Much has been researched on the beneficial effects of caffeine for endurance/aerobic training. There are too many articles supporting these claims to make listing them reasonable. There is a reason why the IOC, NCAA and USTAF have strict restrictions and blood testing protocols for caffeine; it simply works. The rationale behind this is that caffeine helps facilitate free-fatty acid metabolism preferentially over glycogen and other carbohydrate homologs in the body. Fat generates a higher yield of ATP with a subsequent lower production of lactate, which is needed in long duration aerobic exercises. In addition to these metabolic effects research has shown caffeine to provide a temporary analgesic effect, which is extremely beneficial to endurance athletes during the final legs of their races when they are pushing themselves and likely utilizing anaerobic systems which can be painful. Cyclists have realized this analgesic effect for years as they used to fill their water bottles during races with flat cola. in addition to these effects, caffeine is a brochiodilator and also allows the diaphragm to contract more forcefully this is why pulmonary therapists administer caffeine to patients prior to treatment.

In a review published by McCormack and Hoffman in this July’s Journal of Strength and conditioning they highlight the potential benefits caffeine may provide for power and strength training. The mechanisms they attribute to the positive effects caffeine may provide are neuromuscular and central nervous system mediated. The CNS effects are founded under caffeine’s stimulant properties by blocking adenosine receptors which alters the perception of fatigue, improves focus and reaction time. Due to these effects, caffeine has been used as an alternative to amphetamines in USAF pilots flying repeated missions who require the mental acuity and sustained reaction time to complete a tactical flight operation.

The neuromuscular effect is mediated by enhanced excitation-contraction coupling through the Treppe effect. The treppe effect improves neuromuscular transmission by increasing the mobilization of intracellular calcium ions from the sarcoplasmic reticulum which is required in for the cross bridging between actin and myosin heads which produce a muscle contractions. Caffeine is also thought to enhance the kinetics of glycolytic regulatory enzymes, which are active in strength training activities, such as phosphorylase. The results of these metabolic and neuromuscular effects appear to allow the muscle to not only produce a more forceful contraction but also increase the number of repetitions per set. There have also been studies that have found caffeine if ingested acutely after a bout of exercise, (in the highlighted study’s case it was short duration high intensity intense cycling) recovery had improved as compared to a placebo on a quadriceps strength test.

Though the authors did report evidence that caffeine ingestion may be beneficial for strength and power training it appears though that the results are inconclusive as to whether or not caffeine in isolation results in these effects. The majority of these studies administered caffeine in the form of an energy drink or some sort of caffeine-proprietary nutrient concoction. The most common additives are taurine, beta-alanine, creatine and other amino acids; all of these supplements have shown to improve recovery and endurance to varying degrees. There also appears to be a dosage effect as well as most of the studies that resulted in improvements administered caffeine at the dosage of 5-6mg/kg body weight. Which if you consider that per 8oz of liquid redbull contains 80mg, coffee contains 110-150mg, and cola contains 30-40mg; so you may have to consume a considerable amount to get these effects much more than most have ever consumed.

Although these results are encouraging for the usage of caffeine for strength training purposes, in my professional opinion I would tread with caution. Caffeine can be rather dangerous to someone if administered in these high dosages without proper cardiovascular testing. Caffeine is sympathomimetic drug, which means it provides effects similar to those caused by the sympathetic nervous system which will increase HR, BP and blood flow to the skeletal muscle, amongst other effects. If someone who had an undiagnosed problem or defect were to ingest caffeine with these recommended dosage rate serious problems could occur. So it would be best to consult your physician before initiating a dosage regimen and have a physical therapist monitor you the first few times you exercise to monitor for deleterious effects/changes. Secondly, though the authors sited evidence of improved strength and power upon further review of the literature a lot of the studies they cited had subjects exercise to exhaustion or tested them on isokinetic strength tests. Tests to exhaustion are not a reliable or valid measure of strength or power and isokinetic testing does not assess the patient in functional movement pattern or at an angular velocity consistent with normal movement. In summary the evidence isn’t that strong to suggest direct strength and power gains but it may improve both factors in an indirect way, which I will elaborate on.

As most people in the field of sport performance and nutrition know most of the focus for supplementation is focused around recovery. Caffeine does directly improve recovery probably due to the increased, cardiac output and perfusion to the skeletal muscle. These cardiovascular effects will help remove metabolic waste products away from the muscles to the liver and help bring nutrients to the muscle. The authors however did not mention the benefit of caffeine as a moderate bronchodilator on training. If the bronchioles are more dilated it will improve ventilation to help buffer out the drop in ph due the shift in the strong ion difference following an acute bout of exercise. Similar to other supplements caffeine does show to improve the amount of repetitions a person can perform due to the previously mentioned improved blood flow and analgesic effect. If someone can decrease the soreness they feel during a max lift or increase the amount of repetitions they can perform, strength will improve over time.

In short caffeine like many other supplements helps you work out longer through it’s metabolic, cardiovascular, neuromuscular and central nervous system effects. It helps improve muscle metabolism by improving blood flow to the muscle, ventilation, focus and decreases pain. Dosage should be close to 5-6mg per kg body weight and administered 45min prior to exercise or immediately after.

Thanks for reading!

Here is a link to the article

http://journals.lww.com/nsca-scj/Abstract/2012/08000/Caffeine,_Energy_Drinks,_and_Strength_Power.3.aspx