Your search keyword '"Behan, Fearghal P."' showing total 7 results

1. Six weeks of localized heat therapy does not affect muscle mass, strength and contractile properties in healthy active humans.

Author

Labidi M, Ihsan M, Behan FP, Alhammoud M, Smith T, Mohamed M, Tourny C, and Racinais S

Subjects

Adaptation, Physiological physiology, Adult, Biomechanical Phenomena physiology, Electromyography methods, Female, Hot Temperature, Humans, Leg physiology, Male, Torque, Muscle Contraction physiology, Muscle Strength physiology, Muscle, Skeletal physiology

Abstract

Purpose: Animal and human studies have shown that repeated heating may induce skeletal muscle adaptations, increasing muscle strength. The aim of this study is to investigate the effect of 6 weeks of localized heating on skeletal muscle strength, volume and contractile properties in healthy humans., Methods: Fifteen active participants (8 males/7 females, 35 ± 6 years, 70 ± 14 kg, 173 ± 7 cm, average training of 87 min per week) were subjected to 6 weeks of single-leg heat therapy. Heat pads were applied for 8 h/day, 5 days/week, on one randomly selected calf of each participant, while the contralateral leg acted as control. The heat pads increased muscle temperature by 4.6 ± 1.2 °C (p < 0.001). Every 2 weeks, participants were tested for morphological (MRI), architectural (ultrasound), contractile (electrically evoked twitch), and force (isometric and isokinetic) adaptations., Results: Repeated localized heating did not affect the cross-sectional area (p = 0.873) or pennation angle (p = 0.345) of the gastrocnemius muscles; did not change the evoked peak twitch amplitude (p = 0.574) or rate of torque development (p = 0.770) of the plantar flexors; and did not change maximal voluntary isometric (p = 0.214) or isokinetic (p = 0.973) plantar flexor torque., Conclusion: Whereas previous studies have observed improved skeletal muscle function following whole-body and localized heating in active and immobilized humans, respectively, the current data suggested that localized heating may not be a potent stimulus for muscle adaptations in active humans.

Published

2021

2. The Dose–Response of the Nordic Hamstring Exercise on Biceps Femoris Architecture and Eccentric Knee Flexor Strength: A Randomized Interventional Trial.

Author

Behan, Fearghal P., Vermeulen, Robin, Whiteley, Rod, Timmins, Ryan G., Ruddy, Joshua D., and Opar, David A.

Subjects

HAMSTRING muscle injuries, HAMSTRING muscle physiology, KNEE physiology, CARDIOVASCULAR fitness, MUSCLE contraction, EVALUATION of human services programs, EXERCISE physiology, RANDOMIZED controlled trials, MUSCLE strength, EXERCISE, DESCRIPTIVE statistics, STATISTICAL sampling, DOSE-response relationship in biochemistry

Abstract

Purpose: To examine the dose–response of the Nordic hamstring exercise (NHE) on biceps femoris long head (BFlh) architecture and eccentric knee flexor strength. Design: Randomized interventional trial. Methods: Forty recreationally active males completed a 6-week NHE training program consisting of either intermittent low volumes (group 1; n = 10), low volumes (group 2; n = 10), initial high volumes followed by low volumes (group 3; n = 10), or progressively increasing volumes (group 4; n = 10). A 4-week detraining period followed each program. Muscle architecture was assessed weekly during training and after 2 and 4 weeks of detraining. Eccentric knee flexor strength was assessed preintervention and postintervention and after 2 and 4 weeks of detraining. Results: Following 6 weeks of training, BFlh fascicle length (FL) increased in group 3 (mean difference = 0.83 cm, d = 0.45, P =.027, +7%) and group 4 (mean difference = 1.48 cm, d = 0.94, P =.004, +14%). FL returned to baseline following detraining in groups 3 and 4. Strength increased in group 2 (mean difference = 53.6 N, d = 0.55, P =.002, +14%), group 3 (mean difference = 63.4 N, d = 0.72, P =.027, +17%), and group 4 (mean difference = 74.7, d = 0.83, P =.006, +19%) following training. Strength returned to baseline following detraining in groups 2 and 3 but not in group 4. Conclusions: Initial high volumes of the NHE followed by lower volumes, as well as progressively increasing volumes, can elicit increases in BFlh FL and eccentric knee flexor strength. Low volumes of the NHE were insufficient to increase FL, although as few as 48 repetitions in 6 weeks did increase strength. [ABSTRACT FROM AUTHOR]

Published

2022

3. The dose–response of pain throughout a Nordic hamstring exercise intervention.

Author

Behan, Fearghal P., Opar, David A., Vermeulen, Robin, Timmins, Ryan G., and Whiteley, Rodney

Subjects

*HAMSTRING muscle injuries, *SPRAIN prevention, *MYALGIA, *MUSCLE contraction, *TREATMENT effectiveness, *RANDOMIZED controlled trials, *EXERCISE intensity, *RESEARCH funding, *STATISTICAL sampling, *EXERCISE therapy, *DOSE-response relationship in biochemistry

Abstract

The Nordic hamstring exercise (NHE) reduces hamstring injury incidence. Compliance to large exercise volumes of the NHE is poor, with exercise related soreness often seen as a contributing factor. We investigated the dose–response of NHE exposure with delayed onset muscle soreness (DOMS) and non‐DOMS pain. Forty males were randomized to a 6‐week intervention of four different NHE dosages: Group 1: very low volume; Group 2: low volume; Group 3: initial high to low volume; Group 4: low to high volume. Group 4 experienced more DOMS (p < 0.05) and non‐DOMS pain (p = 0.030) than other groups. High volumes of NHE increase DOMS and non‐DOMS pain while lower volume protocols have lesser DOMS and non‐DOMS pain responses. [ABSTRACT FROM AUTHOR]

Published

2023

4. Is Pre-season Eccentric Strength Testing During the Nordic Hamstring Exercise Associated with Future Hamstring Strain Injury? A Systematic Review and Meta-analysis.

Author

Opar, David A., Timmins, Ryan G., Behan, Fearghal P., Hickey, Jack T., van Dyk, Nicol, Price, Kara, and Maniar, Nirav

Subjects

MUSCLE strength testing, HAMSTRING muscle, PRESEASON (Sports), HAMSTRING muscle injuries, HAMSTRING muscle physiology, KNEE physiology, SPORTS injuries risk factors, CINAHL database, MUSCLE contraction, META-analysis, INFORMATION storage & retrieval systems, MEDICAL databases, MEDICAL information storage & retrieval systems, CONFIDENCE intervals, SYSTEMATIC reviews, EXERCISE physiology, RISK assessment, MUSCLE strength, DESCRIPTIVE statistics, ATHLETIC ability, MEDLINE, BODY mass index, EXERCISE therapy

Abstract

Background: Interventions utilising the Nordic hamstring exercise (NHE) have resulted in reductions in the incidence of hamstring strain injury (HSI). Subsequently, quantifying eccentric knee flexor strength during performance of the NHE to identify an association with the occurrence of future HSI has become increasingly common; however, the data to date are equivocal. Objective: To systematically review the association between pre-season eccentric knee flexor strength quantified during performance of the NHE and the occurrence of future HSI. Design: Systematic review and meta-analysis. Data sources: CINAHL, Cochrane Library, Medline Complete, Embase, Web of Science and SPORTDiscus databases were searched from January 2013 to January 10, 2020. Eligibility criteria for selecting studies: Prospective cohort studies which assessed the association between pre-season eccentric knee flexor strength quantified during performance of the NHE and the occurrence of future HSI. Methods: Following database search, article retrieval and title and abstract screening, articles were assessed for eligibility against pre-defined criteria then assessed for risk of bias. Meta-analysis was used to pool data across studies, with meta-regression utilised where possible. Results: A total of six articles were included in the meta-analysis, encompassing 1100 participants. Comparison of eccentric knee flexor strength during performance of the NHE in 156 injured participants and the 944 uninjured participants revealed no significant differences, regardless of whether strength was expressed as absolute (N), relative to body mass (N kg−1) or between-limb asymmetry (%). Meta-regression analysis revealed that the observed effect sizes were generally not moderated by age, mass, height, strength, or sport played. Conclusion: Eccentric knee flexor strength quantified during performance of the NHE during pre-season provides limited information about the occurrence of a future HSI. [ABSTRACT FROM AUTHOR]

Published

2021

5. Biceps femoris long head muscle fascicle length does not differ between sexes.

Author

Behan, Fearghal P., Moody, Rachael, Patel, Tejal Sarika, Lattimore, Edward, Maden-Wilkinson, Thomas M., and Balshaw, Thomas G.

Subjects

*FEMUR, *ANTHROPOMETRY, *BIOMECHANICS, *MUSCLE contraction, *MUSCLE strength, *SEX distribution, *SPORTS medicine, *HAMSTRING muscle, *CROSS-sectional method, *ANATOMY

Abstract

Hamstring strain injury (HSI) rates are higher for males vs. females. This cross-sectional study investigated if inherent differences in biceps femoris long head (BFLH) fascicle length (Lf) exist between recreationally active males and females (i.e., individuals without specific training practice history). Twenty-four young healthy participants (12 males; 12 females) had their BFLH muscle architecture (Lf, pennation angle [θp], and muscle thickness [MT]) measured using B-mode ultrasonography. Eccentric and isometric knee flexion strength were also assessed. BFLH Lf did not differ between sexes when expressed in absolute terms (males, 81.5 ± 14.7 mm; females, 73.6 ± 15.9 mm, P = 0.220, effect size (ES) = 0.52) or relative to femur length (0.140 ≤ P ≤ 0.220, ES = 0.63). Similarly, BFLH θp did not differ between sexes (P = 0.650) but BFLH MT was 18.9% larger for males vs. females (P = 0.024, ES = 0.99). Isometric and eccentric knee flexion strength was greater for males vs. females in absolute terms ([both] P < 0.001, 2.00 ≤ ES ≤ 2.27) and relative to body mass ([both] P < 0.001, 1.93 ≤ ES ≤ 2.13). In conclusion, factors other than BFLH Lf seem likely to be implicated in higher male vs. female HSI rates. [ABSTRACT FROM AUTHOR]

Published

2019

6. Sex differences in muscle morphology of the knee flexors and knee extensors.

Author

Behan, Fearghal P., Maden-Wilkinson, Thomas M., Pain, Matt T. G., and Folland, Jonathan P.

Subjects

*MUSCLE injuries, *HAMSTRING muscle injuries, *ANTERIOR cruciate ligament injuries, *MUSCLE physiology

Abstract

Introduction: Females experience higher risk of anterior cruciate ligament (ACL) injuries; males experience higher risk of hamstring strain injuries. Differences in injury may be partially due to sex differences in knee flexor (KF) to knee extensor (KE) muscle size ratio and the proportional size of constituent muscles. Purpose: To compare the absolute and proportional size, and mass distribution, of individual KE and KF muscles, as well as overall size and balance (size ratio) of these muscle groups between the sexes. Methods: T1-weighted axial plane MR images (1.5T) of healthy untrained young males and females (32 vs 34) were acquired to determine thigh muscle anatomical cross-sectional area (ACSA). Maximal ACSA (ACSAmax) of constituent muscles, summated for KF and KE muscle groups, and the KF:KE ratio were calculated. Results: Females had 25.3% smaller KE ACSAmax (70.9±12.1 vs 93.6±10.3 cm2; P<0.001) and 29.6% smaller KF ACSAmax than males (38.8±7.3cm2 vs 55.1±7.3cm2; P<0.001). Consequently, females had lower KF:KE ACSA ratio (P = 0.031). There were sex differences in the proportional size of 2/4 KE and 5/6 KF. In females, vastus lateralis (VL), biceps femoris long-head (BFlh) and semimembranosus (SM) were a greater proportion and sartorius (SA), gracilis (GR) and biceps femoris short-head (BFsh) a smaller proportion of their respective muscle groups compared to males (All P<0.05). Conclusion: Sex differences in KF:KE ACSAmax ratio may contribute to increased risk of ACL injury in females. Sex discrepancies in absolute and proportional size of SA, GR, VL and BFlh may contribute further anatomical explanations for sex differences in injury incidence. [ABSTRACT FROM AUTHOR]

Published

2018

7. Correction to: Is Pre-season Eccentric Strength Testing During the Nordic Hamstring Exercise Associated with Future Hamstring Strain Injury? A Systematic Review and Meta-analysis.

Author

Opar, David A., Timmins, Ryan G., Behan, Fearghal P., Hickey, Jack T., van Dyk, Nicol, Price, Kara, and Maniar, Nirav

Subjects

PRESEASON (Sports), MUSCLE strength testing, HAMSTRING muscle physiology, SPORTS injuries risk factors, MUSCLE contraction, MEDICAL examinations of athletes, RISK assessment

Abstract

A correction to this paper has been published: https://doi.org/10.1007/s40279-021-01485-y [ABSTRACT FROM AUTHOR]

Published

2021