Search

Your search keyword '"Priego Quesada, Jose Ignacio"' showing total 21 results
Start Over Author "Priego Quesada, Jose Ignacio" Publisher elsevier b.v.
21 results on '"Priego Quesada, Jose Ignacio"'

6. A preliminary investigation about the observation of regional skin temperatures following cumulative training loads in triathletes during training camp.

Author

Priego-Quesada, Jose Ignacio, Oficial-Casado, Fran, Gandia-Soriano, Alexis, and Carpes, Felipe P.

Subjects
*PRESEASON (Sports), *SKIN temperature, *BODY temperature, *MUSCLE mass, *PAIN perception, *COOLDOWN
Abstract

There are controversial results in the literature concerning the concept that cumulative training load could affect basal skin temperature in the days following training sessions. The objective was to measure skin temperature in triathletes during a training camp with cumulative training load. Ten male recreational triathletes involved in a training camp underwent measurements of perception of pain and fatigue (visual analogue scale), skin temperature (infrared thermography), and jump performance (counter movement jump test) before, one day, and two days after the beginning of the training camp. All measurements were performed before the breakfast. Jump height did not differ between the days (p > 0.05). Fatigue perception increased after the first and second day of training for most of the body regions (p < 0.05). Pain perception increased after two days of training (p < 0.05). Mean and maximum skin temperature increased after the second day of training for most of the body regions (p < 0.05). Skin temperature in some body regions was directly related with muscle mass, weekly training volume, and inverse related with fatigue perception (p < 0.05 and R2 > 0.4). Possible explanations of these results in comparison with previous studies may include the influence of control of the intrinsic and extrinsic factors related to the skin temperature assessment (for instance, the time of the day, lack of muscle soreness, daily activity control). These preliminary results have important implication on the use of skin basal temperature data to monitor exercise recovery, which claims for further research. • Skin temperature increased after training for most of the body regions. • Skin temperature variation was related with muscle mass and weekly training volume. • Skin temperature variation was inverse related with fatigue perception. • Explanations of these results in comparison with previous studies were provided. [ABSTRACT FROM AUTHOR]

Published
2019
Full Text
View/download PDF

7. Effects of the cycling workload on core and local skin temperatures.

Author

Priego Quesada, Jose Ignacio, Martínez, Natividad, Salvador Palmer, Rosario, Psikuta, Agnes, Annaheim, Simon, Rossi, René Michel, Corberán, José Miguel, Cibrián Ortiz de Anda, Rosa M., and Pérez-Soriano, Pedro

Subjects
*SKIN temperature, *CYCLISTS, *THERMOSTAT, *THERMOGRAPHY, *BODY temperature regulation
Abstract

Purpose The aim of the study was to determine the influence of cycling workload on the variation of core and skin temperature of the different body regions, and the relationship between both temperature variables. Method Fourteen cyclists performed two 45-min cycling tests at 35% and 50% of peak power output on different days. The cadence was constant in both tests (90 rpm). Core temperature was measured continuously throughout the test and local skin temperature was recorded before, immediately after and 10 min after finishing the cycling test. Differences in variation of the core and skin temperature and in the effort perception and body mass loss due to different cycling workload were analyzed. Additionally, the relationship between core and skin temperature was assessed. Results Core temperature of the test at 50% was between 0.2 and 0.3 °C higher than at workload of 35%. The tibialis anterior region, the ankle anterior region and the Achilles region presented higher reductions in skin temperature due to exercise for test at 50% than 35%, and knee presented a lower increase ( p < 0.05). Core and skin temperatures showed either weak or moderate inverse correlation for most of the body regions, but in others such as knee, ankle anterior and Achilles region, a positive weak relationship was observed. Conclusions The findings of the present study highlight the difficulty of linking skin temperature with cycling workload and core temperature due to the thermoregulatory system efficiency in the increase of the thermal gradient, alongside the multifactorial dependence of the skin temperature. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

8. Effect of 10 km run on lower limb skin temperature and thermal response after a cold-stress test over the following 24 h.

Author

Priego-Quesada, Jose Ignacio, Catalá-Vilaplana, Ignacio, Bermejo-Ruiz, Jose Luis, Gandia-Soriano, Alexis, Pellicer-Chenoll, Maria Teresa, Encarnación-Martínez, Alberto, Cibrián Ortiz de Anda, Rosa, and Salvador-Palmer, Rosario

Subjects
*SKIN temperature, *RATE of perceived exertion, *HEART beat, *REACTIVE oxygen species, *ACOUSTICS, *RUNNING speed
Abstract

Skin temperature assessment has received much attention as a possible measurement of physiological response against stress produced by exercise and research studies usually measure skin temperature 24 or 48 h after exercise. Scientific evidence about skin temperature evolution during the 24-h period immediately after exercising is, however, scarce. The aim was to assess the effect of a 10 km run at moderate intensity on baseline skin temperature and thermal response after a cold stress test during that 24 h period. Fourteen participants were measured before, immediately after, and at 2, 5, 9 and 24 h after a 10 km run at a perceived exertion rate of 11 points (max 20 points). Fourteen control participants who undertook no exercise were also measured during that day. The measurements included muscle pain and fatigue perception, reactive oxygen species, heart rate variability, skin temperature of the lower limbs, and skin temperature after cold stress test. Exercise resulted in a skin temperature increase (e.g., 0.5–1.3 °C of posterior leg 9 h after exercise) and this effect continued in some regions (0.4–0.9 °C of posterior leg) over that 24 h period. However, the thermal response to the cold stress test remained the same (p > 0.05). In conclusion, 10 km aerobic running exercise results in a skin temperature increase, peaking at between 5 and 9 h after exercise, but does not alter the thermal response to a cold stress test. This study provides a sound basis for post-exercise skin temperature response that can be used as a setting-off point for comparisons with future studies that analyze greater muscle damage. • Lower limbs skin temperature (Skt) of control group increased during the day. • 10 km of moderate running had a higher increase of Skt than control group. • Thermal response after cold stress test was unaltered by running 10 km. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

9. Effect of fatigue strength exercise on anterior thigh skin temperature rewarming after cold stress test.

Author

Muñoz-Alcamí, Mireia, Priego-Quesada, Jose Ignacio, Gimeno Raga, Marc, Durán Lozano, Álvaro, and Gil-Calvo, Marina

Subjects
*SKIN temperature, *VASTUS lateralis, *VASTUS medialis, *MUSCLE mass, *THIGH, *INFRARED imaging, *RECTUS femoris muscles, *LEG
Abstract

Although dynamic thermography skin temperature assessment has been used in medical field, scientific evidence in sports is scarce. The aim of the study was to assess changes in anterior thigh skin temperature in response to a cold stress test after a strength exercise fatiguing protocol. Ten physically active adults performed a familiarization session and two strength exercise sessions, one with dominant and the other with non-dominant lower limb. Participants performed bouts of 10 concentric and eccentric contractions of leg extensions in an isokinetic device until reaching around 30% of force loss. Infrared thermographic images were taken at baseline conditions and after the fatigue level from both thighs after being cooled using a cryotherapy system. ROIs included vastus medialis, rectus femoris, adductor and vastus lateralis. Skin temperature rewarming was assessed during 180s after the cooling process obtaining the coefficients of the following equation: ΔSkin temperature = β 0 + β 1 * ln(T), being β 0 and β 1 the constant and slope coefficients, respectively, T the time elapsed following the cold stress in seconds, and ΔSkin temperature the difference between the skin temperature at T respect and the pre-cooling moment. Lower β 0 and higher β 1 were found for vastus lateralis and rectus femoris in the intervention lower limb compared with baseline conditions (p < 0.05 and ES > 0.6). Adductor only showed differences in β 0 (p = 0.01 and ES = 0.92). The regressions models obtained showed that β 0 and β 1 had a direct relationship with age and muscle mass, but an inverse relationship with the number of series performed until 30% of fatigue (R2 = 0.8). In conclusion, fatigue strength exercise results in a lower skin temperature and a faster thermal increase after a cold stress test. • Greater skin temperature (Tsk) decrease was observed by cold stress test (CST) after exercise. • Faster Tsk rewarming after CST was observed in the exercised lower limb. • Age, muscle mass and exercise series could affect Tsk response during and after CST. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

11. Validation of ThermoHuman automatic thermographic software for assessing foot temperature before and after running.

Author

Requena-Bueno, Lara, Priego-Quesada, Jose Ignacio, Jimenez-Perez, Irene, Gil-Calvo, Marina, and Pérez-Soriano, Pedro

Subjects
*INTRACLASS correlation, *IMAGE analysis, *SKIN temperature, *THERMOGRAPHY, *BLAND-Altman plot
Abstract

The aim of the study was to evaluate an automatic thermographic software package (ThermoHuman®) for assessing skin temperature on the soles of the feet before and after running and to compare it with two manual definitions of the regions of interest (ROIs). 120 thermal images of the soles of the feet of 30 participants, at two measurement points (before and after running 30 min) and on two measurement days were analyzed. Three different models of thermographic image analyses were used to obtain the mean temperature of 9 ROIs: A) ThermoHuman (automatic definition of ROIs using ThermoHuman® software), B) Manual (manual delimitation of ROIs by proportion criteria), and C) Manual-TH (manual delimitation of ROIs in an attempt to replicate the regions analyzed by ThermoHuman). ThermoHuman resulted in an 86% reduction in time involved compared to manual delimitation. Fourteen of the 120 images (12%) presented some error in one or more of the ROI delimitations. Although the three procedures presented significant differences between them (53% in the comparison between ThermoHuman and Manual, 47% between ThermoHuman and Manual-TH, and 28% between Manual and Manual-TH), all differences had a small effect size (ES 0.2–0.4) or lower (ES < 0.2). Bland-Altman plots showed similar 95% limits of agreement between the three procedures before and after running. Intraclass correlation coefficient analysis of the three procedures presented excellent reliability (ICC>0.8). In conclusion, ThermoHuman® software was observed to be time-saving for image analysis with excellent reliability. Although results suggest that ThermoHuman® and manual methods are both valid in themselves, combining them is not recommended due to the differences observed between them. • Analysis using ThermoHuman resulted in a reduction of 86% of the time. • ThermoHuman presents in 12% of the images an error in its delimitation. • Differences between manual and automatic definition has a small effect size. • Reliability between ThermoHuman and both manual procedures was excellent. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

12. Can infrared thermography serve as an alternative to assess cumulative fatigue in women?

Author

Machado, Álvaro Sosa, da Silva, Willian, Priego-Quesada, Jose Ignacio, and Carpes, Felipe P.

Subjects
*FATIGUE (Physiology), *SKIN temperature, *MUSCLE fatigue, *BICEPS brachii, *THERMOGRAPHY, *MUSCLE strength, *MYALGIA, *COOLDOWN
Abstract

Muscle fatigue can limit performance both in sports and daily life activities. Consecutive days of exercise without a proper recovery time may elicit cumulative fatigue. Although it has been speculated that skin temperature could serve as an indirect indicator of exercise-induced adaptations, it is unclear if skin temperature measured by infrared thermography (IRT) could be an outcome related to the effects of cumulative fatigue. In this study, we recruited 21 untrained women and induced cumulative fatigue in biceps brachii over two consecutive days of exercise. We measured delayed onset muscle soreness (DOMS, using a numeric rate scale), maximal strength (using a dynamometer), and skin temperature (using IRT) in exercise and non-exercise muscles. Cumulative fatigue reduced muscle strength and increased DOMS. Skin temperature in the arm submitted to cumulative fatigue was higher for minimum and mean temperature, being asymmetrical in relation to the control arm. We also observed that the variations in the minimum and mean temperatures correlated with the strength losses. In summary, skin temperature measured by IRT seems promising to help detect cumulative fatigue in untrained women, being useful to explain strength losses. Future studies should provide additional evidence for the potential applications not only in trained participants but also in patients that may not be able to report outcomes of scales or precisely report DOMS. • Cumulative fatigue reduced muscle strength and increased DOMS. • Infrared thermography detects temperature changes due to cumulative fatigue. • Minimum temperature related to strength reductions in cumulative fatigue. • Mean temperature related to muscle strength reductions in cumulative fatigue. • Maximal temperature did not relate to strength reductions in cumulative fatigue. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

13. Effect of spinal cord injury on the skin temperature of different regions of interest during a graded exercise test in a moderate temperature environment.

Author

Sanchez-Jimenez, Jose Luis, Cibrian-Ortiz de Anda, Rosa M., Vazquez-Fariñas, Maria, Martin-Manjarres, Soraya, Priego-Quesada, Jose Ignacio, and Aparicio-Aparicio, Inmaculada

Subjects
*SKIN temperature, *TEMPERATURE control, *LEG exercises, *SPINAL cord injuries, *EXERCISE tests, *ARM exercises
Abstract

The gradient between core and skin temperature is a relevant factor in heat exchange between the human body and the environment, but people with spinal cord injury (SCI), due to their autonomic dysfunction, have impaired mechanisms that condition skin temperature response. This study aimed to determine how SCI affects skin temperature response in different ROIs during a graded exercise test in a moderate temperature environment. 32 participants were included in the study [SCI (N = 16); Non-SCI (N = 16)]. A graded exercise test was conducted on an arm crank ergometer, with a staged duration of 3 min separated by 1 min of rest. Skin temperature was measured using infrared thermography at rest, after each interval and during recovery. Individuals with SCI exhibited lower skin temperature in the anterior leg during exercise than Non-SCI (p < 0.001). During recovery, SCI athletes experienced a lower skin temperature restoration in the anterior arm, posterior arm and anterior leg (p < 0.05). The anterior leg is an interesting region to measure during exercise in people with SCI for assessing the physiological effect of the injury, probably for the autonomic dysfunction in skin temperature regulation, but the effect observed during recovery in the arms suggests the presence of different mechanisms involved in skin temperature regulation. • SCI only affects the skin temperature below the injury during exercise. • Skin temperature restoration pattern differs between groups in unaffected areas. • Graded exercise test reduced the skin temperature in most of the regions analysed. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

14. Effect of different Volumes of exercise on skin temperature responses over the following 24 hours.

Author

da Silva, Willian, Godoy-López, Juan R., Machado, Álvaro Sosa, Lemos, Andressa Lemes, Sendra-Pérez, Carlos, Gallango Brejano, Manuel, Carpes, Felipe P., and Priego-Quesada, Jose Ignacio

Subjects
*MYALGIA, *AEROBIC exercises, *PAIN perception, *SKIN temperature, *TEMPERATURE measurements, *TIME measurements
Abstract

Skin temperature responses have been advocated to indicate exercise-induced muscle soreness and recovery status. While the evidence is contradictory, we hypothesize that the presence of muscle damage and the time window of measurement are confounding factors in the skin temperature response. The objective was to determine whether skin temperature is influenced by different workloads and the time course of temperature measurements over the following 24 h. 24 trained male military were assigned to one of three groups: GC group (n = 8) serving as control not performing exercises, GE group (n = 8) performing a simulated military combat protocol in an exercise track with different obstacles but designed not to elicit muscle damage, and the GEMD group (n = 8) performing the simulated military combat protocol plus 5 sets of 20 drop jumps, with 10-sec between repetitions and with 2-min of rest between sets aiming to induce muscle damage. Skin temperature was measured using infrared thermography before exercise (Pre) and 4 (Post4h), 8 (Post8h) and 24h (Post24h) post-exercise. Perception of pain (DOMS) was evaluated Pre, Post24h, and Post48h, and countermovement jump height was evaluated at Pre and Post24h. DOMS did not differ between groups in the Pre and Post24h measures but GEMD presented higher DOMS than the other groups at Post48h (p < 0.001 and large effect size). Jump height did not differ for GEMD and GC, and GE presented higher jump height at Post24h than GC (p = 0.02 and large effect size). Skin temperature responses of GEMD and GG were similar in all measurement moments (p > 0.22), and GE presented higher skin temperature than the GC and the GEMD groups at Post24h (p < 0.01 and large effect sizes). In conclusion, although physical exercise elicits higher skin temperature that lasts up to 24 h following the efforts, muscle soreness depresses this response. • Skin temperature varied across 4, 8, and 24 h post-exercise. • Aerobic physical exercise increased skin temperature over 24h. • The presence of muscle soreness depressed skin temperature response. • The peak skin temperature was observed 4 h after exercise. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

15. Understanding the effect of window length and overlap for assessing sEMG in dynamic fatiguing contractions: A non-linear dimensionality reduction and clustering.

Author

De la Fuente, Carlos, Martinez-Valdes, Eduardo, Priego-Quesada, Jose Ignacio, Weinstein, Alejandro, Valencia, Oscar, Kunzler, Marcos R, Alvarez-Ruf, Joel, and Carpes, Felipe P

Subjects
*MUSCLE fatigue, *FACTORIAL experiment designs, *CLUSTER analysis (Statistics), *FOURIER transforms, *ADULTS, *HEEL (Anatomy)
Abstract

The Short-Time Fourier transform (STFT) is a helpful tool to identify muscle fatigue with clinical and sports applications. However, the choice of STFT parameters may affect the estimation of myoelectrical manifestations of fatigue. Here, we determine the effect of window length and overlap selections on the frequency slope and the coefficient of variation from EMG spectrum features in fatiguing contractions. We also determine whether STFT parameters affect the relationship between frequency slopes and task failure. Eighty-eight healthy adult men performed one-leg heel-rise until exhaustion. A factorial design with a window length of 50, 100, 250, 500, and 1000 ms with 0, 25, 50, 75, and 90% of overlap was used. The frequency slope was non-linearly fitted as a task failure function, followed by a dimensionality reduction and clustering analysis. The STFT parameters elicited five patterns. A small window length produced a higher slope frequency for the peak frequency (p < 0.001). The contrary was found for the mean and median frequency (p < 0.001). A larger window length elicited a higher slope frequency for the mean and peak frequencies. The largest frequency slope and dispersion was found for a window length of 50 ms without overlap using peak frequency. A combination of 250 ms with 50% of overlap reduced the dispersion both for peak, median, and mean frequency, but decreased the slope frequency. Therefore, the selection of STFT parameters during dynamic contractions should be accompanied by a mechanical measure of the task failure, and its parameters should be adjusted according to the experiment's requirements. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

16. Effect of prefabricated thermoformable foot orthoses on plantar surface temperature after running: A gender comparison.

Author

Jimenez-Perez, Irene, Gil-Calvo, Marina, Priego-Quesada, Jose Ignacio, Aparicio, Inmaculada, Pérez-Soriano, Pedro, and Ortiz de Anda, Rosa M a Cibrián

Subjects
*FOOT orthoses, *SURFACE temperature, *GENDER, *LOW temperatures, *STANDARD deviations, *ANAEROBIC threshold
Abstract

There is a lack of evidence about the effect of different type of foot orthoses on plantar surface temperature. Moreover, that effect could be different depending on gender due to anatomical and physiological differences between men and women. The aim of the study was to analyze the effect of a prefabricated thermoformable foot orthosis on plantar surface temperature after running and taking gender differences into account. Thirty recreational runners (15 males, mean (standard deviation): 28 (7) years, 69.7 (6.5) kg, 1.74 (0.05) cm and 22.9 (1.7) kg/m2; and 15 females: 35 (7) years, 55.2 (6.9) kg, 1.63 (0.06) cm and 20.6 (1.9) kg/m2) carried out a maximum incremental test as pre-test, and two running tests on a treadmill at the laboratory wearing previously randomized different foot orthoses (thermoformable and prefabricated generic). The plantar surface temperature of the dominant foot sole in ten regions of interest was assessed before and immediately after 30-min running at 75% of VO 2max. The use of thermoformable foot orthoses produced lower temperatures only in men after the run in medial heel (P = 0.033, ES = 0.7), which then disappeared in temperature variation (after – before) (P = 0.910). Regarding gender, women showed lower temperatures before the run in both orthosis conditions (P < 0.039, ES > 0.8), but no differences in temperatures after the run (P = 0.910) in comparison with men. Moreover, absolute temperatures after running were always greater than before the run (P < 0.001, ES > 5.0). In conclusion, the thermoformable foot orthoses do not modify plantar surface temperature after running in healthy runners of either gender, compared to prefabricated generic foot orthoses. Although women present lower baseline plantar temperatures than men, these differences disappear after exercise. • A new prefabricated foot orthosis with thermoformable materials and foot fit is studied. • Prefabricated foot orthoses of different design and materials do not influence plantar temperature. • The differences in plantar thermoregulation between genders disappear with exercise. • The exercise increases the foot sole temperature by approximately 10 °C. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

17. Acute physiological responses to a pyramidal exercise protocol and the associations with skin temperature variation in different body areas.

Author

Hillen, Barlo, Andrés López, Daniel, Marzano-Felisatti, Joaquín Martín, Sanchez-Jimenez, José Luis, Cibrián Ortiz de Anda, Rosa Maria, Nägele, Markus, Salvador-Palmer, Maria Rosario, Pérez-Soriano, Pedro, Schömer, Elmar, Simon, Perikles, and Priego-Quesada, Jose Ignacio

Subjects
*SKIN temperature, *INFRARED cameras, *RATE of perceived exertion, *EXERCISE intensity, *CYCLING, *BODY area networks, *HEART beat
Abstract

This study aimed to examine the skin temperature (Tsk) variations in five regions of interest (ROI) to assess whether possible disparities between the ROI's Tsk could be associated with specific acute physiological responses during cycling. Seventeen participants performed a pyramidal load protocol on a cycling ergometer. We synchronously measured Tsk in five ROI with three infrared cameras. We assessed internal load, sweat rate, and core temperature. Reported perceived exertion and calves' Tsk showed the highest correlation (r = −0.588; p < 0.01). Mixed regression models revealed that the heart rate and reported perceived exertion were inversely related to calves' Tsk. The exercise duration was directly associated with the nose tip and calf Tsk but inversely related to the forehead and forearm Tsk. The sweat rate was directly related to forehead and forearm Tsk. The association of Tsk with thermoregulatory or exercise load parameters depends on the ROI. The parallel observation of the face and calf Tsk could indicate simultaneously the observation of acute thermoregulatory needs and individual internal load. The separate Tsk analyses of individual ROI appear more suitable to examine specific physiological response than a mean Tsk of several ROI during cycling. • A multi-IR camera system was applied to synchronously capture five ROIs. • The Tsk association with thermoregulation or exercise load depends on the ROI. • During pyramidal load protocol, the Tsk of the nose tip increased continuously. • The forehead' Tsk decreased continuously and eyes' Tsk was stable. • Response of calves' and forearms' Tsk were the most related with exercise intensity. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

18. Reproducibility of skin temperature analyses by novice and experienced evaluators using infrared thermography.

Author

da Silva, Willian, Machado, Álvaro Sosa, Kunzler, Marcos Roberto, Jimenez-Perez, Irene, Gil-Calvo, Marina, Priego-Quesada, Jose Ignacio, and Carpes, Felipe P.

Subjects
*SKIN temperature, *THERMOGRAPHY, *IMAGE analysis, *EVALUATORS, *LOW temperatures, *INFRARED cameras
Abstract

Infrared thermography (IRT) has become popular in several areas of knowledge. However, the analyses of thermal images often request manual actions, and little is known about the effect of the evaluator's experience on analysis thermal images. Here, we determine the reproducibility of IRT images analysis performed by evaluators with different levels of experience. Eight evaluators (GE, group experienced, n = 4; GN, group novice, n = 4) analyzed thermograms from 40 healthy participants recorded before and after exercise to determine the mean, minimum, maximum, standard deviation, and range of skin temperature in the anterior thigh and posterior leg. Before and after exercise, mean temperature showed excellent reproducibility for both groups for the anterior thigh (ICC >0.98) and posterior leg (ICC >0.94), and maximum temperature showed excellent reproducibility for both groups in the posterior leg (ICC >0.91). The influence of experience level was not significant considering the anterior thigh. Similarly, experience level did not affect the mean, maximum, and standard deviation temperature determined for the posterior leg. For the posterior leg, minimum temperature presented lower values and the range was higher among novice evaluators. Mean skin temperature showed narrower 95% limits of agreement than minimum and maximum for both regions and moments. Caution is advised when temperature ranges and minimums are determined by different evaluators. We conclude that for IRT analysis by evaluators with different levels of experience, the mean and maximum temperatures should be prioritized due to their better reproducibility. • The mean temperature showed excellent reproducibility in the regions analyzed. • The mean temperature is in greater agreement between evaluators of both groups. • Maximum temperature presents different outcomes for reliability in both regions. • The experience level was not significant when analyzing images of the anterior thigh. • The experience level was significant when analyzing images of the posterior leg. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

19. Skin temperature measurement in individuals with spinal cord injury during and after exercise: Systematic review.

Author

Sanchez-Jimenez, Jose Luis, Aparicio, Inmaculada, Romero-Avila, Jose Luis, Bellot-Arcís, Carlos, Cibrián Ortiz de Anda, Rosa M a, and Priego-Quesada, Jose Ignacio

Subjects
*SKIN temperature, *SPINAL cord injuries, *TEMPERATURE measurements, *HEAT stroke, *SCIENCE databases, *QUADRIPLEGIA
Abstract

Athletes with spinal cord injury (SCI) have difficulties in maintaining thermal homeostasis during exercise due to their lower sweat capacity and skin vasodilation. Skin temperature (Tsk) assessment, as opposed to core temperature, has become more widely accepted due to its non-invasive nature. The aims of this systematic review was to collate research studies that measured Tsk of individuals with SCI during or after exercise, study their Tsk response, taking into account the method employed, the environmental and exercise conditions, and to identify the different cooling strategies and their effect during exercise. Pubmed, Web of Science and Scopus databases were searched to identify the articles published since year 2000. Two reviewers working independently extracted data and assessed the quality of the articles included. If they disagreed, a third reviewer was consulted. ROBINS-I scale was used to assess the quality of the articles, and the review has been conducted in agreement with PRISMA guidelines. Twenty studies were included in this review. 84% of them presented moderate, serious or critical risk of bias. The entire of the studies assessed Tsk during exercise, but only seven studies measured it during rest or after exercise. Eighteen studies used contact thermometry to assess Tsk and the two remaining studies employed non-contact techniques. Seven studies were conducted in warm conditions (>31.5°C) and the remaining studies in moderate conditions (10°C to 26.6°C). According to cooling strategies, ice vests and water spray are effective in reducing Tsk and decreasing the risk of heat stroke. The 90% of the studies applied contact thermometry and due to their effect in the data assessed, it is necessary more research into the SCI population using infrared thermography due to its differences in characteristics, methodology, and applications. The methodological differences among studies make difficult to perform a meta-analysis. • Skin temperature of population with tetraplegia increases significantly in warm environments, unlike individuals with lower grade injury, who increases skin temperature progressively. • Population with tetraplegia have difficulties to reduce the skin temperature after exercise. • Cooling strategies decrease skin temperature and it reduces the risk of heat stroke for individuals with SCI, specially in those with tetraplegia. • 90% of the studies employed contact thermometry and due to its effect in data measured, it is suggested to future research studying the application of non-contact techniques (e.g. infrared thermography). [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

20. Relationship between exercise-induced muscle soreness, pain thresholds, and skin temperature in men and women.

Author

da Silva, Willian, Machado, Álvaro Sosa, Lemos, Andressa Lemes, de Andrade, Camilla Ferreira, Priego-Quesada, Jose Ignacio, and Carpes, Felipe P.

Subjects
*SKIN temperature, *PAIN threshold, *MYALGIA, *COOLDOWN, *SPORTS medicine, *PATIENT monitoring, *SQUAT (Weight lifting)
Abstract

Infrared thermography (IRT) has gained popularity in sports medicine for determining whether changes in skin temperature relate to pain and muscle damage. Such a relationship would support IRT as a non-invasive method to monitor these physiological responses. However, the literature remains controversial. Here, we determine the relationship between exercise-induced muscle soreness (DOMS), pain, and skin temperature in men and women before and after exercise. Twenty-two physically active adults (10 men and 12 women) completed a squat exercise protocol to induce muscle damage. Skin temperature, DOMS, and pressure pain threshold (PPT) were assessed in the quadriceps pre, post-exercise, and 48 h post-exercise. DOMS increased similarly in men and women post-exercise and 48 h post-exercise. PPT was lower in women compared to men. PPT decreased 48 h post-exercise for men but did not differ between the moments for women. Skin temperature responses were sex-dependent. Mean and maximum temperatures increased post-exercise for men, and maximum temperature reduced 48 h post-exercise. In women, the minimum temperature increased 48 h post-exercise. DOMS was not predicted by skin temperature but showed a direct association between pre and 48 h post-exercise variation of maximum skin temperature and PPT. We conclude that there is a sex-dependent effect in analyzing skin temperature changes in response to exercise, something that seems to not have been addressed in previous studies. To date, inferences are generally assumed as similar for both men and women, which we show may not be the case. • Delayed onset muscle soreness did not differ between sexes. • The pressure pain threshold is smaller in women than men. • The pressure pain threshold decreased in men 48 h post-exercise. • Minimum skin temperature data increased 48 h post-exercise in women. • Variation in maximum skin temperature showed a direct relationship with pain threshold. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

21. Acute effect of induced asymmetrical running technique on foot skin temperature.

Author

Gil-Calvo, Marina, Herrero-Marco, Juan, González-Peña, Rolando de Jesús, Perez-Soriano, Pedro, and Priego-Quesada, Jose Ignacio

Subjects
*SKIN temperature, *RUNNING techniques, *LEG, *FOOT, *INFRARED cameras, *HEART beat
Abstract

The aim of the study was to evaluate skin temperature of the soles of the feet before and after a provoked asymmetrical running. Seventeen recreational male runners performed two 15 min running tests in the same session. In the first test, participants performed running without modifying their running technique (control condition). In the second running test, they repeated the same protocol using an ankle weight of 1.5 kg in the non-dominant ankle (asymmetrical condition). Rate of perceive exertion, heart rate and spatio-temporal parameters were measured during the running tests. Skin temperature was measured with an infrared camera before and after each condition. Generally, comparing both lower limbs, non-preferred limb (with the ankle weight) had lower contact time (p < 0.001 and ES > 0.8), higher stride length (p < 0.05 and ES > 0.3) and higher stride frequency in asymmetrical condition (p < 0.01 and ES > 0.4). However, no differences were observed on skin temperature between both feet in the two conditions in any of the regions of interest assessed (p > 0.05). Although the asymmetry generation model used provoked technical asymmetries in spatio-temporal parameters during running, no thermal asymmetries were observed between preferred and non-preferred sole of the foot. These results suggested the lower importance of mechanical than physiological mechanisms on skin temperature during running. • Provoked asymmetrical running do not produce thermal foot asymmetries. • The use of an ankle weight cuff produces spatio-temporal asymmetries during running. • It was suggested a lower effect of mechanical than physiological mechanisms on skin temp. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results