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SSE 243: Use of Buffers in Specific Contexts: Highly Trained Female Athletes; Extreme Environments; and Combined Buffering Agents

Buffering agents including sodium bicarbonate, beta-alanine and sodium citrate are routinely used by athletes, and effects of buffering agents on athletes’ performance have been investigated since as early as the 1930s. Extracellular buffering agents, including sodium bicarbonate and sodium citrate, can increase the blood’s buffering capacity (pH and [HCO3-]), and intracellular buffering via beta-alanine supplementation can increase muscle carnosine concentration. The recent International Olympic Committee consensus statement on nutritional supplements reported that for sodium bicarbonate and beta-alanine, there is scientific evidence for beneficial effects on athletes’ performance. There is also growing evidence that sodium citrate can be effective in improving performance. There is a high prevalence of the use of supplements and buffering agents within athletic populations and consideration of the use of buffering agents in specific contexts relevant to athletes is therefore warranted. Contexts that have been investigated within the literature to only a limited extent include the use of buffering agents in highly trained female athletes, in extreme environmental conditions (e.g., training and/or competing in hot weather conditions or at altitude) and when using combinations of buffering agents. Recently, it has been demonstrated that the effectiveness of extracellular and intracellular buffering agents can be influenced by modifying factors, such as the dose, timing, duration, and intensity of exercise performed. Additionally, the translation of research findings in buffering agents to highly trained athletes can be influenced by the design factors of research studies (e.g., use of crossover or matched group study design, familiarisation trials, pre-test dietary standardisation, performance tests that were representative of the real-world competitive demands of athletes) and athlete-specific factors (e.g., recruitment of highly-trained athletes as research participants, measures of buffering capacity, and reported improvements in performance tests that replicate real-world competitive events). There is therefore further scope to provide a practical evaluation of the evidence on buffering agents, which may be particularly relevant to performance support practitioners and coaches seeking to implement an evidence-based buffering protocol for their athletes.

Reference Article

SSE 243: Use of Buffers in Specific Contexts: Highly Trained Female Athletes; Extreme Environments; and Combined Buffering Agents

Course Objectives

  •  Discuss the current evidence-based guidelines for buffering agents (sodium bicarbonate, sodium citrate and beta-alanine), and the moderating variables that can impact the efficacy of buffering agents in enhancing athletes’ performance.
  • Describe factors that may impact the translation of research findings in buffering agents to highly trained athletes’ real-world practice, including study design factors and athlete-specific factors.
  • Describe strategies that can be used to develop evidence-based supplementation protocols for individual athletes, which can be integrated within their broader training and preparation strategies.

Course

Credits

Course Expiration

ACSM

1

11/12/2027

BOC

1

11/12/2027

Commission on Dietetic Registration

1

11/12/2027

CSCCa

1

11/12/2027

Reference Article

https://www.gssiweb.org/docs/default-source/sse-docs/sse_243_003.pdf?sfvrsn=2

SSE 240: Creatine Supplementation: New Insights and Perspectives on Bone and Brain Health

Creatine is a well-established dietary supplement which enhances resistance training adaptations across the lifespan, including muscle mass and performance. Beyond muscle, creatine has been shown to have favorable effects on measures of bone biology in older adults and disease state populations and measures of brain health and function across a variety of populations, including young adults who experienced traumatic brain injury. This review will outline recent advances and perspectives on how creatine supplementation functions to improve indices of bone and brain health across a variety of populations. 

Reference Article

SSE 240: Creatine Supplementation: New Insights and Perspectives on Bone and Brain Health

Course Objectives

  • Outline a general overview of how creatine supplementation enhances muscle mass and performance. 
  • Describe the mechanisms and highlight recent research examining creatine’s effects when combined with resistance training on bone tissue. 
  • Discuss recent research evaluating the effects of creatine supplementation on brain function and highlight the benefits when the brain is stressed (i.e., mental fatigue, sleep deprivation, aging, and hypoxia).  
  • Identify which neuromuscular diseases have been shown to benefit from creatine supplementation. 

Course

Credits

Course Expiration

ACSM

1

12/19/2026

BOC

1

12/19/2026

CSCCa

1

12/19/2026

Reference Article

https://www.gssiweb.org/docs/default-source/sse-docs/sse_240_001.pdf?sfvrsn=2

SSE 232: Exogenous Ketone Supplements as Ergogenic Aids in Athletic Performance: A New Dawn Fades?

The ketone bodies acetoacetate and β-hydroxybutyrate have wide-ranging metabolic and molecular effects on organs such as the brain, heart and skeletal muscle, some of which are suggestive of benefits to athletes in terms of performance and recovery. The recent development and increasing commercial availability of ingestible forms of ketone bodies as exogenous ketone supplements has amplified interest in these compounds. A variety of compounds classified as exogenous ketone supplements are now available and have been subject to several studies in exercise performance and recovery contexts in human participants. While there are mechanistic bases for potential beneficial effects of exogenous ketone supplements in various athletic contexts, most studies to date have failed to observe benefits to performance or recovery.

Reference Article

SSE 232: Exogenous Ketone Supplements as Ergogenic Aids in Athletic Performance: A New Dawn Fades?

Course Objectives

  • Discuss the differences between various exogenous ketone supplements in terms of form and effects on circulating ketone body concentrations 
  • Describe the potential mechanisms by which exogenous ketone supplements may improve or impair exercise performance 
  • Utilize the research to date on the effects of exogenous ketone supplements on exercise performance to guide athletes

Course

Credits

Course Expiration

ACSM

1

05/15/2026

BOC

1

05/15/2026

CSCCa

1

05/05/2026

Reference Article

https://www.gssiweb.org/docs/default-source/sse-docs/sse_232_003.pdf?sfvrsn=2