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Query: UMLS:C0020440 (
hypercapnia
)
7,939
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Physiological ageing of the lung is associated with dilatation of alveoli, enlargement of airspaces, decrease in exchange surface area and loss of supporting tissue for peripheral airways ("senile emphysema"), changes resulting in decreased static elastic recoil of the lung and increased residual volume and functional residual capacity. Compliance of the chest wall diminishes, thereby increasing work of breathing when compared with younger subjects. Respiratory muscle strength also decreases with ageing, and is strongly correlated with nutritional status and cardiac index. Expiratory flow rates decrease with a characteristic alteration in the flow-volume curve suggesting small airway disease. The ventilation-perfusion ratio (V'A/Q') heterogeneity increases, with low V'A/Q' zones appearing as a result of premature closing of dependent airways. Carbon monoxide transfer decreases with age, reflecting mainly a loss of surface area. In spite of these changes, the respiratory system remains capable of maintaining adequate gas exchange at rest and during exertion during the entire lifespan, with only a slight decrease in arterial oxygen tension, and no significant change in arterial carbon dioxide tension. Ageing tends to diminish the reserve of the respiratory system in cases of
acute disease
. Decreased sensitivity of respiratory centres to hypoxia or
hypercapnia
results in a diminished ventilatory response in cases of heart failure, infection or aggravated airway obstruction. Furthermore, decreased perception bronchoconstriction and diminished physical activity may result in lesser awareness of the disease and delayed diagnosis.
...
PMID:Physiological changes in respiratory function associated with ageing. 1083 48
We attempted to decrease PCO2 during noninvasive ventilation (NIV) and studied he effects of this therapy both in acute exacerbations of chronic obstructive pulmonary disease (COPD) and in its chronic state. Ninety six patients (63% male) with COPD and
hypercapnia
above 6.7 kPa were investigated. The mode and setting of the ventilator had to be chosen to achieve normocapnia. The subgroup of acute exacerbated COPD was separated by pH (<7.35=acute), by HCO3- (<26 mmol/l=acute), and by history (acute=history of recent deterioration). Ventilator settings were the following: tidal volume-972+/-137 ml and frequency-20+/-2.2 (volume preset). Inspiratory pressure was 33.6+/-14.2 mbar and frequency-19.7+/-5.1 (pressure preset). The preference of volume preset ventilators resulted from insufficient maximal pressures of the pressure preset devices. Eighty three percent of the patients became normocapnic while on NIV after 6.8+/-5.7 days. The mean PCO2 decreased from 64+/-13 mmHg to 41+/-6 mmHg (P<0.001). After 4 weeks, 72% of the patients were normocapnic while breathing spontaneously (P<0.001). The subgroups of acute exacerbation were the following: pH 28%, HCO3- 3.1%, and history 68%. All three indicators together were present in 2% of patients. Normocapnia under ventilation and during spontaneous breathing was independent from the subgroup. In conclusion, the study showed that normocapnia can be achieved in COPD under the ventilator and while breathing spontaneously in chronic and
acute disease
.
...
PMID:Normocapnia following noninvasive ventilation in acute exacerbations and chronic state of obstructive pulmonary disease. 1820 45
