BACKGROUND:Subcutaneous apomorphine is used for the treatment of Parkinson's disease (PD); however, infusion site reactions are a common adverse event (AE), which can lead to treatment discontinuation. Apomorphine formulations that are more tolerable and convenient for use are needed. OBJECTIVE: Our aim was to compare the toxicity and bioavailability of ND0701, a new concentrated formulation of apomorphine free base, with one of the commercially available apomorphine HCl formulations (APO-go®, Britannia Pharmaceuticals Ltd). METHODS: (1) Preclinical study: 16 minipigs were randomly assigned to placebo, APO-go®, and ND0701 groups, and treated for 28 days. Pharmacokinetic, clinical, and pathological assessments were performed. (2) Phase I study: 18 healthy volunteers participated in an open-label, two-sequence, randomized, three single-dose, partial crossover study to compare the pharmacokinetics, safety, and tolerability of ND0701 with APO-go® (1%). RESULTS: (1) Preclinical study: No systemic toxicity was observed in apomorphine-treated minipigs, but local skin reactions were observed at the infusion sites. These effects were less frequent and less severe and recovery was more rapid for ND0701 compared with APO-go®. (2) Phase I study: Both formulations were safe and well tolerated under the conditions of the study and no severe or serious treatment-emergent AEs were reported. Infusion site nodules were reported more frequently, with higher severity, and recovered slower at APO-go®-treated sites compared with ND0701-treated sites. Bioavailability of apomorphine was comparable between the two formulations. CONCLUSION: Based on these pilot studies, ND0701 appears to be superior to APO-go® in terms of tolerability and safety, while maintaining comparable bioavailability with APO-go®, and shows promise as a future treatment for PD.
RCT Entities:
BACKGROUND: Subcutaneous apomorphine is used for the treatment of Parkinson's disease (PD); however, infusion site reactions are a common adverse event (AE), which can lead to treatment discontinuation. Apomorphine formulations that are more tolerable and convenient for use are needed. OBJECTIVE: Our aim was to compare the toxicity and bioavailability of ND0701, a new concentrated formulation of apomorphine free base, with one of the commercially available apomorphine HCl formulations (APO-go®, Britannia Pharmaceuticals Ltd). METHODS: (1) Preclinical study: 16 minipigs were randomly assigned to placebo, APO-go®, and ND0701 groups, and treated for 28 days. Pharmacokinetic, clinical, and pathological assessments were performed. (2) Phase I study: 18 healthy volunteers participated in an open-label, two-sequence, randomized, three single-dose, partial crossover study to compare the pharmacokinetics, safety, and tolerability of ND0701 with APO-go® (1%). RESULTS: (1) Preclinical study: No systemic toxicity was observed in apomorphine-treated minipigs, but local skin reactions were observed at the infusion sites. These effects were less frequent and less severe and recovery was more rapid for ND0701 compared with APO-go®. (2) Phase I study: Both formulations were safe and well tolerated under the conditions of the study and no severe or serious treatment-emergent AEs were reported. Infusion site nodules were reported more frequently, with higher severity, and recovered slower at APO-go®-treated sites compared with ND0701-treated sites. Bioavailability of apomorphine was comparable between the two formulations. CONCLUSION: Based on these pilot studies, ND0701 appears to be superior to APO-go® in terms of tolerability and safety, while maintaining comparable bioavailability with APO-go®, and shows promise as a future treatment for PD.
Authors: Claudia Trenkwalder; K Ray Chaudhuri; Pedro J García Ruiz; Peter LeWitt; Regina Katzenschlager; Friederike Sixel-Döring; Tove Henriksen; Ángel Sesar; Werner Poewe; Mary Baker; Andres Ceballos-Baumann; Günther Deuschl; Sophie Drapier; Georg Ebersbach; Andrew Evans; Hubert Fernandez; Stuart Isaacson; Teus van Laar; Andrew Lees; Simon Lewis; Juan Carlos Martínez Castrillo; Pablo Martinez-Martin; Per Odin; John O'Sullivan; Georgios Tagaris; Karoline Wenzel Journal: Parkinsonism Relat Disord Date: 2015-06-17 Impact factor: 4.891
Authors: Jeffrey A Willy; Nanette E Schulte; Emiko L Kreklau; Jennie L Walgren; Matthew L Renninger; Thomas K Baker Journal: Toxicol Sci Date: 2016-03-11 Impact factor: 4.849
Authors: Jayoung Kim; Yongsheng Gao; Zongmin Zhao; Danika Rodrigues; Eden E L Tanner; Kelly Ibsen; Pradip K Sasmal; Rajasekhar Jaladi; Shanavas Alikunju; Samir Mitragotri Journal: Proc Natl Acad Sci U S A Date: 2022-03-01 Impact factor: 12.779