An Enzyme-Mediated Assay to Quantify Inoculation Volume Delivered by Suture Needlestick Injury: Two Gloves Are Better Than One

Abstract

Acquiring a blood-borne disease is a risk of performing operations. Most data about seroconversion are based on hollow-bore needlesticks. Some studies have examined the inoculation volumes of pure blood delivered by suture needles. There is a lack of data about the effect of double-gloving on contaminant transmission in less viscous fluids that are not prone to coagulation. We used enzymatic colorimetry to quantify the volume of inoculation delivered by a suture needle that was coated with an aqueous contaminant. Substrate color change was measured using a microplate reader. Both cutting and tapered suture needles were tested against five different glove types and differing numbers of glove layers (from zero to three). One glove layer removed 97% of contaminant from tapered needles and 65% from cutting needles, compared with the no-glove control data. Additional glove layers did not significantly improve contaminant removal from tapered needles (p > 0.05). For the cutting needle, 2 glove layers removed 91% of contaminant, which was significantly better than a single glove (p = 0.002). Three glove layers did not afford statistically significant additional protection (p = 0.122). There were no statistically significant differences between glove types (p = 0.41). With an aqueous needle contaminant, a single glove layer removes contaminant from tapered needles as effectively as multiple glove layers. For cutting needles, double-glove layering offers superior protection. There is no advantage to triple-glove layering. A surgeon should double-glove for maximum safety. Additionally, a surgeon should take advantage of other risk-reduction strategies, such as sharps safety, risk management, and use of sharpless instrumentation when possible.