# Fentanyl’s Deadly Footprint: A New Framework for Predicting Overdose Hotspots

**Authors:** Deborah Okunola, Abdulazeez Alabi, Olajide Akinpeloye, Osayimwense Izinyon, Tope Amusa

PMC · DOI: 10.7759/cureus.100756 · 2026-01-04

## TL;DR

This paper introduces a new framework to predict fentanyl overdose hotspots using diverse data sources and emphasizes the need for equitable and accurate forecasting.

## Contribution

The paper proposes a three-tier framework integrating multiple data streams for predicting fentanyl overdose hotspots with equity and governance considerations.

## Key findings

- Fentanyl overdose burden is strongly clustered in structurally vulnerable micro-areas.
- Bayesian forecasting and nowcasting models provide short-term predictions of overdose hotspots.
- Wastewater and social media data offer early warning potential in areas with limited surveillance.

## Abstract

Illicitly manufactured fentanyl has become a major driver of fatal drug overdoses in the United States, with annual mortality approaching six figures. Spatial analyses consistently demonstrate that the overdose burden clusters within structurally vulnerable micro-areas rather than distributing uniformly across regions. A narrative review of US studies (2010-2025) synthesized evidence from mortality, emergency department, emergency medical services, wastewater, social media, and related data streams that examined small-area patterns or the prediction of fentanyl or synthetic opioid overdose. Evidence shows a strongly clustered fentanyl burden, with small-area mapping identifying persistent hotspots and Bayesian forecasting and nowcasting models providing short-horizon predictions. Emerging wastewater and social media indicators offer additional early warning capacity, especially where routine surveillance is sparse. However, external validation, calibration reporting, uncertainty characterization, and equity-sensitive performance metrics are uncommon. This review organizes these strands into a three-tier framework--mortality-only, EMS and emergency department, and multi-stream environments--that links mapping, forecasting, and spike detection to operational response while embedding explicit equity and governance safeguards.

## Linked entities

- **Chemicals:** fentanyl (PubChem CID 3345)

## Full-text entities

- **Diseases:** opioid (MESH:D009293), Overdose (MESH:D062787)
- **Chemicals:** Fentanyl (MESH:D005283)

## Figures

2 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12765505/full.md

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Source: https://tomesphere.com/paper/PMC12765505