Clinical Trials Logo

Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT06083532
Other study ID # Li Jiazhe
Secondary ID
Status Recruiting
Phase N/A
First received
Last updated
Start date September 15, 2023
Est. completion date February 15, 2024

Study information

Verified date October 2023
Source Universiti Putra Malaysia
Contact Jiazhe Li, PhD
Phone +86 19387800662
Email gs60376@student.upm.edu.my
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The phenomenon that high-intensity warm-up activities help improve muscle strength and explosive performance is called post-activation potentiation (PAP), which is a warm-up method that uses high-intensity stimulation to induce the activation of more type II muscle fibers. However, the results of studies exploring the enhancing effect of PAP on lower limb explosive strength are still controversial. In studies with no significant difference, it is believed that there are many factors that affect PAP, such as activation method, activation intensity, recovery time and individual factors, etc., and it is difficult to control during implementation. In addition, traditional warm-up methods such as jogging and stretching have been shown to have limited effectiveness in improving athletes' performance. In the past, there have been many studies on the combination of PAP and lower limb explosive strength, but there are almost no studies on the long-term effects of PAP on the lower limb explosive strength of basketball players. Therefore, this study studies the characteristics of PAP in order to find the best activation scheme for PAP, and then combines the enhancement effect of PAP with the explosive power of the lower limbs to improve the explosive power of the lower limbs of basketball players, and verifies the long-term effect of combining PAP with explosive power training. In order to provide new changes and breakthroughs in the design of physical training for basketball players and improve the sports performance of college male basketball players.


Description:

The study was a four-groups randomized controlled trial. In the study, the experimental group conducted a 12-week post-activation potentiation combined with lower limb explosive training intervention designed in this study. In contrast, the control group also underwent a 12-week lower limb explosive training intervention, but the warm-up method was conventional warm-up activities. Subjects participated in training intervention programs twice weekly. After the 12-week training program, data collection was completed. 1. Warm-up content: The experimental group used PAP as a warm-up method and performed pre-stimulation to induce post-activation potentiation. The pre-activation method is back squats. The pre-activation intensity and frequency are 70% 1RM (One-Repetition Maximum) × 3, 80% 1RM × 2, 90% 1RM × 1 respectively, and the interval time is 2 minutes. The control group performed routine warm-up activities. 2. Explosive strength training content for lower limbs: After completing the warm-up activities, there was a six-minute interval, and then the experimental group and the control group began the same explosive training content of the lower limbs.


Recruitment information / eligibility

Status Recruiting
Enrollment 48
Est. completion date February 15, 2024
Est. primary completion date January 20, 2024
Accepts healthy volunteers Accepts Healthy Volunteers
Gender Male
Age group 18 Years to 22 Years
Eligibility Inclusion Criteria: - The population must be collegiate male basketball players and between the ages of 18 and 22; - Contestants must be in good health, and must have a physical training background; - Only students who can complete these training requirements can be included in the research data. Exclusion Criteria: - Collegiate female basketball players should be excluded from this study; - Players with less than one year of physical training experience; - Participants were not healthy collegiate male basketball players such as injured players, mental patient or special students who were seriously depressed, sub-health; - Students who are consistently late or absent from training sessions will eventually be excluded.

Study Design


Related Conditions & MeSH terms


Intervention

Behavioral:
PAP induced at an intensity of 70% 1RM combined with complex training
This group of subjects first performed 3 sets of 70% 1RM squats after a routine warm-up, 3 times per set, with an interval of 2 minutes between sets. The entire process was maintained for 30 minutes, and then after a 6-minute rest, they performed complex training consists of maximum strength training (back squats) and plyometric training (drop Jump). The Intensity & Repetition of back squats is 80% 1RM × 4, 4 sets, interval time is 2min; rest for 3 minutes. , perform drop jump, intensity & repetition is 50cm (height) × 10, 4 sets, and the rest time is 2 minutes. Intervention training was conducted twice weekly for 12 weeks,and the intensity is gradually increasing over the 12 weeks.
PAP induced at an intensity of 80% 1RM combined with complex training
This group of subjects first performed 3 sets of 80% 1RM squats after a routine warm-up, 2 times per set, with an interval of 2 minutes between sets. The entire process was maintained for 30 minutes, and then after a 6-minute rest, they performed complex training consists of maximum strength training (back squats) and plyometric training (drop Jump). The Intensity & Repetition of back squats is 80% 1RM × 4, 4 sets, interval time is 2min; rest for 3 minutes. , perform drop jump, intensity & repetition is 50cm (height) × 10, 4 sets, and the rest time is 2 minutes. Intervention training was conducted twice weekly for 12 weeks,and the intensity is gradually increasing over the 12 weeks.
PAP induced at an intensity of 90% 1RM combined with complex training
This group of subjects first performed 3 sets of 90% 1RM squats after a routine warm-up, 1 times per set, with an interval of 2 minutes between sets. The entire process was maintained for 30 minutes, and then after a 6-minute rest, they performed complex training consists of maximum strength training (back squats) and plyometric training (drop Jump). The Intensity & Repetition of back squats is 80% 1RM × 4, 4 sets, interval time is 2min; rest for 3 minutes. , perform drop jump, intensity & repetition is 50cm (height) × 10, 4 sets, and the rest time is 2 minutes. Intervention training was conducted twice weekly for 12 weeks,and the intensity is gradually increasing over the 12 weeks.
Routine warm-up combined with complex training
This group of subjects first completed a 30-minute routine warm-up, then rested for 6 minutes, and then performed complex training consisted of maximum strength training (back squats) and plyometric training (drop jump). Back squat intensity & repetition is 80% 1RM × 4, 4 sets, with an interval of 2 minutes; after resting for 3 minutes, perform a drop jump, Intensity & Repetition is 50cm (height) × 10, 4 sets, with an interval of 2 minutes. Intervention training was conducted twice weekly for 12 weeks, and the intensity was gradually increasing over the 12 weeks.

Locations

Country Name City State
China Wuhan Sports University Wuhan Hubei

Sponsors (1)

Lead Sponsor Collaborator
Universiti Putra Malaysia

Country where clinical trial is conducted

China, 

References & Publications (3)

Golas A, Maszczyk A, Zajac A, Mikolajec K, Stastny P. Optimizing post activation potentiation for explosive activities in competitive sports. J Hum Kinet. 2016 Sep 10;52:95-106. doi: 10.1515/hukin-2015-0197. eCollection 2016 Sep 1. — View Citation

Kilduff LP, Owen N, Bevan H, Bennett M, Kingsley MI, Cunningham D. Influence of recovery time on post-activation potentiation in professional rugby players. J Sports Sci. 2008 Jun;26(8):795-802. doi: 10.1080/02640410701784517. — View Citation

Kobal R, Pereira LA, Kitamura K, Paulo AC, Ramos HA, Carmo EC, Roschel H, Tricoli V, Bishop C, Loturco I. Post-Activation Potentiation: Is there an Optimal Training Volume and Intensity to Induce Improvements in Vertical Jump Ability in Highly-Trained Sub — View Citation

Outcome

Type Measure Description Time frame Safety issue
Primary Counter Movement Jump performance of subjects (height) This indicator is used to test the explosive force of the lower body. And by measuring it, we can get its jump height, Rate of Force Development, the Peak Rate Force Development, Peak Power, the Peak Ground Vertical Reaction Force, which are used to analyze the changes in the explosive force of the lower limbs in detail. Pre-test: Before experiment; Post-test: 12 weeks end.
Primary Drop Jump performance of subjects (height) This indicator is used to test the explosive force of the lower body. And by measuring it, we can get its jump height, Rate of Force Development, the Peak Rate Force Development, Peak Power, the Peak Ground Vertical Reaction Force, which are used to analyze the changes in the explosive force of the lower limbs in detail. Pretest: Before experiment; Post-test: 12 weeks end.
Primary Squat Jump performance of subjects (height) This indicator is used to test the explosive force of the lower body. And by measuring it, we can get its jump height, Rate of Force Development, the Peak Rate Force Development, Peak Power, the Peak Ground Vertical Reaction Force, which are used to analyze the changes in the explosive force of the lower limbs in detail. Pre-test: Before experiment; Post-test: 12 weeks end.
Primary Run-up right-foot take-off, Run-up left-foot take-off performance of subjects(height) This indicator is used to test the explosive force of the lower body. And by measuring it, we can get its jump height, Rate of Force Development, the Peak Rate Force Development, Peak Power, the Peak Ground Vertical Reaction Force, which are used to analyze the changes in the explosive force of the lower limbs in detail. Pre-test: Before experiment; Post-test: 12 weeks end.
Primary 30-meter sprint performance of subjects(time) By testing the subject's 30-meter sprint time, changes in the explosive power of the lower limbs can be observed. Pre-test: Before experiment; Post-test: 12 weeks end.
See also
  Status Clinical Trial Phase
Recruiting NCT04994340 - Physical Activity Observatory of Castilla-La Mancha
Completed NCT02399553 - Effect of the Interaction Between the Type of Artificial Turf and Boots Model of Bone Health in Children Soccer Players N/A
Recruiting NCT06203184 - The Effect of Video Game-Based Exercises After Open Heart Surgery N/A
Recruiting NCT06254638 - Effectiveness of a Multicomponent Intervention to Promote Physical Activity Levels During the School Day (MOVESCHOOL) N/A
Recruiting NCT05682430 - Speed-based and Mechanical Work Considered HIIT for Football Referees N/A
Completed NCT05849792 - Internet-based Physical Activities Randomized Controlled Trial in Mild/Moderate Depression Participants: SONRIE Project N/A
Completed NCT04086303 - Anthropometric and Physical Fitness Differences Among Turkish Adolescents and Adults Handball Players N/A
Completed NCT03906851 - Active and Healthy Kids in Telemark - a School Based Health Promoting Intervention N/A
Recruiting NCT05394363 - Generation Victoria Cohort 2020s: A Statewide Longitudinal Cohort Study of Victorian Children and Their Parents
Completed NCT00131079 - PEPAF: Evaluation of Family Physician's Effectiveness for Physical Activity Promotion Phase 3
Completed NCT04799574 - Effect of Music Therapy in Improving the Physical Fitness and Depression in the Frailty of the Community Elderly N/A
Recruiting NCT05359744 - Multi-level Molecular Profiling of Peak Performance in Endurance Sports N/A
Active, not recruiting NCT05290584 - Influence of Preschool Children's Fundamental Movement Skills, Physical Activity, and Physical Fitness on Executive Function: A Prospective Observation Study
Recruiting NCT06372808 - The Effect of Plyometric Training in Freestyle Adolescent Wrestlers N/A
Completed NCT00105781 - Nurse Physical Activity Counseling in Primary Care N/A
Not yet recruiting NCT06110767 - The Effects of a Healthy Nutrition Program and Virtual Reality Applications on Body Composition N/A
Completed NCT05216146 - Enhancement of Physical and Combat Preparedness of SAF Members N/A
Recruiting NCT06260579 - Home-based Exercise and Physical Activity Intervention After Kidney Transplantation: Impact of Exercise Intensity N/A
Completed NCT04366479 - Endurance Exercise on nrf2 mRNA Expression Gene and VO2max N/A
Completed NCT01294332 - Effect of Aerobic Exercise Training on Cardiorespiratory Function in Patients With Traumatic Brain Injury Phase 1/Phase 2