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Query: UMLS:C0020440 (hypercapnia)
7,939 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sleep has many effects on breathing, all potentially adverse, ranging from the respiratory centre to the lower airways and chest wall. The overall effect is to diminish ventilation with consequent hypoxaemia and hypercapnia. These physiological changes can have major adverse effects on patients with chronic lung disease, particularly if already hypoxaemic. Patients with obstructive airway disease are particularly adversely affected during sleep with hypoventilation and reduced tidal volume, whereas patients with interstitial disease maintain overall ventilation although respiratory frequency falls. Sleep-related effects are most pronounced in rapid-eye-movement (REM) sleep and can have significant cardiovascular consequences including sleep-related cardiac arrhythmias and pulmonary hypertension and can also predispose to nocturnal death, particularly during acute exacerbations.
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PMID:Impact of sleep on ventilation and gas exchange in chronic lung disease. 1506 17

Exposure to chronic hypoxia causes pulmonary hypertension and pulmonary vascular remodelling. In chronic lung disease, chronic hypercapnia frequently coexists with hypoxia and is associated with worsening of pulmonary hypertension. It is generally stated that pulmonary hypertension in these conditions is secondary to hypoxic vascular remodelling and that hypercapnia augments this remodelling thus worsening the hypertension. We review recent evidence which shows that although chronic hypoxia causes thickening of the walls of pulmonary arterioles, these changes do not lead to structural narrowing of the lumen by encroachment. Moreover, hypoxia leads to new vessel formation within the pulmonary vasculature and not loss of vessels as formerly thought. Such neovascularization may provide a beneficial adaptation by increasing the area of the gas exchange membrane. These novel structural findings are supported by recent reports that inhibitors of the RhoA pathway can acutely reduce pulmonary vascular resistance in chronically hypoxic lungs to near normal values, demonstrating that structural changes are not the dominant mechanisms underling hypoxic pulmonary hypertension. Chronic hypercapnia inhibits the development of hypoxic pulmonary hypertension, pulmonary vascular remodelling and hypoxia-induced angiogenesis. This last effect might be maladaptive, as it would prevent the potentially beneficial increase in gas exchange membrane area. These findings suggest that structural narrowing of the vascular lumen of resistance vessels is not the mechanism by which hypoxia and hypercapnia cause pulmonary hypertension in chronic lung disease.
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PMID:Structural basis of hypoxic pulmonary hypertension: the modifying effect of chronic hypercapnia. 1510 11

Anaesthesiologists must be familiar with the particularities of the respiratory physiology of newborns and infants when providing perioperative care to these patients. Even brief periods of inadequate respiratory support can cause atelectatrauma and volutrauma which in turn can have deleterious cardiorespiratory consequences and accentuate pre-existing lung disease. A variety of respirators and respiratory support strategies are available and should be selected to meet a patient's particular needs. Optimal PEEP and normal tidal volumes during conventional ventilation, high volume strategy during high frequency ventilation, and permissive hypercapnia are the corner stones of a lung protective strategy. Using an interdisciplinary approach, surgery in the intensive care unit using total intravenous anaesthesia with the uninterrupted use of the ICU equipment is an attractive option for the most vulnerable patients in this age group.
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PMID:[Ventilation of newborns and infants]. 1522 Nov 19

Permanent tracheotomy was the first surgical procedure proposed for the treatment of severe obstructive sleep apnoea syndrome and is still the only surgical option that ensures, even in very severe cases, complete elimination of apnoea and, in turn, clinical remission. Improved knowledge of the causes of obstructive sleep apnoea syndromes and the increasing therapeutic options (instrumental, medical and surgical) have resulted in cases requiring tracheotomy as the only indispensable therapeutic option becoming more rare. At present, the only indications are in very occasional conditions of life-threatening obstructive sleep apnoea syndromes and in patients on whom continuous positive airway pressure is not tolerated or is not effective (severe deoxygenation or hypercapnia, severe respiratory disorder index, severe obstructive sleep apnoea syndrome-related arrhythmias, severe excessive daytime sleepiness, heart diseases or ischaemic encephalopathy exacerbated by obstructive sleep apnoea syndromes, obstructive pneumopathy exacerbated by obstructive sleep apnoea syndromes, severe obstructive sleep apnoea syndromes with few chances of resolution with other surgical procedures or failure of the latter). Moreover, it is the only therapeutic solution in rare nocturnal laryngeal stridor due to multisystemic atrophy (in which obstructive sleep apnoea syndrome is due to nocturnal laryngospasm of neurologic origin). Therapeutic tracheotomy must be permanent (tracheostomy) and, therefore, preferably carried out with a specific technique (skin-lined tracheotomy), able to guarantee greater stability, less risk of granulation tissue, wider opening of the tracheostomy, sufficient reversibility. In our experience, very few patients (10 cases) withsleep disorder breathing have been submitted to skin-lined tracheotomy. Of these, the majority were submitted to surgery for severe apnoea due to nocturnal laryngospasm on account of multisystemic atrophy (n = 7), while only 3 cases of obstructive sleep apnoea syndromes were submitted to skin-lined tracheotomy, i.e., 0.7% of the 424 patients operated on for obstructive sleep apnoea syndrome and 1.7% of the 175 operated on for severe, or very severe, obstructive sleep apnoea syndromes (RDI > 40). Skin-lined tracheotomy was not followed by important complications and expected results were achieved with immediate disappearance of daytime symptoms and considerable improvement in nocturnal apnoea. Besides sleep-related disorders, numerous clinical situations with indications for a permanent tracheotomy may benefit from the skinlined technique, such as severe laryngeal or tracheal stenoses, laryngeal diplegias, miasthenia gravis, lateral amyotrophic sclerosis, intractable aspiration, severe emphysema.
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PMID:Role of skin-lined tracheotomy in obstructive sleep apnoea syndrome: personal experience. 1546 94

In this study, noninvasive ventilation (NIV) was prospectively applied to eight patients (35.8 +/- 11.4 years) with late-onset Pompe disease and respiratory failure apparent from severe restrictive lung disease, nocturnal hypoxemia (83 +/- 8%), and daytime hypercapnia (66.7 +/- 17.9 mm Hg). The impact of NIV on respiratory function was followed for 34 +/- 17 months. Despite further decrease of vital capacity and inspiratory muscle strength, NIV normalized oxygen saturation during sleep (96 +/- 1%), daytime carbon dioxide tensions (44.1 +/- 3.6 mm Hg), and symptoms.
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PMID:Respiratory failure in Pompe disease: treatment with noninvasive ventilation. 1585 48

Despite improvements in prenatal diagnosis and neonatal intensive care, the Congenital Diaphragmatic Hernia (CDH) Registry still records a 64% survival rate. Many reports demonstrate, however, that approximately 80% of CDH patients with no other malformations may survive if managed with permissive hypercapnia, gentle ventilation, high-frequency oscillatory ventilation (HFOV), surfactant, inhaled nitric oxide (iNO) and extracorporeal membrane oxygenation (ECMO), and delayed surgical repair. We wished to define the evolving outcome of CDH newborns using a protocol approach to management, which includes surgery in the neonatal intensive care unit (NICU) or operating room (OR). From January 1996, data were collected prospectively on 42 consecutive live-born infants with CDH. Newborns symptomatic at birth were sedated and paralyzed in the delivery room, and treated with elective HFOV, iNO, surfactant, and ECMO as necessary, delaying surgical repair until their clinical conditions were stable. Once the CDH newborn was stabilized, a trial on conventional ventilation was started at least 24 hours before surgery; however, if the patient was unstable, therapy was switched back to HFOV and surgery was performed in the NICU. Demographic and clinical parameters were compared between CDH newborns who underwent surgery in the NICU and in the OR. The two groups were comparable in terms of clinical characteristics and baseline ventilatory and blood gas values. Mean age at surgery was 3 +/- 2 days. After surgery, the NICU group had more infectious complications. However, the survival rate of uncomplicated CDH was 78% and a low rate of chronic lung disease was reported. A prolonged phase of presurgery stabilization is proposed and strict control of infection is recommended for the CDH newborns who might benefit from an exclusive HFOV and NICU surgery.
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PMID:Congenital diaphragmatic hernia: intensive care unit or operating room? 1590 12

One-lung ventilation is used during a variety of cardiac, thoracic, and major vascular procedures. Endobronchial tubes, bronchial blockers, and occasionally, single-lumen tubes are used to isolate the lungs. Patients with difficult airways and pediatric patients provide special challenges for lung isolation. Finally, intraoperative hypoxia and hypercarbia in patients with intrinsic lung disease frequently complicate one-lung anesthesia. The concepts and controversies in lung isolation techniques are discussed.
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PMID:One-lung anesthesia update. 1615 54

Acute respiratory distress syndrome (ARDS) is a clinically defined entity describing the severity of diffuse alveolar injury caused by direct or indirect injury to the lung. Pathophysiology, clinical course and outcome of ARDS depend on the underlying cause, the severity of the disease and co-morbidities. Pulmonary function tests show restrictive lung disease, which is characterised by a reduction in lung compliance and functional residual capacity, resulting in marked ventilation-perfusion inequality. Current ventilator strategies aim to minimise ventilator-induced lung injury by targeting mechanical ventilation between the lower and upper inflection point of the pressure volume curve. This includes recruitment manoeuvres and the use of high PEEP to open the atelectatic lung and the use of permissive hypercapnia and the limitation of peak inspiratory pressure below 35 cm H2O to avoid overinflation. The clinical benefit of newer modes of ventilatory support such as inverse ratio ventilation, high frequency oscillatory ventilation, surfactant replacement, prone positioning and inhaled nitric oxide has yet to be determined in children.
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PMID:Acute lung injury: pathophysiology, assessment and current therapy. 1626 76

Positive airway pressure (PAP) devices are used to treat patients with sleep related breathing disorders (SRBD) including obstructive sleep apnea (OSA). Currently, PAP devices come in three forms: (1) continuous positive airway pressure (CPAP), (2) bilevel positive airway pressure (BPAP), and (3) automatic self-adjusting positive airway pressure (APAP). After a patient is diagnosed with OSA, the current standard of practice involves performing full, attended polysomnography during which positive pressure is adjusted to determine optimal pressure for maintaining airway patency. This titration is used to find a fixed single pressure for subsequent nightly usage. A task force of the Standards of Practice Committee of the American Academy of Sleep Medicine reviewed the available literature. Based on this review, the Standards of Practice Committee developed these practice parameters as a guideline for using CPAP and BPAP appropriately (an earlier review and practice parameters for APAP was published in 2002). Major conclusions and current recommendations are as follows: 1) A diagnosis of OSA must be established by an acceptable method. 2) CPAP is effective for treating OSA. 3) Full-night, attended studies performed in the laboratory are the preferred approach for titration to determine optimal pressure; however, split-night, diagnostic-titration studies are usually adequate. 4) CPAP usage should be monitored objectively to help assure utilization. 5) Initial CPAP follow-up is recommended during the first few weeks to establish utilization pattern and provide remediation if needed. 6) Longer-term follow-up is recommended yearly or as needed to address mask, machine, or usage problems. 7) Heated humidification and a systematic educational program are recommended to improve CPAP utilization. 8) Some functional outcomes such as subjective sleepiness improve with positive pressure treatment in patients with OSA. 9) CPAP and BPAP therapy are safe; side effects and adverse events are mainly minor and reversible. 10) BPAP may be useful in treating some forms of restrictive lung disease or hypoventilation syndromes associated with hypercapnia.
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PMID:Practice parameters for the use of continuous and bilevel positive airway pressure devices to treat adult patients with sleep-related breathing disorders. 1655 24

Independent lung ventilation (ILV) is a technique for managing patients with unilateral lung disease or injury who have failed conventional mechanical ventilation. A 20-year-old man sustained severe ballistic injuries to the chest and abdomen. Damage control laparotomy controlled the patient's initial hemorrhage, however, an evolving cavitary pulmonary lesion subsequently developed into a high-volume bronchopleural fistula. Progressive atelectasis of the damaged lung resulted in profound hypoxemia and hypercarbia refractory to conventional mechanical ventilation. Synchronous ILV was initiated using a double-lumen endotracheal tube and two ventilators titrated to optimize the patient's oxygenation and ventilation and minimize ventilator-induced lung injury. Intensive ILV over the next 17 days resulted in recruitment of the atelectatic right lung, resolution of the bronchopleural fistula, and significant improvement in oxygenation and pulmonary compliance. This appears to be the longest reported use of ILV for traumatic lung injury.
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PMID:Independent lung ventilation in the management of traumatic bronchopleural fistula. 1680 8


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