# A new conceptual framework for managing hamstring injury risk in soccer – implementing a data-informed approach: a narrative review

**Authors:** Guglielmo Pillitteri, Filipe Manuel Clemente, Marco Petrucci, Hugo Sarmento, Antonio Figueiredo, Tindaro Bongiovanni, Antonino Bianco, Giuseppe Battaglia, Tim J. Gabbett

PMC · DOI: 10.5114/biolsport.2025.151660 · Biology of Sport · 2025-09-16

## TL;DR

This paper proposes a new framework for managing hamstring injury risk in soccer by integrating data on training load and mechanical stress, aiming to improve injury prevention strategies.

## Contribution

The paper introduces two novel concepts—acute mechanical load tissue exposure (AMLTE) and chronic muscle tolerance to load (CMTTL)—to better understand and manage hamstring injury risk.

## Key findings

- High external training loads, such as high-speed running and sprinting, are associated with non-contact hamstring injuries.
- A multilevel causation framework highlights that while training load is significant, it is not the sole cause of injuries.
- The proposed framework aims to support data-informed injury risk management and training strategies in soccer.

## Abstract

The multifactorial and complex nature of athletic injuries complicates the establishment of clear cause-and-effect relationships, making it challenging to pinpoint precise injury aetiology in the operational field. Research has explored the connection between injuries and training load (TL), identifying an association between high external loads (EL)—such as high-speed running (HSR) and sprinting—and non-contact hamstring injuries. Despite this, injury prevention remains largely ineffective, possibly reflecting a gap between scientific knowledge and practical application, as well as cognitive biases in translating research into real-world scenarios. This paper aims to: 1) summarize key findings on non-contact injuries in soccer, focusing on risk factors and the TL–injury relationship; 2) describe major conceptual frameworks and highlight cognitive biases when attributing injuries exclusively to TL; 3) propose new conceptual frameworks for non-contact injuries, with a primary focus on hamstring injuries. Using a qualitative approach, we present a multilevel causation framework that underscores the significant—but not exclusive—role of sprinting and TL in injury occurrence. We introduce two key concepts: acute mechanical load tissue exposure (AMLTE), referring to the peak acute mechanical stress a muscle can tolerate, and chronic muscle tolerance to load (CMTTL), representing the capacity to endure load over time. We aimed to support a data-informed approach to injury risk management and TL monitoring in daily practice. While we stress that TL and sprinting are not the sole causes of injury, we assert their relevance within a multifactorial model. This framework may assist professionals in developing more effective training strategies and injury prevention practices.

## Full-text entities

- **Diseases:** athletic injuries (MESH:D001265), hamstring injuries (MESH:D014947), TL (MESH:C536761)

## Full text

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## Figures

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## References

160 references — full list in the complete paper: https://tomesphere.com/paper/PMC12884901/full.md

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Source: https://tomesphere.com/paper/PMC12884901