With this top-level Hybrid professional master’s degree, you will stay up-to-date on the most modern intervention protocols in Rehabilitation and Readaptation of Sports Injuries” 

In the relentless pursuit of science to provide more efficient therapeutic solutions, the medical discipline of Sports Injury Rehabilitation and Readaptation has greatly benefited. As a result, more precise technologies have emerged, aimed at determining the origin of a musculoskeletal condition in great detail. An example of these is digitally biomechanical study devices that thoroughly evaluate the health of the locomotor system. Simultaneously, interventional procedures and other non-invasive methodologies have been developed to contribute to the recovery of high-performance athletes. From all these advancements, this healthcare branch now has more comprehensive techniques and tools that help improve the health of patients in less time. Paradoxically, not all specialists manage to stay up to date on how to implement them in their consultations or therapeutic strategies.

With that context in mind, TECH has taken the initiative and designed this comprehensive Hybrid professional master’s degree. The program features an academic format that is pioneering in its kind, distinguishing itself from others in the market by being divided into two fundamental stages. During the first stage, the medical professional will examine the most up-to-date theoretical foundations in the field of Rehabilitation and Readaptation of Sports Injury. This conceptual update will be facilitated through a 100% online and interactive learning platform. At no point will the specialist have to worry about restrictive schedules or pre-established assessment timelines to access the knowledge.

The second phase of this qualification consists of a rigorous clinical practice, where the specialist will be integrated into a top-tier hospital center. This training process will take place over 3 weeks, with 8 consecutive hours per day, from Monday to Friday. During this period, the specialist will have access to the best musculoskeletal rehabilitation technology and will apply advanced readaptation procedures for athletes with serious conditions. All of this will be done under the careful supervision of an assistant tutor and a team of leading experts who, through their personalized guidance, will help you expand and enhance a professional practice of excellence.

Complete this Hybrid professional master’s degree and become an expert in the benefits of the Pilates Method for the recovery of athletes with severe sports injuries”

This Hybrid professional master’s degree in Rehabilitation and Readaptation of Sports Injuries contains the most complete and up-to-date scientific program on the market. The most important features include:

• Development of more than 100 clinical cases presented by experts in Rehabilitation and Readaptation of Sports Injuries professionals 
• The graphic, schematic, and practical contents with which they are created, provide scientific and practical information on the disciplines that are essential for professional practice
• Comprehensive systematized action plans for the main pathologies
• Presentation of practical workshops on procedures diagnosis, and treatment techniques
• An algorithm-based interactive learning system for decision-making in the clinical situations presented throughout the course
• Practical clinical guides on approaching different pathologies 
• All of this will be complemented by 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
• Furthermore, you will be able to carry out a clinical internship in one of the best hospital centers  

The clinical practice of this three-week Hybrid professional master’s degree will allow you to access a hospital institution equipped with the latest diagnostic and therapeutic resources necessary for sports injury rehabilitation”

In this Hybrid professional master’s degree, with a vocational nature and hybrid learning modality, the program is aimed at updating of medical professionals who require a high level of qualification. The contents are based on the latest scientific evidence, and oriented in an educational way to integrate theoretical knowledge into practice, and the theoretical-practical elements will facilitate knowledge updates and decision-making in patient management.

Thanks to its multimedia content created with the latest educational technology, it will enable medical professional to achieve situated and contextual learning, i.e., a simulated environment that will provide immersive learning programmed to train for real-life situations. This program is designed around Problem-Based Learning, whereby the professional must try to solve the different professional practice situations that arise throughout the program. For this purpose, the students will be assisted by an innovative interactive video system created by renowned and experienced experts.

This rigorous Hybrid professional master’s degree will give you the opportunity to apply the theoretical knowledge you have gained in the care of real patients through an intensive in-person clinical placement"

With this qualification, you will be able to incorporate the use of powerful digital tools for the biomechanical study of the locomotor and musculoskeletal system of injured athletes into your professional work"

The academic modules of this Hybrid professional master’s degree are rigorous and demanding. In each of them, the physician will find the latest scientific evidence regarding the therapeutic management of sports injuries. In particular, they will delve into biomechanical recovery techniques and other potentials such as proprioceptive and kinesthetic training. Additionally, they will explore the most advanced diagnostic tools for detecting pathologies in high-performance athletes.  Likewise, they will delve into how personalized personal training can help prevent such incidents.  The qualification also relies on multimedia resources, such as infographics and videos, of great didactic value for learning. 

The academic modules of this program are available on a 100% online, interactive platform with no set study schedules or assessments”

Module 1. Personal Training 

1.1. Personal Training 
1.2. Flexibility Training 
1.3. Endurance and Cardiorespiratory Training 
1.4. Core Training 

1.4.1. Core Musculature 
1.4.2. The Training of Stabilization Systems 
1.4.3. Core Science and Training 
1.4.4. Core Training Guidelines 
1.4.5. Core Training Program Design 

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. Physical Fitness Testing Protocols and Standards 
4.6. Functional Movement Assessment 

4.6.1. Motion Detection, Testing and Assessment 
4.6.2. Functional Movement Screen (FMS) 
4.6.3. Selective Assessment of Functional Movement 
4.6.4. Specific Functional Performance Tests 

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

4.8.1. Biomechanical Fundamentals 
4.8.2. Biomechanics of Human Movement 
4.8.3. Muscular Control of Movement 
4.8.4. Biomechanics of Resistance Exercise

4.9. Evaluation of Physical Fitness 
4.10. 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 Reeducation 

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 
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 Personal Training  

10.1. The Beginning of the Personal Trainer 
10.2. Coaching for the Personal Trainer 
10.3. The Personal Trainer as a Promoter of Exercise and the Effects on Health and Performance 

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

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 
10.10. Legal Aspects of Personal Training

Relearning, the teaching methodology on which this degree is based, will help you assimilate its most complex concepts quickly and flexibly"