Central CO2 chemosensitivity and CO2 controller gain independently contribute to daytime Pco2 in young subjects with congenital central hypoventilation syndrome

• Published in: Journal of applied physiology (1985) Vol. 135; no. 2; p. 343
• Main Authors: Bokov, Plamen, Dudoignon, Benjamin, Patout, Maxime, Matrot, Boris, Gallego, Jorge, Delclaux, Christophe
• Format: Journal Article
• Language: English
• Published: 01.08.2023
• ISSN: 1522-1601; 1522-1601
• DOI: 10.1152/japplphysiol.00182.2023

Whether peripheral chemoreceptor response is altered in congenital central hypoventilation syndrome (CCHS) remains debated. Our aim was to prospectively evaluate both peripheral and central CO2 chemosensitivity and to evaluate their correlations with daytime Pco2 and arterial desaturation during exercise in CCHS. To this end, tidal breathing was recorded in patients with CCHS allowing the calculation of loop gain and its components {steady-state controller (assumed to mainly be peripheral chemosensitivity) and plant gains using a bivariate [end-tidal Pco2 ([Formula: see text]) and ventilation] constrained model}, a hyperoxic, hypercapnic ventilatory response test (central chemosensitivity), and a 6-min walk test (arterial desaturation). The results of loop gain were compared with those previously obtained in a healthy group of similar age. The study prospectively included 23 subjects with CCHS, without daytime ventilatory support; the subjects had a median age of 10 (5.6 to 27.4) yr (15 females) with moderate polyalanine repeat mutation (PARM: 20/25, 20/26, n = 11), severe PARM (20/27, 20/33, n = 8), or non-PARM (n = 4). As compared with 23 healthy subjects (4.9-27.0 yr), the subjects with CCHS had a decreased controller gain and an increased plant gain. Mean daytime [Formula: see text] level of subjects with CCHS correlated negatively to both Log(controller gain) and the slope of CO2 response. Genotype was not related to chemosensitivity. Arterial desaturation on exercise correlated negatively with Log(controller) gain but not with the slope of the CO2 response. In conclusion, we demonstrate that peripheral CO2 chemosensitivity is altered in some patients with CCHS and that the daytime [Formula: see text] depends on central and peripheral chemoreceptor responses.NEW & NOTEWORTHY Altered central CO2 chemosensitivity is a hallmark of congenital central hypoventilation syndrome (CCHS). Peripheral CO2 chemosensitivity can be partly assessed by controller gain measurement obtained from tidal breathing recording. In young subjects with CCHS, this study shows that both central and peripheral CO2 sensitivities independently contribute to daytime Pco2. Hypocapnia during nighttime-assisted ventilation is associated with higher peripheral chemosensitivity that is further associated with lesser arterial desaturation at walk.Whether peripheral chemoreceptor response is altered in congenital central hypoventilation syndrome (CCHS) remains debated. Our aim was to prospectively evaluate both peripheral and central CO2 chemosensitivity and to evaluate their correlations with daytime Pco2 and arterial desaturation during exercise in CCHS. To this end, tidal breathing was recorded in patients with CCHS allowing the calculation of loop gain and its components {steady-state controller (assumed to mainly be peripheral chemosensitivity) and plant gains using a bivariate [end-tidal Pco2 ([Formula: see text]) and ventilation] constrained model}, a hyperoxic, hypercapnic ventilatory response test (central chemosensitivity), and a 6-min walk test (arterial desaturation). The results of loop gain were compared with those previously obtained in a healthy group of similar age. The study prospectively included 23 subjects with CCHS, without daytime ventilatory support; the subjects had a median age of 10 (5.6 to 27.4) yr (15 females) with moderate polyalanine repeat mutation (PARM: 20/25, 20/26, n = 11), severe PARM (20/27, 20/33, n = 8), or non-PARM (n = 4). As compared with 23 healthy subjects (4.9-27.0 yr), the subjects with CCHS had a decreased controller gain and an increased plant gain. Mean daytime [Formula: see text] level of subjects with CCHS correlated negatively to both Log(controller gain) and the slope of CO2 response. Genotype was not related to chemosensitivity. Arterial desaturation on exercise correlated negatively with Log(controller) gain but not with the slope of the CO2 response. In conclusion, we demonstrate that peripheral CO2 chemosensitivity is altered in some patients with CCHS and that the daytime [Formula: see text] depends on central and peripheral chemoreceptor responses.NEW & NOTEWORTHY Altered central CO2 chemosensitivity is a hallmark of congenital central hypoventilation syndrome (CCHS). Peripheral CO2 chemosensitivity can be partly assessed by controller gain measurement obtained from tidal breathing recording. In young subjects with CCHS, this study shows that both central and peripheral CO2 sensitivities independently contribute to daytime Pco2. Hypocapnia during nighttime-assisted ventilation is associated with higher peripheral chemosensitivity that is further associated with lesser arterial desaturation at walk.