| scholarly article | Q13442814 |
| P356 | DOI | 10.1007/S007260170021 |
| P698 | PubMed publication ID | 11665810 |
| P2093 | author name string | Cox H | |
| Alford C | |||
| Wescott R | |||
| P433 | issue | 2 | |
| P304 | page(s) | 139-150 | |
| P577 | publication date | 2001-01-01 | |
| P1433 | published in | Amino Acids | Q15757015 |
| P1476 | title | The effects of red bull energy drink on human performance and mood | |
| P478 | volume | 21 |
| Q38213286 | 'High' risk? A systematic review of the acute outcomes of mixing alcohol with energy drinks |
| Q35903020 | A survey of energy drinks consumption practices among student -athletes in Ghana: lessons for developing health education intervention programmes |
| Q91741306 | Acute Effects of an "Energy Drink" on Short-Term Maximal Performance, Reaction Times, Psychological and Physiological Parameters: Insights from a Randomized Double-Blind, Placebo-Controlled, Counterbalanced Crossover Trial |
| Q55344297 | Acute Specific Effects of Caffeine-containing Energy Drink on Different Physical Performances in Resistance-trained Men. |
| Q54130795 | Acute administration of high doses of taurine does not substantially improve high-intensity running performance and the effect on maximal accumulated oxygen deficit is unclear. |
| Q41767541 | Acute effects of an energy drink on myocardial function assessed by conventional echo-Doppler analysis and by speckle tracking echocardiography on young healthy subjects |
| Q38984945 | Acute effects of caffeine-containing energy drinks on physical performance: a systematic review and meta-analysis. |
| Q35739665 | Adrenergic System Activation Mediates Changes in Cardiovascular and Psychomotoric Reactions in Young Individuals after Red Bull (©) Energy Drink Consumption |
| Q47821645 | Antibacterial protection by enterocin AS-48 in sport and energy drinks with less acidic pH values. |
| Q37685340 | Assessment of pattern for consumption and awareness regarding energy drinks among medical students. |
| Q60914737 | Attentional and working memory performance following alcohol and energy drink: A randomised, double-blind, placebo-controlled, factorial design laboratory study |
| Q41990051 | Augmented memory: a survey of the approaches to remembering more |
| Q94326347 | Author`s Reply |
| Q86057458 | Caffeine and taurine containing energy drink increases left ventricular contractility in healthy volunteers |
| Q50534696 | Caffeine can decrease subjective energy depending on the vehicle with which it is consumed and when it is measured. |
| Q51154833 | Caffeine-containing energy drink improves physical performance in female soccer players. |
| Q34243451 | Cardio- and cerebrovascular responses to the energy drink Red Bull in young adults: a randomized cross-over study |
| Q37607581 | Cardiovascular and ride time-to-exhaustion effects of an energy drink |
| Q36878249 | Cardiovascular hemodynamic effects of Red Bull® Energy Drink during prolonged, simulated, monotonous driving |
| Q45153865 | Cognitive and physiological effects of an "energy drink": an evaluation of the whole drink and of glucose, caffeine and herbal flavouring fractions |
| Q92006741 | Cognitive bias modification for energy drink cues |
| Q34751897 | Cognitive methods for assessing mental energy |
| Q46425147 | Consumption of energy drinks among physical education students |
| Q37356312 | Consumption of energy drinks by children and young people: a rapid review examining evidence of physical effects and consumer attitudes. |
| Q28392222 | Cumulative neurobehavioral and physiological effects of chronic caffeine intake: individual differences and implications for the use of caffeinated energy products |
| Q33612951 | Dietary thiols in exercise: oxidative stress defence, exercise performance, and adaptation |
| Q34315123 | Do energy drinks contain active components other than caffeine? |
| Q54378698 | Does a physiological concentration of taurine increase acute muscle power output, time to fatigue, and recovery in isolated mouse soleus (slow) muscle with or without the presence of caffeine? |
| Q45057409 | Does an energy drink modify the effects of alcohol in a maximal effort test? |
| Q36288975 | Dose response effects of a caffeine-containing energy drink on muscle performance: a repeated measures design |
| Q50992785 | EFFECT OF ENERGY DRINKS ON SELECTED FINE MOTOR TASKS. |
| Q48293074 | Effect of caffeine and taurine on simulated laparoscopy performed following sleep deprivation |
| Q43026447 | Effect of energy drink dose on exercise capacity, heart rate recovery and heart rate variability after high-intensity exercise |
| Q35621724 | Effect of energy drink intake before exercise on indices of physical performance in untrained females. |
| Q38194933 | Effect of taurine and potential interactions with caffeine on cardiovascular function |
| Q34163513 | Effects of a caffeine-containing energy drink on simulated soccer performance. |
| Q47823403 | Effects of alcohol and energy drink on mood and subjective intoxication: a double-blind, placebo-controlled, crossover study. |
| Q43083587 | Effects of commercial energy drink consumption on athletic performance and body composition |
| Q34566083 | Effects of energy drink ingestion on alcohol intoxication |
| Q34484865 | Effects of energy drink major bioactive compounds on the performance of young adults in fitness and cognitive tests: a randomized controlled trial |
| Q37680294 | Effects of energy drinks on blood pressure, heart rate, and electrocardiographic parameters: An experimental study on healthy young adults |
| Q34628145 | Effects of red bull energy drink on repeated sprint performance in women athletes |
| Q47345906 | Effects of the Red Bull energy drink on cognitive function and mood in healthy young volunteers |
| Q89805951 | Energy Drink Consumption, Depression, and Salutogenic Sense of Coherence Among Adolescents and Young Adults |
| Q36380571 | Energy Drink Consumption: Beneficial and Adverse Health Effects |
| Q48259159 | Energy Drink Induced Lipid Peroxidation and Oxidative Damage in Rat Liver and Brain When Used Alone or Combined with Alcohol |
| Q36966609 | Energy Drink and Coffee Consumption and Psychopathology Symptoms Among Early Adolescents: Cross-Sectional and Longitudinal Associations. |
| Q38955413 | Energy Drinks and Their Impact on the Cardiovascular System: Potential Mechanisms. |
| Q36537708 | Energy Drinks: Ergolytic or Ergogenic? |
| Q40131959 | Energy drink consumption and associated health behaviors among university students in an urban setting |
| Q44804170 | Energy drink consumption and associations with demographic characteristics, drug use and injury among adolescents. |
| Q55399041 | Energy drink consumption: a survey in high school students and associated psychological effects. |
| Q46074398 | Energy drink use and adverse effects among emergency department patients |
| Q94468551 | Energy drinks consumption and perceptions among University Students in Beirut, Lebanon: A mixed methods approach |
| Q35808680 | Energy drinks mixed with alcohol: misconceptions, myths, and facts |
| Q36954033 | Energy drinks, race, and problem behaviors among college students |
| Q35758742 | Energy drinks: psychological effects and impact on well-being and quality of life-a literature review. |
| Q28546458 | Guarana provides additional stimulation over caffeine alone in the planarian model |
| Q40039735 | Health Effects and Public Health Concerns of Energy Drink Consumption in the United States: A Mini-Review. |
| Q46294083 | Heart Toxicity Related to Herbs and Dietary Supplements: Online Table of Case Reports. Part 4 of 5. |
| Q53161930 | Heart rate, blood pressure and repolarization effects of an energy drink as compared to coffee. |
| Q39658108 | Impact of Acute Energy Drink Consumption on Blood Pressure Parameters: A Meta-analysis |
| Q38848785 | Impact of alcohol and alcohol mixed with energy drinks on non-medical prescription stimulant use in a nationally representative sample of 12th-grade students |
| Q41336126 | In-vitro examination of the positive inotropic effect of caffeine and taurine, the two most frequent active ingredients of energy drinks. |
| Q45004454 | Increased Energy Drink Use as a Predictor of Illicit Prescription Stimulant Use. |
| Q38257905 | Influence of energy drink ingredients on mood and cognitive performance |
| Q36513263 | International Society of Sports Nutrition position stand: energy drinks |
| Q39139700 | Major components of energy drinks (caffeine, taurine, and guarana) exert cytotoxic effects on human neuronal SH-SY5Y cells by decreasing reactive oxygen species production |
| Q41101097 | Motives for mixing alcohol with energy drinks and other nonalcoholic beverages, and consequences for overall alcohol consumption. |
| Q46967131 | Muscle fatigue: general understanding and treatment |
| Q99725972 | Non-Alcoholic Beverages, Old and Novel, and Their Potential Effects on Human Health, with a Focus on Hydration and Cardiometabolic Health |
| Q39914228 | Pharmacokinetics of oral taurine in healthy volunteers |
| Q24603959 | Positive effects of Red Bull® Energy Drink on driving performance during prolonged driving |
| Q37777467 | Problematic Use of Energy Drinks by Adolescents |
| Q50639257 | Reversible postural tachycardia syndrome due to inadvertent overuse of Red Bull. |
| Q34759622 | Risk assessment for the amino acids taurine, L-glutamine and L-arginine |
| Q47147450 | Scientific Opinion on the substantiation of health claims related to taurine and protection of DNA, proteins and lipids from oxidative damage (ID 612, 1658, 1959), energy-yielding metabolism (ID 614), and delay in the onset of fatigue and enhancem... |
| Q47149635 | Scientific Opinion on the substantiation of health claims related to taurine and “immune system protection” (ID 611), “metabolism processes” (ID 613), contribution to normal cognitive function (ID 1659), maintenance of normal cardiac function (ID ... |
| Q46339540 | Seven days of oral taurine supplementation does not increase muscle taurine content or alter substrate metabolism during prolonged exercise in humans |
| Q42864723 | Short communication: In vitro assessment of erosive potential of energy drinks |
| Q38649540 | Short-Term Effects of a Ready-to-Drink Pre-Workout Beverage on Exercise Performance and Recovery |
| Q51409032 | Simultaneous Quantitation of Free Amino Acids, Nucleosides and Nucleobases in Sipunculus nudus by Ultra-High Performance Liquid Chromatography with Triple Quadrupole Mass Spectrometry. |
| Q28649926 | Taurine in drinking water recovers learning and memory in the adult APP/PS1 mouse model of Alzheimer's disease |
| Q35363589 | The blood pressure-elevating effect of Red Bull energy drink is mimicked by caffeine but through different hemodynamic pathways |
| Q37701754 | The consumption of alcohol mixed with energy drinks: prevalence and key correlates among Canadian high school students |
| Q45346706 | The effect of acute taurine ingestion on 3-km running performance in trained middle-distance runners |
| Q37355099 | The effect of acute taurine ingestion on 4-km time trial performance in trained cyclists |
| Q34863936 | The effectiveness of two energy drinks on selected indices of maximal cardiorespiratory fitness and blood lactate levels in male athletes. |
| Q36091123 | The effects of energy drink in combination with alcohol on performance and subjective awareness |
| Q44536453 | The effects of systemically administered taurine and N-pivaloyltaurine on striatal extracellular dopamine and taurine in freely moving rats |
| Q93065945 | The top five selling UK energy drinks: implications for dental and general health |
| Q47816430 | The use of energy drinks in sport: perceived ergogenicity and side effects in male and female athletes. |
| Q36926311 | Wired: energy drinks, jock identity, masculine norms, and risk taking |
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