Rest and Recovery. Recovery Theory Supercompensation cycle of a training lesson (modified from Yakovlev 1967)

Slides:

Advertisements

Similar presentations

Advertisements

Overtraining versus Overreaching

FATIGUE AND RECOVERY. Key Skills and Knowledge At the completion of this topic, students should have knowledge of passive and active recovery methods.

Factors Affecting Fitness. What Is Fitness? We’ve already discussed that health is a state of complete physical, social, mental and emotional well-being.

Rest and Recovery. Recovery is a Training Principle Fatigue Adaptation Training Stimulus Recovery Accelerated Recovery.

The Facts of Fitness Why bother exercising? Improve your whole body fitness Some exercises strengthen muscle while others improve flexibility. Aerobic.

So what does Training really do?. You need to Eat About 40% of potential energy in food is transferred to ATP The rest is lost at heat This will happen.

Training 101 Triad Triathlon Team October 10 th, 2014.

Fatigue and Recovery. Fatigue Is the inability to continue with an activity at the same intensity, despite the desire to maintain intensity. Fatigue can.

KEY KNOWLEDGEKEY SKILLS  Physiological practices used to assist and improve recovery including heat, ice, compression, hyperbaric chambers, massage and.

Copyright © 2006 Lippincott Williams & Wilkins. Training the Anaerobic and Aerobic Energy Systems Chapter 13 Section 5: Exercise Training and Adaptations.

Physical Exercise Chapter 28. “A sound mind in a sound body.” —Juvenal.

HSC Enrichment Day 2013 Improving Performance. Workshop Overview Case Study: Triathlon Planning a training year Planning to avoid overtraining * Phases.

 hydrotherapy  cryotherapy (ice packs, pool sessions, ice baths, ice vests)  hot and cold contrast therapy  spas and mineral springs (balneotherapy)

KEY KNOWLEDGEKEY SKILLS  Physiological practices used to assist and improve recovery including heat, ice, compression, hyperbaric chambers, massage and.

 Makes the body more efficient  Makes the body better able to perform certain tasks  Can make the human machine more effective  We can run faster,

TRAINING. A SUCCESSFUL ATHLETE define your goals: general g. long-range g. season g. monthly g. weekly g. daily g. consider your talent, skills, abilities.

General Principles of Exercise for Health and Fitness

Mgr. Lenka Beránková, Ph.D. Department of Health Promotion, Faculty of Sports studies MU.

Training for Performance Training Principles Overload –Increased capacity in response to training overload Specificity –Specific muscle involved –Energy.

Cardiorespiratory Endurance Chapter 3. Cardiorespiratory Endurance? The ability of the lungs, heart and blood vessels to deliver adequate amounts of oxygen.

SEHS: OPTION A – TRAINING TO OPTIMIZE PHYSIOLOGICAL PERFORMANCE

Sports Performance 15 Basic Training Principles. What is Physical Fitness?  Being physically fit means to be able to perform everyday activities with.

MANAGING A TRAINING LOAD Week 10. What you need to know… The steps in planning a training program The different phases of a training program and training.

1 Specificity and Change To apply the specificity principle effectively, you need to evaluate your personal fitness goals and design a plan that will target.

13 Training for Sport chapter. OPTIMIZING TRAINING—A MODEL.

FATIGUE AND RECOVERY. FATIGUE Responses to exercise are individual. Causes of fatigue depend upon: The type, duration and intensity of exercise – aerobic.

PHYSIOLOGICAL STRATEGIES.  Physiological strategies is the focus of two elements- the removal of metabolic by-products and a nutrition plan to replace.

Developing Muscular Fitness

Environmental Factors on Training and Preventing Injury and Boredom 13.2.

Copyright © 2007 Lippincott Williams & Wilkins.McArdle, Katch, and Katch: Exercise Physiology: Energy, Nutrition, and Human Performance, Sixth Edition.

Physical Exercise Chapter 28. “A sound mind in a sound body.” —Juvenal.

Training Recipe/Overtraining. Athlete 1 Male Weight Vertical Jump – 15 in Body Composition – 12% Bench Press Hexagonal Agility – 18 sec.

Adaptations to Exercise Training. Introduction Exercise training can be defined as participation in chronic, organized physical activity, with the goal.

UNIT 4 – PERFORMANCE ENHANCEMENT.  What do all these pictures have in common?  What happens when you focus on one part of the picture?  Relate.

EFFECTS OF ENVIRONMENT ON TRAINING AND PERFORMANCE

Muscle Fatigue Causes and Reduction.

Principles of Training EXSC 205. Why understand training theory? Ultimately it is to improve athletic performance Secondary Objectives: Prevent injury.

CONDITIONING TECHNIQUES. OBJECTIVES Identify the principles of conditioning Defend the importance of the warm up and cool down periods Evaluate the importance.

 I will be able to identify various training principles.  I will be able to identify various training methods.  I will be able to identify three energy.

Over-Training SHMD /5/ Physiology of Training Physiologic improvement in sports only occurs during the rest period following hard training.

1. 2 What You Will Do Describe the progression principle and how it applies to your fitness plan. Recognize the relationship between progression and trainability.

Chapter 4 Overtraining: Balancing Practice and Performance

PART 3 Methods to Improve Exercise Performance. Chapter 10 Training For Sport and Performance.

 Acute Response › Heart rate › Respiratory rate › Blood pressure › Body temperature  Chronic Adaptations › Increased VO2 max › Increased cardiac output.

Lesson 3 August 26 th,  5 major components to health 1. Physical health 2. Social health 3. Mental health 4. Emotional health 5. Spiritual health.

Just for the Geographers!!! Applied exercise physiology in practical situations.

Managing a Training Load. Periodisation of training Phases of training – microcycles, mesocycles and macrocycles. Peaking and Tapering – step reductions.

Power Point 2 Designing a Personal Fitness Program &

Principles of Fitness for Health Module 4.4

Chapter 21 Training for Performance

Training for Anaerobic and Aerobic Power

Principles of Training

Adaptations to Anaerobic Training Programs

PHYSICAL AND PHYSIOLOGICAL FACTORS IN ATHLETIC PERFORMANCE

General Principles of Exercise for Health and Fitness

When you leave this class….

Principles of Training

PRINCIPLES OF TRAINING

Exercise physiology Preparation & training methods SPECIALISED PREPARATION Learning Objective: To be able to describe how an athlete prepares for performance.

Fit for Sport and Rest and Recovery

Basic Training Principles

PLANNING TO AVOID OVERTRAINING

KEY KNOWLEDGE KEY SKILLS

Athletic Development Foundations for Training

CQ2 – What are the planning considerations for improving performance?

Basic Training Principles

Fatigue & Recovery.

principles of Training

Physiological strategies to enhance recovery

Presentation transcript:

Rest and Recovery

Recovery Theory Supercompensation cycle of a training lesson (modified from Yakovlev 1967)

Recovery Theory  Actively enhanced recovery is a significant training component  Proper recovery - accelerates the regeneration between lessons - decreases fatigue - enhances supercompensation - facilitates using heavy loads in training - can decrease the number and frequency of injuries (fatigue affects coordination and concentration, elevates muscle tension and as a result shows the greatest injury potential)

 Recovery quality depends on - Age (Younger athletes recover faster) - Gender (Female athletes tend to recover slower) - Environmental factors (Hot-cold, altitude) - Freedom of movement (Apparel, laces) - Type of muscle fiber (Fast-twitch fibers fatigue faster then slow-twitch fibers) - Type of exercise & energy system (Slower recovery from endurance training) - Psychological factors (Stress during the training or post-training time) - Freedom from acute localized trauma and overtraining (An injured athlete is limited by high level of catabolic hormones and ammonia) - Availability and replenishment of micronutrients (Vitamins & minerals) - Efficient energy transfer and removal of waste products (Depends on the physical condition) - Time differences (Changing of time zones) Recovery Theory

Recovery Curve

Recovery Recommended Recovery after Exhaustive Exercise Biological parametersRecovery process Heart rate Blood pressure Return to normal in 20 to 60 min Restoration of muscle glycogen a. After aerobic activity 10 hr to restore 60% 48 hr to restore 100% Restoration of muscle glycogen b. After anaerobic intermittent activity 2 hr to restore 40% 5 hr to restore 55% 24 hr to restore 100% Removal of LA from the muscles and blood 10 min to remove 25% min to remove 50% 1 hr-1:15 hr to remove 95% ProteinsReturn to normal in 12 to 24 hr Fats, vitamins, and enzymesReturn to normal more than 24 hr

Techniques of Recovery 1.Natural - Kinotherapy (Active rest) - Stretching - Different (antagonistic) activity from the exercises - Jogging (removes about 62% of LA in the first 10 min) - Complete Rest (Passive Rest) Athletes require 9 – 10 hr of sleep

2.Physiotherapy - Massage (Reduce muscle tension, fatigue & microtrauma, increase blood & lymphatic circulation) - Thermotherapy (Heat) (Sauna, heat lamps, steam baths, moist heat packs) - Cryotherapy (Cold) (Brings the reduced pain effect) - Contrast bath (Alternating vasoconstriction & vasodilatation) - Oxygenotherapy (O 2 Inhalation, yoga, respiratory exercises) - Aerotherapy (Influence of +ions or – ions in atmosphere) - Altitude cure (600-1,000M/1,800-3,000Ft brings high humidity, low temperature, UV rays) - Reflexotherapy (Acupuncture & Acupressure) (Distribution of the energy flow along meridians/channels) - Chemotherapy (Vitamins & minerals) Techniques of Recovery

Fatigue and Overtraining  Exposing athlete to physical stress levels beyond their capabilities or  Providing inadequate rest (under rest)

Levels 1.Acute fatigue - muscular overstrain from a single training session - lasts up 1 or 2 days - Symptoms: muscle soreness, disturbed sleep, heightened response to allergens 2.Overload stimulus - muscular overstrain from a shock microcycle - lasts longer than 2 days - Symptoms: reluctance to work, disturbed sleep, lack of appetite, irrational use of energy, and emotional disturbance Fatigue and Overtraining

3.Overreaching - induced by one or more intense microcycles or too few regeneration periods - lasts a few days up to 2 weeks - may or may not be muscular overstrain - Symptoms: as above, increasing resting HR, increased HR and LA concentration during submaximal workloads, premature fatigue, drop in performance, and increased thirst (especially during the night) 4.Overtraining syndrome - induced by successive overreaching microcycles w/ insufficient regeneration - lasts several weeks to several months - significant organic changes, may or may not be muscular overstrain - Symptoms: vary depending on intensity of stimuli (from heavy sweat to aversion to training, carelessness) - results in loss of shape, injury Fatigue and Overtraining