TECH offers you a great educational opportunity that will allow you to specialize in everything related toPhysiotherapy and Rehabilitation of Small Animals with success’’

In recent years, veterinary medicine has advanced, both in the use of new diagnostic tools and in the introduction of new techniques and treatments. This has increased animals’  life expectancy and allowed them to have a better quality of life. It is evident that owners are increasingly concerned about their pets living with the best possible care and in the best possible conditions. 

Veterinary Physiotherapy and Rehabilitation is a growing specialty that encompasses not only the sports field, but also rheumatologic or neurological conditions, in older animals, dealing with joint problems, osteoarthritis or other age-related physical problems. The Professional master’s degree in Physiotherapy and Rehabilitation of Small Animals is a response to the need to offer pet owners a quality service, something that is increasingly expected from owners who are looking for less invasive and more natural techniques. 

This program offers complete training in Physiotherapy and Rehabilitation, as it develops the specialized knowledge needed to safely address any situation that may arise.

It complements the theoretical aspects with clinical practice related to the wealth of experience obtained by the course professors, who have a deep understanding of the field as they are active veterinary professionals in veterinary centers specializing in Physiotherapy and Rehabilitation.  

At present, one of the main problems affecting continuing postgraduate specialization is the difficulty of being able to balance it with work and personal life. The online format  of this program makes it possible for clinical veterinarians to balance their studies with their day-to-day commitments. They are able to access the content at any time, without the need to travel or adhere to a fixed schedule. Therefore, students can easily balance their learning with their daily professional practice, without losing any quality in the process.

Animal Physiotherapy Rehabilitation is a booming specialty that is increasingly demanding more and more experts in the field”

This Professional master’s degree in Physiotherapy and Rehabilitation of Small Animals contains the most complete and up-to-date scientific program on the market. The most important features include: 

• The development of case studies presented by experts in Physiotherapy and Rehabilitation of Small Animals
• The graphic, schematic, and eminently practical contents with which they are created, provide scientific and practical information on the disciplines that are essential for professional practice
• What's new in Physiotherapy and Rehabilitation of Small Animals?
• Practical exercises where the self-assessment process can be carried out to improve learning
• Special emphasis on innovative methodologies in Physical Therapy and Rehabilitation of Small Animals
• Theoretical lessons, questions to the experts, forums for discussion of controversial topics and individual reflection work
• Access to content from any fixed or portable device with an Internet connection

Update your knowledge in this area and become a prestigious veterinarian capable of successfully taking on the latest challenges in the profession’’

The program includes, in its teaching staff, professionals belonging to the field of veterinary medicine, who contribute the experience of their work to this program, in addition to recognized specialists from reference societies and prestigious universities.  

Its multimedia content, elaborated with the latest educational technology, will allow the professional a situated and contextual learning, that is to say, a simulated environment that will provide an immersive specialization programmed to learn 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 during the program. To do so, the professional will be assisted by an innovative interactive video system created by renowned and experienced experts in Physiotherapy and Rehabilitation of Small Animals. 

All TECH specializations contain practical clinical case studies that aim to teach students through real simulated environments"

You will examine the main anatomical bone references and the different muscle groups of small animals, with the guidance of professionals who have extensive experience in the sector"

The structure of the contents has been designed by the best professionals in the field of animal physiotherapy rehabilitation, with extensive experience and recognized prestige in the profession. They are backed by an exhaustive volume of cases which have been reviewed, studied and diagnosed, and they have extensive knowledge of new technologies applied to veterinary medicine. This will ensure that, upon completion of the course, you will be fully qualified to practice in this field from a multidisciplinary approach that favors the longevity and quality of life of the animal.  

TECH designs the content of all its programs based on the utmost scientific rigor and evidence. This way we make sure we always offer the best to our students’’

Module 1. Veterinary Physiotherapy and Rehabilitation. Functional Anatomy in Small Animals

1.1. Physiotherapy and Rehabilitation of Small Animals

1.1.1. Introduction

1.1.1.1. Medical History
1.1.1.2. Veterinary Rehabilitation and Physical Therapy

1.1.2. Species Susceptible to be Treated with Physiotherapy
1.1.3. Objectives of Physiotherapy
1.1.4. Techniques in Veterinary Physiotherapy
1.1.5. Indications of Physiotherapy

1.2. Morphology, Structure and Function

1.2.1. Bone
1.2.2. Joints
1.2.3. Muscle

1.3. The Skeleton of the Dog. Important Anatomical Bone References

1.3.1. Head and Vertebrae
1.3.2. Thoracic Limb
1.3.3. Pelvic Limb

1.4. Head and Neck Muscle

1.4.1. Head Muscles
1.4.2. Motor Muscles of the Head
1.4.3. Neck Muscles

1.5. Trunk and Tail Muscles

1.5.1. Muscles of the Spine
1.5.2. Thoracic Muscles
1.5.3. Abdominal Muscles
1.5.4. Tail Muscles

1.6. Thoracic Limb Muscles

1.6.1. Thoracic Girdle Muscles
1.6.2. Shoulder Muscles
1.6.3. Elbow Muscles
1.6.4. Muscles of Carpus and Fingers

1.7. Pelvic Limb Muscles

1.7.1. Pelvic Girdle Muscles
1.7.2. Muscles of the Hip
1.7.3. Muscles of the Knee
1.7.4. Muscles of Tarsus and Fingers

1.8. Innervation and Vascularization

1.8.1. Brachial Plexus
1.8.2. Lumbosacral Plexus
1.8.3. Other Important Nerves

1.9. Skeletal Muscle Contraction

1.9.1. Mechanism of Muscle Contraction
1.9.2. Types of Muscle Contraction
1.9.3. Definitions

1.10. Physiology of Inflammation

1.10.1. What Is Inflammation?
1.10.2. Phases of Inflammation
1.10.3. Tissue Repair

Module 2. Biomechanics. Functional Assessment

2.1. Overall Functional Assessment

2.1.1. Patient Identification
2.1.2. Qualitative and Quantitative Assessment of the Patient
2.1.3. Assessment of Skin, Subcutaneous Tissue and Musculature

2.1.3.1. Muscle Modifications

2.2. Assessment of Gait and Static Positioning

2.2.1. Dynamic Physical Examination

2.2.1.1. Characteristics of the Gait

2.2.2. Static Physical Evaluation

2.3. Functional Examination of the Locomotor System: Forelimb

2.3.1. Shoulder
2.3.2. Elbow
2.3.3. Carpus and Metacarpus
2.3.4. Phalanges

2.4. Functional Examination of the Locomotor System: Hindlimb

2.4.1. Hip

2.4.1.1. Techniques Used in Hip Examination

2.4.2. knee
2.4.3. Tarsus and Metatarsus
2.4.4. Brief Mention of the Bioarth Scale

2.5. Functional Examination of the Spine

2.5.1. Cervical Spine
2.5.2. Thoracic Spine
2.5.3. Lumbar and Sacral Spine

2.6. Biomechanics

2.6.1. Basis of Biomechanics
2.6.2. Dempster Diagram
2.6.3. Free Body Diagram

2.7. Motor Gesture and Background Automatism

2.7.1. Motor Gesture
2.7.2. Bottom Automatism

2.8. Levers and Pulleys

2.8.1. Newton's Laws
2.8.2. Lever System
2.8.3. Types of Levers
2.8.4. Pulleys

2.9. Functional Assessment: Most Frequent Forelimb and Spine Injuries

2.9.1. Forelimb

2.9.1.1. Elbow Dysplasia

2.9.2. Rachis

2.9.2.1. Hernia in Thoracolumbar Region
2.9.2.2. Cauda Equina Syndrome

2.10. Functional Assessment of the Most Frequently Occurring Hindlimb Injuries

2.10.1. Hindlimb

2.10.1.1. Hip Dysplasia
2.10.1.2. Patella Dislocation
2.10.1.3. Ruptured Anterior Cruciate Ligament of the Knee

Module 3. Physiology of Pain. Neurological Evaluation

3.1. Introduction

3.1.1. What is Pain?
3.1.2. How to Identify Pain?
3.1.3. How to Quantify Pain?
3.1.4. Perception of Pain in Different Organs and Tissues

3.2. Types of Pain

3.2.1. Classification of the Types of Pain
3.2.2. Terminology Related to Pain
3.2.3. Components of Pain

3.3. Neurophysiology of Pain

3.3.1. Transduction
3.3.2. Transmission
3.3.3. Modulation
3.3.4. Perception

3.4. Chronic Pain and Related Types of Pain

3.4.1. Neurophysiology of Chronic Pain
3.4.2. Pain due to Osteoarthrosis (oa)
3.4.3. Neuropathic Pain
3.4.4. Myofascial Pain

3.5. The Role of Rehabilitation in Pain Management

3.5.1. Review of Pain Inhibition Mechanisms
3.5.2. Analgesic Therapies Used in Rehabilitation
3.5.3. Management of the Patient with Acute Pain
3.5.4. Management of the Chronic Pain Patient

3.6. Neurological Evaluation I

3.6.1. Introduction
3.6.2. Motor System: Review of the Concepts of Upper Motor Neuron and Lower Motor Neuron
3.6.3. Sensory System: Review of Cranial Nerves and Spinal Nerves

3.7. Neurological Evaluation II

3.7.1. Review
3.7.2. Observation of Mental State
3.7.3. Behavioral Assessment
3.7.4. Posture Observation
3.7.5. Gait Evaluation

3.8. Neurological Evaluation III. Neurological Tests

3.8.1. Evaluation of Cranial Nerves
3.8.2. Evaluation of Spinal Reflexes
3.8.3. Postural Reaction Tests

3.9. Neurological Evaluation III

3.9.1. Evaluation of Cranial Nerves
3.9.2. Postural Reactions

3.10. Neurological Patient

3.10.1. General Care
3.10.2. Postural Rehabilitation Exercises
3.10.3. Neurological Facilitation Exercises

Module 4. Manual Therapies and Kinesitherapy. Bandages

4.1. Manual Therapy I

4.1.1. Manual Therapy
4.1.2. Physiological Modifications
4.1.3. Therapeutic Effects

4.2. Massage

4.2.1. Types of Massages
4.2.2. Indications
4.2.3. Contraindications

4.3. Lymphatic Drainage

4.3.1. Lymphatic System
4.3.2. Purpose of Lymphatic Drainage
4.3.3. Indications
4.3.4. Contraindications

4.4. Kinesitherapy I

4.4.1. What Is Kinesitherapy?
4.4.2. General Objectives
4.4.3. Classification

4.5. Kinesitherapy II

4.5.1. Therapeutic Exercises

4.5.1.1. Passive Kinesitherapy
4.5.1.2. Active Kinesitherapy

4.5.1.2.1. Active Resisted Kinesitherapy
4.5.1.2.2. Active Assisted Kinesitherapy

4.5.2. Stretching
4.5.3. How to Establish an Exercise Plan?

4.6. Myofascial Manual Therapy

4.6.1. Concept of Fascia and Fascial System
4.6.2. Techniques of Myofascial Therapy
4.6.3. Trigger Points

4.7. Evaluation of the Articular Arch

4.7.1. Definition of Rom and Arom
4.7.2. Elastic Barrier, Paraphysiological Zone and Anatomical Barrier
4.7.3. End Feel

4.8. Neuromuscular Bandaging

4.8.1. Introduction
4.8.2. Description and Characteristics
4.8.3. Physiological Basis
4.8.4. Applications

4.9. Gait Re-Evaluation

4.9.1. How is Motor Control Altered?
4.9.2. Consequences of Altered Motor Control
4.9.3. Retraining Gait

4.10. Bandages

4.10.1. Modified Robert Jones Bandage
4.10.2. Ehmer Bandage
4.10.3. Carpal Flexion Bandage
4.10.4. Velpeau Bandage
4.10.5. External Fixator Bandage
4.10.6. Complications of Bandages

Module 5. Physical Therapies I: Electrotherapy, Laser Therapy, Therapeutic Ultrasound. Thermotherapy

5.1. Ultrasound I

5.1.1. Definition
5.1.2. Parameters
5.1.3. Indications
5.1.4. Contraindications/Precautions

5.2. Ultrasound II

5.2.1. Thermal Effects
5.2.2. Mechanical Effects
5.2.3. Uses of Therapeutic Ultrasound

5.3. Laser Therapy I

5.3.1. Introduction to Laser Therapy
5.3.2. Laser Properties
5.3.3. Laser Classification
5.3.4. Types of Lasers Used in Rehabilitation

5.4. Laser Therapy II

5.4.1. Effects of Lasers on Tissues

5.4.1.1. Wound Healing
5.4.1.2. Bone and Cartilage
5.4.1.3. Tendon and Ligament
5.4.1.4. Peripheral Nerves and Spinal Cord

5.4.2. Analgesia and Pain Control

5.5. Laser Therapy III

5.5.1. Application of Laser Therapy in Dogs
5.5.2. Precautions
5.5.3. Dosage Guide for Different Pathologies

5.6. Electrostimulation I

5.6.1. Terminology
5.6.2. History of Electrostimulation
5.6.3. Indications
5.6.4. Contraindications and Precautions
5.6.5. Types of Current

5.7. Electrostimulation II

5.7.1. Parameters
5.7.2. Electrodes
5.7.3. What to Look for When Buying an Electrostimulator?

5.8. Electrostimulation III-NMES

5.8.1. Types of Muscle Fibers
5.8.2. Recruitment of Muscle Fibers
5.8.3. Biological Effects
5.8.4. Parameters
5.8.5. Placement of Electrodes
5.8.6. Precautions

5.9. Electrostimulation IV-TENS

5.9.1. Pain Control Mechanisms
5.9.2. TENS for Acute Pain
5.9.3. TENS for Chronic Pain
5.9.4. Parameters
5.9.5. Placement of Electrodes

Module 6. Physical Therapies II: Diathermy, Magnetotherapy, INDIBA, Shockwaves, other therapies used in Rehabilitation. Nutrition

6.1. Diathermy

6.1.1. Introduction and Definition of Diathermy
6.1.2. Types of Diathermy

6.1.2.1. Short Wave
6.1.2.2. Microwave

6.1.3. Physiological Effects and Clinical Use
6.1.4. Indications
6.1.5. Contraindications and Precautions

6.2. INDIBA®

6.2.1. INDIBA® Radiofrequency Concept
6.2.2. Physiological Effects of Radiofrequency
6.2.3. Indications
6.2.4. Contraindications and Precautions

6.3. Magnetotherapy

6.3.1. Introduction and Definition of Magnetotherapy
6.3.2. Biomagnetism

6.3.2.1. Effects of Magnetotherapy
6.3.2.2. Natural Magnets
6.3.2.3. Properties of Magnetic Poles

6.3.3. Pulsed Magnetic Fields

6.3.3.1. Physiological Effects and Clinical Use
6.3.3.2. Indications
6.3.3.3. Contraindications and Precautions

6.4. Shock Waves

6.4.1. Introduction and Definition of Shock Waves
6.4.2. Types of Shockwaves
6.4.3. Physiological Effects and Clinical Use
6.4.4. Indications
6.4.5. Contraindications and Precautions

6.5. Holistic Therapies and Integrative Medicine

6.5.1. Introduction and Definitions
6.5.2. Types of Holistic Therapy
6.5.3. Physiological Effects and Clinical Use
6.5.4. Indications
6.5.5. Contraindications and Precautions

6.6. Traditional Chinese Medicine

6.6.1. Basis of the MTC
6.6.2. Acupuncture

6.6.2.1. Acupoints and Meridians
6.6.2.2. Actions and Effects
6.6.2.3. Indications
6.6.2.4. Contraindications and Precautions

6.6.3. Chinese Herbal Medicine
6.6.4. Tui-Na
6.6.5. Diet Therapy
6.6.6. Qi-Gong

6.7. Clinical Nutrition in Obesity and Osteoarthrosis

6.7.1. Introduction
6.7.2. Definition of Obesity

6.7.2.1. Body Condition Evaluation

6.7.3. Nutritional Management and Feed-Based Dietary Plan
6.7.4. Nutritional Management Based on Natural Food
6.7.5. Complements and Supplements

6.8. Chiropractic

6.8.1. Introduction and Concept of Chiropractics
6.8.2. Vertebral Subluxation Complex (VSVC)
6.8.3. Physiological Effects
6.8.4. Indications
6.8.5. Contraindications and Precautions

6.9. Cranio-Sacral Therapy

6.9.1. Introduction
6.9.2. Use in Veterinary Medicine
6.9.3. Physiological Effects and Benefits
6.9.4. Indications
6.9.5. Contraindications and Precautions

6.10. Ozone Therapy

6.10.1. Introduction

6.10.1.1. Oxidative Stress

6.10.2. Physiological Effects and Clinical Use
6.10.3. Indications
6.10.4. Contraindications and Precautions

Module 7. Feline Rehabilitation. Hydrotherapy

7.1. Feline Rehabilitation I: Important Aspects

7.1.1. Signs of Pain in the Feline Patient
7.1.2. The Importance of the Environment and Management in the Feline Patient
7.1.3. Main Pathologies Susceptible to Rehabilitation in Felines

7.2. Feline Rehabilitation II: Degenerative Joint Disease in Felines

7.2.1. Clinical Manifestations
7.2.2. Orthopedic Examination
7.2.3. Radiological Peculiarities
7.2.4. Weight Management

7.3. Feline Rehabilitation III: The Post-Surgical Patient

7.3.1. Introduction
7.3.2. Special Care and Stress Management
7.3.3. Rehabilitation Therapies and Techniques

7.4. Feline Rehabilitation IV: Considerations in Rehabilitation Plans

7.4.1. The Environment and Structuring of the Sessions
7.4.2. Most Tolerated Therapies
7.4.3. Strategies for the Execution of Therapeutic Exercises
7.4.4. Home Modifications and Recommendations

7.5. Hydrotherapy I: Physical Principles of Water

7.5.1. Introduction
7.5.2. Relative Density
7.5.3. Buoyancy
7.5.4. Surface Tension
7.5.5. Viscosity
7.5.6. Hydrostatic Pressure
7.5.7. Thermal Capacity

7.6 Hydrotherapy II: Benefits and Indications

7.6.1. Indications in Patients with Neurological Problems
7.6.2. Indications in Patients with Orthopedic Problems
7.6.3. Indications in Overweight Patients
7.6.4. Indications in Sports Patients

7.7. Hydrotherapy III: Precautions, Contraindications and Special Care

7.7.1. Precautions
7.7.2. Contraindications
7.7.3. Special Care

7.8. Hydrotherapy IV: Modalities I

7.8.1. Underwater Tape
7.8.2. Indications and Advantages
7.8.3. Precautions and Contraindications

7.9. Hydrotherapy V: Modalities II

7.9.1. Swimming and Other Pool Exercises
7.9.2. Indications and Advantages
7.9.3. Precautions and Contraindications
7.9.4. Main Differences between the Two Modalities

7.10. Hydrotherapy VI: Development of a Hydrotherapy Plan

7.10.1. When to Implement Hydrotherapy in the Rehabilitation Plan?
7.10.2. Duration of Therapy
7.10.3. Water Temperature
7.10.4. Water Quality Parameters
7.10.5. The Importance of the Drying

Module 8. Sports Medicine. Sports Modalities in Dogs. Most Frequent Pathologies and Prevention

8.1. Characteristics of the Athletic Dog

8.1.1. Definition of the Athletic Dog
8.1.2. Characteristics of the Athletic Dog
8.1.3. Importance of Rehabilitation in the Sporting Dog

8.2. Physiology of Exercise

8.2.1. Definitions
8.2.2. Phases of the Exercise
8.2.3. Adaptations of the Organism

8.3. Sports Modalities I. Agility

8.3.1. Definition
8.3.2. Categories, Levels and Modalities
8.3.3. Agility Dog Morphology

8.4. Sport Modalities II. Canicross, Bikejoring, Mushing

8.4.1. Canicross
8.4.2. Bikejoring
8.4.3. Medium- and Long-Distance Mushing
8.4.4. Other Sports Modalities

8.5. Specific Nutrition for Sporting Dogs

8.5.1. Basic Concepts

8.5.1.1. Energy Requirements

8.5.2. Basic Food

8.5.2.1. Concepts of Raw Food

8.5.3. Complements and Supplements
8.5.4. Aspects to Consider

8.6. Most Frequent Pathologies

8.6.1. Thoracic Limb
8.6.2. Pelvic Limb
8.6.3. Other Pathologies

8.7. Why Are They Injured?

8.7.1. Main Causes of Injuries
8.7.2. How to Prevent Injuries
8.7.3. Non-Musculoskeletal Pathologies

8.8. The Working Dog

8.8.1. Selection of the Working Dog
8.8.2. Preparation. of the Working Dog
8.8.3. Care of the Working Dog

8.9. Sport and Proprioception

8.9.1. What is Proprioception?
8.9.2. Core Musculature
8.9.3. Proprioceptive Exercises

8.10. Training Plan

8.10.1. Start Training
8.10.2. Importance of a Good Warm-Up
8.10.3. Importance of Good Cool Down

Module 9. Traumatological Examination. Effects of Immobilization on Tissues Traumatological Pathologies in Rehabilitation

9.1. Traumatological Examination

9.1.1. Forelimbs
9.1.2. Hindlimbs

9.2. Effects of Immobilization on Different Tissues I

9.2.1. Bone
9.2.2. Ligaments and Tendons

9.3. Effects of Immobilization on Different Tissues II

9.3.1. Muscle
9.3.2. Cartilage

9.4. Fractures and Dislocations

9.4.1. Fracture Management
9.4.2. Dislocation Management

9.5. Hip

9.5.1. Hip Dysplasia
9.5.2. Avascular Necrosis of the Femoral Head

9.6. Knee

9.6.1. Patella Dislocation
9.6.2. Rupture of the Anterior Cruciate Ligament
9.6.3. OCD of the Knee

9.7. Elbow and Shoulder

9.7.1. Elbow Dysplasia

9.7.1.1. Fragmented Medial Coronoid Process
9.7.1.2. OCD of the Elbow
9.7.1.3. Non-Union of the Anconic Process
9.7.1.4 Joint Incongruence

9.7.2. Shoulder OCD
9.7.3. Medial Shoulder Instability

9.8. Muscular Pathologies

9.8.1. Fibrotic Contracture of the Infraspinatus Muscle
9.8.2. Contracture of the Flexor Muscles of the Forearm
9.8.3. Quadriceps Contracture
9.8.4. Fibrotic Myopathy of the Gracilis Muscle

9.9. Tendon and Ligament Pathologies

9.9.1. Bicipital Tenosynovitis
9.9.2. Tendinopathy of the Supraspinatus Muscle
9.9.3. Carpal Hyperextension
9.9.4. Patellar Tendon Rupture
9.9.5. Achilles Tendon Rupture

9.10. Other Pathologies

9.10.1. Panosteitis
9.10.2. Hypertrophic Osteopathy
9.10.3. Musculoskeletal Tumors

Module 10. Rehabilitation Plan: design of a rehabilitation program and communication with the owner

10.1. Establishing a Rehabilitation Plan - Where Do I start?

10.1.1. What Cases Respond to Physical Therapy and Rehabilitation?
10.1.2. Objectives and Working Methods
10.1.3. Inconveniences and Circumstances to Consider
10.1.4. What to Evaluate in Rehabilitation?

10.2. How do I Rehabilitate?

10.2.1. The Therapist-Patient Bond
10.2.2. Adaptation to the Patient
10.2.3. Patient Motivation
10.2.4. Fundamental Aspects of a Rehabilitation Program

10.2.4.1. Frequency (F)
10.2.4.2. Intensity
10.2.4.3. Duration
10.2.4.4. Types of Exercise

10.3. Designing a Rehabilitation Plan

10.3.1. Optimize and Make the Rehabilitation Center's Time and Space Cost-Effective
10.3.2. Individualization of the Therapeutic Protocol
10.3.3. Success of the Rehabilitation Plan

10.4. Management of a Veterinary Center

10.4.1. Factors to Consider
10.4.2. Service to the Veterinarian/Referral Center
10.4.3. Are Social Networks Important?

10.5. Communication with the Owner and/or Person Responsible for the Animal

10.5.1. Quality of Care
10.5.2. Owner Integration in Therapy
10.5.3. Communication with the Owner

10.6. Rehabilitation and Physiotherapy in Spinal Cord Injuries

10.6.1. Introduction
10.6.2. Most Frequent Neurology Pathologies
10.6.3. Therapeutic Generalities

10.7. Rehabilitation and Physiotherapy of Patients with Osteoarthrosis

10.7.1. Environment
10.7.2. Concomitant Diseases
10.7.3. Weight Control
10.7.4. Rehabilitation and Physical Therapy Plan

10.8. Fracture Rehabilitation

10.8.1. Diaphyseal Fractures
10.8.2. Joint Fractures
10.8.3. Fractures that Do Not Close

10.9. Pre- and Post-Surgical Rehabilitation

10.9.1. Elbow Dysplasia
10.9.2. Hip Dysplasia
10.9.3. Cruciate Ligament Rupture

10.10. Other Rehabilitation Plans

10.10.1. Diseases of Young Children under 1 Year of Age
10.10.2. Preventive Rehabilitation
10.10.3. Considerations to Be Taken into Account in the Cardiopathy Patient

If what you want is to advance in your profession and become a prestigious veterinarian, you're in the right place’’