poor tone." Neurologically, however, muscle tone cannot be changed under voluntary control, regardless of exercise and diet.

In an article by Diane E Gagnon, M.Ed., PT,[2] she explains

"True muscle tone is the inherent ability of the muscle to respond to a stretch. For example, if you quickly straighten the flexed elbow of an unsuspecting child with normal tone, the biceps will quickly contract in response (automatic protection against possible injury). When the perceived danger has passed, which the brain figures out really quickly once the stimulus is removed, the muscle then relaxes, and returns to its normal resting state.
"...The child with low tone has muscles that are slow to initiate a muscle contraction, contract very slowly in response to a stimulus, and cannot maintain a contraction for as long as his 'normal' peers. Because these low-toned muscles do not fully contract before they again relax (muscle accommodates to the stimulus and so shuts down again), they remain loose and very stretchy, never realising their full potential of maintaining a muscle contraction over time. "

Diagnosis

"A diagnosis of hypotonia is sometimes considered a form of muscular dystrophy or cerebral palsy, depending on the symptoms and the doctor. If the cause of the hypotonia is thought to lie in the brain, then it might be classified as a cerebral palsy. If the cause seems to be in the muscles, it might be classified as a muscular dystrophy, even though most forms of hypotonia are not seriously dystrophic. If the cause is thought to be in the nerves, it could be classified as either or neither. In any case, hypotonia is rarely an actual muscular dystrophy or cerebral palsy, and is often not classified as either one, or anything at all for that matter."[3]

Diagnosing a patient includes obtaining family medical history and a physical examination, and may include such additional tests as computerized tomography (CT) scans, magnetic resonance imaging (MRI) scans, electroencephalogram (EEG), blood tests, genetic testing (such as chromosome karyotyping and tests for specific gene abnormalities), spinal taps, electromyography muscle tests, or muscle and nerve biopsy.

Mild or benign hypotonia is often diagnosed by physical and occupational therapists through a series of exercises designed to assess developmental progress, or observation of physical interactions. Since a hypotonic child has difficulty deciphering his spatial location, he may have some recognizable coping mechanisms, such as locking the knees while attempting to walk. A common sign of low-tone infants is a tendency to observe the physical activity of those around them for a long time before attempting to imitate, due to frustration over early failures. Developmental delay can indicate hypotonia.

Other names for hypotonia

  • Low Muscle Tone
  • Benign Congenital Hypotonia
  • Congenital Hypotonia
  • Congenital Muscle Hypotonia
  • Congenital Muscle Weakness
  • Amyotonia Congenita
  • Floppy Baby Syndrome
  • Infantile Hypotonia

Prognosis and treatment

There is currently no known treatment or cure for most (or perhaps all) causes of hypotonia, and objective manifestations can be life long. The outcome in any particular case of hypotonia depends largely on the nature of the underlying disease. In some cases, muscle tone improves over time, or the patient may learn or devise coping mechanisms that enable him to overcome the most disabling aspects of the disorder. However, hypotonia caused by cerebellar dysfunction or motor neuron diseases can be progressive and life-threatening.

Along with normal pediatric care, specialists who may be involved in the care of a child with hypotonia include developmental pediatricians (specialize in child development), neurologists, neonatologists (specialize in the care of newborns), geneticists, occupational therapists, physical therapists, speech therapists, orthopedists, pathologists (conduct and interpret biochemical tests and tissue analysis), and specialized nursing care.

If the underlying cause is known, treatment is tailored to the specific disease, followed by symptomatic and supportive therapy for the hypotonia. In very severe cases, treatment may be primarily supportive, such as mechanical assistance with basic life functions like breathing and feeding, physical therapy to prevent muscle atrophy and maintain joint mobility, and measures to try and prevent opportunistic infections such as pneumonia. Treatments to improve neurological status might involve such things as medication for a seizure disorder, medicines or supplements to stabilize a metabolic disorder, or surgery to help relieve the pressure from hydrocephalus (increased fluid in the brain).

For most hypotonics, the National Institute of Health recommends "physical therapy [to] improve motor control and overall body strength. Occupational therapy to assist with fine motor skill development and hand control, and speech-language therapy can help breathing, speech, and swallowing difficulties. Therapy for infants and young children may also include sensory stimulation programs." Ankle/foot orthoses are sometimes used for weak ankle muscles. Toddlers and children with speech difficulties may benefit greatly by using sign language.

Breastfeeding

Low-tone infants often have difficulty feeding, especially coordinating the suck-swallow reflex required for proper breastfeeding.[4] Early diagnosis of hypotonic newborns can help mothers find the support and information they need to establish a successful breastfeeding relationship. Hypotonic babies may take longer to breastfeed because of the poor timing of sucking bursts and the need for long rests. If feeding is inefficient, they will also require greater feeding frequency. A baby with low muscle tone may suck better when the head and bottom are level, indicating pillow support in the lap. If the infant tends to arch his back, it may be helpful to swaddle the child loosely with arms drawn across the chest and legs drawn up toward the belly with a rounded spine during feedings. It may be necessary to support the infant's chin with one's hand if jaw, ear, and temple movement are not observed. If the baby tolerates touch to the mouth and face, the mother might gently rub the baby's lips and the outer surface of the gums to stimulate muscle sensitivity before beginning feeding. "If the tongue does not have the tone, strength, or range of motion to lift and press the breast against the palate (roof of the mouth), the baby might compensate by pressing more with his jaws. This excessive compression is painful for the mother. Getting a deeper latch, making sure the baby is not tongue-tied, and using an asymmetrical latch to increase the amount of tongue in contact with the breast can all be helpful to reduce compression." [5] Finally, if nursing is too frustrating and stressful for mother and child, breast milk can be expressed by use of a breast pump and fed through a bottle.

Positions which allow for better drainage of the breast through the help of gravity or manual expressing/massage while the baby is nursing may improve milk intake at the breast. Proper latch can be taught/encouraged by reinforcing appropriate mouth/tongue movements with massage of the breast to increase flow. Taking extra time with feeds is helpful. Many low-tone babies have a hard time with the coordination of sucking, swallowing and breathing and taking frequent short breaks may be helpful.

Exclusive feeding of breastmilk, especially for infants who have frequent bouts of gagging due to poor coordination, can be helpful in avoiding some of the sequelae of aspiration of formula. Breastmilk is less irritating to the lungs and less likely to cause infection if aspirated. When weighing the benefits vs. risks of formula supplementation to encourage weight gain, the possibility of aspiration should be considered. It may be better to have a little slower gain and avoid the risk of non-breastmilk fluids being aspirated.

Related Chapters

References

  1. http://www.savebabies.org/diseasedescriptions/3MCC.php
  2. "Tone versus Strength, by Diane E Gagnon, M.Ed., PT". Retrieved 2007-06-07.
  3. "The Benign Congenital Hypotonia Site". Retrieved 2007-06-07.
  4. Breastfeeding an infant with neurological problems (PDF)
  5. "Tactile Defensiveness and Other Sensory Modulation Difficulties] (with Breastfeeding) Catherine Watson Genna, BS, IBCLC, New York City, New York, USA, From: LEAVEN, Vol. 37 No. 3, June-July 2001, pp. 51-53". Retrieved 2007-06-07.

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