Get to know the main tools for sports rehabilitation and readaptation and apply them with your patients to achieve effective recoveries that allow them to continue with their sports activity"

Rehabilitation medicine in the field of sports is essential to achieve the recovery of elite athletes and those involved in high level sports activities who suffer from some type of injury. Therefore, a specialization in the most frequent injuries, taking into account the part of the body where they occur, is essential for all those physicians who develop professionally in this field. Following this premise, at TECH we have designed this Master's Degree in Rehabilitation and Readaptation of Sports Injuries, with the aim of training all those who wish to increase their knowledge about rehabilitation work with athletes, a program created by experts in the field and with years of experience in the sector.

This training is unique among those that exist in the field, as it is the first that integrates rehabilitation, rehabilitation, recovery and prevention, both for sports injuries and at a functional level. All this in a single Master's Degree of the highest quality and created by professionals with great impact in this field. 

Likewise, this training program has a series of qualities that will give a plus in knowledge to future students. Thus, students will learn about nutritional aspects, such as the importance of the intake of phytochemicals and foods rich in them in the improvement of health, as well as in biological recovery and, above all, the importance of water and hydration as a fundamental part during the entire recovery process. 

On the other hand, the introduction of the Pilates method with its different variants, both in rehabilitation and rehabilitation, are a novelty in terms of training of this type. Training in coaching and business strategies is also very important in order to guarantee the success of the professional work. 

In short, at TECH we have set out to create contents of the highest teaching and educational quality that will turn our students into successful professionals, following the highest quality standards in teaching at an international level. Therefore, we show you this Master's Degree with a rich content that will help you reach the elite of rehabilitation medicine at the sports level. 

Immerse yourself in the study of this high level Master's Degree and improve your skills as a rehabilitation physician”

This ##ESTUDIO## in Rehabilitation and Readaptation of Sports Injuries contains the most complete and up to date scientific program on the market. The most important features of the program include: 

• The development of numerous case studies presented by specialists in sports rehabilitation
• The graphic, schematic and eminently practical contents of the course are designed to provide all the essential information required for professional practice
• Exercises where the self assessment process can be carried out to improve learning
• Algorithm-based interactive learning system for decision making
• Its special emphasis on innovative methodologies in sports rehabilitation
• Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments
• Content that is accessible from any fixed or portable device with an Internet connection

This Master's Degree is the best investment you can make in the selection of a refresher program for two reasons: in addition to updating your knowledge as a personal trainer, you will obtain a degree from TECH Global University"

Its teaching staff includes professionals belonging to the medical field, who contribute their work experience to this training, as well as renowned specialists from reference societies and prestigious universities.

The multimedia content, developed with the latest educational technology, will provide the professional with situated and contextual learning, i.e., a simulated environment that will provide immersive training that is programmed to train students in real situations.

This program is designed around Problem Based Learning, whereby the physician must try to solve the different professional practice situations that arise during the academic year. For this purpose, the professional will be assisted by an innovative interactive video system developed by renowned and experienced experts in rehabilitation and readaptation of sports injuries. 

This Master's Degree offers training in simulated environments, which provides an immersive learning experience designed to train for real life situations"

This 100% online master's degree will allow you to combine your studies with your professional work while increasing your knowledge in this field"

The content structure has been designed by a team of professionals knowledgeable about the implications of training in daily practice, aware of the relevance of the current relevance of Preparation specialization in the field of personal training; and committed to quality teaching through new educational technologies. 

We have the most complete and updated scientific program on the market. We want to provide you with the best training" 

Module 1. Personal Training

1.1. Personal Training
1.2. Flexibility Training
1.3. Endurance and Cardiorespiratory Training
1.4. Training Concepts
1.5. Balance Training
1.6. Plyometric Training

1.6.1. Principles of Plyometric Training
1.6.2. Designing a Plyometric Training Program

1.7. Speed and Agility Training
1.8. Strength Training
1.9. Integrated Program Design for optimal performance
1.10. Exercise Modalities

Module 2. Preventive Work for Sports Practice

2.1. Risk Factors in Sports
2.2. Working with Mat Exercises
2.3. Reformer and Cadillac
2.4. Wunda Chair
2.5. Active GlobalStretching and Global Postural Re-education
2.6. Fitball
2.7. TRX
2.8. Body Pump
2.9. Medicine Ball and Kettlebells
2.10. Thera Band

2.10.1. Advantages and Properties    
2.10.2. Individual Exercises
2.10.3. Exercises in Pairs
2.10.4. Respiratory muscles

Module 3. Structure of the Locomotor System

3.1. Anatomical Position, Axes and Planes
3.2. Bone
3.3. Joints

3.3.1. Etiology
3.3.2. Synarthrosis 
3.3.3. Amphiarthrosis
3.3.4. Diarthrosis

3.4. Cartilage
3.5. Tendons and Ligaments
3.6. Skeletal Muscle
3.7. Development of the Musculoskeletal System
3.8. Components of the Musculoskeletal System
3.9. Nervous Control of Skeletal Muscles
3.10. Muscle Contraction

3.10.1. Functioning of Muscle Contraction
3.10.2. Type of Muscle Contraction
3.10.3. Muscle Bioenergetics

Module 4. Fitness, Functional and Biomechanical Assessment

4.1. Anatomy and Kinesiology
4.2. The Science of Human Motion
4.3. Applied Biomechanics:
4.4. Initial Customer Inquiry
4.5. Functional Movement Assessment

4.5.1. Motion Detection, Testing and Evaluation
4.5.2. Functional Movement Screen (FMS)
4.5.3. Selective Assessment of Functional Movement
4.5.4. Specific Functional Performance Tests

4.6. Nutritional Assessment, Genetic Evaluation, Biochemistry and Quality of Life
4.7. Biomechanics

4.7.1. Biomechanical Fundamentals
4.7.2. Biomechanics of Human Movement
4.7.3. Muscular Control of Movement
4.7.4. Biomechanics of Resistance Exercise

4.8. Evaluation of Physical Fitness
4.9. Risk Detection and Stratification

Module 5. Frequent Injuries in Athletes

5.1. Shoulder Injuries in Sports

5.1.1. Relevant Aspects of the Shoulder 
5.1.2. Injuries and Disorders Related to Acute and Chronic Shoulder Instability
5.1.3. Clavicular Injuries
5.1.4. Nerve Injuries in the Shoulder Region
5.1.5. Brachial Plexus Injuries

5.2. Upper Arm Injuries
5.3. Elbow Injuries in Sports
5.4. Forearm, Wrist and Hand Injuries in Sports
5.5. Head and Facial Injuries in Sports
5.6. Throat, Chest and Abdominal Injuries in Sports
5.7. Back/Spine Injuries in Sport

5.7.1. Relevant Aspects of the Back and Spine 
5.7.2. Diagnosis of Back Pain
5.7.3. Neck and Cervical Injuries
5.7.4. Injuries of the Thoracic and Lumbar Area

5.8. Hip Joint, Pelvic and Groin Injuries in Sports
5.9. Thigh, Knee and Leg Injuries in Sport
5.10. Ankle and Foot Injuries in Sport

Module 6. Exercise for the Readaptation of Sports Injuries

6.1. Physical Activity and Physical Exercise for Health Improvement
6.2. Classification and Selection Criteria for Exercises and Movements
6.3. Principles of Sports Training

6.3.1. Biological Principles

6.3.1.1. Functional Unit
6.3.1.2. Multilaterality
6.3.1.3. Specificity
6.3.1.4. Overload
6.3.1.5. Supercompensation
6.3.1.6. Individualization
6.3.1.7. Continuity
6.3.1.8. Progression

6.3.2. Pedagogical Principles

6.3.2.1. Transfer
6.3.2.2. Efficacy
6.3.2.3. Voluntary Stimulation
6.3.2.4. Accessibility 
6.3.2.5. Periodization 

6.4. Techniques Applied to the Treatment of Sports Injuries
6.5. Specific Action Protocols
6.6. Phases of the Process of Organic Recovery and Functional Recovery
6.7. Design of Preventive Exercises
6.8. Specific Physical Exercises by Muscle Groups
6.9. Proprioceptive Re-education

6.9.1. Bases of Proprioceptive and Kinesthetic Training
6.9.2. Proprioceptive Consequences of Injury
6.9.3. Development of Sport Proprioception
6.9.4. Materials for Proprioception Work
6.9.5. Phases of Proprioceptive Re-education

6.10. Sports Practice and Activity During the Recovery Process

Module 7. Frequent Pathologies of the Locomotor System

7.1. Cervical Pain, Dorsalgia and Lumbago
7.2. Scoliosis
7.3. Herniated Disc
7.4. Shoulder Tendinitis
7.5. Epicondylitis

7.5.1. Epidemiology
7.5.2. Pathologic Anatomy/Pathogenesis
7.5.3. Clinical Symptoms
7.5.4. Diagnosis
7.5.5. Treatment

7.6. Hip Osteoarthritis
7.7. Gonarthrosis
7.8. Plantar Fasciitis

7.8.1. Conceptualization
7.8.2. Risk Factors
7.8.3. Symptoms 
7.8.4. Treatment

7.9. Hallux Valgus and Flat Feet
7.10. Sprained Ankle

Module 8. Exercise for Functional Recovery

8.1. Functional Training and Advanced Rehabilitation

8.1.1. Function and Functional Rehabilitation
8.1.2. Proprioception, Receptors and Neuromuscular Control
8.1.3. Central Nervous System: Integration of Motor Control
8.1.4. Principles for the Prescription of Therapeutic Exercise
8.1.5. Restoration of Proprioception and Neuromuscular Control
8.1.6. The 3-Phase Rehabilitation Model

8.2. The Science of Pilates in Rehabilitation
8.3. Principles of Pilates
8.4. The Integration of Pilates in Rehabilitation
8.5. Methodology and Equipment Necessary for Effective Practice
8.6. Cervical and Thoracic Spine
8.7. The Lumbar Spine
8.8. Shoulder and Hip
8.9. Knee
8.10. Foot and Ankle

Module 9. Nutrition for Functional Recovery and Rehabilitation

9.1. Integral Nutrition as a Key Element in Injury Prevention and Recovery

9.2. Carbohydrates
9.3. Proteins
9.4. Fats

9.4.1. Saturation 
9.4.2. Unsaturated 

9.4.2.1. Monounsaturated
9.4.2.2. Polyunsaturated

9.5. Vitamins

9.5.1. Water Soluble
9.5.2. Fat soluble

9.6. Minerals

9.6.1. Macrominerals
9.6.2. Microminerals

9.7. Fibre
9.8. Water
9.9. Phytochemicals

9.9.1. Phenols
9.9.2. Tioles
9.9.3. Terpenes

9.10. Food Supplements for Prevention and Functional Recovery

Module 10. Coaching and Business  of the Personal Trainer  

10.1. The Beginning of the Personal Trainer
10.2. Coaching for the Personal Trainer
10.3. Establishing Healthy Lifestyle Habits

10.3.1. Basic Fundamentals of Physical Exercise
10.3.2. Acute Exercise Responses
10.3.3. Health Effects of Exercise

10.3.3.1. Resistance 
10.3.3.2. Strength and Power
10.3.3.3. Balance 

10.3.4. Health Effects of Exercise

10.3.4.1. Physical Health
10.3.4.2. Mental Health

10.4. Need for Behavioral Changes
10.5. The Personal Trainer and the Relationship with the Client
10.6. Motivational Tools

10.6.1. Appreciative Exploration
10.6.2. Motivational Interview
10.6.3. Building Positive Experiences

10.7. Psychology for the Personal Trainer
10.8. Personal Trainer's Career Path
10.9. Design and Maintenance and Material Installations

Make the most of the opportunity and take the step to get up to date on the latest developments in Rehabilitation and Readaptation of Sports Injuries"