PURPOSE: We performed population pharmacokinetic (PK) analysis of a novel transdermal donepezil patch in healthy subjects who participated in a phase I trial. We also studied the optimal dosage regimen with repeated patch application for achieving a therapeutic range using a PK simulation model. METHODS: This study used data from a randomized, single-dose escalation phase I clinical trial conducted in Korea. The population PK analysis was performed using NONMEM software, version 7.3. From the final PK model, we simulated repeat patch application results assuming various transdermal absorption rates. RESULTS: Based on the clinical trial data, novel donepezil patches with doses of 43.75 mg/12.5 cm(2), 87.5 mg/25 cm(2), and 175 mg/50 cm(2) were placed on each subject. A linear one-compartment, first-order elimination with sequential zero- and first-order absorption model best described the donepezil plasma concentrations after patch application. Simulated results on the basis of the PK model showed that repeat application of the patches of 87.5 mg/25 cm(2) and 175 mg/50 cm(2) every 72 h would cover the therapeutic range of donepezil and reach steady-state faster with fewer fluctuations in concentration compared to typical oral administrations. CONCLUSION: A linear one-compartment with sequential zero- and first-order absorption model was effective for describing the PKs of donepezil after application of patch. Based on this analysis, 87.5 mg/25 cm(2) or 175 mg/50 cm(2) patch application every 72 h is expected to achieve the desired plasma concentration of donepezil.
RCT Entities:
PURPOSE: We performed population pharmacokinetic (PK) analysis of a novel transdermal donepezil patch in healthy subjects who participated in a phase I trial. We also studied the optimal dosage regimen with repeated patch application for achieving a therapeutic range using a PK simulation model. METHODS: This study used data from a randomized, single-dose escalation phase I clinical trial conducted in Korea. The population PK analysis was performed using NONMEM software, version 7.3. From the final PK model, we simulated repeat patch application results assuming various transdermal absorption rates. RESULTS: Based on the clinical trial data, novel donepezil patches with doses of 43.75 mg/12.5 cm(2), 87.5 mg/25 cm(2), and 175 mg/50 cm(2) were placed on each subject. A linear one-compartment, first-order elimination with sequential zero- and first-order absorption model best described the donepezil plasma concentrations after patch application. Simulated results on the basis of the PK model showed that repeat application of the patches of 87.5 mg/25 cm(2) and 175 mg/50 cm(2) every 72 h would cover the therapeutic range of donepezil and reach steady-state faster with fewer fluctuations in concentration compared to typical oral administrations. CONCLUSION: A linear one-compartment with sequential zero- and first-order absorption model was effective for describing the PKs of donepezil after application of patch. Based on this analysis, 87.5 mg/25 cm(2) or 175 mg/50 cm(2) patch application every 72 h is expected to achieve the desired plasma concentration of donepezil.
Authors: G Lefèvre; G Sedek; S S Jhee; M T Leibowitz; H-La Huang; A Enz; S Maton; L Ereshefsky; F Pommier; H Schmidli; S Appel-Dingemanse Journal: Clin Pharmacol Ther Date: 2007-05-23 Impact factor: 6.875
Authors: Bengt Winblad; Jeffrey Cummings; Niels Andreasen; George Grossberg; Marco Onofrj; Carl Sadowsky; Stefanie Zechner; Jennifer Nagel; Roger Lane Journal: Int J Geriatr Psychiatry Date: 2007-05 Impact factor: 3.485
Authors: Valtteri Kaasinen; Kjell Någren; Tarja Järvenpää; Anne Roivainen; Meixiang Yu; Vesa Oikonen; Timo Kurki; Juha O Rinne Journal: J Clin Psychopharmacol Date: 2002-12 Impact factor: 3.153
Authors: Josephine F Reyes; Ramon Vargas; Dinesh Kumar; Edward I Cullen; Carlos A Perdomo; Raymond D Pratt Journal: Br J Clin Pharmacol Date: 2004-11 Impact factor: 4.335
Authors: Matthew W Linakis; Joseph E Rower; Jessica K Roberts; Eleanor I Miller; Diana G Wilkins; Catherine M T Sherwin Journal: Br J Clin Pharmacol Date: 2017-09-06 Impact factor: 4.335