Muscle Weakness Clinical Trial
Official title:
The RETORNUS Study: Dual Training to Restore the Function of Respiratory Muscles in Stroke Patients
This study is divided for development in two complementary work packages justified by the need to incorporate new strategies to optimize rehabilitation outcomes in stroke patients. The general objectives are: 1) to determine the prevalence of respiratory muscle dysfunction in stroke patients; 2) to identify the existence of a potential amino acid marker of increased risk of muscle dysfunction after suffering a stroke; 3) to evaluate the effectiveness of incorporating the respiratory muscle training as an innovative adjuvant therapy in stroke rehabilitation program that may decrease the incidence of morbidity and mortality in the medium and long term; and 4) to quantify the potential impact of respiratory muscle training on the costs of care for stroke patients.
Stroke is a major cause of morbidity and mortality worldwide. It determines a substantial
socioeconomic burden. Stroke can lead to varying degrees of oropharyngeal dysphagia (25-85%
of patients) and respiratory muscle dysfunction associated with an increase in medical
complications such as bronchoaspiration pneumonia, malnutrition and death. The respiratory
muscle dysfunction is a common functional abnormality in chronic respiratory diseases such
as chronic obstructive pulmonary disease (COPD), heart failure, multiple sclerosis in which
it has been shown to modify the expected survival. Dysphagia is present in a significant
proportion of patients admitted to Rehabilitation (up to 85% depending on series) in the
subacute phase of stroke. There is no drug able to restore the swallowing function and
inspiratory and expiratory muscle function in these patients. Consequently, neurological
rehabilitation is the mainstay of treatment of these disorders.
Amino acids (AA) are essential for proper protein synthesis. Skeletal muscle represents the
largest reserve of body AA, which may be used according to metabolic needs. Within this
group of compounds, the most involved in muscle metabolism are glutamate, aspartate,
asparagine, valine, leucine and isoleucine. A pathobiological association between decrease
in muscle glutamate and diaphragm dysfunction in patients with chronic respiratory diseases
has been demonstrated in chronic respiratory patients. Moreover, glutamate levels of the
diaphragm can be restored as a result of muscle training, playing a decisive role as a
precursor of certain AA (glutamine and alanine), and glutathione in patients with COPD.
Other studies have defined that glutamine may be a biomarker of training response in healthy
individuals. Several publications have reflected the decrease of glutamine and glutamate as
a result of different diseases and in some cases have tried to supplement this deficit.
Muscle dysfunction is defined as a function impairment (decrease in strength and/or
resistance) of muscles whose main consequence is muscle fatigue. Although exercise training
has been used successfully to restore function in patients with some chronic illnesses and
frailty, there is little evidence of the beneficial effects of an overall muscle training in
stroke patients. Regarding peripheral muscles, a high-intensity training improves strength
and endurance of lower limbs muscles (paretic and non paretic) in stroke patients.
Dysfunction of the diaphragm and other respiratory muscles has important clinical
implications. It associates with susceptibility to hypercapnic ventilatory failure,
ineffective cough, and even higher incidence of repeated hospital admissions and mortality.
Therefore, respiratory muscle weakness described in some stroke patients justifies the need
to train respiratory muscles because there is no general exercise (bicycle, legs, arms) able
to induce an overload enough to achieve training effect on respiratory muscles.
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Investigator), Primary Purpose: Treatment
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