Add to ORKGType 1 (TI) and Type 2 (T2) lymphocytes promote cell-mediated immunity and humoral immunity respectively. Evidence accumulated over the past two decades has demonstrated diverse responses of T1 and T2 cells to acute exercise or long-term training at moderate and high intensities. This brief review highlights the current findings from animal and human experimental models on the relationship between the T1 and T2 cell counts and the cytokines these cells produce, in response to moderate and high intensity exercise. The potential of using the T1/T2 balance as an indicator of immune function changes in response to exercise is discussed
High-intensity interval training (HIIT) may disrupt immunity. Regulatory T cells (Tregs) are importa...
Highly trained athletes are associated with high resting antigen-stimulated whole blood culture inte...
Exercise has a signifi cant effect on the regulation of the immune system. Acute bouts of exercise i...
The present study examined the effects of acute exhaustive exercise and chronic exercise training on...
The biphasic effects of exercise training on the immune system have been studied extensively and rep...
Although physical inactivity figures as one of the main causes attributed to mortality, the damage c...
This study was designed to compare the effects of three prolonged exercises varying in their intensi...
Exercise has been shown to modulate lymphocytes. Recently, the ability of exercise to induce cell de...
In the field of sports science, the number/ percentage of IFN - 酌(or IL -2) and IL -4 cells in perip...
Exercise affects t-cell cytokine production. Whether or not these effects are caused by circulating ...
This study was developed to determine the B-lymphocyte response in terms of migration or apoptosis (...
The effects of exercise on the immune system are under investigation in recent years. Immune system ...
Mucosal associated invariant T (MAIT) cells have properties of the innate and acquired immune system...
Exercise alters the percentage of CD8+ T-cells in the bloodstream expressing type I and type II cyto...
Objectives—To review results on exercise induced changes in the immune system following strenuous an...
High-intensity interval training (HIIT) may disrupt immunity. Regulatory T cells (Tregs) are importa...
Highly trained athletes are associated with high resting antigen-stimulated whole blood culture inte...
Exercise has a signifi cant effect on the regulation of the immune system. Acute bouts of exercise i...
The present study examined the effects of acute exhaustive exercise and chronic exercise training on...
The biphasic effects of exercise training on the immune system have been studied extensively and rep...
Although physical inactivity figures as one of the main causes attributed to mortality, the damage c...
This study was designed to compare the effects of three prolonged exercises varying in their intensi...
Exercise has been shown to modulate lymphocytes. Recently, the ability of exercise to induce cell de...
In the field of sports science, the number/ percentage of IFN - 酌(or IL -2) and IL -4 cells in perip...
Exercise affects t-cell cytokine production. Whether or not these effects are caused by circulating ...
This study was developed to determine the B-lymphocyte response in terms of migration or apoptosis (...
The effects of exercise on the immune system are under investigation in recent years. Immune system ...
Mucosal associated invariant T (MAIT) cells have properties of the innate and acquired immune system...
Exercise alters the percentage of CD8+ T-cells in the bloodstream expressing type I and type II cyto...
Objectives—To review results on exercise induced changes in the immune system following strenuous an...
High-intensity interval training (HIIT) may disrupt immunity. Regulatory T cells (Tregs) are importa...
Highly trained athletes are associated with high resting antigen-stimulated whole blood culture inte...
Exercise has a signifi cant effect on the regulation of the immune system. Acute bouts of exercise i...