Hypotonia

Last updated
Hypotonia
Specialty Pediatrics
Symptoms Muscle weakness

Hypotonia is a state of low muscle tone [1] (the amount of tension or resistance to stretch 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. Hypotonia is a lack of resistance to passive movement, whereas muscle weakness results in impaired active movement. Central hypotonia originates from the central nervous system, while peripheral hypotonia is related to problems within the spinal cord, peripheral nerves and/or skeletal muscles. [2] Severe hypotonia in infancy is commonly known as floppy baby syndrome. 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 and/or occupational therapy for remediation.

Contents

Hypotonia is thought to be associated with the disruption of afferent input from stretch receptors and/or lack of the cerebellum’s facilitatory efferent influence on the fusimotor system, the system that innervates intrafusal muscle fibers thereby controlling muscle spindle sensitivity. [3] On examination a diminished resistance to passive movement will be noted and muscles may feel abnormally soft and limp on palpation. [3] Diminished deep tendon reflexes also may be noted. Hypotonia is a condition that can be helped with early intervention.[ citation needed ]

Signs and symptoms

Central hypotonia accounts for 60 to 80% of all hypotonia in infants. [4] 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. 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 people with hypotonia may experience constipation, while others have no bowel problems.

Floppy baby syndrome

The term "floppy infant syndrome" is used to describe abnormal limpness when an infant is born, affecting limbs, trunk, and head. Such condition may appear immediately after birth or during early life as inability to maintain proper posture during movement and rest. In severe cases, hypotonic infants have difficulty feeding, as their mouth muscles cannot maintain a proper suck-swallow pattern, or a good breastfeeding latch. [5]

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 sometimes 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.[ citation needed ]

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 intellectual disability, that may be associated with the cause of hypotonia. Additionally, lower muscle tone can be caused by Mikhail-Mikhail syndrome, which is characterized by muscular atrophy and cerebellar ataxia which is due to abnormalities in the ATXN1 gene.[ citation needed ]

Muscle tone vs. muscle strength

The low muscle tone associated with hypotonia must not be confused with low muscle strength or the definition commonly used in bodybuilding. Neurologic muscle tone is a manifestation of periodic action potentials from motor neurons. As it is an intrinsic property of the nervous system, it cannot be changed through voluntary control, exercise, or diet.[ citation needed ]

"True muscle tone is the inherent ability of the muscle to respond to a stretch. For example, quickly straightening the flexed elbow of an unsuspecting child with normal tone, will cause their biceps to contract in response (automatic protection against possible injury). When the perceived danger has passed, (which the brain figures out once the stimulus is removed), the muscle 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 realizing their full potential of maintaining a muscle contraction over time. "

Cause

The most common cause of central hypotonia in newborns is hypoxic ischemic encephalopathy. Brain malformations and inborn errors of metabolism account for 13% and 3% respectively. [4] Causes that affects the central nervous systems are: chromosomal disorders, inborn errors of metabolism, cerebral dysgenesis, and trauma to the brain and spinal cord. [5] Metabolic causes includes: glycogen storage disease type II, pyruvate dehydrogenase deficiency, mitochondrial disease, Zellweger syndrome, Smith–Lemli–Opitz syndrome, and congenital disorder of glycosylation. Metabolic disorders in infants are usually presented with various other features such as dysmorphic feature, seizures, encephalopathy, biochemistry profile apart from hypotonia. [5]

Some conditions known to cause hypotonia include:

Congenital – i.e. disease a person is born with (including genetic disorders presenting within 6 months)

Acquired

Acquired – i.e. onset occurs after birth

Diagnosis

The approach to diagnosing the cause of hypotonia (as with all syndromes in neurology) is first localization. The physician must first determine if the hypotonia is due to muscle, neuromuscular junction, nerve, or central cause. This will narrow the possible causes. If the cause of the hypotonia is found to lie in the brain, then it can be classified as a cerebral palsy. If the cause is localized to the muscles, it can be classified as a muscular dystrophy. If the cause is thought to be in the nerves, it is called hypotonia due to polyneuropathy. Many cases cannot be definitively diagnosed. [13]

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.[ citation needed ]

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 their spatial location, they 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.[ citation needed ]

MRI Brain is used to rule out structural malformations in the brain or metabolic disorders. [4] Magnetic resonance spectroscopic imaging is used to detect metabolic disorders. [4]

Treatment

The outcome in any particular case of hypotonia depends largely on the nature of the underlying disease. In some cases, the underlying cause is treatable. But in general, treatment comprises providing supportive care with rehabilitation services, nutritional and respiratory support. [14]

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 to 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).

The National Institute of Neurological Disorders and Stroke states that physical therapy can improve motor control and overall body strength in individuals with hypotonia. This is crucial to maintaining both static and dynamic postural stability, which is important since postural instability is a common problem in people with hypotonia. [3] A physiotherapist can develop patient specific training programs to optimize postural control, in order to increase balance and safety. [3] To protect against postural asymmetries the use of supportive and protective devices may be necessary. [3] Physical therapists might use neuromuscular/sensory stimulation techniques such as quick stretch, resistance, joint approximation, and tapping to increase tone by facilitating or enhancing muscle contraction in patients with hypotonia. [3] For patients who demonstrate muscle weakness in addition to hypotonia strengthening exercises that do not overload the muscles are indicated. [3] Electrical Muscle Stimulation, also known as Neuromuscular Electrical Stimulation (NMES) can also be used to "activate hypotonic muscles, improve strength, and generate movement in paralyzed limbs while preventing disuse atrophy". [3] When using NMES it is important to have the patient focus on attempting to contract the muscle(s) being stimulated. Without such concentration on movement attempts, carryover to volitional movement is not feasible. [3] NMES should ideally be combined with functional training activities to improve outcomes.

Occupational therapy can assist the patient with increasing independence with daily tasks through improvement of motor skills, strength, and functional endurance. Speech-language therapy can help with any breathing, speech, and/or swallowing difficulties the patient may be having. Therapy for infants and young children may also include sensory stimulation programs. A physical therapist may recommend an ankle/foot orthosis to help the patient compensate for weak lower leg muscles. Toddlers and children with speech difficulties may benefit greatly by using sign language.

Terminology

The term hypotonia comes from the Ancient Greek ὑπο-, hypo-, 'under' and τόνος, tónos, from τείνω, teinō, 'to stretch'. Other terms for the condition include:[ citation needed ]

See also

Related Research Articles

<span class="mw-page-title-main">Torticollis</span> Abnormal, asymmetrical head or neck position

Torticollis, also known as wry neck, is a painful, dystonic condition defined by an abnormal, asymmetrical head or neck position, which may be due to a variety of causes. The term torticollis is derived from Latin tortus 'twisted' and collum 'neck'.

<span class="mw-page-title-main">Spinal muscular atrophies</span> Muscular degenerative disorders caused by dysfunction of spinal neurons

Spinal muscular atrophies (SMAs) are a genetically and clinically heterogeneous group of rare debilitating disorders characterised by the degeneration of lower motor neurons and subsequent atrophy (wasting) of various muscle groups in the body. While some SMAs lead to early infant death, other diseases of this group permit normal adult life with only mild weakness.

Astasis is a lack of motor coordination marked by an inability to stand, walk or even sit without assistance due to disruption of muscle coordination.

<span class="mw-page-title-main">Spinal and bulbar muscular atrophy</span> Medical condition

Spinal and bulbar muscular atrophy (SBMA), popularly known as Kennedy's disease, is a rare, adult-onset, X-linked recessive lower motor neuron disease caused by trinucleotide CAG repeat expansions in exon 1 of the androgen receptor (AR) gene, which results in both loss of AR function and toxic gain of function.

<span class="mw-page-title-main">Neuromuscular disease</span> Medical condition

A neuromuscular disease is any disease affecting the peripheral nervous system (PNS), the neuromuscular junctions, or skeletal muscles, all of which are components of the motor unit. Damage to any of these structures can cause muscle atrophy and weakness. Issues with sensation can also occur.

<span class="mw-page-title-main">Congenital muscular dystrophy</span> Medical condition

Congenital muscular dystrophies are autosomal recessively-inherited muscle diseases. They are a group of heterogeneous disorders characterized by muscle weakness which is present at birth and the different changes on muscle biopsy that ranges from myopathic to overtly dystrophic due to the age at which the biopsy takes place.

<span class="mw-page-title-main">Spinal muscular atrophy</span> Rare congenital neuromuscular disorder

Spinal muscular atrophy (SMA) is a rare neuromuscular disorder that results in the loss of motor neurons and progressive muscle wasting. It is usually diagnosed in infancy or early childhood and if left untreated it is the most common genetic cause of infant death. It may also appear later in life and then have a milder course of the disease. The common feature is progressive weakness of voluntary muscles, with arm, leg and respiratory muscles being affected first. Associated problems may include poor head control, difficulties swallowing, scoliosis, and joint contractures.

<span class="mw-page-title-main">Kyphoscoliosis</span> Abnormal spinal curvature in the coronal and sagittal planes

Kyphoscoliosis describes an abnormal curvature of the spine in both the coronal and sagittal planes. It is a combination of kyphosis and scoliosis. This musculoskeletal disorder often leads to other issues in patients, such as under-ventilation of lungs, pulmonary hypertension, difficulty in performing day-to-day activities, and psychological issues emanating from anxiety about acceptance among peers, especially in young patients. It can also be seen in syringomyelia, Friedreich's ataxia, spina bifida, kyphoscoliotic Ehlers–Danlos syndrome (kEDS), and Duchenne muscular dystrophy due to asymmetric weakening of the paraspinal muscles.

<span class="mw-page-title-main">Bethlem myopathy</span> Medical condition

Bethlem myopathy is predominantly an autosomal dominant myopathy, classified as a congenital form of limb-girdle muscular dystrophy. There are two types of Bethlem myopathy, based on which type of collagen is affected.

<span class="mw-page-title-main">Muscle contracture</span> Permanent shortening of a muscle

Muscle contractures can occur for many reasons, such as paralysis, muscular atrophy, and forms of muscular dystrophy. Fundamentally, the muscle and its tendons shorten, resulting in reduced flexibility.

<span class="mw-page-title-main">X-linked spinal muscular atrophy type 2</span> Medical condition

X-linked spinal muscular atrophy type 2, also known as arthrogryposis multiplex congenita X-linked type 1 (AMCX1), is a rare neurological disorder involving death of motor neurons in the anterior horn of spinal cord resulting in generalised muscle wasting (atrophy). The disease is caused by a mutation in UBA1 gene and is passed in an X-linked recessive manner by carrier mothers to affected sons.

<span class="mw-page-title-main">Camptocormia</span> Symptom of a multitude of diseases, most commonly seen in the elderly

Camptocormia, also known as bent spine syndrome (BSS), is a symptom of a multitude of diseases that is most commonly seen in the elderly. It is identified by an abnormal thoracolumbar spinal flexion, which is a forward bending of the lower joints of the spine, occurring in a standing position. In order to be classified as BSS, the anterior flexion must be of 45 degrees anteriorly. This classification differentiates it from a similar syndrome known as kyphosis. Although camptocormia is a symptom of many diseases, there are two common origins: neurological and muscular. Camptocormia is treated by alleviating the underlying condition causing it through therapeutic measures or lifestyle changes.

<span class="mw-page-title-main">Athetoid cerebral palsy</span> Type of cerebral palsy associated with basal ganglia damage

Athetoid cerebral palsy, or dyskinetic cerebral palsy, is a type of cerebral palsy primarily associated with damage, like other forms of CP, to the basal ganglia in the form of lesions that occur during brain development due to bilirubin encephalopathy and hypoxic–ischemic brain injury. Unlike spastic or ataxic cerebral palsies, ADCP is characterized by both hypertonia and hypotonia, due to the affected individual's inability to control muscle tone. Clinical diagnosis of ADCP typically occurs within 18 months of birth and is primarily based upon motor function and neuroimaging techniques. While there are no cures for ADCP, some drug therapies as well as speech, occupational therapy, and physical therapy have shown capacity for treating the symptoms.

<span class="mw-page-title-main">Ataxic cerebral palsy</span> Medical condition

Ataxic cerebral palsy is clinically in approximately 5–10% of all cases of cerebral palsy, making it the least frequent form of cerebral palsy diagnosed. Ataxic cerebral palsy is caused by damage to cerebellar structures, differentiating it from the other two forms of cerebral palsy, which are spastic cerebral palsy and dyskinetic cerebral palsy.

Congenital distal spinal muscular atrophy (cDSMA), also known as distal hereditary motor neuropathytype VIII (dHMN8), is a hereditary medical condition characterized by muscle wasting (atrophy), particularly of distal muscles in legs and hands, and by early-onset contractures of the hip, knee, and ankle. Affected individuals often have shorter lower limbs relative to the trunk and upper limbs. The condition is a result of a loss of anterior horn cells localized to lumbar and cervical regions of the spinal cord early in infancy, which in turn is caused by a mutation of the TRPV4 gene. The disorder is inherited in an autosomal dominant manner. Arm muscle and function, as well as cardiac and respiratory functions are typically well preserved.

<span class="mw-page-title-main">Mitochondrial DNA depletion syndrome</span> Medical condition

Mitochondrial DNA depletion syndrome, or Alper's disease, is any of a group of autosomal recessive disorders that cause a significant drop in mitochondrial DNA in affected tissues. Symptoms can be any combination of myopathic, hepatopathic, or encephalomyopathic. These syndromes affect tissue in the muscle, liver, or both the muscle and brain, respectively. The condition is typically fatal in infancy and early childhood, though some have survived to their teenage years with the myopathic variant and some have survived into adulthood with the SUCLA2 encephalomyopathic variant. There is currently no curative treatment for any form of MDDS, though some preliminary treatments have shown a reduction in symptoms.

<span class="mw-page-title-main">PMM2 deficiency</span> Medical condition

PMM2 deficiency or PMM2-CDG, previously CDG-Ia, is a very rare genetic disorder caused by mutations in PMM2. It is an autosomal recessive disease that is the most common type of congenital disorder of glycosylation or CDG. PMM2-CDG is the most common of a growing family of more than 130 extremely rare inherited metabolic disorders. Only about 800 children and adults have been reported worldwide.

<span class="mw-page-title-main">Muscle–eye–brain disease</span> Medical condition

Muscle–eye–brain (MEB) disease, also known as muscular dystrophy-dystroglycanopathy congenital with brain and eye anomalies A3 (MDDGA3), is a kind of rare congenital muscular dystrophy (CMD), largely characterized by hypotonia at birth. Patients have muscular dystrophy, central nervous system abnormalities and ocular abnormalities. The condition is degenerative.

References

  1. "Hypotonia". MedlinePlus Medical Encyclopedia.
  2. Sarah Bager (2009). "Central Hyptonia" (PDF). Retrieved 22 April 2017.
  3. 1 2 3 4 5 6 7 8 9 O'Sullivan S. B. (2007). Strategies to Improve Motor Function. In S. B. O’Sullivan, & T. J. Schmitz (Eds.), Physical Rehabilitation (5th Ed.) Philadelphia: F.A. Davis Company.
  4. 1 2 3 4 Sanyal, Shantiranjan; Duraisamy, Sharmila; Chandra Garga, Umesh (2015). "Magnetic Resonance Imaging of Brain in Evaluation of Floppy Children: A Case Series". Iran Journal of Child Neurology. 9 (4): 65–74. PMC   4670981 . PMID   26664445.
  5. 1 2 3 Prasad, Asuri N.; Prasad, Chitra (October 2003). "The floppy infant: contribution of genetic and metabolic disorders". Brain and Development. 25 (7): 457–476. doi:10.1016/S0387-7604(03)00066-4. PMID   13129589. S2CID   8546619.
  6. "3-methylcrotonyl-CoA carboxylase deficiency (3-MCC deficiency)". Genetics Home Reference. Retrieved 28 November 2013.
  7. Xue Ming, et al. Prevalence of motor impairment in autism spectrum disorders. Brain and Development. Volume 29, Issue 9, October 2007, Pages 565–570.
  8. "Holocarboxylase Synthetase Deficiency / Multiple Carboxylase Deficiency". HLCS Gene Sequencing. GeneDx. Archived from the original on 21 September 2019. Retrieved 28 November 2013.
  9. Kliegman, Robert (22 April 2015). Nelson Textbook of Pediatrics (20 ed.). Elsevier Health Sciences. p. 747. ISBN   978-1455775668.
  10. "Motor Neuron Disease (MND): 7 Types, Causes, Symptoms & Treatment".
  11. Zelnik N, Pacht A, Obeid R, Lerner A (June 2004). "Range of neurologic disorders in patients with celiac disease". Pediatrics. 113 (6): 1672–6. CiteSeerX   10.1.1.545.9692 . doi:10.1542/peds.113.6.1672. PMID   15173490.
  12. McElhatton PR. (November–December 1994). "The effects of benzodiazepine use during pregnancy and lactation". Reprod. Toxicol. 8 (6): 461–75. Bibcode:1994RepTx...8..461M. doi:10.1016/0890-6238(94)90029-9. PMID   7881198.
  13. "The Benign Congenital Hypotonia Site". Archived from the original on 2012-03-05. Retrieved 2007-06-07.
  14. Madhok, Sehajvir S.; Shabbir, Nadeem (2022), "Hypotonia", StatPearls, Treasure Island (FL): StatPearls Publishing, PMID   32965880 , retrieved 2022-02-06

Further reading