Your search keyword '"Lieberman HR"' showing total 9 results

1. Effects of testosterone administration on fMRI responses to executive function, aggressive behavior, and emotion processing tasks during severe exercise- and diet-induced energy deficit.

Author

Carmichael OT, Pillai SR, Murray K, Shankapal P, Caldwell J, Vartanian O, Berryman CE, Karl JP, Harris M, Rood JC, Pasiakos SM, and Lieberman HR

Subjects

Adult, Brain diagnostic imaging, Exercise physiology, Humans, Male, Young Adult, Aggression physiology, Emotions physiology, Energy Intake physiology, Executive Function physiology, Magnetic Resonance Imaging, Testosterone pharmacology

Abstract

Background: Clinical administration of testosterone is widely used due to a variety of claimed physical and cognitive benefits. Testosterone administration is associated with enhanced brain and cognitive function, as well as mood, in energy-balanced males, although such relationships are controversial. However, the effects of testosterone administration on the brains of energy-deficient males, whose testosterone concentrations are likely to be well below normal, have not been investigated., Methods: This study collected functional magnetic resonance imaging (fMRI) data from 50 non-obese young men before (PRE) and shortly after (POST) 28 days of severe exercise-and-diet-induced energy deficit during which testosterone (200 mg testosterone enanthate per week in sesame oil, TEST) or placebo (sesame seed oil only, PLA) were administered. Scans were also collected after a post-energy-deficit weight regain period (REC). Participants completed five fMRI tasks that assessed aspects of: 1) executive function (Attention Network Task or ANT; Multi-Source Interference Task or MSIT; AXE Continuous Processing Task or AXCPT); 2) aggressive behavior (Provoked Aggression Task or AGG); and 3) latent emotion processing (Emotional Face Processing or EMO)., Results: Changes over time in task-related fMRI activation in a priori defined task-critical brain regions during performance of 2 out of 5 tasks were significantly different between TEST and PLA, with TEST showing greater levels of activation during ANT in the right anterior cingulate gyrus at POST and during MSIT in several brain regions at REC. Changes over time in objective task performance were not statistically significant; testosterone-treated volunteers had greater self-reported anger during AGG at POST., Conclusions: Testosterone administration can alter some aspects of brain function during severe energy deficit and increase levels of anger., (Copyright © 2021. Published by Elsevier Inc.)

Published

2021

2. Behavioral correlates of self-reported health status in US active duty military.

Author

Hruby A, Lieberman HR, and Smith TJ

Subjects

Adult, Exercise physiology, Female, Humans, Male, Middle Aged, Sleep physiology, Smoking, Surveys and Questionnaires, Health Behavior, Health Status, Military Personnel statistics & numerical data, Self Report, Wounds and Injuries

Abstract

Trends and relationships between health behaviors and conditions in US active duty military and Coast Guard personnel are understudied. Self-reported data from the 2011 and 2015 Department of Defense Health Related Behaviors Surveys were analyzed to estimate associations between seven behaviors (reasons for not exercising; moderate, vigorous, and strength training exercise; alcohol intake; sleep; and smoking) and five health conditions (high blood pressure [BP], blood sugar [BG], cholesterol [CH]; overweight/obesity [OW]; or obesity [OB]). In 33,531 respondents, 14.8%, 1.7%, 13.6%, 65.5%, and 12.1% had high BP, BG, CH, OW, or OB, respectively. Respondents in 2015, versus 2011, had higher odds of BP, BG, OW, and OB. Compared to exercising as much as desired, citing a disability or injury, or work commitments as reasons for not exercising associated with higher odds of each condition. Longer sleep associated with lower odds of each condition except BG. Current and former smoking associated with higher odds of BP; former smoking also associated with higher odds of high CH and OW. Three behaviors contributing to the best predictive models of each condition resulted in associations of reasons for not exercising with all conditions; strength training for OW and OB; alcohol intake for BP and BG; sleep for BP and CH; and moderate exercise for BG. Disability and injury and time constraints limiting exercise were consistent markers of self-reported health conditions. Military-specific initiatives to promote strategies for overcoming barriers to exercising, continued emphasis on adequate sleep, and reduction of alcohol intake and smoking are warranted., (Published by Elsevier Inc.)

Published

2020

3. Two days of calorie deprivation impairs high level cognitive processes, mood, and self-reported exertion during aerobic exercise: A randomized double-blind, placebo-controlled study.

Author

Giles GE, Mahoney CR, Caruso C, Bukhari AS, Smith TJ, Pasiakos SM, McClung JP, and Lieberman HR

Subjects

Anger, Cross-Over Studies, Depression psychology, Double-Blind Method, Exercise, Female, Humans, Male, Mental Fatigue psychology, Perception, Self Report, Task Performance and Analysis, Young Adult, Affect, Caloric Restriction psychology, Cognition, Energy Intake, Physical Exertion

Abstract

Military personnel and emergency responders perform cognitively-demanding tasks during periods of sustained physical exertion and limited caloric intake. Cognitive function is preserved during short-term caloric restriction, but it is unclear if preservation extends to combined caloric restriction and physical exertion. According to the "reticular-activating hypofrontality" model, vigorous exertion impairs prefrontal cortex activity and associated functions. This double-blind, placebo-controlled, crossover study examined cognitive function during sustained exertion while volunteers were calorically-deprived. Twenty-three volunteers were calorie-depleted for two days on one occasion and fully-fed on another. They completed intermittent bouts of exercise at 40-65% VO 2peak while prefrontal cortex-dependent tasks of cognitive control, mood, and perceived exertion were assessed. Calorie deprivation impaired accuracy on the task-switching task of set-shifting (p < .01) and decreased sensitivity on the go/no-go task of response inhibition (p < .05). Calorie deprivation did not affect risk taking on the Rogers risk task. During exercise, calorie deprivation, particularly on day 2, increased perceived exertion (p < .05) and impaired mood states of tension, depression, anger, vigor, fatigue, and confusion (all p < .01). Physical exertion during severe calorie deprivation impairs cognitive control, mood, and self-rated exertion. Reallocation of cerebral metabolic resources from the prefrontal cortex to structures supporting movement may explain these deficits., (Published by Elsevier Inc.)

Published

2019

4. Effect of glycemic load on eating behavior self-efficacy during weight loss.

Author

Karl JP, Cheatham RA, Das SK, Hyatt RR, Gilhooly CH, Pittas AG, Lieberman HR, Lerner D, Roberts SB, and Saltzman E

Subjects

Adult, Blood Glucose, Body Mass Index, Female, Health Behavior, Healthy Volunteers, Humans, Male, Motor Activity, Multivariate Analysis, Overweight, Young Adult, Feeding Behavior, Glycemic Index, Self Efficacy, Weight Loss

Abstract

High eating behavior self-efficacy may contribute to successful weight loss. Diet interventions that maximize eating behavior self-efficacy may therefore improve weight loss outcomes. However, data on the effect of diet composition on eating behavior self-efficacy are sparse. To determine the effects of dietary glycemic load (GL) on eating behavior self-efficacy during weight loss, body weight and eating behavior self-efficacy were measured every six months in overweight adults participating in a 12-mo randomized trial testing energy-restricted diets differing in GL. All food was provided during the first six months and self-selected thereafter. Total mean weight loss did not differ between groups, and GL-level had no significant effect on eating behavior self-efficacy. In the combined cohort, individuals losing the most weight reported improvements in eating behavior self-efficacy, whereas those achieving less weight loss reported decrements in eating behavior self-efficacy. Decrements in eating behavior self-efficacy were associated with subsequent weight regain when diets were self-selected. While GL does not appear to influence eating behavior self-efficacy, lesser amounts of weight loss on provided-food energy restricted diets may deter successful maintenance of weight loss by attenuating improvements in eating behavior self-efficacy., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

5. Acute caffeine consumption enhances the executive control of visual attention in habitual consumers.

Author

Brunyé TT, Mahoney CR, Lieberman HR, Giles GE, and Taylor HA

Subjects

Adult, Dose-Response Relationship, Drug, Double-Blind Method, Female, Humans, Male, Neuropsychological Tests, Reaction Time drug effects, Visual Perception drug effects, Young Adult, Attention drug effects, Caffeine administration & dosage, Caffeine pharmacology, Central Nervous System Stimulants administration & dosage, Central Nervous System Stimulants pharmacology, Executive Function drug effects, Psychomotor Performance drug effects

Abstract

Recent work suggests that a dose of 200-400 mg caffeine can enhance both vigilance and the executive control of visual attention in individuals with low caffeine consumption profiles. The present study seeks to determine whether individuals with relatively high caffeine consumption profiles would show similar advantages. To this end, we examined the effects of four caffeine doses (0 mg, 100 mg, 200 mg, 400 mg) on low- and high-level visual attention in individuals with high consumption profiles (n=36), in a double-blind study using a repeated measures design. Results from the Attention Network Test indicated that caffeine enhanced both vigilance and the executive control of visual attention, but only at the highest administered dose (400 mg). We demonstrate that in habitual consumers high doses of caffeine can produce beneficial changes in visual attention. These results carry implications for the theorized interactions between caffeine, adenosine and dopamine in brain regions mediating visual attention., (Published by Elsevier Inc.)

Published

2010

6. Caffeine modulates attention network function.

Author

Brunyé TT, Mahoney CR, Lieberman HR, and Taylor HA

Subjects

Affect drug effects, Caffeine administration & dosage, Central Nervous System Stimulants administration & dosage, Cues, Dose-Response Relationship, Drug, Double-Blind Method, Executive Function drug effects, Female, Humans, Male, Neuropsychological Tests, Substance Withdrawal Syndrome diagnosis, Visual Pathways drug effects, Young Adult, Attention drug effects, Caffeine pharmacology, Central Nervous System Stimulants pharmacology, Visual Perception drug effects

Abstract

The present work investigated the effects of caffeine (0mg, 100mg, 200mg, 400mg) on a flanker task designed to test Posner's three visual attention network functions: alerting, orienting, and executive control [Posner, M. I. (2004). Cognitive neuroscience of attention. New York, NY: Guilford Press]. In a placebo-controlled, double-blind study using a repeated-measures design, we found that the effects of caffeine on visual attention vary as a function of dose and the attention network under examination. Caffeine improved alerting and executive control function in a dose-response manner, asymptoting at 200mg; this effect is congruent with caffeine's adenosine-mediated effects on dopamine-rich areas of brain, and the involvement of these areas in alerting and the executive control of visual attention. Higher doses of caffeine also led to a marginally less efficient allocation of visual attention towards cued regions during task performance (i.e., orienting). Taken together, results of this study demonstrate that caffeine has differential effects on visual attention networks as a function of dose, and such effects have implications for hypothesized interactions of caffeine, adenosine and dopamine in brain areas mediating visual attention., (Published by Elsevier Inc.)

Published

2010

7. Energy requirements of military personnel.

Author

Tharion WJ, Lieberman HR, Montain SJ, Young AJ, Baker-Fulco CJ, Delany JP, and Hoyt RW

Subjects

Adult, Altitude, Cold Temperature, Female, Humans, Male, Nutritional Requirements, United States, Energy Intake physiology, Energy Metabolism physiology, Exercise physiology, Military Personnel

Abstract

Energy requirements of military personnel (Soldiers, Sailors, Airmen, and Marines) have been measured in garrison and in field training under a variety of climatic conditions. Group mean total energy expenditures for 424 male military personnel from various units engaged in diverse missions ranged from 13.0 to 29.8 MJ (3109-7131 kcal) per day. The overall mean was 19.3+/-2.7 MJ (mean+/-SD) (4610+/-650 kcal) per day measured over an average of 12.2 days (range 2.25-69 days). For the 77 female military personnel studied, mean total energy expenditures for individual experimental groups ranged from 9.8 to 23.4 MJ (2332-5597 kcal) per day, with an overall mean of 11.9+/-2.6 MJ (2850+/-620 kcal) per day, measured over an average of 8.8 days (range 2.25-14 days). Women, presumably due to their lower lean body mass, resting metabolic rate, and absolute work rates, had lower total energy expenditures. Combat training produced higher energy requirements than non-combat training or support activities. Compared to temperate conditions, total energy expenditures did not appear to be influenced by hot weather, but tended to be higher in the cold or high altitude conditions.

Published

2005

8. Nutrition, brain function and cognitive performance.

Author

Lieberman HR

Subjects

Adult, Brain drug effects, Caffeine pharmacology, Cognition drug effects, Dietary Carbohydrates, Dietary Proteins, Humans, Melatonin physiology, Tryptophan physiology, Tyrosine physiology, Brain physiology, Cognition physiology, Nutritional Physiological Phenomena physiology

Abstract

Military interest in the effects of nutritional factors on cognitive function has stimulated considerable research on a variety of food constituents. This paper will review the research on the amino acids tryptophan and tyrosine, caffeine and carbohydrate. It will focus on research that addresses the potential utility of these compounds in military applications, particularly the acute, as opposed to chronic, effects of these substances on cognitive functions such as alertness, vigilance and resistance to stress. Caffeine, the most intensively studied food constituent, has unequivocal beneficial effects on vigilance, and in sleep deprived individuals it enhances other cognitive functions as well. Tryptophan, although it clearly has sedative-like properties, has not been extensively studied by military laboratories for use as a hypnotic, due to safety concerns. Tyrosine has been examined in animal models and human studies, and appears to prevent the substantial decline in various aspects of cognitive performance and mood associated with many kinds of acute stress. Carbohydrate supplementation appears to enhance cognitive performance in soldiers engaged in sustained, intense physical activities that expend high levels of energy.

Published

2003

9. Hypobaric hypoxia impairs spatial memory in an elevation-dependent fashion.

Author

Shukitt-Hale B, Stillman MJ, Welch DI, Levy A, Devine JA, and Lieberman HR

Subjects

Altitude, Animals, Atmospheric Pressure, Hippocampus physiopathology, Male, Motor Activity physiology, Rats, Rats, Inbred F344, Reaction Time physiology, Retention, Psychology physiology, Altitude Sickness physiopathology, Escape Reaction physiology, Maze Learning physiology, Mental Recall physiology, Orientation physiology, Oxygen physiology

Abstract

The effects of various levels of hypobaric hypoxia, exposure to reduced atmospheric pressure, on spatial memory in rats were examined. Hypobaric hypoxia simulates high altitude conditions where substantial deficits in human cognitive performance occur. However, few studies have measured cognitive changes in animals during exposure to this type of hypoxia. Male Fischer 344 rats were tested in the learning set version of the Morris water maze, a test known to assess spatial memory. Rats were tested at 2 and 6 hours while exposed to a range of simulated altitudes: sea level, 5500 m, 5950 m, and 6400 m. Altitude exposures at 5950 or 6400 m decreased both reference and working memory performance, as demonstrated by latency, distance, and speed measures, in an elevation-dependent fashion. During sea level testing on the day following hypobaric exposure, decrements in reference memory were still observed on all dependent measures, but only speed was impaired on the working memory task. These results agree with human studies that demonstrate elevation-dependent impairments in spatial memory performance during exposure to hypobaric hypoxia. The deficits may be attributable to changes in hippocampal cholinergic function.

Published

1994