Diane Damiano

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Diane Damiano
Diane Damiano.jpg
Alma mater Catholic University of America
Duke University
University of Virginia
Scientific career
Fields Biomechanics, rehabilitation medicine
InstitutionsUniversity of Virginia
Washington University in St. Louis
National Institutes of Health Clinical Center
Thesis Effects of Quadriceps Strengthening on Functional Gait in Children With Spastic Diplegia  (1993)
Doctoral advisor Luke E. Kelly

Diane Louise Damiano is an American biomedical scientist and physical therapist specializing in physical medicine and rehabilitation approaches in children with cerebral palsy. She is chief of the functional and applied biomechanics section at the National Institutes of Health Clinical Center. Damiano has served as president of the Clinical Gait and Movement Analysis Society and the American Academy for Cerebral Palsy and Developmental Medicine.

Contents

Education

Damiano completed a B.A. in biological sciences at the Catholic University of America in 1974. In 1979, she earned a M.S. in physical therapy from Duke University. Damiano completed a Ph.D. in research methods and biomechanics in the School of Education and Human Development (then the Curry School of Education) at the University of Virginia. [1] [2] Her 1993 dissertation was titled, Effects of Quadriceps Strengthening on Functional Gait in Children With Spastic Diplegia. Her doctoral advisor was Luke E. Kelly and Kit Vaughan served as her mentor. [2]

Career and research

Damiano is a biomedical scientist and physical therapist. She worked in the department of orthopaedics at the University of Virginia where she was promoted to associate professor on the tenure track, and the department of neurology at Washington University School of Medicine. Damiano joined the NIH Intramural Research Program and works as the chief of the functional and applied biomechanics section in the rehabilitation medicine department of the National Institutes of Health Clinical Center. [1]

A robotic exoskeleton created by Daminano and NIH researchers

Damiano's area of expertise is in the investigation of both existing and novel rehabilitation approaches in children with cerebral palsy. Several years ago, she was one of the first researchers to recognize that spastic muscles were weak and needed strengthening. Her work in this area has improved the treatment of these patients. She researches the role of physical activity in enhancing motor coordination and promoting muscle and neural recovery in those with brain injuries. Her lab uses non-invasive brain technologies such as electroencephalography (EEG) and near-infrared spectroscopy to study motor coordination in children and adults with cerebral palsy and traumatic brain injury. [1] Her research involving children with cerebral palsy aims to enhance their movement capabilities in the short term and exploit the inherent neuroplasticity and muscular plasticity for more permanent and sustainable functional gains. [3] In 2017, Damiano and a team of researchers created a robotic exoskeleton designed to treat crouch (or flexed-knee) gait in children with cerebral palsy by providing powered knee extension assistance at key points during the walking cycle. [4] [5]

Damiano has published more than 90 papers in peer-reviewed journals. She currently sits on the editorial board of Neurorehabilitation and Neural Repair , Developmental Medicine & Child Neurology , and the Journal of Pediatric Rehabilitation. Damiano is a past president of the Clinical Gait and Movement Analysis Society (GCMAS) and the current president — the first physical therapist to serve in the role in the organization's 61-year history — of the American Academy for Cerebral Palsy and Developmental Medicine. She is a member of the scientific advisory board of the United Cerebral Palsy Research and Education Foundation. [1] [3]

Awards

In 1994, Damiano became a fellow of the American Academy of Cerebral Palsy and Developmental Medicine. [1]

Selected works

Related Research Articles

Hemiparesis, or unilateral paresis, is weakness of one entire side of the body. Hemiplegia is, in its most severe form, complete paralysis of half of the body. Hemiparesis and hemiplegia can be caused by different medical conditions, including congenital causes, trauma, tumors, or stroke.

<span class="mw-page-title-main">Cerebral palsy</span> Group of movement disorders that appear in early childhood

Cerebral palsy (CP) is a group of movement disorders that appear in early childhood. Signs and symptoms vary among people and over time, but include poor coordination, stiff muscles, weak muscles, and tremors. There may be problems with sensation, vision, hearing, and speaking. Often, babies with cerebral palsy do not roll over, sit, crawl or walk as early as other children of their age. Other symptoms include seizures and problems with thinking or reasoning, each of which occur in about one-third of people with CP. While symptoms may get more noticeable over the first few years of life, underlying problems do not worsen over time.

Spasticity is a feature of altered skeletal muscle performance with a combination of paralysis, increased tendon reflex activity, and hypertonia. It is also colloquially referred to as an unusual "tightness", stiffness, or "pull" of muscles.

Hereditary spastic paraplegia (HSP) is a group of inherited diseases whose main feature is a progressive gait disorder. The disease presents with progressive stiffness (spasticity) and contraction in the lower limbs. HSP is also known as hereditary spastic paraparesis, familial spastic paraplegia, French settlement disease, Strumpell disease, or Strumpell-Lorrain disease. The symptoms are a result of dysfunction of long axons in the spinal cord. The affected cells are the primary motor neurons; therefore, the disease is an upper motor neuron disease. HSP is not a form of cerebral palsy even though it physically may appear and behave much the same as spastic diplegia. The origin of HSP is different from cerebral palsy. Despite this, some of the same anti-spasticity medications used in spastic cerebral palsy are sometimes used to treat HSP symptoms.

<span class="mw-page-title-main">Functional electrical stimulation</span> Technique that uses low-energy electrical pulses

Functional electrical stimulation (FES) is a technique that uses low-energy electrical pulses to artificially generate body movements in individuals who have been paralyzed due to injury to the central nervous system. More specifically, FES can be used to generate muscle contraction in otherwise paralyzed limbs to produce functions such as grasping, walking, bladder voiding and standing. This technology was originally used to develop neuroprostheses that were implemented to permanently substitute impaired functions in individuals with spinal cord injury (SCI), head injury, stroke and other neurological disorders. In other words, a person would use the device each time he or she wanted to generate a desired function. FES is sometimes also referred to as neuromuscular electrical stimulation (NMES).

Václav Vojta was a renowned Czech medical doctor who specialized in the treatment of children with cerebral palsy and developmental disorders. He discovered the principle of reflex locomotion, which is used to treat various physical and neuromuscular disorders through the stimulation of the human sensomotoric system's reflex points. Originally used in the treatment of spastic children, the technique is now used on babies and adults.

The Bobath concept is an approach to neurological rehabilitation that is applied in patient assessment and treatment. The goal of applying the Bobath concept is to promote motor learning for efficient motor control in various environments, thereby improving participation and function. This is done through specific patient handling skills to guide patients through the initiation and completing of intended tasks. This approach to neurological rehabilitation is multidisciplinary, primarily involving physiotherapists, occupational therapists, and speech and language therapists. In the United States, the Bobath concept is also known as 'neuro-developmental treatment' (NDT).

<span class="mw-page-title-main">Periventricular leukomalacia</span> Degeneration of white matter near the lateral ventricles of the brain

Periventricular leukomalacia (PVL) is a form of white-matter brain injury, characterized by the necrosis of white matter near the lateral ventricles. It can affect newborns and fetuses; premature infants are at the greatest risk of neonatal encephalopathy which may lead to this condition. Affected individuals generally exhibit motor control problems or other developmental delays, and they often develop cerebral palsy or epilepsy later in life. The white matter in preterm born children is particularly vulnerable during the third trimester of pregnancy when white matter developing takes place and the myelination process starts around 30 weeks of gestational age.

Hypertonia is a term sometimes used synonymously with spasticity and rigidity in the literature surrounding damage to the central nervous system, namely upper motor neuron lesions. Impaired ability of damaged motor neurons to regulate descending pathways gives rise to disordered spinal reflexes, increased excitability of muscle spindles, and decreased synaptic inhibition. These consequences result in abnormally increased muscle tone of symptomatic muscles. Some authors suggest that the current definition for spasticity, the velocity-dependent over-activity of the stretch reflex, is not sufficient as it fails to take into account patients exhibiting increased muscle tone in the absence of stretch reflex over-activity. They instead suggest that "reversible hypertonia" is more appropriate and represents a treatable condition that is responsive to various therapy modalities like drug or physical therapy.

Spastic diplegia is a form of cerebral palsy (CP) that is a chronic neuromuscular condition of hypertonia and spasticity—manifested as an especially high and constant "tightness" or "stiffness"—in the muscles of the lower extremities of the human body, usually those of the legs, hips and pelvis. Doctor William John Little's first recorded encounter with cerebral palsy is reported to have been among children who displayed signs of spastic diplegia.

Diplegia, when used singularly, refers to paralysis affecting symmetrical parts of the body. This is different from hemiplegia which refers to spasticity restricted to one side of the body, paraplegia which refers to paralysis restricted to the legs and hip, and quadriplegia which requires the involvement of all four limbs but not necessarily symmetrical. Diplegia is the most common cause of crippling in children, specifically in children with cerebral palsy. Other causes may be due to injury of the spinal cord. There is no set course of progression for people with diplegia. Symptoms may get worse but the neurological part does not change. The primary parts of the brain that are affected by diplegia are the ventricles, fluid filled compartments in the brain, and the wiring from the center of the brain to the cerebral cortex. There is also usually some degeneration of the cerebral neurons, as well as problems in the upper motor neuron system. The term diplegia can refer to any bodily area, such as the face, arms, or legs.

A selective dorsal rhizotomy (SDR), also known as a rhizotomy, dorsal rhizotomy, or a selective posterior rhizotomy, is a neurosurgical procedure that selectively cut problematic nerve roots of the spinal cord. This procedure has been well-established in the literature as a surgical intervention and is used to relieve negative symptoms of neuromuscular conditions such as spastic diplegia and other forms of spastic cerebral palsy. The specific sensory nerves inducing spasticity are identified using electromyographic (EMG) stimulation and graded on a scale of 1 (mild) to 4. Abnormal nerve responses are isolated and cut, thereby reducing symptoms of spasticity.

<span class="mw-page-title-main">Toe walking</span> Medical condition

Toe walking refers to a condition where a person walks on their toes without putting much or any weight on the heel or any other part of the foot. This term also includes the inability to connect one's foot fully to the ground while in the standing phase of the walking cycle. Toe walking in toddlers is common. Children who toe walk as toddlers commonly adopt a heel-toe walking pattern as they grow older. If a child continues to walk on their toes past the age of three, or can't get their heels to the ground at all, they should be evaluated by a health professional who is experienced in assessing children's walking.

<span class="mw-page-title-main">Management of cerebral palsy</span>

Over time, the approach to cerebral palsy management has shifted away from narrow attempts to fix individual physical problems – such as spasticity in a particular limb – to making such treatments part of a larger goal of maximizing the person's independence and community engagement. Much of childhood therapy is aimed at improving gait and walking. Approximately 60% of people with CP are able to walk independently or with aids at adulthood. However, the evidence base for the effectiveness of intervention programs reflecting the philosophy of independence has not yet caught up: effective interventions for body structures and functions have a strong evidence base, but evidence is lacking for effective interventions targeted toward participation, environment, or personal factors. There is also no good evidence to show that an intervention that is effective at the body-specific level will result in an improvement at the activity level, or vice versa. Although such cross-over benefit might happen, not enough high-quality studies have been done to demonstrate it.

Rehabilitation robotics is a field of research dedicated to understanding and augmenting rehabilitation through the application of robotic devices. Rehabilitation robotics includes development of robotic devices tailored for assisting different sensorimotor functions(e.g. arm, hand, leg, ankle), development of different schemes of assisting therapeutic training, and assessment of sensorimotor performance of patient; here, robots are used mainly as therapy aids instead of assistive devices. Rehabilitation using robotics is generally well tolerated by patients, and has been found to be an effective adjunct to therapy in individuals with motor impairments, especially due to stroke.

Dyskinetic cerebral palsy (DCP) is a subtype of cerebral palsy (CP) and is characterized by impaired muscle tone regulation, coordination and movement control. Dystonia and choreoathetosis are the two most dominant movement disorders in patients with DCP.

<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">Spastic cerebral palsy</span> Cerebral palsy characterized by high muscle tone

Spastic cerebral palsy is the type of cerebral palsy characterized by spasticity or high muscle tone often resulting in stiff, jerky movements. Cases of spastic CP are further classified according to the part or parts of the body that are most affected. Such classifications include spastic diplegia, spastic hemiplegia, spastic quadriplegia, and in cases of single limb involvement, spastic monoplegia.

<span class="mw-page-title-main">Spastic hemiplegia</span> Medical condition

Spastic hemiplegia is a neuromuscular condition of spasticity that results in the muscles on one side of the body being in a constant state of contraction. It is the "one-sided version" of spastic diplegia. It falls under the mobility impairment umbrella of cerebral palsy. About 20–30% of people with cerebral palsy have spastic hemiplegia. Due to brain or nerve damage, the brain is constantly sending action potentials to the neuromuscular junctions on the affected side of the body. Similar to strokes, damage on the left side of the brain affects the right side of the body and damage on the right side of the brain affects the left side of the body. Other side can be effected for lesser extent. The affected side of the body is rigid, weak and has low functional abilities. In most cases, the upper extremity is much more affected than the lower extremity. This could be due to preference of hand usage during early development. If both arms are affected, the condition is referred to as double hemiplegia. Some patients with spastic hemiplegia only experience minor impairments, where in severe cases one side of the body could be completely paralyzed. The severity of spastic hemiplegia is dependent upon the degree of the brain or nerve damage.

<span class="mw-page-title-main">Adeli suit</span>

The ADELI Suit is derived from a suit originally designed for the Soviet space program in the late 1960s that was first tested in 1971. The purpose then was to give the cosmonauts in space a way to counter the effects of long-term weightlessness on the body. The ADELI Suit is currently used to treat children with physical disabilities resulting from cerebral palsy, other neurological conditions originating from brain damage or spinal cord injury.

References

  1. 1 2 3 4 5 "NIH Clinical Center: NIH Clinical Center Senior Staff". clinicalcenter.nih.gov. Retrieved March 14, 2021.PD-icon.svg This article incorporates text from this source, which is in the public domain .
  2. 1 2 Damiano, Diane Louise (1993). Effects of Quadriceps Strengthening on Functional Gait in Children With Spastic Diplegia (Ph.D. thesis). University of Virginia. OCLC   31478660. ProQuest   304092381.
  3. 1 2 "Principal Investigators". NIH Intramural Research Program. Retrieved March 14, 2021.PD-icon.svg This article incorporates text from this source, which is in the public domain .
  4. "Robotic exoskeleton offers potential new approach to alleviating crouch gait in children with cerebral palsy". National Institutes of Health (NIH). August 25, 2017. Retrieved March 15, 2021.PD-icon.svg This article incorporates text from this source, which is in the public domain .
  5. Howard, Jacqueline (November 8, 2017). "Robotic suit helps kids with cerebral palsy walk tall". CNN. Archived from the original on November 8, 2017. Retrieved March 15, 2021.
PD-icon.svg This article incorporates public domain material from websites or documents of the National Institutes of Health.