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Omega-3 polyunsaturated fatty acids are traditionally associated with cardiometabolic health with implications for reducing risk of cardiovascular disease. More recently, omega-3 fatty acids have received considerable attention in the context of athlete health and performance, specifically with regards to promoting training adaptation and exercise recovery.
Course Objectives
Course
Credits
Course Expiration
ACSM
1
11/06/2024
BOC
1
11/06/2024
CSCCa
1
11/06/2024
Team sport athletes are at risk of training and competing in a hypohydrated state when fluid losses are large and/or there are challenges with fluid availability or opportunity to drink. Technical skill and cognitive function are essential to team sport athlete performance and may be impaired with hypohydration, especially when combined with heat stress. The mechanism of cognitive impairment with hypohydration is not fully understood. Decrements in cognitive function, skill and physical performance in team sports are more likely to occur when hypohydration levels are > 2% body mass loss, but there is significant inter-individual variability in the effect of hypohydration on team sport performance.
Course Objectives
Course
Credits
Course Expiration
ACSM
1
09/09/2024
BOC
1
09/09/2024
CSCCa
1
09/09/2024
Session 3 from the 2021 ACSM/GSSI Go the Distance Summer Symposium features Kathryn Ackerman MD, MPH, FACSM, Physician, Sports Medicine Division and Director, Female Athlete Program at Boston Children’s Hospital. Dr. Ackerman discusses the current state of the literature related to sports nutrition and female athletes as well as unique challenges that female athletes face. Additionally, Dr Ackerman addresses the many considerations that must be accounted for when developing a nutrition strategy for female athletes.
Course Objectives
Discuss basis for female athelte sports nutrition recommendations to date
Describe important considerations for accurate female sports and nutrition research
Describe causes and consequences of low energy availability
Course
Credits
Course Expiration
ACSM
0.75
07/14/2024
CSCCa
0.75
07/14/2024
Session 2 from the 2021 ACSM/GSSI Go the Distance Summer Symposium features Lindsay Baker PhD, FACSM and Anthony Wolfe MS of GSSI. Due to the high variability of sweat fluid losses and sweat sodium concentration, it is important for athletes to develop hydration plans based upon individual needs to support performance safety during exercise. Lindsay and Anthony discuss the research and validation behind the development of the Gx Sweat Patch, as well as the technology utilized to bring sweat testing and application of the sweat data to the consumer.
Course Objectives
Discuss the variability of sweat sodium concentration and sweat fluid losses in athletes based upon published sweat normative data
Describe the validity of the Gx sweat patch and how it compares to standardized sweat testing methods
Utilize the data collected from the Gx sweat patch to develop customized hydration plans for individual athletes
Course
Credits
Course Expiration
ACSM
0.75
07/14/2024
CSCCa
0.75
07/04/2024
Session 1 from the 2021 ACSM/GSSI Go the Distance Summer Symposium features Matt Pahnke PhD of GSSI and U.S. Long-Distance runner Molly Huddle. Dr. Pahnke presents the science and recommendations for fueling endurance athletes and then discusses how to utilize those recommendations in practice with Molly. Each athlete is unique and personalizing sports nutrition recommendations is key to helping an endurance athlete build a successful training and race day nutrition plan.
Course Objectives
Idenfity the key sports nutrition recomendations for endurance athletes
Discuss and apply the scientific recommendations for enduracne sports nutrition in a practical setting
Course
Credits
Course Expiration
ACSM
.75
07/14/2024
CSCCa
0.75
07/14/2024
Fatigue during high intensity sports or activities (~1-10 minutes in length) is caused by several components with strong evidence that muscle acidosis via accumulating hydrogen ions is a key performance inhibitor. To address this issue, skeletal muscle has intra and extracellular buffering mechanisms to attenuate exercise induced acidosis. Carnosine is an intracellular buffer that is key in slowing the decline of muscle pH. Carnosine has a nitrogen containing imidazole side ring which accepts or buffers hydrogen. This buffering can contribute as much as 15% of total buffering capacity. Additionally, carnosine has been shown to be a calcium/hydrogen exchanger, delivering calcium back to the sarcoplasmic reticulum and hydrogen away to the cell membrane. This suggests that carnosine may increase calcium sensitivity and muscle contraction efficiency. Plasma beta-alanine is the rate limiting substrate of carnosine. Approximately 3-6 g/d of beta-alanine supplementation over at least four weeks can elevate muscle carnosine stores by 30-60%. Several meta-analyses have been conducted and has shown 2-3% increased performance in non-elite athletes, followed with just 0.5-1% increased performance in elite athletes.
Course Objectives
Course
Credits
Course Expiration
ACSM
1
06/24/2024
BOC
1
06/23/2024
CSCCa
1
06/23/2024