Low-dose acetazolamide increased ventilation from 258 to 292 ml/min/kg (p<=0.05) and reduced the slopes of tidal volume to phrenic activity by about 40% in anesthetized rabbits.
Does intravenous acetazolamide affect respiratory muscle function in anesthetized spontaneously breathing rabbits?
Low-dose acetazolamide reduces respiratory muscle function in a rabbit model, suggesting potential adverse effects in hypercapnic COPD patients with weakened respiratory muscles.
Absolute Event Rate: 292% vs 258%
p-value: p=<=0.05
Patients with chronic obstructive pulmonary diseases (COPD) and/or central sleep apnea are sometimes treated with the carbonic anhydrase inhibitor acteazolamide to improve blood gas values. Studies have shown that this agent may have a complicated effect on lung ventilation, because carbonic anhydrase has a widespread distribution within the body, particularly in tissues involved in the control of breathing. To investigate whether acetazolamide may have (neuro)muscular effects on respiration, we measured the responses of ventilation, phrenic nerve activity, and transpulmonary pressure to changes in arterial PCO2 before and after intravenous administration of a low-dose (4.6 +/- 0.2 mg x kg(-1), mean +/- SEM) of this inhibitor in anesthetized spontaneously breathing rabbits. The agent decreased the mean resting end-tidal PCO2 by 1 kPa and increased ventilation from 258 +/- 15 to 292 +/- 14 ml x min(-1) x kg(-1) (p < or = 0.05). The ventilatory and tidal volume responses to CO2 were reduced, and the response curves were shifted to lower PCO2 values. At the level of phrenic activity, however, the response was shifted leftward without altering CO2 sensitivity. With an unchanged lung compliance, the slopes of the relationships between tidal volume and phrenic activity and that between the tidal change in transpulmonary pressure and phrenic amplitude were both reduced by about 40%, indicating an action of acetazolamide on (neuro)muscular level. The results raise the suggestion that treatment of some hypercapnic COPD patients with acetazolamide may have undesired clinical implications, particularly in those with already weakened respiratory muscles.
Kiwull-Schöne et al. (Thu,) conducted a other in Anesthetized spontaneously breathing rabbits. Acetazolamide vs. Before administration (baseline) was evaluated on Ventilation (ml x min(-1) x kg(-1)) (p=<=0.05). Low-dose acetazolamide increased ventilation from 258 to 292 ml/min/kg (p<=0.05) and reduced the slopes of tidal volume to phrenic activity by about 40% in anesthetized rabbits.