With this program you will be able to analyze the severity of ligament pathologies and create an effective treatment plan"

Nowadays, sports practice has become a social habit that is increasing every year. Physical exercise promotes health, reduces the risk of cardiovascular disease and reduces the risk of bone mass as we age. On the other hand, in high performance sports, the demands placed on athletes have led to an increase in the number of injuries attributed to factors such as equipment, structure and sport characteristics. Consequently, it requires professionals who are trained to assess, prevent and readapt athletes and fitness enthusiasts injuries.

In this sense, the Hybrid Professional Master's Degree in Sports Injury Prevention, Rehabilitation and Readaptation has been designed to help students qualify in the sector. For this reason, an online modality led by an expert physiotherapist will be used in the first instance. They will be in charge of providing all the guidelines required by the students, such as nutritional aspects, taking into account the intake of phytochemicals and their importance to improve their health. Also, you will learn how biological recovery and hydration form pillars that will help improve the readaptation process.

On the other hand, Pilates exercise has been shown to be effective in recovering from injury. This practice has about 500 exercises designed to work the musculature, so it helps to improve postural control in the areas where muscle overloads occur in the body. This way, students will be able to plan exercise programs using Pilates postures to work different areas of the locomotor system. 

At the end of the theoretical modality, a practical stay in a center specialized in sports physiotherapy can be taken. This way, students will be able to test their knowledge in a supervised environment, building confidence they need to advance in their professional careers. In addition, this modality will also benefit those students who wish to go a step further and start their own private practice.

Make the most of this opportunity to surround yourself with expert professionals and learn from their work methodology"

This Hybrid Master's Degree in Sports Injury Prevention, Rehabilitation and Readaptation 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 professional physiotherapists, experts in prevention and treatment of injuries, as well as university professors with extensive experience high performance athletes
• 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
• Patient assessment and monitoring, invasive techniques, and a thorough lifestyle analysis for future injury prevention
• Comprehensive plans of systematized action for upper and lower limb injuries
• Presentation of practical workshops on procedures, diagnosis, and treatment techniques in critical patients
• An algorithm-based interactive learning system for decision-making in the clinical situations presented throughout course
• Clinical practice guidelines on the approach to different lesions
• All of this will be complemented by theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments
• Availability of content from any fixed or portable device with an Internet connection
• In addition, you will be able to do an internship in one of the best physiotherapy centers in the world

After completing the internship you will be ready to face your next professional challenge: opening a sports physiotherapy center"

In this Professional Master's Degree proposal, of professional character and blended learning modality, the program is intended to update physiotherapists professionals who develop their functions in sports, requiring a high level of qualification. Contents are based on the latest scientific evidence, and oriented in a didactic way to integrate theoretical knowledge in the physiotherapeutic practice, and theoretical-practical elements will facilitate knowledge updating and will allow decision making in patient management.

Thanks to its multimedia content developed with the latest educational technology, they will allow the physiotherapist professional a situated and contextual learning, that is, a simulated environment that will provide an immersive learning programmed to qualify in real 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 student will be assisted by an innovative interactive video system created by renowned experts.

It analyzes the severity of muscle injuries in athletes and assesses them for an effective rehabilitation plan"

Employ proprioceptive reeducation in every readaptation and recovery process, improving the recovery of your patients"

The syllabus of this program has been designed following the requirements of the group of experts in charge of teaching contents. This way, the Syllabus includes all the aspects that a specialist in sports physiotherapy should know. In this sense, students will be able to evaluate, plan and treat different injuries in high performance athletes, considering new practices and disciplines that complement the sector. Likewise, they will be able to acquire communication skills to help the relationship with the patient. 

Through a 100% online theoretical teaching modality, you will adapt your study schedules to your personal and professional needs to optimize your learning"

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 Global Stretching 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. Pantalla de Movimiento Funcional (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 Sports

5.7.1. Aspects Relevant to 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 Personal Trainer Business

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
10.10. Legal Aspects of Personal Training

You will have access to a library of multimedia resources 7 days a week, 24 hours a day"