Drug Stability (IV) Lecture Notes PDF
Document Details
2024
Bahaa Mustafa
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Summary
These lecture notes detail drug stability, specifically covering the Q10 method for shelf-life estimation and stability testing protocols. They explain how temperature changes affect drug decomposition rates and how to estimate shelf life.
Full Transcript
Drug Stability (IV) Bahaa Mustafa, Ph.D. Pharmaceutics I (PSCI71303) 34 09/19/2024 Learning Objectives Understand the Q10 method for shelf life determination. Know the drug stability testing process. Estimat...
Drug Stability (IV) Bahaa Mustafa, Ph.D. Pharmaceutics I (PSCI71303) 34 09/19/2024 Learning Objectives Understand the Q10 method for shelf life determination. Know the drug stability testing process. Estimation of shelf life using Q10 method. Discuss the stability testing protocols and frequency of testing. 35 Q10 Method (Shelf-Life Estimation) The rate of a chemical reaction (including drug decomposition) depends on temperature (T). It is generally accepted that a 10 ºC change in T gives a 3 times difference in the rate. Q10 temperature coefficient: a measure of the rate of change of the chemical reaction as a consequence of the temperature being increased by 10 °C. For most reactions, Q10= 3 For example: o K1 is the rate constant for a drug decomposition at T1 o The drug decomposition at T2 (T2=10+T1) will have a rate constant k2 (k2=3k1) In other words, Q10 is the ratio of the two different reaction rate Degradation of powdered p-aminosalicylic acid in a dry atmosphere at elevated temperatures constants (Q10= k2/k1=3) when the difference in temperature is 10oC. 36 Q10 Method (Shelf-Life Estimation) This method helps the compounding pharmacist to estimate shelf life for a product that has been stored or is going to be stored under a different set of conditions than specified in the product labeling. For example, we can estimate the shelf life of product when stored at room temperature vs. under refrigeration. Another example, if the expiration date is given for room temperature. What is the expected extension of the shelf life when the product is stored in a refrigerator? It is also a useful tool for estimating the shelf life for real-time stability testing of a pharmaceutical product from elevated temperature studies (accelerated studies). 37 Q10 Method (Shelf-Life Estimation) T: absolute temperature (0oC=273K) ∆T=T2-T1 Q10=3 38 Q10 Method (Shelf-Life Estimation) An increase in ∆T (T2>T1) will decrease the shelf-life, while a decrease in ∆T (T2T1) will shorten the shelf-life, and storing it at a cooler temperature (T2
