Abstract
BackgroundBecause variable results of capsaicin challenges may be due to the incomplete solubility of capsaicin, we sought to determine if the use of Tween-80 in solutions of capsaicin improves actual concentrations of freshly prepared and stored solutions.MethodsCapsaicin solutions ranging from 0.5–128 μM were mixed with and without Tween-80. Samples of various concentrations were then stored under 4 environmental conditions: 4°C, protected from light; room temperature, protected from light; room temperature, exposed to light; -20°C. All samples were analyzed initially, and at 2 and 4 months.ResultsWhile freshly prepared solutions with Tween-80 had consistently higher concentrations than those prepared without Tween-80 (83% vs. 69%), Tween-80 does not facilitate complete solubility. For solutions stored at 4°C and protected from light, there was a significant decrease after 2 months in low concentration solutions of both the Tween-80 and non-Tween-80 solutions. Both Tween-80 and non-Tween-80 containing solutions significantly decreased in concentration after 2 months when stored at room temperature and protected from light, room temperature and exposed to light, and -20°C. Concentrations of solutions made of 4 μM or higher are stable when stored at 4°C and protected from light for 4 months.ConclusionWhile the inherent difficulty of forcing capsaicin into solution cannot be eliminated, it can be improved with Tween-80. However, the addition of Tween-80 does not prevent the breakdown of stored capsaicin solutions. We recommend preparing and storing capsaicin solutions according to the methods and results of this study.
Highlights
MethodsCapsaicin solutions ranging from 0.5–128 μM were mixed with and without Tween-80. Samples of various concentrations were stored under 4 environmental conditions: 4°C, protected from light; room temperature, protected from light; room temperature, exposed to light; -20°C
Because variable results of capsaicin challenges may be due to the incomplete solubility of capsaicin, we sought to determine if the use of Tween-80 in solutions of capsaicin improves actual concentrations of freshly prepared and stored solutions
All the Tween-80 solutions stored at room temperature and protected from light had a significant drop in concentration after 2 months (p < .001) and 4 months (p < .001) compared to baseline concentrations
Summary
Capsaicin solutions ranging from 0.5–128 μM were mixed with and without Tween-80. Samples of various concentrations were stored under 4 environmental conditions: 4°C, protected from light; room temperature, protected from light; room temperature, exposed to light; -20°C. Solution 1 (without Tween-80) was made by dissolving 39 mg of capsaicin powder (Sigma Chemical Co., St Louis, MO) in 12.5 mL of 100% ethanol; this was diluted with 0.9% sodium chloride solution to a total volume of 1 liter. 5 mL of Tween-80 (Fisher Scientific, Leicestershire, UK) was added, and the solution was diluted with 0.9% sodium chloride solution to a total volume of 1 liter. The two stock solutions of 128 μM concentration of capsaicin were repeatedly diluted 1:1 with 0.9% sodium chloride solution to make 2 sets of solutions of 64, 32, 16, 8, 4, 2, 1, and 0.5 μM. One set contained Tween-80 (from stock Solution 2) and the other set did not contain Tween (from stock Solution 1) Aliquots of these freshly made solutions were analyzed for actual concentration
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