AIMS: To assess the effects due to an uncomplicated acute upper respiratory tract infection (URTI) on the pharmacokinetics and glucose response of insulin when delivered by oral pulmonary absorption. METHODS: Normally healthy adult men (n = 11) and women (n = 9) received a single dose of inhaled human insulin, equivalent to approximately 6 IU subcutaneous, using the AERx insulin Diabetes Management System (iDMS), during and following recovery from an URTI. The first dose was administered with ongoing symptoms of < 3 days' duration, the second dose following recovery, and within 3 weeks of the first. Blood sampling for determination of insulin pharmacokinetics (serum AUC(0-6 h), AUC(0-8), C(max),t(max), t(1/2), MRT) and glucose response (plasma AOC(0-6 h)) was performed from 15 min predose to 6 h postdose. RESULTS: Insulin pharmacokinetics were not different for subjects during and following recovery from URTI [e.g. URTI: no URTI ratio in serum AUC(0-6 h) = 0.92 (95% confidence interval 0.81, 1.05)]; this was reflected by a similar glucose response. Inhaled insulin delivered by AERx iDMS was well tolerated by all subjects; no significant changes were observed in pulmonary function tests. No safety concerns arising from the mode of insulin administration were raised by either dose. CONCLUSIONS: The results suggest that insulin can be administered via AERx iDMS to nondiabetic subjects experiencing a URTI without any statistically significant changes in insulin pharmacokinetics or pharmacodynamics, and that the necessity for dose adjustments will not differ from subjects with an acute URTI who are receiving subcutaneous insulin.
AIMS: To assess the effects due to an uncomplicated acute upper respiratory tract infection (URTI) on the pharmacokinetics and glucose response of insulin when delivered by oral pulmonary absorption. METHODS: Normally healthy adult men (n = 11) and women (n = 9) received a single dose of inhaled humaninsulin, equivalent to approximately 6 IU subcutaneous, using the AERx insulin Diabetes Management System (iDMS), during and following recovery from an URTI. The first dose was administered with ongoing symptoms of < 3 days' duration, the second dose following recovery, and within 3 weeks of the first. Blood sampling for determination of insulin pharmacokinetics (serum AUC(0-6 h), AUC(0-8), C(max),t(max), t(1/2), MRT) and glucose response (plasma AOC(0-6 h)) was performed from 15 min predose to 6 h postdose. RESULTS:Insulin pharmacokinetics were not different for subjects during and following recovery from URTI [e.g. URTI: no URTI ratio in serum AUC(0-6 h) = 0.92 (95% confidence interval 0.81, 1.05)]; this was reflected by a similar glucose response. Inhaled insulin delivered by AERx iDMS was well tolerated by all subjects; no significant changes were observed in pulmonary function tests. No safety concerns arising from the mode of insulin administration were raised by either dose. CONCLUSIONS: The results suggest that insulin can be administered via AERx iDMS to nondiabetic subjects experiencing a URTI without any statistically significant changes in insulin pharmacokinetics or pharmacodynamics, and that the necessity for dose adjustments will not differ from subjects with an acute URTI who are receiving subcutaneous insulin.
Authors: S J Farr; A McElduff; L E Mather; J Okikawa; M E Ward; I Gonda; V Licko; R M Rubsamen Journal: Diabetes Technol Ther Date: 2000 Impact factor: 6.118
Authors: G A Brunner; B Balent; M Ellmerer; L Schaupp; A Siebenhofer; J H Jendle; J Okikawa; T R Pieber Journal: Diabetologia Date: 2001-03 Impact factor: 10.122
Authors: Anders Himmelmann; Johan Jendle; Anders Mellén; Astrid H Petersen; Ulf L Dahl; Per Wollmer Journal: Diabetes Care Date: 2003-03 Impact factor: 19.112
Authors: Robert R Henry; Sunder R D Mudaliar; William C Howland; Neelima Chu; Dennis Kim; Bob An; Rickey R Reinhardt Journal: Diabetes Care Date: 2003-03 Impact factor: 19.112