1. Academic Validation
  2. A positron emission tomography microdosing study with a potential antiamyloid drug in healthy volunteers and patients with Alzheimer's disease

A positron emission tomography microdosing study with a potential antiamyloid drug in healthy volunteers and patients with Alzheimer's disease

  • Clin Pharmacol Ther. 2006 Sep;80(3):216-27. doi: 10.1016/j.clpt.2006.05.007.
Martin Bauer 1 Oliver Langer Peter Dal-Bianco Rudolf Karch Martin Brunner Aiman Abrahim Rupert Lanzenberger Andrea Hofmann Christian Joukhadar Paolo Carminati Orlando Ghirardi Paola Piovesan Gianluigi Forloni Mario E Corrado Nadège Lods Robert Dudczak Eduard Auff Kurt Kletter Markus Müller
Affiliations

Affiliation

  • 1 Department of Clinical Pharmacology, Division of Clinical Pharmacokinetics, University of Vienna, Vienna, Austria.
Abstract

This work describes a microdosing study with an investigational, carbon 11-labeled antiamyloid drug, 1,1'-methylene-di-(2-naphthol) (ST1859), and positron emission tomography (PET) in healthy volunteers (n = 3) and patients with Alzheimer's disease (n = 6). The study aimed to assess the distribution and local tissue pharmacokinetics of the study drug in its target organ, the human brain. Before PET studies were performed in humans, the toxicologic characteristics of ST1859 were investigated by an extended single-dose toxicity study according to guidelines of the Food and Drug Administration and European Medicines Agency, which are relevant for clinical trials with a single microdose. After intravenous bolus injection of 341 +/- 21 MBq [(11)C]ST1859 (containing <11.4 nmol of unlabeled ST1859), peripheral metabolism was rapid, with less than 20% of total plasma radioactivity being in the form of unchanged parent drug at 10 minutes after administration. In both the control and patient groups, uptake of radioactivity into the brain was relatively fast (time to reach maximum concentration, 9-17 minutes) and pronounced (maximum concentration [standardized uptake value], 1.3-2.2). In both healthy volunteers and patients, there was a rather uniform distribution of radioactivity in the brain, including both amyloid-beta-rich and -poor regions, with slow washout of radioactivity (half-life, 82-185 minutes). In conclusion, these data provide important information on the blood-brain barrier penetration and metabolism of an investigational antiamyloid drug and suggest that the PET microdosing approach is a useful method to describe the target-organ pharmacokinetics of radiolabeled drugs in humans.

Figures
Products