Evaluation of Physical and Chemical Changes in Pharmaceuticals Flown on Space Missions

Evaluation of Physical and Chemical Changes in Pharmaceuticals Flown on Space Missions

Efficacy and safety of medications used for the treatment of astronauts in space may be compromised by altered stability in space. We compared physical and chemical changes with time in 35 formulations contained in identical pharmaceutical kits stowed on the International Space Station (ISS) and on...

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Bibliographic Details
Published in:The AAPS journal Vol. 13; no. 2; pp. 299 - 308
Main Authors: Du, Brian, Daniels, Vernie R., Vaksman, Zalman, Boyd, Jason L., Crady, Camille, Putcha, Lakshmi
Format: Journal Article
Language:English
Published: Boston Springer US 01-06-2011
Subjects:
Biochemistry
Biomedical and Life Sciences
Biomedicine
Biotechnology
Chromatography, High Pressure Liquid
Drug Stability
Drug Storage
Humidity
Pharmaceutical Preparations - chemistry
Pharmaceutical Preparations - radiation effects
Pharmacology/Toxicology
Pharmacy
Radiation Dosage
Radiation, Ionizing
Research Article
Solubility
Space Flight
Spacecraft
Temperature
Time Factors
space radiation
potency
pharmaceutical stability
chromatography
dissolution
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Summary:Efficacy and safety of medications used for the treatment of astronauts in space may be compromised by altered stability in space. We compared physical and chemical changes with time in 35 formulations contained in identical pharmaceutical kits stowed on the International Space Station (ISS) and on Earth. Active pharmaceutical content (API) was determined by ultra- and high-performance liquid chromatography after returning to Earth. After stowage for 28 months in space, six medications aboard the ISS and two of matching ground controls exhibited changes in physical variables; nine medications from the ISS and 17 from the ground met the United States Pharmacopeia (USP) acceptance criteria for API content after 28 months of storage. A higher percentage of medications from each flight kit had lower API content than the respective ground controls. The number of medications failing API requirement increased as a function of time in space, independent of expiration date. The rate of degradation was faster in space than on the ground for many of the medications, and most solid dosage forms met USP standard for dissolution after storage in space. Cumulative radiation dose was higher and increased with time in space, whereas temperature and humidity remained similar to those on the ground. Exposure to the chronic low dose of ionizing radiation aboard the spacecraft as well as repackaging of solid dosage forms in flight-specific dispensers may adversely affect stability of pharmaceuticals. Characterization of degradation profiles of unstable formulations and identification of chemical attributes of stability in space analog environments on Earth will facilitate development of space-hardy medications.
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ISSN:1550-7416
1550-7416
DOI:10.1208/s12248-011-9270-0