Depois do Wingate: termografia, futebol e recuperação muscular

The study by Korkmaz and colleagues observes amateur soccer players before and after a Wingate anaerobic test. Its strength lies in the time-series idea: thermography does not record only a before-and-after image, but follows how specific muscle regions change over minutes.

Distribution plots of skin temperature in quadriceps, hamstrings, and gastrocnemius muscles of soccer players — Time series **Thermal recovery does not happen entirely in the first minute.** Study figure with skin temperature distributions in six muscle regions, from T1 to T5. The visual reading reinforces that value lies in the displacement of the pattern over time, not in an isolated image.

A short effort also leaves a thermal signature

The Wingate test is a 30-second maximal effort. It does not reproduce every soccer gesture, but it represents a decisive part of the game: sprints, accelerations, explosive actions, and short anaerobic demands.

In the study, the question was direct: after this effort, which lower-limb muscles show a measurable skin-temperature change? And which individual characteristics may modify this response?

26 players included in the final analysis

30 s of maximal effort in the Wingate test

5 thermographic acquisition time points

6 bilateral muscle ROIs

Methodology is what sustains the image

The study design followed recommendations for thermographic imaging in sports and exercise. The laboratory was maintained at 22 ± 2 °C, with humidity between 40 and 60%, without relevant air drafts. Athletes remained in acclimatization for 20 minutes, and images were acquired against a dark background.

Baseline image before the test, after acclimatization
Wingate 30 seconds of maximal effort on a cycle ergometer
15 seconds first immediate-response window
4 minutes initial phase of thermal redistribution
8 minutes intermediate follow-up of recovery
12 minutes window in which the right quadriceps stood out

Experimental flow with thermal images of quadriceps, hamstrings, and gastrocnemius before and after Wingate testing — Protocol **The serial design turns thermography into follow-up.** The original figure shows the study flow: assessment, anaerobic test, and successive measurements. Five participants were excluded because sweating compromised image quality, an important methodological point for any sports application.

Where to measure matters as much as when to measure

Regions of interest were manually drawn over quadriceps, hamstrings, and gastrocnemius muscles on both sides. The mean thermal value of each ROI entered the statistical analysis.

This preserves an essential principle: sports thermography must move from visual impression to regional measurement. Without ROI, the color palette may suggest more than it actually measures.

Thermographic acquisition process and demarcation of lower-limb regions of interest — Acquisition and ROI **A valid image starts with a well-delimited anatomical area.** Study figure showing camera, anterior and posterior views, and demarcation of regions of interest. Images were acquired with a FLIR T530, emissivity 0.98, two-meter distance, and tripod-mounted camera.

The main finding did not appear immediately

01 Right quadriceps

There was a significant effect of time, with increased skin temperature at 12 minutes compared with baseline.

02 Hamstrings and gastrocnemius

No significant time effect was found in the main analyses.

03 Body fat

Players with lower body-fat percentage showed greater thermal responses in quadriceps and hamstrings.

04 Dominance, smoking, and height

These variables did not show a consistent effect on thermal responses in the analyzed model.

Numbers that guide the reading

p = 0.01 time effect in the right quadriceps

ηp² = 0.15 effect size interpreted as relevant

BF incl. 19.51 strong Bayesian evidence for inclusion of time

12 min moment when the difference from baseline was confirmed

Why the time series changes interpretation

An acquisition immediately after exertion may miss part of the response. The study shows that the 12-minute window was decisive for the right quadriceps, suggesting that muscle thermal dynamics may lag behind the sports gesture.

In practice, this changes the question. It is not enough to know whether a region is warm. One must know when it warms, how long it remains altered, and whether this behavior repeats in the same athlete.

What this teaches about thermography in sports

01 Monitor recovery

Thermography may help follow the functional response of muscle groups after intense loads.

02 Avoid isolated reading

A single image does not replace history, symptoms, recent load, performance, and physical examination.

03 Consider body composition

Body-fat percentage may modulate skin temperature and needs to enter interpretation.

04 Control quality

Sweating, environment, acclimatization, and positioning can invalidate or weaken the image.

Methodological care prevents rushed conclusions

The study was conducted with male amateur players, with a final sample of 26 participants. The thermal response was acute, restricted to 12 minutes after the Wingate test, and did not include invasive physiological markers such as lactate or inflammatory cytokines.

Even so, the article is valuable because it shows a methodological direction: thermography in sports should be repeated over time, analyzed by ROI, and interpreted with biological moderators. Skin heat is functional data, but it is not an isolated diagnosis of fatigue, microtrauma, or injury risk.

In sports, the most useful thermogram may not be the most beautiful one. It is the one that allows the same athlete, the same region, and the same load to be compared at defined moments.

Main reference

Korkmaz S, Thapa RK, Relph N, Çalık İ, Uysal HŞ. Thermal imaging responses of lower-limb muscles following anaerobic testing in male soccer players: A time-series approach. PLoS One. 2025;20(10):e0331102. doi:10.1371/journal.pone.0331102.

Editorial commentary published by the Termodiagnose Journal. The text summarizes the study for educational purposes and preserves the distinction between functional monitoring, physiological hypothesis, and clinical decision-making.