Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026850 (muscular dystrophy)
5,870 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of noninvasive nasal mask-assisted ventilation were studied in two patients with chronic respiratory failure due to Duchenne's muscular dystrophy. Observations were made with continuous recordings of transcutaneous CO2 and O2 and ear oximetry. In one case, the mean tcPCO2 fell from 72 mm Hg to 43 mm Hg. The tcPO2 increased from 38 mm Hg to 62 mm Hg without supplementary oxygen. In the second case, hypercapnia associated with supplementary oxygen was corrected, and at five months' follow-up, hypoxemia was corrected without supplementary oxygen. Prolonged therapy during sleep has resulted in sustained clinical improvement for more than 18 months.
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PMID:Noninvasive nasal mask-assisted ventilation in respiratory failure of Duchenne muscular dystrophy. 328 48

Respiratory impairment in patients with Steinert's muscular dystrophy is known to lead to respiratory failure. Both the blunted chemical drive of breathing and the respiratory muscle weakness have been cited in the pathophysiology of premature death in these patients. To further assess the chemical control of breathing in these patients, we measured their respiratory responses to hypoxia (Weil's method), hyperoxia (Dejours' method), and hypercapnia (Read's method). In response to the stimuli from these respiratory centers, minute ventilation (VE), tidal volume (VT), respiratory frequency (F), mean inspiratory flow rate (VT/Ti), and occlusion pressure (P0.1) were measured in 12 patients and in 12 normal persons matched to the patients on the basis of age, sex, and arm span. The patients were similar to the control subjects in occlusion pressure results. However, they differed significantly (P less than 0.01) in ventilatory responses by a lower VE, lower VT, higher F, and lower VT/Ti in response to the hypercapnia and hypoxia tests. The responses of patients and control subjects were similar during the hyperoxia tests. Our study, therefore, established that the chemosensitivity of the respiratory centers, as measured by P0.1, is well preserved in Steinert's myotonic dystrophy, but the output to breathing (VE, VT, F, VT/Ti) is modulated by the impaired respiratory mechanics causing a tachypneic breathing pattern, even in the absence of restricted lung volume.
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PMID:Control and modulation of respiration in Steinert's myotonic dystrophy. 736 35

Duchenne muscular dystrophy (DMD) is the most common muscular dystrophy in children. Paralysis of respiratory muscles causes a decrease in forced vital capacity (FVC) from age 12 years, and death occurs between 20 and 25 years old and is usually related to respiratory insufficiency. Uncontrolled studies suggest that early home use of nasal intermittent positive-pressure ventilation (NIPPV) in DMD patients free of respiratory failure could limit progression of the restrictive syndrome and therefore improve survival because efficacy of preventive NIPPV has not been demonstrated in a controlled trial, we undertook a randomised multicentre study in which 70 patients with DMD were included. Patients were free of daytime respiratory failure and FVC was between 20 and 50% of predicted values. At least 6 h of nocturnal NIPPV (n = 35) was compared with conventional treatment (n = 35). During a mean follow-up of 52 months, 10 patients died, 8 in the NIPPV group and 2 in the control group (p = 0.05, log-rank test). No differences were observed between the two groups for occurrence of hypercapnia, decrease of FVC below 20% of initial values, or use of necessary mechanical ventilation. Preventive NIPPV did not improve respiratory handicap and reduced survival of DMD patients. Use of NIPPV for preventive purposes should be avoided in patients with FVC between 20 and 50% of predicted values.
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PMID:Randomised trial of preventive nasal ventilation in Duchenne muscular dystrophy. French Multicentre Cooperative Group on Home Mechanical Ventilation Assistance in Duchenne de Boulogne Muscular Dystrophy. 798 Aug 25

Sleep has a physiological influence on respiration, which can have major adverse effects on gas exchange in patients with respiratory insufficiency. These effects relate largely to a reduction in various stimulant inputs to the brainstem respiratory centre. Conditions that may be associated with sleep-related respiratory insufficiency range from pulmonary disorders (such as chronic obstructive pulmonary disease (COPD)), to central respiratory insufficiency (such as central alveolar hypoventilation), neurological and neuromuscular disorders (such as polio and muscular dystrophy), and thoracic cage disorders (such as kyphoscoliosis). All these conditions have in common the finding of hypoxaemia and hypercapnia, which become more pronounced during sleep. The relative hypoventilation, which is common to each condition, is due to varying combinations of an inadequate respiratory drive and an increase in the work of breathing. Management of respiratory insufficiency during sleep should be directed first at optimizing the underlying disorder, then at correcting hypoxaemia with controlled low-flow supplemental oxygen. Pharmacological therapy may be effective in some instances, but the choice of agent varies with the underlying disorder. Assisted ventilation is an important part of the management of advanced cases, and the recent development of intermittent positive pressure ventilation by nasal mask (NIPPV) has been an important advance in this area. Use of NIPPV during the night is associated with beneficial effects during the day, particularly improved awake gas exchange and respiratory muscle strength, in addition to less dyspnoea and improved quality of life. Electrophrenic pacing of the diaphragm is helpful in highly selected cases, particularly patients with central respiratory insufficiency and high quadriplegia, but is frequently complicated by the development of obstructive sleep apnoea.
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PMID:Impact of sleep in respiratory failure. 915 Mar 36

The aim of this 2 yr follow-up study was to evaluate the efficacy of nocturnal noninvasive mechanical ventilation in a group of 10 Duchenne's muscular dystrophy (DMD) patients who desaturated during the night but had normal daytime blood gases: mean (range) age 18.3 (15-22) yrs; mean (SD) vital capacity (VC) 752.5 (460-1,308) mL; mean time in bed (TIB) with arterial oxygen saturation (Sa,O2) < 90% 22.8% of total TIB (range: 16.6-32.0); mean arterial oxygen tension (Pa,O2) 10.3 (9.3-11.7) kPa (78 (70.0-87.8) mmHg); mean arterial carbon dioxide tension (Pa,CO2) 5.9 (4.8-6.5) kPa (44.3 (36.3-48.5) mmHg). All the patients were noninvasively ventilated during the night with a bilevel positive pressure ventilation (BiPAP) devise in spontaneous mode in order to correct the episodes of nocturnal desaturation. Nocturnal Sa,O2 values normalized during nocturnal noninvasive mechanical ventilation, and daytime sleep-disordered breathing disappeared, for the entire study period. No statistically significant differences were observed between baseline and follow-up daytime blood gas values, although a slight increase in Pa,O2 was found. During the follow-up, VC declined at a rate of 79.1 +/- 25 mL.yr-1, less than that generally reported in the past in untreated patients in the same age range. In conclusion, our data suggest that patients with advanced Duchenne's muscular dystrophy with pronounced nocturnal desaturation, not fulfilling criteria for imperative ventilation, could be successfully treated with "elective" nocturnal ventilation with immediate benefits consequent to the correction of the nocturnal blood gas anomalies and with long-term benefits related to the preservation of residual respiratory function, delay of development of chronic hypercapnia and thus the requirement for imperative mechanical ventilation.
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PMID:The efficacy of noninvasive mechanical ventilation on nocturnal hypoxaemia in Duchenne's muscular dystrophy. 963 1

Noninvasive long-term ventilation is consensually advocated when daytime hypercapnia > 6 kPa at steady state in chronic restrictive pulmonary syndromes. Several mechanisms can cause the occurrence of hypercapnia in these diseases. They may involve impairment of lung mechanics or airway function and cough, ventilation-perfusion mismatching, blunted central ventilatory drive or respiratory muscle fatigue. These abnormalities may occur while awake or during sleep. From a practical point of view, imperative ventilation, a palliative technique that aims to supply respiratory muscle weakness, and preventive ventilation, aimed at delaying respiratory handicap, should be distinguished between. The latter is offered to patients who do not fulfil any criteria for mechanical ventilation. Otherwise, the underlying disease markedly influences both pathophysiology and outcome. This implies that the available modes of ventilatory support should be assessed in each disease. Several findings have been published about Duchenne's muscular dystrophy. Mechanical ventilation, usually using noninvasive methods, is offered to patients with either hypercapnia or a forced vital capacity < 20% of the predicted value. Nevertheless, based on our experience, deterioration of the restrictive syndrome should be followed by a tracheostomy. By contrast, early ventilation, offered to patients free of symptoms and whose forced vital capacity are within 20-50% pred and with normal arterial blood gas levels, achieves no benefit.
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PMID:Is early noninvasive mechanical ventilation of first choice in stable restrictive patients with chronic respiratory failure? 1021 81

Alveolar hypoventilation associated with neuromuscular disease can occur in acute and chronic forms. In the acute form, progressive weakness of respiratory muscles leads to rapid reduction in vital capacity followed by respiratory failure with hypoxemia and hypercarbia. Symptoms are those of acute respiratory failure, including dyspnea, tachypnea, and tachycardia. In the chronic form, impairment of the respiratory muscles affects mechanical properties of the lungs and chest wall, decreases the ability to clear secretions, and eventually may alter the function of the central respiratory centers. Symptoms include orthopnea, fatigue, disturbed sleep, and hypersomnolence. Treatment and outcome of the disease's chronic form are dependent on the underlying clinical cause of the alveolar hypoventilation. For chronic but stable diseases such as old polio, quadriplegia, or kyposcoliosis, mechanical support of minute ventilation can reverse symptoms. For chronic and progressive disease such as muscular dystrophy and amyotrophic lateral sclerosis, mechanical support of minute ventilation provides only symptomatic relief and is usually associated with deterioration to the point of complete ventilator dependency for survival. For the chronic progressive forms of alveolar hypoventilation, there is currently a need for quality randomized controlled clinical trials to define physiologic indicators and appropriate timing for mechanical support of minute ventilation.
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PMID:Neuromuscular disease and hypoventilation. 1057 Jul 36

The development of positive pressure ventilation delivered through a nasal or face mask has greatly expanded the use of non-invasive ventilation in patients with chronic respiratory insufficiency, particularly during sleep. Disorders ranging from neurologic and neuromuscular, such as polio and muscular dystrophy, central alveolar hypoventilation, thoracic cage disorders such as kyphoscoliosis, and pulmonary disorders such as COPD, particularly of the blue-bloater type. The relative hypoventilation that is common to each condition is due to varying combinations of an inadequate respiratory drive and an increase in the work of breathing. Previous studies have shown sustained reversal of awake hypercapnia in patients with alveolar hypoventilation syndrome using nocturnal NIPPV. We analysed 10 consecutive patients with chronic respiratory insufficiency due to diverse aetiologies over a period of time using long-term domiciliary nocturnal NIPPV. Awake hypercapnia and hypoxaemia improved in nine patients over time and deteriorated in one patient. There was no significant change in pulmonary function apart from one patient with progressive muscular dystrophy who deteriorated. A considerable reduction in the need for subsequent hospital admission was noted in the group as a whole following institution of NIPPV. We conclude that nocturnal NIPPV improves awake gas exchange in patients with chronic respiratory failure.
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PMID:Nocturnal nasal intermittent positive pressure ventilation (NIPPV) therapy for chronic respiratory failure: long-term effects. 1059 22

Intermittent non-invasive home ventilation is expected to improve the quality of life, but progression of underlying neuromuscular diseases may lead to a deterioration. We observed after 82-1085 days of such home mechanical ventilation (7 patients with muscular dystrophy (age [mean/std.) 33 +/- 15 years), 8 patients with amyotrophic lateral sclerosis (ALS. age 60 +/- 8 years) a nonsignificant decrease of vital capacity (1.6 +/- 0.4 rp. 1.2 +/- 0.4 l) and an improvement of hypercapnia (49.3 +/- 8.5 rp. 43 +/- 18.5 mmHg). Quality of life (SF-36, Medical Outcomes Trust, Boston, USA) increased significantly only for mental health in patients with ALS (55 +/- 13 rp. 64 +/- 17%). Despite progression of the underlying disease the quality of life remained stable under home mechanical ventilation and mental health improved.
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PMID:[Intermittent assisted ventilation in neuromuscular diseases: course and quality of life]. 1061 50

Three patients had chronic respiratory disorders: a 42-year-old man with glycogenosis type II was tired, had headaches, poor pulmonary function values and, according to the arterial blood gas values, hypercapnia; a man aged 24 with Duchenne's muscular dystrophy had variable moderate dyspnoea with hypoxia and hypercapnia, and a man aged 64 years with an mitochondrial myopathy complained of dyspnoea and headache but had good blood gas values. The symptoms and abnormalities of the first patient were suppressed by nocturnal ventilatory support through a nasal mask system, the second preferred to refrain from ventilatory support and died a few weeks later and the symptoms of the third patient decreased without ventilatory support. Assessing a ventilatory disorder in patients with a neuromuscular disease is not always simple. Symptoms suggestive of nocturnal hypoventilation may occur in patients without respiratory insufficiency. It is also possible for patients with chronic respiratory insufficiency to be free of symptoms. Determinations of the arterial blood gas values are the most reliable method. Since normal daytime values do not exclude a nocturnal respiratory insufficiency, it is advisable in case of suspicion of nocturnal hypoventilation to measure the arterial blood gas values at night, as well. Nocturnal pulse oximetry does not always adequately reflect the degree of hypoventilation. In view of the positive effects of assisted respiration, adequate diagnostic examinations and early referral to a centre for home mechanical ventilation are advisable.
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PMID:[Mechanical ventilation in neuromuscular diseases: do not start too early, but certainly not too late]. 1096 72


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