J Li1, L Yu, R Xia, F Gao, W Luo, Y Jing. 1. Department of Otolaryngology, Head and Neck Surgery, People's Hospital, Peking University, Beijing, China.
Abstract
BACKGROUND: To investigate the feasibility of postauricular hypodermic injection for treating inner ear disorders, we compared perilymph pharmacokinetics for postauricular versus intravenous injection, using magnetic resonance imaging, in an animal model. METHODS: Twelve albino guinea pigs were divided randomly into two groups and administered gadopentetate dimeglumine via either a postauricular or an intravenous bolus injection. A 7.0 Tesla magnetic resonance imaging system was used to assess the signal intensities of gadolinium-enhanced images of the cochlea, as a biomarker for changes in gadopentetate dimeglumine concentration in the perilymph. Pharmacokinetic parameters were calculated based on these signal intensity values. RESULTS: Guinea pigs receiving postauricular injection showed longer times to peak signal intensity, longer elimination half-life, longer mean residence time and a greater area under the signal-time curve (from pre-injection to the last time point) (p < 0.05). CONCLUSION: Postauricular injection shows potential as an efficient drug delivery route for the treatment of inner ear disorders.
BACKGROUND: To investigate the feasibility of postauricular hypodermic injection for treating inner ear disorders, we compared perilymph pharmacokinetics for postauricular versus intravenous injection, using magnetic resonance imaging, in an animal model. METHODS: Twelve albino guinea pigs were divided randomly into two groups and administered gadopentetate dimeglumine via either a postauricular or an intravenous bolus injection. A 7.0 Tesla magnetic resonance imaging system was used to assess the signal intensities of gadolinium-enhanced images of the cochlea, as a biomarker for changes in gadopentetate dimeglumine concentration in the perilymph. Pharmacokinetic parameters were calculated based on these signal intensity values. RESULTS:Guinea pigs receiving postauricular injection showed longer times to peak signal intensity, longer elimination half-life, longer mean residence time and a greater area under the signal-time curve (from pre-injection to the last time point) (p < 0.05). CONCLUSION: Postauricular injection shows potential as an efficient drug delivery route for the treatment of inner ear disorders.