Insights from biosurveillance: non-fatal opioid overdoses in Rhode Island 2019-21.

Abstract

Opioids biosurveillance is a new approach to public health surveillance of non-fatal overdoses that relies upon laboratory analysis of residual biospecimens from hospitals treating opioids overdoses. In Rhode Island (RI), USA, hospitals report suspected opioid overdoses to the Department of Health. Residual specimens associated with these overdoses are submitted to the State Health Laboratories for further characterization. This surveillance project aimed to characterize non-fatal overdoses through toxicological testing of urine specimens associated with non-fatal overdoses during the initial 2-year period of biosurveillance implementation in RI to assess the feasibility and public health utility of this approach. This study included individuals who presented for treatment for a suspected opioid overdose in 10 RI hospitals between July 2019 and June 2021. Urine samples were received for 1354 unique overdose encounters corresponding to reported overdoses. Some individuals experienced multiple overdoses during this time. Urine samples were extracted and then analyzed by liquid chromatography tandem mass spectrometry with a panel consisting of 1033 opiates, synthetic opioids, fentanyl analogs and select metabolites. Temporal and spatial trends were evaluated for the studied population. A total of 1354 samples were tested for the presence of opioids in urine collected from individuals who experienced a suspected overdose. Fentanyl (and/or norfentanyl) was present in 79% of all samples in which opioids were found (n = 1033). Fentanyl analogs varied in their contribution to these totals, with observations ranging as high as 35% of all opioid-containing samples in August 2019 and May 2021. Laboratory identification of opioids involved in suspected overdoses shows that fentanyl and its analogs are the main drivers of the opioids overdose epidemic in Rhode Island, USA. The biosurveillance approach is unique in its ability to quantify contributions of novel fentanyl analogs to the burden of overdoses.