A new study published in the American Journal of Respiratory and Critical Care Medicine has tested a sleep apnoea treatment using a drug that inhibits carbonic anhydrase – an enzyme that balances carbonic acid and carbon dioxide in the body. The treatment reduced breathing pauses by more than 20 per hour for patients given the drug.
Several drugs with carbonic anhydrase (CA) inhibitory properties are already available on the market, and used for treatment of glaucoma, epilepsy and other disorders.
Previous research has not systematically tested whether CA inhibitors also might be used to treat obstructive sleep apnoea. A total of 59 patients with moderate or severe sleep apnoea completed the four-week trial, and were randomised to two groups receiving either 400 or 200 mg of the CA inhibitor, and a control group that received placebo.
The results show that, overall, the treatment reduced the number of breathing pauses and promoted oxygenation during the night. A few patients experienced side effects, such as headache and breathlessness, which were more common in those receiving the highest dose.
The study results together with established safety data of the drug sulthiame provide support for continued research on CA inhibition as a new potential treatment for obstructive sleep apnoea.
“Among the patients who received the higher dosage of the drug, the number of breathing pauses decreased by approximately 20 per hour. For just over a third of patients in the study, only half of their breathing pauses were left, and in one in five the number fell by at least 60 percent,” said first authpr Professor Jan Hedner.
The fact that several approved drugs in the CA inhibitor category are available on the market makes fast-tracking development of an approved drug for sleep apnoea practicable. The drug used in this clinical trial was sulthiame, which is sometimes used to treat epilepsy in children.
Current treatment for a patient with sleep apnoea is either an oral appliance therapy or a CPAP (Continuous Positive Airway Pressure) mask. Both help to maintain airway patency during sleep.
“These therapy options take time to get used to and, since they frequently are perceived as intrusive or bulky. Insufficient user time is therefore common. If we develop an effective drug, it will therefore make life easier for many patients and, in the long run, potentially also save more lives,” said senior author Ludger Grote.
Source: University of Gothenburg
