Thermal Injection Measurement (TIM) Adds Accuracy to Injections and Can Assess Cold Chain Management.

BACKGROUND: Inaccurate assessment of injected drug delivery may increase cost and morbidity or reduce efficacy. Yet currently most injections are evaluated solely by the formation of a visible wheal that might not truly estimate the actual area of effect. We hypothesized that thermal injection measurement (TIM) might verify appropriate temperature at the time of injection, as required for some temperature-sensitive vaccines and provide more accurate information about the area of delivery. METHODS: 0.1 mL of either iced (n = 11) or room temperature (n = 17) methylene blue solution was injected subcutaneously in mice under anesthesia and photos taken with an iPhone 7 built-in camera and Thermal Seek Camera phone plug-in. After 5 min, true values were determined at necropsy. RESULTS: TIM was closer in value to the measured area at necropsy than the area of the visualized skin wheal at both ice temperature and room temperature. The difference between the true value and thermal area assessment of iced solution averaged 0.15 cm2 as compared with the difference between the true value and wheal size, which averaged 0.27 cm2 (P = 0.04). At room temperature, this was maintained for thermal and visible wheal differences, 0.23 cm2 and 0.65 cm2, respectively (P = 0.0006). CONCLUSIONS: TIM can assess temperature at the time of injection and is more accurate than visual inspection. TIM could be applied to colorless injections and areas that are hard to visualize such as scar. As a portable phone plug-in, it might be a useful adjunct to aid the evaluation of injected drug delivery including in resource-limited settings.