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Hemiplegia, in its most severe form, is the complete paralysis of one entire side of the body. Either hemiparesis or hemiplegia can result from a variety of medical causes, including congenital conditions, trauma, tumors, traumatic brain injury and stroke. [1]
Men who have suffered a right hemisphere stroke also have significantly better rehabilitation outcomes than men who suffer a left hemisphere stroke. Recovery of functional abilities is often greater in male stroke survivors than females, especially in the area of activities of daily living. [32]
Alternating hemiplegia (also known as crossed hemiplegia) is a form of hemiplegia that has an ipsilateral cranial nerve palsies and contralateral hemiplegia or hemiparesis of extremities of the body. The disorder is characterized by recurrent episodes of paralysis on one side of the body. [ 1 ]
Osteoporosis affects more women than men. Of the estimated 10 million Americans with osteoporosis, more than 8 million (or 80%) are women. ... 19–50 years: 1,000 mg per day. 51 and older: 1,200 ...
In Pakistan, spinal cord injury is more common in males (92.68%) as compared to females in the 20–30 years of age group with a median age of 40 years, although people from 12–70 years of age suffered from spinal cord injury [73] Rates of injury are at their lowest in children, at their highest in the late teens to early twenties, then get ...
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. [1]
The age groups most at risk for TBI are children ages five to nine and adults over age 80, [9] and the highest rates of death and hospitalization due to TBI are in people over age 65. [140] The incidence of fall-related TBI in First-World countries is increasing as the population ages; thus the median age of people with head injuries has increased.
A 46% decrease in spine number and spine density has been reported in humans older than 50 compared with younger individuals. [12] An electron microscopy study in monkeys reported a 50% loss in spines on the apical dendritic tufts of pyramidal cells in prefrontal cortex of old animals (27–32 years old) compared with young ones (6–9 years ...