Author: Zuiki, Masashi; Naito, Yuki; Kitamura, Kazumasa; Tsurukawa, Shinichiro; Matsumura, Utsuki; Kanayama, Takuyo; Komatsu, Hiroshi
Title: Reduction in minute alveolar ventilation causes hypercapnia in ventilated neonates with respiratory distress Cord-id: lxs2ocwg Document date: 2020_8_3
ID: lxs2ocwg
Snippet: Hypercapnia occurs in ventilated infants even if tidal volume (V(T)) and minute ventilation (V(E)) are maintained. We hypothesised that increased physiological dead space (V(d,phys)) caused decreased minute alveolar ventilation (V(A); alveolar ventilation (V(A)) × respiratory rate) in well-ventilated infants with hypercapnia. We investigated the relationship between dead space and partial pressure of carbon dioxide (PaCO(2)) and assessed V(A). Intubated infants (n = 33; mean birth weight, 2257
Document: Hypercapnia occurs in ventilated infants even if tidal volume (V(T)) and minute ventilation (V(E)) are maintained. We hypothesised that increased physiological dead space (V(d,phys)) caused decreased minute alveolar ventilation (V(A); alveolar ventilation (V(A)) × respiratory rate) in well-ventilated infants with hypercapnia. We investigated the relationship between dead space and partial pressure of carbon dioxide (PaCO(2)) and assessed V(A). Intubated infants (n = 33; mean birth weight, 2257 ± 641 g; mean gestational age, 35.0 ± 3.3 weeks) were enrolled. We performed volumetric capnography (V(cap)), and calculated V(d,phys) and V(A) when arterial blood sampling was necessary. PaCO(2) was positively correlated with alveolar dead space (V(d,alv)) (r = 0.54, p < 0.001) and V(d,phys) (r = 0.48, p < 0.001), but not Fowler dead space (r = 0.14, p = 0.12). Normocapnia (82 measurements; 35 mmHg ≤ PaCO(2) < 45 mmHg) and hypercapnia groups (57 measurements; 45 mmHg ≤ PaCO(2)) were classified. The hypercapnia group had higher V(d,phys) (median 0.57 (IQR, 0.44–0.67)) than the normocapnia group (median V(d,phys)/V(T) = 0.46 (IQR, 0.37–0.58)], with no difference in V(T). The hypercapnia group had lower V(A) (123 (IQR, 87–166) ml/kg/min) than the normocapnia group (151 (IQR, 115–180) ml/kg/min), with no difference in V(E). Conclusion: Reduction of V(A) in well-ventilated neonates induces hypercapnia, caused by an increase in V(d,phys).
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