Gold chloride technique to study articular innervation. A protocol validated through computer-assisted colorimetry

We studied variations in gold chloride techniques to elicit neural elements within articular samples, after "in toto" staining. These techniques attem pt the differentiation of neural and vascular structures. Major changes in differential staining were observed when the gold chloride concentration wa s empirically modified. After the rest of the technique was standardized, w e selected three gold chloride solutions to perform quantitative color expe riments: 1%, 0.75%, and 0.5%. Significant sections of the same thickness we re acquired with a digital camera to perform computer-assisted colorimetry. Color was measured through RGB (red-green-blue) channels in vessels, nerve s, and background connective tissue as an internal control. By means of mul tivariate regression analysis, we compared differences in color measurement s after 1%, 0.75% and 0.5% gold chloride preparation. Statistically signifi cant coefficients confirmed that red color signals in vessels after the 0.7 5% and the 0.5% solution were both less intense than after the 1% preparati on. Green and blue signals in vessels were also significantly less intense after the 0.5% protocol than after using the 1% solution. Red color signals in nerves between the 1% and the 0.75% preparation protocols were more int ense and not significantly different, while the 0.5% preparation produced s ignificantly less intense red signals in nerves. Non-significant difference s were observed in green or blue signals from nerves after any protocol. We concluded that the 0.75% gold chloride solution protocol produced more int ense red signals in nerves and less intense red signals in vessels. This wa s the most discriminant protocol in our series, based on color signals.