How much running is too much?: Identifying high-risk running sessions in a 5200-person cohort study

Jesper Schuster Brandt Frandsen; Adam Hulme; Erik Thorlund Parner; Merete Møller; Ida Lindman; Josefin Abrahamson; Nina Sjørup Simonsen; Julie Sandell Jacobsen; Daniel Ramskov; Sebastian Skejø; Laurent Malisoux; Michael Lejbach Bertelsen; Rasmus Oestergaard Nielsen

doi:10.1136/bjsports-2024-109380

How much running is too much? Identifying high-risk running sessions in a 5200-person cohort study

Jesper Schuster Brandt Frandsen
, Adam Hulme
, Erik Thorlund Parner
, Merete Møller
, Ida Lindman
, Josefin Abrahamson
, Nina Sjørup Simonsen
, Julie Sandell Jacobsen
, Daniel Ramskov
, Sebastian Skejø
, Laurent Malisoux
, Michael Lejbach Bertelsen
, Rasmus Oestergaard Nielsen^*

^*Corresponding author af dette arbejde

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avis › Tidsskriftartikel › Forskning › peer review

1 Citationer (Scopus)

Abstract

OBJECTIVES: We explored whether a spike in running distance during a single session or over 1 week, compared with the preceding period, was associated with increased risk of running-related overuse injury.

METHODS: Adult runners were recruited for an 18-month cohort study. Three training-related exposures were defined based on a relative change in running distance, using data collected via Garmin devices: (1) session-specific running distance relative to the longest distance run in the past 30 days; (2) 1-week period relative to the preceding 3 weeks using the acute:chronic workload ratio (ACWR); (3) 1-week period using a week-to-week ratio. Runners were categorised into one of four time-varying states: (1) regression, or up to 10% increase (reference); (2) 'small spike' between >10% and 30% increase; (3) 'moderate spike' between >30% and 100% increase; and (4) 'large spike' >100% increase. Outcome was self-reported overuse running-related injury. A multistate Cox regression model was used to estimate adjusted hazard rate ratios (HRR).

RESULTS: Among 5205 runners (mean age 45.8 years, SD=10.4; 22% female), a total of 1820 (35%) sustained a running-related injury during 588 071 sessions. Significantly increased rates were identified for small spikes (HRR=1.64 (95% CI: 1.31 to 2.05, p=0.01)), moderate spikes (HRR=1.52 (95% CI: 1.16 to 2.00, p<0.01)) and large spikes (HRR=2.28 (95% CI: 1.50 to 3.48, p<0.01)) in single-session running distance. A negative dose-response relationship was observed for the ACWR. No relationship was identified for the week-to-week ratio.

CONCLUSION: A significant increase in the rate of running-related overuse injury was found when the distance of a single running session exceeded 10% of the longest run undertaken in the last 30 days.

Originalsprog	Engelsk
Tidsskrift	British Journal of Sports Medicine
Vol/bind	59
Nummer	17
Sider (fra-til)	1203-1210
Antal sider	8
ISSN	0306-3674
DOI	https://doi.org/10.1136/bjsports-2024-109380
Status	Udgivet - 1 sep. 2025

Emneord

Athletic Injurie
Running
Sporting injuries
Sports medicine
health, nutrition and quality of life

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10.1136/bjsports-2024-109380

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Nielsen, R. O.
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Citationsformater

Schuster Brandt Frandsen, J., Hulme, A., Parner, E. T., Møller, M., Lindman, I., Abrahamson, J., Sjørup Simonsen, N., Sandell Jacobsen, J., Ramskov, D., Skejø, S., Malisoux, L., Bertelsen, M. L., & Nielsen, R. O. (2025). How much running is too much? Identifying high-risk running sessions in a 5200-person cohort study. British Journal of Sports Medicine, 59(17), 1203-1210. https://doi.org/10.1136/bjsports-2024-109380

@article{f67dbb4a1ce9443c96cf4b71255bff27,

title = "How much running is too much?: Identifying high-risk running sessions in a 5200-person cohort study",

abstract = "Objectives We explored whether a spike in running distance during a single session or over 1 week, compared with the preceding period, was associated with increased risk of running-related overuse injury. Methods Adult runners were recruited for an 18-month cohort study. Three training-related exposures were defined based on a relative change in running distance, using data collected via Garmin devices: (1) session-specific running distance relative to the longest distance run in the past 30 days; (2) 1-week period relative to the preceding 3 weeks using the acute:chronic workload ratio (ACWR); (3) 1-week period using a week-to-week ratio. Runners were categorised into one of four time-varying states: (1) regression, or up to 10\% increase (reference); (2){\textquoteright}small spike{\textquoteright} between >10\% and 30\% increase; (3){\textquoteright}moderate spike{\textquoteright} between >30\% and 100\% increase; and (4){\textquoteright}large spike{\textquoteright} >100\% increase. Outcome was self-reported overuse running-related injury. A multistate Cox regression model was used to estimate adjusted hazard rate ratios (HRR). Results Among 5205 runners (mean age 45.8 years, SD=10.4; 22\% female), a total of 1820 (35\%) sustained a running-related injury during 588 071 sessions. Significantly increased rates were identified for small spikes (HRR=1.64 (95\% CI: 1.31 to 2.05, p=0.01)), moderate spikes (HRR=1.52 (95\% CI: 1.16 to 2.00, p<0.01)) and large spikes (HRR=2.28 (95\% CI: 1.50 to 3.48, p<0.01)) in single-session running distance. A negative dose-response relationship was observed for the ACWR. No relationship was identified for the week-to-week ratio. Conclusion A significant increase in the rate of running-related overuse injury was found when the distance of a single running session exceeded 10\% of the longest run undertaken in the last 30 days.",

keywords = "Athletic Injurie, Running, Sporting injuries, Sports medicine, health, nutrition and quality of life, Athletic Injuries, Running, Sporting injuries, Sports medicine",

author = "\{Schuster Brandt Frandsen\}, Jesper and Adam Hulme and Parner, \{Erik Thorlund\} and Merete M{\o}ller and Ida Lindman and Josefin Abrahamson and \{Sj{\o}rup Simonsen\}, Nina and \{Sandell Jacobsen\}, Julie and Daniel Ramskov and Sebastian Skej{\o} and Laurent Malisoux and Bertelsen, \{Michael Lejbach\} and Nielsen, \{Rasmus Oestergaard\}",

year = "2025",

month = sep,

day = "1",

doi = "10.1136/bjsports-2024-109380",

language = "English",

volume = "59",

pages = "1203--1210",

journal = "British Journal of Sports Medicine",

issn = "0306-3674",

publisher = "BMJ Publishing Group",

number = "17",

}

Schuster Brandt Frandsen, J, Hulme, A, Parner, ET, Møller, M, Lindman, I, Abrahamson, J, Sjørup Simonsen, N, Sandell Jacobsen, J, Ramskov, D, Skejø, S, Malisoux, L, Bertelsen, ML & Nielsen, RO 2025, 'How much running is too much? Identifying high-risk running sessions in a 5200-person cohort study', British Journal of Sports Medicine, bind 59, nr. 17, s. 1203-1210. https://doi.org/10.1136/bjsports-2024-109380

How much running is too much? Identifying high-risk running sessions in a 5200-person cohort study. / Schuster Brandt Frandsen, Jesper; Hulme, Adam; Parner, Erik Thorlund et al.
I: British Journal of Sports Medicine, Bind 59, Nr. 17, 01.09.2025, s. 1203-1210.

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avis › Tidsskriftartikel › Forskning › peer review

TY - JOUR

T1 - How much running is too much?

T2 - Identifying high-risk running sessions in a 5200-person cohort study

AU - Schuster Brandt Frandsen, Jesper

AU - Hulme, Adam

AU - Parner, Erik Thorlund

AU - Møller, Merete

AU - Lindman, Ida

AU - Abrahamson, Josefin

AU - Sjørup Simonsen, Nina

AU - Sandell Jacobsen, Julie

AU - Ramskov, Daniel

AU - Skejø, Sebastian

AU - Malisoux, Laurent

AU - Bertelsen, Michael Lejbach

AU - Nielsen, Rasmus Oestergaard

PY - 2025/9/1

Y1 - 2025/9/1

N2 - Objectives We explored whether a spike in running distance during a single session or over 1 week, compared with the preceding period, was associated with increased risk of running-related overuse injury. Methods Adult runners were recruited for an 18-month cohort study. Three training-related exposures were defined based on a relative change in running distance, using data collected via Garmin devices: (1) session-specific running distance relative to the longest distance run in the past 30 days; (2) 1-week period relative to the preceding 3 weeks using the acute:chronic workload ratio (ACWR); (3) 1-week period using a week-to-week ratio. Runners were categorised into one of four time-varying states: (1) regression, or up to 10% increase (reference); (2)’small spike’ between >10% and 30% increase; (3)’moderate spike’ between >30% and 100% increase; and (4)’large spike’ >100% increase. Outcome was self-reported overuse running-related injury. A multistate Cox regression model was used to estimate adjusted hazard rate ratios (HRR). Results Among 5205 runners (mean age 45.8 years, SD=10.4; 22% female), a total of 1820 (35%) sustained a running-related injury during 588 071 sessions. Significantly increased rates were identified for small spikes (HRR=1.64 (95% CI: 1.31 to 2.05, p=0.01)), moderate spikes (HRR=1.52 (95% CI: 1.16 to 2.00, p<0.01)) and large spikes (HRR=2.28 (95% CI: 1.50 to 3.48, p<0.01)) in single-session running distance. A negative dose-response relationship was observed for the ACWR. No relationship was identified for the week-to-week ratio. Conclusion A significant increase in the rate of running-related overuse injury was found when the distance of a single running session exceeded 10% of the longest run undertaken in the last 30 days.

AB - Objectives We explored whether a spike in running distance during a single session or over 1 week, compared with the preceding period, was associated with increased risk of running-related overuse injury. Methods Adult runners were recruited for an 18-month cohort study. Three training-related exposures were defined based on a relative change in running distance, using data collected via Garmin devices: (1) session-specific running distance relative to the longest distance run in the past 30 days; (2) 1-week period relative to the preceding 3 weeks using the acute:chronic workload ratio (ACWR); (3) 1-week period using a week-to-week ratio. Runners were categorised into one of four time-varying states: (1) regression, or up to 10% increase (reference); (2)’small spike’ between >10% and 30% increase; (3)’moderate spike’ between >30% and 100% increase; and (4)’large spike’ >100% increase. Outcome was self-reported overuse running-related injury. A multistate Cox regression model was used to estimate adjusted hazard rate ratios (HRR). Results Among 5205 runners (mean age 45.8 years, SD=10.4; 22% female), a total of 1820 (35%) sustained a running-related injury during 588 071 sessions. Significantly increased rates were identified for small spikes (HRR=1.64 (95% CI: 1.31 to 2.05, p=0.01)), moderate spikes (HRR=1.52 (95% CI: 1.16 to 2.00, p<0.01)) and large spikes (HRR=2.28 (95% CI: 1.50 to 3.48, p<0.01)) in single-session running distance. A negative dose-response relationship was observed for the ACWR. No relationship was identified for the week-to-week ratio. Conclusion A significant increase in the rate of running-related overuse injury was found when the distance of a single running session exceeded 10% of the longest run undertaken in the last 30 days.

KW - Athletic Injurie

KW - Running

KW - Sporting injuries

KW - Sports medicine

KW - health, nutrition and quality of life

KW - Athletic Injuries

KW - Running

KW - Sporting injuries

KW - Sports medicine

UR - https://www.scopus.com/pages/publications/105010355662

U2 - 10.1136/bjsports-2024-109380

DO - 10.1136/bjsports-2024-109380

M3 - Journal article

C2 - 40623829

SN - 0306-3674

VL - 59

SP - 1203

EP - 1210

JO - British Journal of Sports Medicine

JF - British Journal of Sports Medicine

IS - 17

ER -