The experimental participant group (n=15+15) includes male and female fitness athletes during their \~25 week competition preparation in fall 2019 for the Finnish national championships. Participants must have at least two years of goal-oriented gym training and their health status will be determined before measurements via an online pre-study questionnaire. The control group (n=15+15) will maintain their normal training and diet without competing during the study period. Otherwise, the control group is matched with the athletic group based on age, height, weight and training experience. Participants selected for the study will complete an additional questionnaire to be reviewed by the study physician to confirm that participants meet the health status inclusion criteria. This study includes four laboratory testing sessions over the 50-week period. Time points include testing before the diet or the control period start (PRE), one week before the competition (MID), after the competition (COMP) and after a recovery period (POST). During COMP-POST the participants are advised to continue training, but to stop competition dieting."Measurements will include body composition (fat mass and fat free mass by bioimpedance, DXA and skinfolds), resting metabolic rate (indirect calorimetry), vastus lateralis and triceps brachii muscle-cross sectional area, subcutaneous fat thickness from ultrasonography and circulating hormone analysis. Also, whole blood will be analyzed for hemoglobin and hematocrit and systems biology approach: e.g. serum metabolome and possibly also other analysis. Lower body maximal voluntary isometric force will be measured via knee extension machine device. Average weekly physical activity will be determined with a wrist-worn uni-axial accelerometer. Training and dietary data (nutrient intake, volume, intensity etc.) will be collected via nutrition and training diaries. Psychological questionnaires will be conducted via an online survey.
The purpose of this study is to evaluate the effects of competition preparation and recovery period on body composition, the endocrine system, metabolic rate, physical activity and performance, dietary and training habits and mood state in fitness athletes. Metabolic and hormonal adaptations due to weight loss oppose further weight loss and pose challenges for maintaining reduced body weight. Fitness competition preparation (i.e., a substantial decrease in body fat mass without notable decreases in muscle mass) is accomplished by restricting total daily energy intake and increasing dosage of aerobic exercise dosage while maintaining high levels of resistance training and dietary protein. There is sparse research regarding the effects of the competition preparation and the recovery period afterwards the competition on body composition, neuromuscular performance, hormone balance, and metabolic rate. Additionally, the effects of preparation on mood states and on systems biology is not well studied. The present study will help us understand the degree to which adaptations are due to the preparation and recovery process, or as a consequence of reaching the desired body composition (or some combination thereof). In turn, the findings may serve to help develop coaching guidelines for fitness athletes which minimize unfavorable adaptations to preparation and minimize the stress of the process. Participants will be notified of the research procedures, requirements, benefits and risks before providing written informed consent. The study will include one doctoral thesis and four scientific research articles during 2020-2024. Measurements of the study will be conducted during the spring of 2019 and 2020. Analyzing the results will occur during the year 2021 and the scientific publications will be reported by the end of 2024. The study is funded externally by the Finnish Fitness Sports Association and we will apply to additional, appropriate research grants. A large amount of data will be collected and processed which requires good management and leadership. In order to avoid risks, a comprehensive data management plan will be made for the study.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
DOUBLE
Enrollment
60
This study includes four laboratory testing sessions over the 50-week period. Testing sessions will be performed over one week. Time points include testing before the diet or the control period start (PRE), one week before the competition (MID), after the competition (COMP) and after a recovery period (POST), during which the participants are advised to continue their normal training regimen, but to stop competition dieting. Participants will spend three hours in the laboratory between 0700-1300. The control group will be advised to maintain their normal physical activity diet throughout the study. The participants will be given identification numbers and the research group is blinded so that they do not know which group participants belong to. All measurements will be conducted at the same time (always within max ±1 hour) due to the importance of standardizing the time of the day of measurements.
University of Jyväskylä
Jyväskylä, Finland
Change in body composition during the competition preparation and after the recovery period
Fat mass (kg) will be estimated by Dual-energy X-ray absorptiometry (DXA, Lunar Prodigy Advance, GE Medical Systems-Lunar, Madison WI USA) using methods similar to Hulmi et al. (2015; 2017) in a fasted state. The analysis (using enCORE 2005, version 9.30 and Advance 12.30) will provide total fat mass (kg). There will be 3 measurements.
Time frame: (-25 week, -1 week, +1-day, +25 week)
Change in physical performance during the competition preparation and after the recovery period
Maximal isometric force (Nm) output of the knee extensors of the right leg is assessed using an isokinetic dynamometer (Type 9287, Kistler, Switzerland connected to Spike 2™ software. There will be 3 measurements.
Time frame: (-25 week, -1 week, +25 week)
Change in physical activity and training diaries during the competition preparation and after the recovery period
Mean weekly physical activity (MET) will be monitored using a wrist-worn uni-axial accelerometer Polar Active (Brugniaux et al. 2008). The participants are to wear the Polar Active continuously during a 3-week periods. The activity measurement last for 21 days. During the activity measurement, the wrist-worn accelerometer is worn at all times, except in sauna or bath. Polar Active uses sex, age, body mass, and height as an input to convert the measured acceleration signal to METs with the epoch length of 30 s. Polar Active has been found to correlate well (R2 = 0.74) with the doubly labeled water technique while assessing energy expenditure during a 7- day period of military training (Kinnunen et al., 2012). Data will be collect every month. There will be 14 measurements.
Time frame: -25-week, -20-wee, 16-week, -12-week, -8-week, -4-week, -1week, +1-week +4-week, +8-wee, +12-week, +16-week, +20-week, +25-week
Change in resting metabolic rate during the competition preparation and after the recovery period
Resting metabolic rate (J/h·kg) will be measured with indirect calorimetry via respiratory quotient (RQ) assessments. Measurement is performed in a supine position over a 10-min period in a dark, thermos-neutral and quiet laboratory space. Expired gases during the tests are continuously analyzed over the 10 min period (Compher et al. 2006). There will be 3 measurements.
Time frame: (-25 week, -1 week, +25 week)
Change in different omics in during the competition preparation and after the recovery period
A high-throughput serum Nuclear Magnetic Resonance (NMR) metabolomics platform will be used for the absolute quantification of serum lipids and metabolite profile. The NMR metabolome assay yields a total of 228 different metabolites, including an array of lipoprotein subclasses (e.g., VLDL, LDL, HDL), apolipoproteins, A-1 and B-100, serum free fatty acids, and a wide variety of small molecules such as glycolysis precursors, amino acids and inflammation biomarkers. In the platform, lipoproteins are divided into subclasses according to particle size. Serum metabolics will be quantified from acquired fasting blood samples by Brainshake (Finland) company, specializing in metabolomics quantification. Further, statistical analysis of provided data will be handled at Genomics and biomarkers unit, Institute for Health and Welfare (THL, Finland). There will be 4 measurements.
Time frame: (-25 week, -1 week, +1-day, +25 week)
Chance in muscle subcutaneuous fat thickness in vastus lateralis muscle during the competition preparation and after the recovery period
Vastus lateralis subcutaneous fat thickness (mm) will be examined (Hulmi et al. 2017) at the mid-thigh will be assessed using a B-mode axial plane ultrasound (model SSD-α10, Aloka, Tokyo, Japan) with a 10 MHz linear-array probe (60 mm width) in extended-field-of-view mode (23 Hz sampling frequency). There will be 4 measurements.
Time frame: (-25 week, -1 week, +1-day, +25 week)
Change in hormonal balance during the competition preparation and after the recovery period
Free thyroxine (pmol/l) will be analyzed from serum with the Immunolite 2000 XPi, immunoassay system (Seimen Healtineers, Erlangen Germany).There will be 4 measurements.
Time frame: (-25 week, -1 week, +1-day, +25 week)
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.