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Query: UMLS:C0026850 (
muscular dystrophy
)
5,870
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Prior studies have shown that nasal intermittent positive pressure ventilation (NIPPV) can improve arterial blood gas values, prevent symptoms resulting from alveolar hypoventilation, and decrease hospitalization in patients with chronic respiratory failure. Most studies have involved small samples of patients followed up for a limited time. This study reviews our experience during 5 years use of NIPPV in 276 patients with kyphoscoliosis, posttuberculosis sequelae, Duchenne-type
muscular dystrophy
, COPD, and
bronchiectasis
followed up for > or = 3 years while receiving NIPPV. Outcomes were compared for patients who survived short term eg, died or converted to management with a tracheostomy and intermittent positive ventilation (TIPPV) during year 1 or year 2 on a regimen of NIPPV and long term, eg, survived more > or = 2 years on a regimen of NIPPV. The most favorable outcome was achieved by patients with kyphoscoliosis and posttuberculosis sequelae with improvement in PaO2 and PaCO2 (p < 0.0001) and a reduction in days of hospitalization for respiratory illness (p < 0.0001) for > or = 2 years while receiving NIPPV. Patients with Duchenne-type
muscular dystrophy
also had fewer hospital days during NIPPV (p < 0.003) but only 9 of 16 patients (56 percent) continued using NIPPV for the duration of followup. Benefit was also more short term for patients with COPD and
bronchiectasis
. NIPPV can sustain improvement in gas exchange, while reducing hospitalization for substantial periods of time. NIPPV can be an attractive and effective alternative to other methods of assisted ventilation such as TIPPV.
...
PMID:Nasal intermittent positive pressure ventilation. Long-term follow-up in patients with severe chronic respiratory insufficiency. 784 13
Effectiveness of treatment with domiciliary nocturnal noninvasive positive pressure ventilation is analyzed in a group of patients with chronic alveolar hypoventilation of different etiologies. It was applied with two levels of pressure (BiPAP) via nasal mask. Criteria for evaluation were symptomatology and improvement in gas exchange. Data were analyzed by Student t tests. A total of 13 patients were included, mean age 55.7 range 20 to 76 years (5 male 8 female). Main diagnosis was tuberculosis in 6, four of them having had surgical procedure (thoracoplasty 2, frenicectomy 1 and neumonectomy 1), myopathy 3 (myasthenia gravis 1,
muscular dystrophy
1 and diaphragmatic paralysis 1), obesity-hypoventilation syndrome 1, escoliosis 1,
bronchiectasis
1 and cystic fibrosis 1. These last two patients were on waiting list for lung transplantation. At the moment of consultation, the symptoms were: dysnea 13/13 (100%), astenia 13/13 (100%), hypersomnolency 10/13 (77%), cephalea 9/13 (69%), leg edema 6/13 (46%), loss of memory 6/13 (46%). Regarding gas exchange, they showed hypoxemia and hypercapnia. Mean follow up was of 2.2 years (range 6 months to 4 years). Within the year, all 13 patients became less dyspneic. Astenia, hypersomnolency, cephalea, leg edema and memory loss disappeared. Improvement in gas exchange was: PaO2/FiO2 from 269 +/- 65.4 (basal) to 336.7 +/- 75.3 post-treatment (p = 0.0018). PaCO2 from 70.77 +/- 25.48 mmHg (basal) to 46.77 +/- 8.14 mmHg (p = 0.0013). Ventilatory support was discontinued en 5 patients: three because of pneumonia requiring intubation and conventional mechanical ventilation, two of them died and one is still with tracheostomy; One patient with
bronchiectasis
and one with cystic fibrosis were transplanted. The remaining eight patients are stable. In conclusion, chronic alveolar hypoventilation can be effectively treated with domiciliary nocturnal noninvasive ventilation. Long term improvement in symptomatology and arterial blood gases can be obtained without significant complications.
...
PMID:[Domiciliary noninvasive positive pressure ventilation in chronic alveolar hypoventilation]. 1118 89
Specific respiratory muscle training (IMT) improves the function of the inspiratory muscles. According to literature and clinical experience, there are 3 established methods: 1.) resistive load 2.) threshold load and 3.) normocapnic hyperpnea. Each training method and the associated devices have specific characteristics. Setting up an IMT should start with specific diagnostics of respiratory muscle function and be followed by detailed individual introduction to training. The aim of this review is to take a closer look at the different training methods for the most relevant indications and to discuss these results in the context of current literature. The group of neuromuscular diseases includes
muscular dystrophy
, spinal muscular atrophy, amyotrophic lateral sclerosis, paralysis of the phrenic nerve, and injuries to the spinal cord. Furthermore, interstitial lung diseases, sarcoidosis, left ventricular heart failure, pulmonary arterial hypertension (PAH), kyphoscoliosis and obesity are also discussed in this context. COPD, asthma, cystic fibrosis (CF) and non-CF-
bronchiectasis
are among the group of obstructive lung diseases. Last but not least, we summarize current knowledge on weaning from respirator in the context of physical activity.
...
PMID:[Respiratory Muscle Training: State of the Art]. 2678 31
