Ergogenic Aids

Question 1

Name the three pharmacological aids

Answer 1

Anabolic steroids
Erythropoietin (EPO)
Human growth hormone

Question 2

Name the three physiological aids

Answer 2

Blood doping
Intermittent hypoxic training (IHT)
Cooling aids(pre+post)

Question 3

Name the nutritional aids

Answer 3

Food volume/timing
Hydration 
Carbo-loading
Creating
Caffeine 
Bicarbonate 
Nitrate

Question 4

Anabolic steroids legal status

Answer 4

illegal

Question 5

Anabolic steroids description

Answer 5

Artificial synthetic drugs which mimics natural male hormone testosterone
Taken via: injection, orally via pill, patches, gels or creams rubbed on skin

Question 6

Potential benefits of anabolic steroids

Answer 6

• Increased growth of muscle mass, strength and power
• Increased promotion of synthesis of protein speeding up muscle repair and recovery
• Allows increased quantity, intensity and duration of training
• Increased recovery from strain and injury
• Increased aggression useful in some sports

Question 7

Potential risks of anabolic steroids(everyone)

Answer 7

Increased risk of permanent liver damage and cancer
Increased blood pressure
Increased LDL cholesterol
Decreased HDL cholesterol
Increased feeling of paranoia, irritability, acne, aggressiveness, violence, dramatic mood swings

Question 8

Risks of anabolic steroids for females

Answer 8

Facial hair
Deep voice
Enlarged genitals
Breast reduction
Disrupted menstrual cycle

Question 9

Risks of anabolic steroids for males

Answer 9

Atrophy of testicles
Decreased sperm count
Impotence
Baldness
Enlarged prostate gland
Breast enlargement
Pain urinating

Question 10

Who benefits from anabolic steroids?

Answer 10

High intensity, short duration performers such as weightlifters and sprinters
Used by injured performers to speed up recovery and repair of injuries

Question 11

Erythroprotein legal status

Answer 11

illegal

Question 12

EPO description

Answer 12

Synthetic protein stimulating rbc growth
Alternative to blood doping
Is a peptide hormone naturally produced by kidneys
Stimulates bone marrow to increase rbc production
Plasma infusions common alongside EPO to prevent hyper-viscosity in blood
Has enormous benefit in the treatment of anaemia
Urine tests show levels of rbc’s above norm values

Question 13

Potential benefits of EPO

Answer 13

Increased haematocrit
Increased total rbc volume of 45% to 65%
Increased haemoglobin levels which increases o2 transport to muscles which increases o2 uptake
Increase in aerobic performance
Increased energy delivered and delayed fatigue for aerobic performance

Question 14

EPO potential risks

Answer 14

Increase blood viscosity
Increased risk of blood clotting which can lead to heart failure/stroke
Increased danger if body becomes dehydrated as this decreases plasma volume which further increases blood viscosity
Misuse can lead to auto-immune disease with serious health consequences

Question 15

Who benefits from EPO?

Answer 15

Endurance athletes relying on good o2 transport to the muscles

Question 16

Human growth hormone legal status

Answer 16

illegal

Question 17

Human growth hormone description

Answer 17

Injected/ingested in the form of pills, suppositories or creams
HGH is synthetic hormone that mimics a natural growth hormone produced by the pituitary gland which stimulates growth of cartilage, muscle and bone
Difficult to detect between synthetic and natural form as natural levels of HGH vary massively due to diet, stress, sleep and exercise

Question 18

Potential benefit of HGH

Answer 18

Increase muscle mass and strength
Increased training intensity
Increased recovery(conflicting evidence for all of above three)
Increased production of cartilage cells
Increased bone growth/density
Increased healing of soft tissues
Increased metabolism of protein, fat and carbohydrates
Therefore increased breakdown of fats leading to decreased fat mass

Question 19

Potential risks of HGH

Answer 19

Increased hypertrophy of internal organs
Increased risk of diabetes
Increased bon thickening leading to deformities
Increase of glucose intolerance
Increased size of organs leading to an increased risk of potentially life threatening diseases
Increased cancer risk due to abnormal growth of cells

Question 20

Who benefits from HGH

Answer 20

Used mostly by power/sprint performers

Performers undertaking regular high intensity training requiring lots of soft tissues repair

Question 21

Blood doping legal status

Answer 21

illegal

Question 22

Blood doping description

Answer 22

Removing and storing of blood 4-6 weeks PRE - performance and re-infused hours before performance
Two different ways:
Autologous - transfusion of one’s own blood which is stored and re-infused later
Homologous - transfusion of another persons blood
Recent resurgence due to the introduction of efficient EPO detection methods

Question 23

Potential benefits of blood doping

Answer 23

Increased total volume of rbc’s (20%)
Increased haemoglobin levels
Increased HbO2 transport to muscles increasing O2 uptake
Increased energy delivered and delayed fatigue for aerobic performance

Question 24

Potential risks of blood doping

Answer 24

Increased blood viscosity and decreased HR, blood flow and cardiac output can overload the cardiovascular system leading to clotting, heart failure and strokes
Increased risk of HIV if Homologous blood doping is used
Increased risk if dehydrated due to decreased plasma volume further increasing blood viscosity forcing the heart to work harder

Question 25

Who benefits from blood doping?

Answer 25

Endurance/aerobic performers who rely on the supply of O2 to the muscles

Question 26

Intermittent hypoxic training legal status

Answer 26

legal

Question 27

Description of IHT

Answer 27

IHT involves short intervals (4-6mins) of breathing hypoxic air (low pp of O2) interspersed with similar length intervals inhaling ambient air
Replicates altitude training drug free
Can be done using: sleep tents, chambers and non invasive pulse oximetry masks

Question 28

Who benefits from IHT?

Answer 28

All athletes requiring pre - acclimatisation

All athletes wishing to increase O2 transport to increase performance at sea level

Question 29

Potential benefits of IHT?

Answer 29

Increased performance and duration with delayed fatigue
Increased ability to buffer lactate and delay onset of blood lactate accumulation(OBLA)
Increased defence against oxidative stress
Increased O2 transport systems due to increased rbc’s
Increased natural EPO production
Pre-acclimatisation to high altitudes
Decreased mountain sickness and fatigue, recovery time after aerobic and anaerobic

Question 30

Potential risks of IHT?

Answer 30

Reversibility-Benefits gained are quickly lost if IHT stops
Increased dehydration
Decreased work rate during IHT
Disrupts normal training habits
Altitude domes/tents with nitrogen inflow create a potential life-threatening low arterial O2 saturation below safe 70%
Must have safety cut offs to prevent above

Question 31

Colling aids legal status

Answer 31

legal

Question 32

Description of cooling aids pre exercise

Answer 32

Can be done by ice/cooling vests or soaked/towels/headbands
Critical core temp(Tc) exists after which athletes must decrease intensity or risk heat illness
Advisable 10-30 mins before prolonged exercise in hot temperatures
Best to start exercise with cooler body Tc as possible by pre-cooling to increase margin between starting and critical Tc

Question 33

Potential benefits of cooling aids pre exercise

Answer 33

Decreases and maintains Tc and decreases thermal strain
Decreases dehydration enabling athletes to draw on reserves later in performance
Decreases CV-drift
Pre-cooling reduces need to increase Q to skin to help reduce Tc which maintains Q to muscles during exercise

Question 34

Potential risks of cooling aids pre exercise

Answer 34

Potential heat illness if not used
Metabolic and CV responses can be decreased during initial 15 min of exercise, decreased HR and perceived exertion and may lead to working above target zones and pace
Used on chest region may cause increased angina pain from constriction of coronary arteries
Not used by hypertensive as vasoconstriction may increase Bp
Decreases efficiency of vasoconstriction/dilation

Question 35

Who benefits from cooling aids pre exercise

Answer 35

Mainly endurance performers but anyone exercising in hot environments where body temperature regulation more of an issue e.g. cricket

Question 36

Description of cooling aids post exercise

Answer 36

Used for injury treatment and post event recovery
Sprays, ice packs/gels/baths and cold water immersion
Injury specific-Ice packs/gels applied to specific body area
Some research suggests cool CWI (6 degrees) better than iced water

Question 37

Potential benefits of cooling aids post exercise

Answer 37

Increased speed muscle repair/recovery
Decreased muscle soreness (DOMS)
Decreased pain at rest, decreased pain on stretch and decreased post active ROM due to
1.Decreased anti inflammatory response
2.Decreased swelling due to constriction of blood vessels
3.Increased pain tolerance due to decreased nerve conduction velocity

Question 38

Who benefits from cooling aids post exercise

Answer 38

All performers with soft tissue injuries, DOMS, undertaking contact e.g. rugby players
After high intensity/repeated exercise bouts to speed up their recovery process after exercise

Question 39

Potential risks of cooling aids post exercise

Answer 39

Ice burns if applied for 10+mins directly to skin
Ice may hide/complicate nerve impingement injuries
Do not use with hypertensive as vasoconstriction may increase Bp and decrease efficiency of vasoconstriction/dilation of elderly people
May decrease the inflammatory response responsible for initiating and resolving skeletal muscle injury
Increased stress hormones for 60 mins post cold water immersion which are catabolic which decreases positive training adaptations

Question 40

Food volume/timing legal status

Answer 40

legal

Question 41

Description pre event food v/t

Answer 41

3-6 hrs pre event ingest 1-4g per kg of body mass of complex CHO’s
1-2 hrs pre event ingest simple CHO’s(high glucose)

Question 42

Benefits of pre food v/t

Answer 42

Maintain and top up liver/muscle and blood glucose/glycogen stores
Decrease glycogen depletion delaying fatigue

Question 43

Risks of pre food v/t

Answer 43

Rebound hypoglycaemia: low blood glucose levels when ingesting CHO’s 1hr-15min pre to exercise
Food remains in gut therefore increased risk of nausea/cramping/stomach upset
decreased CHO store limiting fuel for exercise

Question 44

Who benefits from pre food v/t

Answer 44

Endurance performers (60+mins) benefit most from 3-6hr pre meal
All performers fuelled by glycogen/glucose as main energy source benefit from 1/2 hr meal

Question 45

Description of food v/t during exercise

Answer 45

Ingesting frequent/small amounts of simple CHO’s when activity
ACSM suggests 60+ min activity to eat 30-60 g CHO’s an hr

Question 46

Benefits of food v/t during exercise

Answer 46

Maintain/replace vital glycogen/blood glucose stores
Decrease glycogen depletion and delay fatigue
Especially activity of 45+mins as prevents increased use of fats as energy fuel

Question 47

Risks/negatives of food v/t during exercise

Answer 47

If not consumed-No CHO’s during increases glycogen depletion and increases use of fats which decreases exercise intensity
No need to ingest CHO’s if activity is less than 45mins

Question 48

Who benefits from food volume/timing during exercise

Answer 48

All performers when the activity is 45+ minutes

Increase carbs in longer duration events

Question 49

Description of post event food v/t

Answer 49

Ingest 1g per kg of body mass per hour within two hours
4:1 ratio of CHO and protein in 1st 2 hours post endurance exercise
Liquid or solid forms of fast-digesting CHO’s

Question 50

Benefits of post food v/t

Answer 50

Increased speed of glycogen store recovery
CHOs stores during short duration exercise replenished in a 2/3 hrs
Glycogen synthesis increases in 2hr window after exercise

Question 51

Risks of post food v/t

Answer 51

Can take up to 48hrs post exhaustive activity so must use two hr window
Activity suppresses appetite and increases thirst so use hypertonic sports drinks

Question 52

Who benefits from post food v/t

Answer 52

Any performer using glycogen/glucose as an energy source

Important for athletes competing/training the next day

Question 53

Hydration legal status

Answer 53

legal

Question 54

Description of hydration

Answer 54

Hydration achieved by drinking water and sports drinks as well as 20% in food
H2O makes up to 60% male and 50% female body weight
Thirst mechanism does not match our hydration state so its best to consume increased fluid than thirst dictates

Question 55

Potential benefits of hydration

Answer 55

Maintaining hydration and decreased risk of dehydration during prolonged exercise
Regulates Tc: water dissipates excess heat during exercise
Maintains blood volume: Bp, plasma and transport of O2/CO2/glucose/nutrients to muscles
Optimizes CV function
Isotonic drinks also help maintains electrolytes and efficient muscle function
Glucose rich sports drinks also maintain blood glucose levels

Question 56

Who benefits from hydration?

Answer 56

All athletes in all contexts both aerobic/ anaerobic
Endurance athletes can sustain increased high intensity work when hydrated
Increased importance in endurance or high temperature activities where increased fluid loss occurs
Dehydration has decreased impact on anaerobic activity

Question 57

Risks associated with hydration

Answer 57

No hydration: Decreased blood volume, deceased cardiac output to skin/muscles which increases stress on heart and increased HR, increased viscosity of blood, decreased electrolytes, decreased muscle function, decreased ability to sweat/regulate Tc leading to increased Tc and heat stress, increased OBLA-muscle fatigue/cramps
Hyponatremia: increased water volume decreased sodium levels in blood leading to increased fatigue

Question 58

Pre execise hydration strategies

Answer 58

No RDA but adequate intake is approximately 3.7 litres/day for men and 2.7 litres/day for women
Exercise should be started when fully or hyperhydrated
Drink 0.4-0.6L 2-3hrs before to ensure a moderate of water in the stomach
If exercise is being done in hot conditions then an additional 0.25-0.5L should be consumed within two hours of exercise
If exercise is longer than 60 mins consume CHO sport drink along with water
Drink 0.3-0.5L of water/CHO sports drink 15-30 min prior to delay fatigue and prevent dehydration

Question 59

During hydration strategy for exercise less than 60 mins

Answer 59

Muscle and liver glycogen stores are sufficient for optimal performance and only water needs to be consumed during exercise: consume 1.8-2.4L of cold water every 15 min to maintain hydration

Question 60

Hydration strategy during exercise lasting for more than 90 mins

Answer 60

Increased risk of hypoglycaemia or dehydration so both water and CHO required
Consume 1.5-3L of a CHO/water drink every 15-20min to optimise performance
Water prevents dehydration, CHO prevent glycogen depletion to prevent onset of fatigue
Electrolyte sodium helps the body retain fluid and stimulates the drive to drink more fluid
Some electrolytes are lost during exercise like sodium and chloride which are lost via sweat

Question 61

Post exercise hydration strategy

Answer 61

Studies show that athletes do not voluntarily rehydrate after exercise and need to have a plan to replenish water, electrolytes and CHO’s lost during exercise
Immediately after and for the next 6-8hrs, rehydration is vital so athletes do not begin the next training session or competition is a dehydrated state
Generally an athlete should drink 1-1.5L times the water lost through sweating
Sodium is beneficial as its presence influences the body to retain fluid and drive to drink it
Sodium and water are found in sports beverages, but sodium is low so athletes can also lightly salt their food

Question 62

What is an isotonic drink

Answer 62

5-8% glucose, same as body’s blood glucose

Question 63

What is a hypertonic drink

Answer 63

15% glucose, higher than body’s blood glucose

Question 64

What is a hypotonic drink

Answer 64

4% glucose, lower than body’s blood glucose

Question 65

Benefits of isotonic sports drinks

Answer 65

Tops up CHO’s
Replenishes fluid and electrolytes
Increased absorption/rehydration

Question 66

Negatives of isotonic sports drinks

Answer 66

Slower absorption than hypotonic

Question 67

Benefits of hypertonic sports drinks

Answer 67

increased replenishment of CHO stores/electrolytes post exercise

Question 68

Negatives of hypertonic sports drinks

Answer 68

Slowest absorption and increased dehydration

decreased performance during activity

Question 69

Benefits of hypotonic sports drinks

Answer 69

Quickest absorption and rehydration

Vital during prolonged exercise or in heat when hydration is more important than CHO replenishment

Question 70

Negatives of hypotonic sports drinks

Answer 70

Not beneficial for any activity longer than 45 mins requiring more CHO

Question 71

Who benefits from isotonic sports drinks

Answer 71

Middle/long distance team/racquet games during exercise lasting longer than 45 mins

Question 72

Who benefits from hypertonic sports drinks

Answer 72

All performers but mostly endurance athletes e.g. iron man or triathletes

Question 73

Who benefits from hypotonic sports drinks

Answer 73

Athletes requiring H2O in preference to CHO’s

Activity less than 45 mins or in hot conditions

Question 74

CHO loading legal status

Answer 74

legal

Question 75

Description of CHO loading

Answer 75

Classic method:
Depletion phase-4 to 7 before: exercise as normal on a decreased CHO increased fat/protein diet
loading phase: Increased CHO loading 1-4 days prior to performance ingesting increased CHO/protein diet with a decreased training load
Modern method:
No depletion phase
Loading phase-only 1 to 4 days pre event ingest increased diet high in CHO’s with tapered training

Question 76

Benefits of CHO loading

Answer 76

Increased activity of enzyme glycogen synthase which: increases glycogen synthesis, increased glycogen storage which increases endurance capacity and delays fatigue
increased performance at a higher intensity
No benefit for activity less than 30-40mins duration

Question 77

Potential risks of CHO

Answer 77

Disruption of an athlete’s normal pre-event routine
Post depletion phase:
negative psychological effects, feel irritable, hypoglycaemia(decreased blood glucose)
Loading phase:
Increased weight due to increased water retention needed to store to increased glycogen store
Decreased power to weight ratio

Question 78

Who benefits from CHO loading

Answer 78

Long duration aerobic performers over 60/90 mins
All day event(e.g. rugby sevens tournaments)
Any performer reliant upon glycogen as primary energy fuel

Question 79

Creatine legal status

Answer 79

legal

Question 80

Creatine description

Answer 80

Naturally found in liver/kidneys and converted into phosphocreatine and stored in small amounts in muscles
PC provides quickest source of energy to resynthesize ATP for muscle contractions
Found naturally in meats but creatine supplements used in synthetic form as soluble tablet, capsule, powder
Dosage: 3-5g a day
1-2 weeks/months on and 1 week/month off
Dosage dependent upon your weight and volume of training, intensity and duration

Question 81

Potential benefits of creatine

Answer 81

Increases PC stores by up to 50%
Increased recovery post high intensity training
Increased fat-free body mass
Increased intensity and duration of training
Increased hypertrophy

Question 82

Potential risks of creatine

Answer 82

seems safe but long term effects unknown
Increased weight gain due to increased muscle water retention
Increase muscle cramps
increased gastro distress
Increased stress on organs

Question 83

Who benefits from creatine

Answer 83

Intermittent/high volume/intensity short duration power athletes
Also benefits middle distance endurance athletes

Question 84

Caffeine legal status

Answer 84

legal

Question 85

Caffeine description

Answer 85

Was banned and on WADA watch list
Too much caffeine also has negative performance effect
Found in tea, coffee, soft drinks, cocoa, tablets and medications
Dosage: research unclear:
aerobic benefits: 1hr PRE-event 3-6mg/kg body mass 2-4 cups of coffee (75mg a cup)

Question 86

Potential benefits from caffeine

Answer 86

Increased CNS stimulation leading to an increase in adrenilin which-
Increases cognitive awareness/concentration
Decreased fatigue/perceived effort
increased endurance /aerobic capacity
Increased breakdown of FFAs as energy fuel conserving important glycogen stores for sprints later in performance
Some research suggests caffeine increases endurance and decreased fatigue by acting as a stimulant
Research unclear and dose dependent

Question 87

Caffeine potential risks

Answer 87

Excessive caffeine acts a diuretic which can: increase dehydration leading to decreased heat regulation, increased Bp/heat exhaustion, decreased performance
Serious side effects for some people: addictive, nausea, muscle tremors/cramps, headaches/anxiety, sleep disorders/insomnia

Question 88

Who benefits from caffeine

Answer 88

Benefits for both aerobic and anaerobic performers

Increased intensity/duration of training due to decreased perceived effort

Question 89

Bicarbonate of soda legal status

Answer 89

legal

Question 90

Bicarbonate of soda description

Answer 90

During aerobic exercise muscle blood CO2 and H2O are converted into HCO (bicarbonate) and hydrogen ions/H+ within rbc’s
During anaerobic exercise H+ is produced faster than we can remove them (OBLA) which increases lactic acid, decreased pH, inhibits enzymes causing muscle fatigue
Bicarbonate of soda solution ingested 1-2hrs pre-activity increasing blood bicarbonate concentration during exercise
Increased bicarbonate in the blood neutralizes the effect of lactic acid to help maintain pH

Question 91

Potential benefits of bicarbonate of soda

Answer 91

Increased tolerance to lactic acid
Increased blood alkalinity so that more lactate can be cleared therefore delaying OBLA
Increased anaerobic/lactate threshold
Increased intensity/duration performance before OBLA
Increased power at lactate threshold

Question 92

Potential risks of bicarbonate of soda

Answer 92

Ingesting bicarbonate can cause severe intestinal distress

Bloating, nausea, diarrhoea which itself decreases performance

Question 93

Who benefits from bicarbonate of soda

Answer 93

Increased effect on anaerobic performers trying to increase speed/power/lactate threshold using high intensity workouts

Question 94

Nitrate legal status

Answer 94

legal

Question 95

Description of nitrate

Answer 95

Stored as nitrites and converted to nitric oxide a gas naturally produced by cells lining blood vessels
Sources: Beetroot and leafy greens
Most use dietary nitrate in liquid form of beetroot juice or sodium and potassium nitrate and with a final dosage 1-3hrs pre event
Most benefits observed after long term ingestion in high intensity activity and les fit performers
Increased benefits when intravenous administered with high dosage levels increased effectiveness if orally ingestion

Question 96

Potential benefits of nitrate

Answer 96

NO released during exercise and functions to relax smooth muscle within blood vessel walls which:
increases vasodilation and increases blood flow
increases O2/nutrients to muscles
increased removal of LA and CO2 which delay OBLA fatigue
Decreased Bp and O2 cost of exercise
Increases HI work rate tolerance decreasing O2 uptake/Vo2 max during sub maximal work
all increasing O2 capacity and performance

Question 97

Potential risks of nitrate

Answer 97

Low doses (less than 20g) well tolerated but high level (20g-30g) reported weakness, diarrhoea, nausea, vomiting, headaches
High doses intravenously administered may cause: decreased blood pressure with a high HR, decreased arterial resistance in the arms
Individuals with liver disease/kidney failure are advised against taking these supplements
Some link to gastric cancer

Question 98

Who benefits from nitrates

Answer 98

Mostly endurance performance and those at higher work intensity
Also benefits anaerobic athletes