Search Results

You are looking at 1 - 10 of 20 items for :

  • Refine by Access: All Content x
Clear All
Restricted access

Travis Anderson, Laurie Wideman, Flavio A. Cadegiani, and Claudio E. Kater

Cortisol is the predominant circulating glucocorticoid in humans. In response to stressful stimuli, the hypothalamic–pituitary–adrenal neuroendocrine axis (HPA axis) will be stimulated and, subsequently, the circulating concentration of this steroid hormone will increase. As a pleiotropic hormone

Restricted access

Mitch D. VanBruggen, Anthony C. Hackney, Robert G. McMurray, and Kristin S. Ondrak

Purpose:

The effect of exercise intensity on the tracking of serum and salivary cortisol responses was examined in 12 endurance-trained males (maximal oxygen uptake [VO2max] = 58.2 ± 6.4 mL/kg/min).

Methods:

Subjects rested for 30 min (control) and exercised on a cycle ergometer for 30 min at 40% (low), 60% (moderate), and 80% (high intensity) of VO2max on separate days. Serum and saliva samples were collected pretrial, immediately posttrial, and 30 min into the recovery period from each trial.

Results:

Cortisol responses increased significantly for both serum (40.4%; P = .001) and saliva (170.6%; P = .007) only in response to high-intensity exercise. Peak saliva cortisol occurred at 30 min of recovery, whereas peak serum was at the immediate posttrial sampling time point. The association between serum and saliva cortisol across all trials was examined using concordance correlation (R c) analysis, which accounts for repeated measures. The overall correlation between serum and saliva cortisol levels in all matched samples was significant (R c = 0.728; P = .001). The scatter plot revealed that salivary cortisol responses tracked closely to those of serum at lower concentrations, but not as well at higher concentrations.

Conclusions:

Findings suggest salivary measurements of cortisol closely mirror those in the serum and that peak salivary concentrations do not occur until at least 30 min into the recovery from intense exercise.

Restricted access

Edmund O. Acevedo and Aaron L. Slusher

The relationship between stress and disease, in particular cardiovascular disease, has long been recognized, whereas the study of the physiological mechanisms that explain this link has only more recently received attention. The acute response to stress is generally thought to be a critically important adaptation designed to activate the system in preparation to cope with the stressor. However, prolonged stimulation of the system (acute and chronic) can lead to deleterious adaptations including the release of inflammatory cytokines (small proteins important in cell signaling) that play a critical role in the development of atherosclerosis. Scientists have therefore used a breadth of protocols and methods to identify the complexity of our fight-or-flight response and demonstrate the synergy between perception, the stress response, physical activity, and health. In addition, the critical assessment of cellular health, the gut microbiome, and genetic polymorphisms have further advanced our understanding of additional therapeutic targets against CVD.

Restricted access

Travis Anderson, Amy R. Lane, and Anthony C. Hackney

indicator of hypothalamic–pituitary–adrenal axis (HPA axis) activity 6 and is termed the cortisol awakening response (CAR). Specifically, CAR typically represents a 50% to 75% increase in cortisol concentrations, 7 peaking at approximately 30 to 45 minutes after waking. 8 CAR is a manifestation of HPA

Restricted access

Bruno Marrier, Alexandre Durguerian, Julien Robineau, Mounir Chennaoui, Fabien Sauvet, Aurélie Servonnet, Julien Piscione, Bertrand Mathieu, Alexis Peeters, Mathieu Lacome, Jean-Benoit Morin, and Yann Le Meur

testosterone levels prior to physical activity, also called “hormonal priming,” is considered to facilitate neuromuscular performance. 5 , 10 Sport competition is also considered as psychologically and physically challenging. The hypothalamopituitary–adrenal (HPA) axis and the sympathoadrenomedullary system

Restricted access

Mark A. Thompson, Adam R. Nicholls, John Toner, John L. Perry, and Rachel Burke

among researchers. Cortisol is a steroid hormone controlled by the hypothalamic–pituitary–adrenocortical (HPA) axis ( Hellhammer et al., 2009 ). Typically in the psychoneuroendocrinological literature, pleasant emotions have been indexed through a negative relationship to cortisol response with

Restricted access

Megan A. Kuikman, Margo Mountjoy, Trent Stellingwerff, and Jamie F. Burr

sedentary females ( Loucks et al., 1998 ), this may not be representative of the effect of chronic and extreme EEE on the hypothalamic–pituitary–gonadal (HPG) axis in well-trained athletes with lower levels of body fat. The physical stress of exercise activates the hypothalamic–pituitary–adrenal (HPA) axis

Restricted access

Billy C.L. So, Sze C. Kwok, and Paul H. Lee

-pituitary-adrenal (HPA) axis and sleep: normal HPA axis activity and circadian rhythm, exemplary sleep disorders . J Clin Endocrinol Metabol . 2005 ; 90 ( 5 ): 3106 – 3114 . 10.1210/jc.2004-1056 35. Vgontzas AN , Tsigos C , Bixler EO , et al . Chronic insomnia and activity of the stress system: a preliminary

Restricted access

Jonathan I. Hochstetler, Anne C. Russ, Ryan Tierney, and Jamie L. Mansell

relationships as regulators of the HPA axis across development . J Clin Child Adolesc Psychol . 2013 ; 42 ( 4 ): 564 – 575 . PubMed ID: 23746193 doi:10.1080/15374416.2013.804387 10.1080/15374416.2013.804387 22. Knack JM , Jensen-Campbell LA , Baum A . Worse than sticks and stones? Bullying is

Full access

Kirsty J. Elliott-Sale, Adam S. Tenforde, Allyson L. Parziale, Bryan Holtzman, and Kathryn E. Ackerman

↓ Lawson et al. ( 2011 , 2013 ) ↓ Chicharro et al. ( 2001 )  insulin ↓ Laughlin and Yen ( 1996 ), Loucks and Thuma ( 2003 ), Loucks et al. ( 1998 ), and Rickenlund et al. ( 2004 ) ↓ Chan et al. ( 2003 ), Koehler et al. ( 2016 ), and Maestu et al. ( 2010 )  amylin ↓ Wojcik et al. ( 2010 ) HPA axis