Know about Creatine

 

Everything You Need to Know about Creatine and How It Doesn’t Cause Hair Loss.

Abstract

Supplementing with creatine is very popular amongst athletes and exercising individuals for improving muscle mass, performance and recovery. Accumulating evidence also suggests that creatine supplementation produces a variety of beneficial effects in older and patient populations. Furthermore, evidence-based research shows that creatine supplementation is relatively well tolerated, especially at recommended dosages (i.e. 3-5 g/day or 0.1 g/kg of body mass/day). Although there are over 500 peer-refereed publications involving creatine supplementation, it is somewhat surprising that questions regarding the efficacy and safety of creatine still remain. These include, but are not limited to: 1. Does creatine lead to water retention? 2. Is creatine an anabolic steroid? 3. Does creatine cause kidney damage/renal dysfunction? 4. Does creatine cause hair loss / baldness? 5. Does creatine lead to dehydration and muscle cramping? 6. Is creatine harmful for children and adolescents? 7. Does creatine increase fat mass? 8. Is a creatine ‘loading-phase’ required? 9. Is creatine beneficial for older adults? 10. Is creatine only useful for resistance / power type activities? 11. Is creatine only effective for males? 12. Are other forms of creatine similar or superior to monohydrate and is creatine stable in solutions/beverages? To answer these questions, an internationally renowned team of research experts was formed to perform an evidence-based scientific evaluation of the literature regarding creatine supplementation.

Keywords: Social Media, Anecdotal, Research, Adverse Effects, Safety

Introduction

Creatine (methylguanidine-acetic acid) is endogenously formed from reactions involving the amino acids arginine, glycine and methionine in the kidneys and liver [1]. Exogenously, creatine is primarily consumed from meat and/or as a dietary supplement. According to PubMed (archive of biomedical and life sciences journal literature at the U.S. National Institutes of Health’s National Library of Medicine) there are over 500 peer-refereed publications involving various aspects of creatine supplementation. Based on the enormous popularity of creatine supplementation, the International Society of Sports Nutrition (ISSN) published an updated position stand in 2017 on the safety and efficacy of creatine supplementation in exercise, sport, and medicine [2]. This comprehensive paper provided an evidence-based review of the literature examining the effects of creatine supplementation on performance, recovery, injury prevention, exercise tolerance and rehabilitation, neuroprotection, aging, clinical and disease state populations, and pregnancy. Importantly, the safety profile of creatine was also reviewed. As of September 1, 2020, the paper has been viewed 179,000 times and cited 100 times (according to Web of Science). Furthermore, Altmetric data indicates that the paper has been mentioned in 19 news outlets, 4 blogs, 492 tweets, 54 Facebook pages, and been uploaded 69 times in video posts. Instagram stories and posts are not included as Altmetric data.

Despite the widespread outreach of the 2017 ISSN position stand paper [2], along with other evidence-based review/meta-analysis papers involving various aspects of creatine supplementation published after the 2015 Creatine in Health, Sport and Medicine Conference in Germany [3–34], questions and misconceptions involving creatine supplementation still remain. These include, but are not limited to: 1. Does creatine supplementation lead to water retention? 2. Is creatine is an anabolic steroid? 3. Does creatine supplementation cause kidney damage / renal dysfunction? 4. Does creatine supplementation cause hair loss / baldness? 5. Does creatine supplementation lead to dehydration and muscle cramping? 6. Is creatine supplementation harmful for children and adolescents? 7. Does creatine supplementation increase body fat? 8. Is a creatine supplementation ‘loading-phase’ required? 9. Is creatine supplementation beneficial for older adults? 10. Is creatine supplementation only useful for resistance/power type activities? 11. Is creatine supplementation only effective for males? 12. Are other forms of creatine similar or superior to monohydrate? Is creatine stable in solutions/beverages? To address these questions, an internationally renowned team of research experts, who have collectively published over 200 peer-refereed articles involving creatine supplementation, was formed to perform an evidence-based scientific evaluation of the literature. Each question was answered by one researcher, chosen according to her/his expertise on the topic. Then, the final version of this manuscript was reviewed and approved by all authors, therefore reflecting the group opinion.

Does creatine lead to water retention?

The purported myth of creatine supplementation increasing body water (TBW) is likely due to early research which showed that creatine supplementation at 20 g/day for six days was associated with water retention [35]. It does appear that the most common adverse effect of creatine supplementation is water retention in the early stages (first several days) [36]. For example, studies have shown that three days of creatine supplementation increased TBW and extracellular body water (ECW) [37] and intracellular water (ICW) [38]. Unfortunately, based on these short-term responses, this notion that creatine increases water retention over the long-term has been widely accepted [39].

Creatine is an osmotically active substance. Thus, an increase in the body's creatine content could theoretically result in increased water retention. Creatine is taken up into muscle from circulation by a sodium-dependent creatine transporter [1]. Since the transport involves sodium, water will also be taken up into muscle to help maintain intracellular osmolality. However, considering the activity of the sodium-potassium pumps, it is not likely that intracellular sodium concentration is dramatically affected by creatine supplementation [39].

In summary, while there is some evidence to suggest that creatine supplementation increases water retention, primarily attributed to increases in intracellular volume, over the short term, there are several other studies suggesting it does not alter total body water (intra or extracellular) relative to muscle mass over longer periods of time. As a result, creatine supplementation may not lead to water retention.

Is creatine an anabolic steroid?

Anabolic steroids are a synthetic version of testosterone, an androgenic hormone which is also produced endogenously within both males and females, and is used in conjunction with resistance training with the intent of enhancing muscle mass and strength due to increases in muscle protein synthesis [47]. This increase in MPS is due to testosterone’s ability to enter the muscle cell, bind with the intracellular androgen receptor, and increase the expression of various muscle-specific genes [48]. Creatine is converted to phosphocreatine (PCr), regulated by the enzyme creatine kinase (CK) in muscle and used to create intracellular adenosine triphosphate (ATP) production [1]. Creatine supplementation, however, can increase the capacity of ATP and energy produced during heavy anaerobically-related exercise, thereby possibly increasing muscle power, repetitions and exercise volume which can subsequently contribute to muscle performance and hypertrophy over the course of a training period [2].

In summary, because creatine has a completely different chemical structure, it is not an anabolic steroid.

Does creatine cause kidney damage/renal dysfunction?

Questions and concerns involving creatine supplementation and kidney damage/renal dysfunction are common. In terms of pervasive misinformation in the sport nutrition arena, the notion that creatine supplementation leads to kidney damage/renal dysfunction is perhaps second only to the myth that protein supplementation and high habitual protein intake causes kidney damage. Today, after > 20 years of research which demonstrates no adverse effects from recommended dosages of creatine supplements on kidney health, unfortunately, this concern persists. While the origin is unknown, the connection between creatine supplementation and kidney damage/renal dysfunction could be traced back to two things: a poor understanding of creatine and creatinine metabolism and a case study published in 1998.

In summary, experimental and controlled research indicates that creatine supplementation, when ingested at recommended dosages, does not result in kidney damage and/or renal dysfunction in healthy individuals.

Does creatine cause hair loss / baldness?

The vast majority of speculation regarding the relationship between creatine supplementation and hair loss/baldness stems from a single study by van der Merwe et al. [61] where college-aged male rugby players who supplemented with creatine (25 g/day for 7 days, followed by 5 g/day thereafter for an additional 14 days) experienced an increase in serum dihydrotestosterone (DHT) concentrations over time. Specifically, DHT increased by 56% after the seven-day loading period, and remained 40% above baseline values after the 14-day maintenance period. These results were statistically significant compared to when the subjects consumed a placebo (50 g of glucose per day for 7 days, followed by 30 g/day for 14 days thereafter). Given that changes in these hormones, particularly DHT, have been linked to some (but not all) occurrences of hair loss/baldness [62], the theory that creatine supplementation leads to hair loss / baldness gained some momentum and this potential link continues to be a common question / myth today. It is important to note that the results of van der Merwe et al. [61] have not been replicated, and that intense resistance exercise itself can cause increases in these androgenic hormones.

In summary, the current body of evidence does not indicate that creatine supplementation increases total testosterone, free testosterone, DHT or causes hair loss/baldness

Does creatine lead to dehydration and muscle cramping?

Speculation exists that creatine supplementation causes dehydration and muscle cramping [72, 73]. In the early 2000’s, with limited data and based primarily on speculation, the American College of Sports Medicine (ACSM) recommended that individuals controlling their weight and exercising intensely or in hot environments should avoid the use of creatine supplementation [74]. The physiological rationale suggesting that creatine supplementation may cause dehydration and muscle cramping is based on the premise that creatine is an osmotically active substance found primarily in skeletal muscle and may alter whole-body fluid distribution by preferentially increasing intracellular water uptake and retention, particularly over the short-term [38, 75].

In summary, experimental and clinical research does not validate the notion that creatine supplementation causes dehydration and muscle cramping.

Is creatine harmful for children and adolescents?

Concerns regarding the safety of creatine supplementation in children and adolescents (< 19 yrs) continues to be highly prevalent. The overwhelming majority of evidence in adult populations indicates that creatine supplementation, both short- and longer-term, is safe and generally well tolerated [2]. However, the question of whether or not this holds true for children and adolescents is relatively unclear. The physiological rationale supporting the potential ergogenic benefits of creatine supplementation in children and adolescents was first postulated by Unnithan and colleagues in 2001 [80]

The majority of dietary supplement survey data indicates that a relatively high percentage of youth and adolescent athletes are currently or have previously supplemented with creatine. For example, Kayton et al. [84] found that in a sample of 270 high school boys and girls, 21% of boys and 3% of girls reported supplementing with creatine. Furthermore, in a sample of elite Olympic level sample of young German athletes (14-18 yrs), 12% of those surveyed reported supplementing with creatine [85]. Therefore, these trends warrant additional research to determine with greater certainly whether creatine supplementation, both acute and longer-term, is safe for children and adolescents.

In summary, based on the limited evidence, creatine supplementation appears safe and potentially beneficial for children and adolescents.

Does creatine increase fat mass?

Recently, Forbes et al. [100] conducted a systematic review and meta-analysis on randomized controlled trials involving creatine supplementation in conjunction with resistance training on fat mass in older adults (≥ 50 yrs). Nineteen studies with a total of 609 participants were included. Participants supplementing with creatine had a greater reduction in body fat percentage. There was no significant difference in absolute fat mass loss; however, the creatine group lost ~0.5 kg more fat mass compared to those on placebo.

In summary, creatine supplementation does not increase fat mass across a variety of populations.

 Is a creatine ‘loading-phase’ required?

Pioneering research in the early 1900’s using animal models showed that creatine supplementation could augment creatine content by 70% [101, 102]. Decades later, Harris et al. [60] published a seminal paper which showed that ‘loading’ with creatine increased skeletal muscle creatine stores, as evaluated from muscle biopsies collected from the vastus lateralis in young, healthy human participants. This research sparked incredible interest in studying creatine supplementation strategies that would increase intramuscular creatine content, helping shape current recommendations.

In summary, accumulating evidence indicates that you do not have to ‘load’ creatine. Lower, daily dosages of creatine supplementation (i.e. 3-5 g/day) are effective for increasing intramuscular creatine stores, muscle accretion and muscle performance/recovery.

Is creatine beneficial for older adults?

From a clinical and healthy aging perspective, it is recommended that creatine supplementation be combined with resistance training to produce the greatest adaptations in older adults. Future clinical trials involving frail populations with long-term follow-up(s) and larger samples are needed. The therapeutic potential of creatine supplementation for cachexia, myopathies, post-surgery rehabilitation, bed rest, other muscle/bone wasting condition/diseases and brain health warrants further investigation.

In summary, there is growing body of evidence showing that creatine supplementation, particularly when combined with exercise, provides musculoskeletal and performance benefits in older adults.

 

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