Effect of intense wrestling exercise on leucocytes and adhesion molecules in adolescent boys

The Systemic Effects of Exercise on Regulators of Muscle and Bone in Girls and Women

PURPOSE

To assess the systemic effects of an acute bout of moderate-intensity exercise on factors that are known to regulate muscle and bone growth in prepubertal girls and women.

METHODS

A total of 12 prepubertal girls (8-10 y) and 12 women (20-30 y) cycled at 60% maximal oxygen uptake for 1 hour followed by 1 hour recovery. Blood samples were collected at rest, mid-exercise, end of exercise, mid-recovery, and end of recovery. Plasma was analyzed for interleukin-6, chemokine ligand 1, fibroblast growth factor-2, total insulin growth factor-1 (IGF-1), and free IGF-1 using enzyme-linked immunosorbent assays assays.

RESULTS

Both groups had similar concentrations of systemic factors at baseline with the exception of free IGF-1, which was higher in girls (P = .001). Interleukin-6 response was lower in girls versus women (P = .04), with a difference of +105.1% at end of exercise (P < .001), +113.5% at mid-recovery (P = .001), and +93.2% at end of recovery (P = .02). Girls and women exhibited significant declines in chemokine ligand 1, fibroblast growth factor-2, and total IGF-1 during recovery.

CONCLUSION

Compared with women, an acute bout of moderate-intensity exercise in girls elicits a lower inflammatory response, suggesting that other mechanisms may be more important for driving the anabolic effects of exercise on muscle and bone in girls.

The response of intercellular adhesion molecule-1 to exhaustive submaximal exercise and its correlation with physiological and anthropometric measures

Introduction:Intercellular adhesion molecule-1 (ICAM-1) acts as the main factor in the occurrence of atherosclerosis and inflammatory diseases. This study aimed to investigate the response of ICAM-1to exhaustive submaximal exercise and its correlation with maximal oxygen consumption (VO2max), body mass index (BMI), waist-hip ratio (WHR), body fat percentage (BF %) and calories burned during exercise (CB) in healthy men. Materials and methods:Thirteen healthy men (mean ± standard deviation: age 23 ± 3 years, weight 78 ± 4 kg, height 180 ± 4 cm) cooperated in this quasi-experimental study and performed a single bout of exhaustive submaximal exercise on a cycle ergometer. Blood samples were collected from the antecubital vein before and immediately after exercise. Data were analyzed using the paired sample t-test and Pearson's correlation coefficient (α=0.05). Results:Exhaustive submaximal exercisehad no significant effect on serum sICAM-1. Also, there were no significant correlations between ICAM-1 induced by the exhaustive submaximal exercise and VO2max, BMI, WHR, BF % and CB. Conclusions:According to our findings, it cannot be ruled out that exhaustive submaximal exercise results in pathological and inflammatory conditions in healthy men. In Also, anthropometric and physiological parameters do not affect the response of ICAM-1 to exercise in healthy men.

Exercise and Immune Function in Children

Exercise immunology is one of the fastest growing disciplines of the past 2 decades. Unfortunately, the number of investigations devoted to the pediatric population remains low, and our understanding of the interaction between acute and chronic exercise and the immune system in youth is relatively deficient. In general, healthy children experience smaller overall perturbations to the immune system in response to an acute bout of exercise as compared with adults, and they demonstrate a faster recovery of the immune system following exercise. There is only limited evidence to suggest that moderate to high levels of habitual physical activity are associated with a reduction in the incidence of infection and illness in youth. Special consideration should be made for the young athlete training and competing during an illness or infection. Some of the unique exercise responses of the immune system in children may have important clinical relevance, but much more work is required in this area.

Does physical activity increase or decrease the risk of sickle cell disease complications?

Sickle cell disease (SCD) is the most common inherited disease in the world. Red blood cell sickling, blood cell-endothelium adhesion, blood rheology abnormalities, intravascular haemolysis, and increased oxidative stress and inflammation contribute to the pathophysiology of SCD. Because acute intense exercise may alter these pathophysiological mechanisms, physical activity is usually contra-indicated in patients with SCD. However, recent studies in sickle-cell trait carriers and in a SCD mice model show that regular physical activity could decrease oxidative stress and inflammation, limit blood rheology alterations and increase nitric oxide metabolism. Therefore, supervised habitual physical activity may benefit patients with SCD. This article reviews the literature on the effects of acute and chronic exercise on the biological responses and clinical outcomes of patients with SCD.

Cold applications for recovery in adolescent athletes: a systematic review and meta analysis

Recovery and regeneration modalities have been developed empirically over the years to help and support training programmes aimed at maximizing athletic performance. Professional athletes undergo numerous training sessions, characterized by differing modalities of varying volumes and intensities, with the aim of physiological adaptation leading to improved performance. Scientific support to athletes focuses on improving the chances of a training programme producing the largest adaptive response. In competition it is mainly targeted at maximizing the chances of optimal performance and recovery when high performance levels are required repeatedly in quick succession (e.g. heats/finals). In recent years, a lot of emphasis has been put on recovery modalities. In particular, emphasis has been placed on the need to reduce the delayed onset of muscle soreness (DOMS) typically evident following training and competitive activities inducing a certain degree of muscle damage. One of the most used recovery modalities consists of cold-water immersion and/or ice/cold applications to muscles affected by DOMS. While the scientific literature has provided a rationale for such modalities to reduce pain in athletes and recreationally active adults, it is doubtful if this rationale is appropriate to aid training with adolescent athletes. In particular, since these methods have been suggested to potentially impair the muscle remodeling process leading to muscle hypertrophy. While this debate is still active in the literature, many coaches adopt such practices in youth populations, simply transferring what they see in elite sportspeople directly; without questioning the rationale, safety or effectiveness as well as the potential for such activity to reduce the adaptive potential of skeletal muscle remodeling in adolescent athletes. The aim of this review was to assess the current knowledge base on the use of ice/cold applications for recovery purposes in adolescent athletes in order to provide useful guidelines for sports scientists, medical practitioners, physiotherapists and coaches working with such populations as well as developing research questions for further research activities in this area. Based on the current evidence, it seems clear that evidence for acute benefits of such interventions are scarce and more work is needed to ascertain the physiological implications on a pre or peri-pubertal population.

Acute effects of high- and low-intensity exercise bouts on leukocyte counts

BACKGROUND/OBJECTIVE

It is widely accepted that physical exercise may bring about changes in the immune system. Even acute bouts of exercise can alter the number and function of leukocytes, but the degree of white blood cell trafficking depends on the intensity and duration of exercise. The aim of this study was to analyze the acute and short-term effects of exercise intensity on leukocyte counts and leukocyte subsets.

METHODS

Nine physically healthy, active young males (21.0 ± 1.9 years) underwent three experimental trials: high exercise intensity [80% peak oxygen consumption (VO2peak)], low exercise intensity (40% VO2peak), and the control condition (no exercise). Blood samples were collected prior to exercise, immediately after exercise, and 2 hours after exercise. Two-way analysis of variance for repeated measures was used to evaluate differences between the trials and the time-points, and to compare times within trials.

RESULTS

There was a greater increase in the leukocyte count after high-intensity exercise, compared to the control condition (p < 0.01) and low-intensity exercise (p < 0.01). This effect was still present 2 hours after passive recovery (p < 0.01).

CONCLUSION

When the same participants were submitted to different exercise intensities, the acute and short-term effects of exercise on white blood cells were intensity-dependent immediately after exercise (i.e., lymphocytosis and monocytosis) and 2 hours after passive recovery (i.e., neutrophilia).

Sex-based effects on immune changes induced by a maximal incremental exercise test in well-trained swimmers

Studies examining the immune response to acute intensive swimming have shown increased leukocytosis and lymphocyte populations. However, studies concerning mucosal immunity and sex differences remain controversial. The objective of the study was to examine sex differences on the immune response to maximal incremental swimming exercise in well trained swimmers. Participants (11 females, controlled for menstrual cycle phase effects; 10 males) performed a maximal incremental 7x200 m front crawl set. Fingertip capillary blood samples were obtained after each 200 m swim for lactate assessment. Venous blood and saliva samples were collected before and 5 minutes after the swimming test to determine total numbers of leukocytes, lymphocytes and subpopulations, and serum and salivary immunoglobulin A (IgA) levels. IgA secretion rate was calculated. Menstrual cycle phase did not influence the immune response to exercise. As for sex differences, exercise induced an increase in leukocytes, total lymphocytes, CD3(+), CD4(+), CD8(+), and CD16(+)/56(+) in males. In females, only leukocytosis, of a lower magnitude than was observed in males, occurred. CD19(+) increased and CD4(+)/CD8(+) ratio decreased in both groups following exercise whilst IgA, SIgA concentrations, and srIgA did not change. Both males and females finished the incremental exercise very close to the targeted race velocity, attaining peak blood lactate concentrations of 14.6±2.25 and 10.4±1.99 mmol.L(-1), respectively. The effect of a maximal incremental swimming task on immunity is sex dependent and more noticeable in men. Males, as a consequence of higher levels of immunosurveillance may therefore be at a lower risk of infection than females. Key PointsMaximal exercise induces an immune response.This study investigated the influence of sex over the leukocytes subpopulations and mucosal immune responses to maximal swimming.Male swimmers showed a stronger increase of T helper, T cytotoxic and NK lymphocytes than females, suggesting they may be at a lower risk of infection, due to a higher immunosurveillance.Mucosal immunity remained unchanged in both sexes.

Influência da suplementação de carboidrato na função imune de judocas durante o treinamento

O objetivo deste trabalho foi investigar os efeitos da suplementação de carboidrato, durante uma sessão de treino, sobre a função imune de atletas de judô. Dezesseis judocas do sexo masculino foram submetidos a duas sessões de treinamento de 120 minutos cada, com três dias de intervalo entre elas. Na primeira sessão, oito judocas, separados de forma aleatória, foram suplementados (3mL/kg peso corporal) com solução carboidratada (grupo CHO) e os demais, com solução placebo (grupo PLA), de forma duplo-cega. Na segunda sessão os tratamentos foram invertidos. O número de leucócitos, linfócitos, monócitos, eosinófilos, neutrófilos, os níveis de cortisol e as concentrações de glicose e lactato foram medidos em repouso (Pré-E), imediatamente após (Pós-E) e uma hora após o término da sessão de treino (1h pós-E). Os resultados mostraram que a glicemia aumentou (p < 0,05) durante a sessão de treino no grupo CHO e reduziu-se (p < 0,05) no grupo PLA. O cortisol aumentou (p < 0,05) durante a sessão de treino, independente do tipo de solução consumida, bem como durante a recuperação no grupo PLA. O consumo de CHO resultou em menor (p < 0,05) leucocitose, quando comparado com o PLA, nos períodos Pós-E e 1h Pós-E. A elevação da concentração de lactato sangüíneo decorrente do exercício correlacionou-se positivamente com o aumento dos leucócitos (r = 0,86, p < 0,001) nos dois grupos. Concluiu-se que a ingestão de bebida carboidratada por atletas de judô durante uma sessão de treino resultou em menor perturbação da contagem total de leucócitos e suas subclasses: linfócitos, monócitos, eosinófilos e neutrófilos. Esses resultados sugerem proteção à saúde imunológica de judocas fomentada por essa estratégia nutricional.

Effect of acute maximal exercise on lymphocyte subgroups in type 1 diabetes

The essential therapy of diabetes mellitus includes medical nutrition therapy (MNT), exercise and medical therapy. Exercise, besides its metabolic effects, has positive influence on the immune system, but some forms of exercise may cause trauma for muscle and skeletal systems, they may also support negative effects on the immune system. Nineteen type 1 diabetic patients (mean age 22.1 +/- 2.8 yrs), followed by Diabetes Outpatient Clinic and twenty age matched male control subjects were included into the study, to demonstrate the effects of maximal, acute exercise on the immune system. The exercise test was performed according to Bruce protocol on treadmill. In diabetic subjects, increased CD19 and CD23 expressions were observed before exercise. In both groups (diabetic/control) CD3, CD4 expressions and CD4/CD8 ratio were decreased following the exercise, however expression of natural killer (NK) cells increased. Compared to type 1 diabetic patients healthy subjects had longer acute exercise that caused the increased level of CD8 expression, however type 1 diabetic patients did not show any difference. These results indicate that submaximal aerobic exercise might be recommended for type 1 diabetics without any complications because of its positive reflection on metabolic control and no negative effects on the immune system.

Lymphocyte expression of CD95 at rest and in response to acute exercise in healthy children and adolescents

CD95 is essential in regulating the immune system, and its reduced expression has been associated with anthracycline resistance in some childhood leukemias. We determined whether an acute bout of exercise would influence the mixed lymphocyte expression of CD95 in healthy children and adolescents. Fifty healthy pediatric subjects (female n=25) cycled for 60 min @ 70% V O(2max). Blood was collected before, during, and after exercise to determine CD95 expression on T (CD3(+)CD19(-)) and B (CD3(-)CD19(+)) cells using flow cytometry. At rest, the percentage of CD95(hi) T cells was 29% higher in girls versus boys (p<0.001). The percentage of CD95(hi) T cells and the median fluorescence intensity (MFI) of CD95(hi) were higher during recovery versus rest (p<0.0001). The percentage of CD95(lo) T cells was lower during recovery versus rest, whereas the MFI of CD95(lo) was higher during exercise versus rest. The CD95(hi) T cell count increased during exercise, but only in 14-yr-old girls, whereas CD95(lo) T cell counts increased similarly in all groups. CD95(+) B cells were relatively unresponsive to exercise. We conclude that lymphocyte expression of CD95 is influenced by acute exercise in healthy children and adolescents. Exercise-induced alterations in CD95 expression may have clinical implications for some pediatric conditions.

Immunological changes in response to exercise: influence of age, puberty, and gender

PURPOSE

This study tested the hypothesis that exercise-induced perturbation and recovery of the immune system would vary with age, puberty, and gender in healthy children and adolescents.

METHODS

Twelve-year-old girls (YG; N = 14) and boys (YB; N = 20), and 14-yr-old girls (OG; N = 11) and boys (OB; N = 13) cycled for 60 min at 70% VO2max. Blood was collected before, at 30 and 60 min of exercise, and at 30 and 60 min of recovery to measure total leukocytes, leukocyte and lymphocyte subsets, and cytokines. Age and pubertal (Tanner stage) effects within genders and gender effects within age and pubertal groups were determined.

RESULTS

Exercise-induced increases in lymphocytes, CD3-CD16+CD56+ counts, and IL-6 were approximately 83, 90, and 390% greater in OG versus YG (P < 0.05). Recovery leukocytosis and neutrophilia were approximately 56 and 35% greater in OB versus YB (P < 0.05). Pubertal stage did not have a statistically significant influence on responses in girls, but the lowest pubertal stage consistently showed smaller changes in lymphocytes and CD3-CD16+CD56+ counts. Recovery neutrophilia was approximately 120% greater in postpubertal boys versus prepubertal or pubertal boys (P < 0.05). Responses of lymphocytes and CD3-CD16+CD56+ counts, respectively, were approximately 120 and 82% greater in OG versus OB (P < 0.05), with no differences between YG and YB. Exercise-induced increases in total leukocytes, lymphocytes, and CD3-CD16+CD56+ counts were at least 35% greater in girls versus boys of similar pubertal status (P < 0.05). Regardless of age, puberty, or gender, IL-8 levels were significantly higher during recovery versus rest (P < 0.05).

CONCLUSION

These results highlight the need to control for age, puberty, and gender when interpreting immunologic responses to exercise in a pediatric population.

Sex-based effects on the distribution of NK cell subsets in response to exercise and carbohydrate intake in adolescents

Carbohydrate (CHO) supplementation and female sex independently influence the natural killer (NK) cell response to acute exercise. Consequently, this study sought to elucidate sex-based differences in the distribution of NK cell subsets (i.e., CD56dimand CD56bright) in response to exercise and CHO intake. Twenty-two healthy 14-yr-old girls ( n = 11) and boys ( n = 11) cycled for 60 min at 70% maximal oxygen consumption while drinking 6% CHO (CT) or flavored water (WT). Blood was collected at rest, during exercise (30 and 60 min), and during recovery (30 and 60 min) to identify CD3−CD56dimand CD3−CD56brightNK cells. The activation marker CD69 was also determined on CD3−CD56+cells. CD56dimresponses, expressed as proportions or cell counts, were greater ( P ≤ 0.01) in girls by 67 and 105%, respectively. CD56brightcell counts ( P = 0.006), but not CD56brightproportions ( P = 0.89), were greater in girls by 82%. Both CD56dimand CD56brightsubset responses, expressed as proportions or cell counts, were lower ( P ≤ 0.01) in CT vs. WT by 33–36%. The CD56bright-to-CD56dimratio decreased at 30 min of exercise but increased during recovery ( P < 0.001), with no effect of sex or CHO. Regardless of trial, CD3−CD56+cells expressed ∼18% higher levels of CD69 during recovery in girls but not boys ( P = 0.03), despite similar proportions and counts of CD69+cells. These results demonstrate sex-based differences in the distribution of NK cell subsets and activation status in response to exercise, but not CHO intake, and further support the need to control for sex in exercise immunology studies.