You are in front of the most complete program of clinical knowledge in Hand Surgery. Update yourself with the best specialists in Upper Extremity"

The number of patients requiring surgical interventions in trauma emergencies exceeds 50%, which shows the relevance of this subspecialty in the healthcare field. In addition to this, there is the continuous improvement of technology with the incorporation of Robotics, Artificial Intelligence or 3D, used for the planning of more complex operations. 

In this sense, the surgeon is in a moment of transformation and relevance of his performance in order to offer patients effective treatments and to avoid chronic sequelae. A field that requires specialists to be updated in their area. Therefore, in order to promote this update, TECH has designed this 12-month Professional master’s degree in Hand Surgery, developed by an extensive faculty of experts in this field. 

It is a program that is distinguished by providing the graduate with the most rigorous information, based on the latest medical evidence through high quality teaching materials. In this way, students will delve through video summaries of each topic, videos in detail, complementary readings and simulations of case studies in the most notorious advances in a dynamic and agile way. 

From conservative treatments to address fractures and joint dislocations of the fingers and wrist, the possible sequelae, through the management of tendon, nerve and brachial plexus injuries to the latest technical advances will be treated with the utmost rigor in this program. An academic option that also includes specific modules on Dupuytren's disease, Tumors and Vascular Diseases or delves into the Pediatric Upper Limb. 

Undoubtedly, an ideal opportunity to take a quality, flexible program that can be completed comfortably, whenever and wherever you want. The student only needs a digital device with an internet connection to view, at any time of the day, the content hosted on the virtual platform. A university proposal that adapts both to the real needs of healthcare professionals and to their most demanding professional activities.

A university program that addresses ultrasound-assisted surgery, which is becoming more and more widespread"

This Professional master’s degree in Hand Surgery contains the most complete and up-to-date scientific program on the market. The most important features include: 

• The development of practical cases presented by experts in Upper Limb Surgery, Orthopedic Surgery and Traumatology
• 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
• Practical exercises where self-assessment can be used to improve learning
• Its special emphasis on innovative methodologies 
• 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

Delves into specific wrist and hand injuries in certain work and physical activities such as those produced in climbers"

The program’s teaching staff includes professionals from the field who contribute their work experience to this educational program, as well as renowned specialists from leading 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 education 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 academic year This will be done with the help of an innovative system of interactive videos made by renowned experts.

A program designed to fit your professional agenda and your most demanding responsibilities"

Get an update on the great impact of Robotics or 3D printing in Hand Surgery"

The syllabus of this Professional master’s degree has been designed to delve, in a methodical and orderly manner, into all aspects of Hand Surgery. Therefore, the specialist will analyze from the most frequent pathologies to the less common ones in clinical practice. All this, in addition, with an enriching multimedia didactic material, which provides a greater dynamism and attractiveness to this updating process. Furthermore, the graduate will be able to access these resources easily from any digital device with internet connection, 24 hours a day. 

A complete syllabus to keep you up-to-date with the most relevant advances in Hand Surgery from a theoretical-practical perspective"

Module 1. Basic sciences applied to hand and upper extremity surgery. Methodology. Rehabilitation

1.1. History of Hand Surgery. Progress in the XXI century

1.1.1. From Ancient Times to the Modern Age
1.1.2. Contemporary Age. Discovery and changes
1.1.3. From 1950 to the present day. Progress in the XXI Century

1.2. Biology and physiology in relation to hand surgery. Tissue healing

1.2.1. Classification and clinical classification of hand wounds
1.2.2. Physiology: healing and epithelialization
1.2.3. Scar pathology

1.3. Embryology and genetics in hand surgery. Malformations

1.3.1. Early stages of development of the upper extremity. Genes involved
1.3.2. Growth and rotation of the outlines. Fragmentation process
1.3.3. Formation of the skeleton, musculature and appendicular joints
1.3.4. Vascularization and innervation of the developing limbs
1.3.5. Classification of congenital malformations of the upper extremity

1.4. Anatomy I in Hand Surgery. Functions and Biomechanics

1.4.1. Topography
1.4.2. Skin and fibrous skeleton
1.4.3. Bone and ligamentous skeleton
1.4.4. Functions and biomechanics

1.5. Anatomy II in Hand Surgery. Approaches

1.5.1. Musculature
1.5.2. Vascularization
1.5.3. Sensory innervation
1.5.4. Main approaches in hand surgery

1.6. Ultrasound applied to hand surgery

1.6.1. Objectives
1.6.2. Basic principles of ultrasound
1.6.3. Ultrasound diagnostic pathology in wrist and hand

1.6.3.1. Dorsal side
1.6.3.2. volar side

1.6.4. Bone and Joint Pathology

1.7. Magnetic Resonance Imaging applied to hand surgery. Nuclear Medicine

1.7.1. Wrist and hand radiography
1.7.2. CT in Hand Surgery. Diagnostic Applications
1.7.3. MRI in Hand Surgery

1.8. Anesthesiology applied to Hand Surgery. Walant Technique

1.8.1. Walant. Preparation
1.8.2. Use of the Walant in Hand Surgery
1.8.3. The Yes and No to the Walant

1.9. Rehabilitation: orthoses and basic principles in hand rehabilitation

1.9.1. Principles of Rehabilitation in Hand Surgery. Evaluation and therapeutic approach
1.9.2. Treatments with physiotherapy, electrotherapy and occupational therapy
1.9.3. Orthoses

1.10. Clinical Research in Hand Surgery: Study Population, Clinical Designs, Instruments and Measurements, and Data Analysis

1.10.1. Types of Clinical Studies
1.10.2. Design errors in clinical studies
1.10.3 Level of evidence
1.10.4. Diagnostic test statistics

Module 2. Hand Skin, Soft Parts and Infections

2.1. Wounds and types of healing. Sutures. Skin grafts

2.1.1. Hand wounds and types of sutures
2.1.2. Types of healing
2.1.3. Skin Grafts

2.2. Basics of the vascular anatomy of the hand applied to the realization of flaps

2.2.1. Vascular anatomy of the hand
2.2.2. Pedicle Flaps
2.2.3. Grafts, from where and for where

2.3. Complex Wound Management

2.3.1. Initial Assessment
2.3.2. Evolution of the event
2.3.3. Advanced Cure Systems

2.4. Microsurgery

2.4.1. Basics of microsurgery on the hand
2.4.2. Microsurgical suturing of nerves and vessels
2.4.3. Use of microsurgery for flaps

2.5. Reimplantation. Fingertip coverage

2.5.1. Reimplants except thumb
2.5.2. Fingertip coverage except for the thumb
2.5.3. Reimplantation on the thumb, thumb tip coverage

2.6. Skin coverage with pedicled and free flaps on wrist and hand

2.6.1. Pedicle flaps on the Wrist
2.6.2. Pedicled flaps in hand
2.6.3. Free flaps in hand and Wrist

2.7. Reconstruction of the Hand by Composite Free Flaps

2.7.1. Neurocutaneous Flaps
2.7.2. Osteocutaneous Flaps
2.7.3. Toe-Hand

2.8. Infections of the hand. Cellulitis, tenosynovitis, arthritis, osteomyelitis

2.8.1. Cellulitis
2.8.2. Tenosynovitis
2.8.3. Arthritis and osteomyelitis

2.9. Burns

2.9.1. The acute burned hand: initial treatment
2.9.2. Initial surgery in the burned hand
2.9.3. Secondary surgeries and sequelae

2.10. High Pressure Injections and Extravasation Lesions

2.10.1. High pressure injections in the hand
2.10.2. Extravasation injuries
2.10.3. High pressure sequelae

Module 3. Fractures and joint dislocations Wrist-Hand. Conservative and Surgical Treatment. Sequels

3.1. Distal radius fractures. Conservational Treatment

3.1.1. Classification
3.1.2. Diagnostic Methods. Clinical and radiological
3.1.3. Instability criteria
3.1.4. Associated injuries
3.1.5. Conservative Treatment

3.2. Fractures of the distal radius Surgical Treatment

3.2.1. Percutaneous needles
3.2.2. Internal Fixation
3.2.3. External fixation
3.2.4. Arthroscopy

3.3. Complications of distal radius fracture

3.3.1. Associated with conservative treatment
3.3.2. Associated with internal fixation
3.3.3. Associated with external fixation
3.3.4. Associated with arthroscopy

3.4. Distal radioulnar joint instability

3.4.1. Anatomy and Biomechanics
3.4.2. Diagnosis and classifications
3.4.3. Acute treatment methods
3.4.4. Palliative surgical treatment

3.5. Scaphoid Fractures

3.5.1. Anatomy and vascularization
3.5.2. Fracture types. Classification
3.5.3. Conservative Treatment
3.5.4. Surgical Management

3.6  Pseudarthrosis of the scaphoid. Surgical Treatment. Sequels

3.6.1. Radiological diagnosis and CT
3.6.2. Surgical Management
3.6.3. Sequels

3.7. Other fractures and dislocations of the carpus

3.7.1. Carpal bone fractures
3.7.2. Fractures carpal dislocations
3.7.3. Surgical treatment methods
3.7.4. Complications

3.8. Carpal instability

3.8.1. Scapholunate Instability
3.8.2. Lunopyramidal instability
3.8.3. Other instabilities

3.9. The SNAC Wrist

3.9.1. Classification
3.9.2. Clinical and radiological diagnosis
3.9.3. Surgical Procedures

3.10. The SLAC Wrist

3.10.1. Classification
3.10.2. Clinical and radiological diagnosis
3.10.3. Surgical Procedures

Module 4. Finger Fractures and Dislocations Conservative and surgical treatment. Sequelae. Wrist Arthroscopy

4.1. Phalangeal Fractures

4.1.1. Patterns of phalangeal fractures. Classification
4.1.2. Criteria for instability of phalangeal fractures
4.1.3. Conservative Treatment
4.1.4. Surgical Management
4.1.5. Complications

4.2. Traumatic periungual lesions

4.2.1. Levels of injury
4.2.2. Emergency actions
4.2.3. The best treatment
4.2.4. Sequelae and their treatment

4.3. Metacarpal fractures except for the thumb

4.3.1. Metacarpal fracture patterns except thumb. Classification
4.3.2. Criteria for instability of metacarpal fractures except thumb
4.3.3. Conservative Treatment
4.3.4. Surgical Management
4.3.5. Complications

4.4. Metacarpal and phalangeal fractures of the thumb

4.4.1. Fracture patterns
4.4.2. Radiological Diagnosis
4.4.3. Conservative Treatment
4.4.4. Surgical Management
4.4.5. Complications

4.5. Interphalangeal and metacarpo-phalangeal instability in the thumb

4.5.1. Ligamentous Anatomy
4.5.2. Classification
4.5.3. Conservative Treatment
4.5.4. Surgical Management

4.6. Consolidation defects. Conservative and Surgical Management

4.6.1. Diagnostic Techniques
4.6.2. Conservative Management
4.6.3. Surgical Treatment

4.7. Ligamentous Lesions and Instabilities in Metacarpophalangeal and Interphalangeal Joints

4.7.1. Ligamentous Anatomy
4.7.2. Classification
4.7.3. Conservative Treatment
4.7.4. Surgical Management

4.8. Wrist arthroscopy I. Portals and anatomy

4.8.1. Arthroscopic portals
4.8.2. Radiocarpal and Midcarpal Anatomy
4.8.3. Other Explorations
4.8.4. Step by step arthroscopic exploration
4.8.5. Wrist arthroscopy complications

4.9. Wrist arthroscopy II. Surgical Techniques

4.9.1. Identification and classification of ligamentous injuries
4.9.2. Arthroscopic treatment of scapholunate and lunopyramidal lesions
4.9.3. Arthroscopic treatment of Wrist ganglions
4.9.4. Arthroscopic treatment of triangular fibrocartilage lesions
4.9.5. Treatment of ulnarcarpal impingement

4.10. Wrist arthroscopy III. Surgical Techniques

4.10.1. Arthroscopic treatment of distal radius fractures
4.10.2. Arthroscopic treatment of carpal scaphoid fractures
4.10.3. Arthroscopic technique partial arthrodesis of the wrist and proximal carpectomy
4.10.4. Arthroscopy in small joints and trapeziometacarpal

Module 5. Inflammatory Arthritis and Degenerative Arthrosis of the Wrist and Hand. Conservative and Surgical Treatment. Evidence

5.1. Clinical examination and basic differential diagnosis in arthropathies of the wrist and hand

5.1.1. Etiology of degenerative pathology of the wrist and hand
5.1.2. Clinical examination and complementary diagnostic tests
5.1.3. Overview and differential diagnosis of Wrist and hand joint pain. Specific Characteristics

5.2. Arthrosis of the fingers and carpometacarpal joints, except the thumb. Therapy Options

5.2.1. Metacarpophalangeal arthrosis (excluding the thumb). Etiology, Diagnosisand Treatment
5.2.2. Proximal interphalangeal arthrosis. Etiology, Diagnosis and Treatment
5.2.1. Distal interphalangeal osteoarthritis. Etiology, Diagnosis and Treatment

5.3. Rizarthrosis. Assessment, classification and conservative treatment

5.3.1. Anatomy and Physiopathology
5.3.2. Diagnosis. Symptoms and clinical examination. Complementary Tests. Classification
5.3.3. Conservative Treatment

5.4. Rizarthrosis. Surgical Management

5.4.1. Suspension arthroplasty. Advantages and Disadvantages. Surgeon's preferences
5.4.2. Replacement arthroplasty
5.4.3. Arthrodesis of the trapeziometacarpal joint

5.5. Scapho-trapeziometacarpal (STT) arthrosis. Assessment and therapeutic options

5.5.1. Degenerative causes of STT. Primary or secondary involvement
5.5.2. Clinic and diagnosis of osteoarthritis STT
5.5.3. Surgical techniques indicated for STT joint involvement

5.6. Treatment of carpal osteoarthritis. Arthrodesis, arthroplasty and other options

5.6.1. Degenerative changes of the carpus. Etiology, classification and diagnosis
5.6.2. Four corner arthrodesis. Proximal Carpectomy. Total wrist arthrodesis
5.6.3. Wrist replacement arthroplasty. Capsular Denervation

5.7. Degenerative pathology of the triangular fibrocartilage

5.7.1. Anatomy and Physiopathology
5.7.2. Etiology of triangular fibrocartilage lesions. Diagnosis
5.7.3. Treatment and prognosis of triangular fibrocartilage lesions

5.8. Kienböck's disease. Pathophysiology, diagnosis, classification and treatment

5.8.1. Anatomy and pathophysiology of Kienböck's disease
5.8.2. Clinical examination and diagnostic tests. Classification
5.8.3. Conservative treatment vs. surgical treatment

5.9. Surgical treatment of rheumatoid arthritis in the hand: synovectomies, plastias, arthroplasties and arthrodesis

5.9.1. Synovectomies and plasties in the rheumatoid hand. Indications and Results
5.9.2. Hand and wrist replacement arthroplasty in rheumatoid arthritis
5.9.3. Arthrodesis in the rheumatoid hand. Indications and Results

5.10. Similarities and differences in surgical treatment of rheumatoid arthritis and other inflammatory arthropathies: lupus erythematosus, microcrystal deposition diseases

5.10.1. Hand and wrist deformities in systemic lupus erythematosus. Therapeutic Techniques
5.10.2. Microcrystal deposition diseases. Differential diagnosis and treatment of choice
5.10.3. Differences and similarities in the treatment of inflammatory diseases

Module 6. Tendon Injuries of the Hand

6.1. Anatomy and Biomechanics of the Extensor Tendons and Flexor Tendons

6.1.1. Anatomy of the extensor tendons
6.1.2. Anatomy of the flexor tendons
6.1.3. Biomechanics of the extensor tendons
6.1.4. Biomechanics of the flexor tendons

6.2. Intra and Extrasynovial Vascularization. Pathophysiology of Tendon Repair

6.2.1. Vascularization of flexor tendons
6.2.2. Vascularization of extensor tendons
6.2.3. Pathophysiology of tendon repair

6.3. Stenosing tenosynovitis of flexor tendons

6.3.1. Stenosing tenosynovitis of flexors. Diagnosis and Prognosis
6.3.2. Stenosing tenosynovitis of flexors. Conservative treatment. Rehabilitation
6.3.4. Stenosing tenosynovitis of flexors. Surgical Management

6.4.Extensor Tendinopathies. Clinical and ultrasound diagnosis. Surgical Management

6.4.1. Clinical diagnosis of extensor tendinopathies
6.4.2. Ultrasound in the best diagnosis and therapeutic orientation
6.4.3. Surgical Management
6.4.4. Conservative treatment of extensor tendinopathies. Ultrasound assistance
6.4.5. Surgical treatment of extensor tendinopathies. Ultrasound assistance

6.5. Flexor tendon ruptures. Treatment in acute and chronic phase

6.5.1. Flexor tendon rupture and prognosis according to zone
6.5.2. Flexor tendon rupture diagnosis. Treatment in acute phase
6.5.3. Flexor tendon rupture diagnosis. Treatment in chronic phase

6.6. Extensor tendon ruptures. Treatment in acute and chronic phase

6.6.1. Flexor tendon rupture and prognosis according to zone
6.6.2. Flexor tendon rupture diagnosis. Treatment in acute phase
6.6.3. Flexor tendon rupture diagnosis. Treatment in chronic phase

6.7. Sutures. Types and Forms. Tension. Scientific Evidence

6.7.1. Sutures, types and materials
6.7.2. Tension according to type of sutures. Available evidence
6.7.3. Applications according to cases of the different sutures

6.8. Rehabilitation Protocols

6.8.1 .Rehabilitation of flexor tendon ruptures treated in acute phase
6.8.2. Rehabilitation of extensor tendon ruptures treated in the acute phase
6.8.3. Rehabilitation of extensor tendon ruptures treated in the acute phase

6.9. Complications in extensor ruptures. Diagnosis and Treatment Repair Techniques

6.9.1. Complications of extensor tendon ruptures. Diagnosis. How to predict them
6.9.2. Surgical treatment of these complications
6.9.3. Postoperative rehabilitation after surgical resolution of the complication

6.10. Complications in flexor ruptures. Diagnosis and Treatment Repair Techniques

6.10.1. Complications of flexor tendon ruptures. Diagnosis. How to predict them
6.10.2. Surgical treatment of these complications
6.10 3. Postoperative rehabilitation after surgical resolution of the complication

Module 7. Nerve and Brachial Plexus Injuries

7.1. Clinical Exam. Electrophysiological diagnosis of peripheral nerve and brachial plexus

7.1.1. Anamnesis and clinical nerve examination
7.1.2. Electrophysiological techniques
7.1.3. Interpretation of neurophysiological results

7.2. Compressive lesions of the ulnar nerve

7.2.1. Distribution, exploration and definition of the areas of innervation of the ulnar nerve
7.2.2. Compression areas of the ulnar nerve. Functional Alterations
7.2.3. Conservative treatment and nerve decompression techniques

7.3. Compressive lesions of the median nerve

7.3.1. Distribution, exploration and definition of the areas of innervation of the median nerve
7.3.2. Compression areas of the median nerve. Functional Alterations
7.3.3. Conservative treatment and nerve decompression techniques

7.4. Compressive lesions of the radial nerve. Other compressive injuries in wrist and hand. Thoracic gorge

7.4.1. Distribution, exploration and definition of the areas of innervation of the radial nerve
7.4.2. Areas of compression of the radial nerve. Functional Alterations
7.4.3. Conservative treatment and nerve decompression techniques
7.4.4. Other compressive lesions. Thoracic gorge syndrome

7.5. Peripheral nerve palsy and palliative tendon surgery

7.5.1. Indications for tendon transfer. Sequence of the procedure
7.5.2. Tendon transfers for ulnar nerve palsy
7.5.3. Tendon transfers for median nerve palsy
7.5.4. Tendon transfers for radial nerve palsy

7.6. Nerve repair techniques

7.6.1. Neuroanatomy. General principles of nerve repair
7.6.2. Neurolysis and nerve transposition
7.6.3. Terminoterminal neurorrhaphy: epineural, perineural or fascicular, epiperineural
7.6.4. Nerve transfer (neurotization)
7.6.5. Nerve grafts. Types of Grafts: Results
7.6.6. Tubulization. Indications, techniques, results

7.7. Principle of nerve repairs: timing, tension, debridement, technique, strategy

7.7.1. Ideal timing for nerve repair. Nerve repair vs. Nerve replacement
7.7.2. Nerve repair surgery. Characteristics and Techniques
7.7.3. Nerve pathology surgery. Practical know-how
7.7.4. Pre- and post-surgical strategy. Medium and long term prognosis

7.8. Principle of nerve transfers. Nerve transfers of paralysis. Supercharge concept

7.8.1. Neurophysiological and technical principles of nerve transfers
7.8.2. Types of nerve transfers of paralysis
7.8.3. Supercharge technique. Concept, technique, results

7.9. Brachial plexus injuries. Strategy and management. Management of BPP

7.9.1. Brachial plexus injuries. Congenital and traumatic
7.9.2. Therapeutic strategy and management
7.9.3. Management of BPP

7.10. Spasticity and lesions of the central nervous system. Surgery of tetraplegia

7.10.1. Central nervous system lesions and spasticity clinic
7.10.2. Therapeutic strategy of the tetraplegic patient
7.10.3. Results and prognosis in the medium and long term

Module 8. Pediatric Upper Member

8.1. Agenesis and Transverse Defects

8.1.1. Description of agenesis and central defects
8.1.2. Associated syndromes and the complementary studies that allow their diagnosis
8.1.3. Types of agenesis and central defects
8.1.4. Treatment options for agenesis and central defects

8.2. Radial longitudinal deficiency. Hypoplasias and Agenesis of the Thumb

8.2.1. Radial longitudinal deficiency. Epidemiology
8.2.2. Radial longitudinal deficiency. Association with other pathologies
8.2.3. Radial longitudinal deficiency. Treatment
8.2.4. Hypoplasias and agenesis of the thumb. Spectrum of affectation and association to other pathologies
8.2.5. Hypoplasias and agenesis of the thumb. Blauth classification
8.2.6. Hypoplasias and agenesis of the thumb. Treatment according to Blauth's classification

8.3. Ulnar Longitudinal Deficiency. Proximal Radioulnar Synostosis

8.3.1. Ulnar Longitudinal Deficiency. Incidence
8.3.2. Ulnar Longitudinal Deficiency. Indications and treatment options
8.3.3. Proximal radioulnar radioulnar synostosis. Incidence and inheritance
8.3.4. Proximal radioulnar radioulnar synostosis. Indications and types of surgical treatment

8.4. Pre-axial and Post-axial Polydactyly

8.4.1. Preaxial polydactyly. Incidence
8.4.2. Preaxial polydactyly. Wassel's classification
8.4.3. Preaxial polydactyly. Treatment, goals and surgical options
8.4.4. Postaxial polydactyly. Incidence
8.4.5. Postaxial polydactyly. Classification
8.4.6. Postaxial polydactyly. Conservative and surgical treatment options

8.5. Syndactyly. Macrodactyly. Clinodactyly. Camptodactyly. Kirner’s Deformity

8.5.1. Syndactyly. Incidence. Types. Cutaneous plastias
8.5.2. Macrodactyly. Classification. Surgical Options
8.5.3. Clinodactyly. Definition. Indication and surgical options
8.5.4. Camptodactyly. Definition. Indication and treatment options
8.5.5. Kirner's deformity. Definition. Indication and therapeutic management

8.6. Amniotic Band Syndrome

8.6.1. Definition. Incidence
8.6.2. Differential Diagnosis
8.6.3. Surgical Options

8.7. Madelung’s Deformity

8.7.1. Madelung's deformity. Causes. Epidemiology
8.7.2. Diagnostic Tests
8.7.3. Types of surgical intervention according to skeletal maturity

8.8. Arthrogryposis of the upper limb

8.8.1. Arthrogryposis of the upper limb. Definition, disease?
8.8.2. Etiopathogenesis
8.8.3. Objectives and conservative therapeutic options, Surgical?

8.9. Obstetric Brachial Palsy

8.9.1. Anatomy of the plexus for the management of BPP
8.9.2. Diagnosis of a PBO lesion
8.9.3. Surgical indication for plexus reconstruction and palliative surgeries

8.10. Tumors Affecting the Pediatric Hand: Osteochondromatosis, Enchondromatosis and Soft Tissue Tumors

8.10.1. Osteochondromatosis. Diagnosis. Treatment
8.10.2. Chondromatosis. Diagnosis. Treatment
8.10.3. Soft tissue tumors. Types. Diagnosis. Treatment Management

Module 9. Dupuytren's Disease, Tumors and Vascular Diseases

9.1. Dupuytren's disease. Homid diagnosis

9.1.1. Epidemiology
9.1.2. Anatomy of the Palmar Aponeurosis and Anatomy of the Digital Cords
9.1.2.1. Clinical, Diagnosis: Classification
9.1.3. Extra-Palmar Locations

9.2. Dupuytren's disease. Evolution

9.2.1. Relapse
9.2.2. Non-Surgical Treatment
9.2.3. Progression

9.3. Dupuytren's disease surgical treatment

9.3.1. Indications for surgical treatment
9.3.2. Indications. Timing and surgical techniques
9.3.3.Factors influencing long-term results

9.4. Dupuytren's disease. Surgical Planning

9.4.1. Surgical Planning. Incisions
9.4.2. Zetaplasty Modalities
9.4.3. Rehabilitation

9.5. Treatment failures in Dupuytren's disease

9.5.1. Complications of surgical treatment
9.5.2. Recurrence
9.5.3. Sequels

9.6. Vascular pathology in the hand

9.6.1. Hypotenar Hammer Syndrome, Raynaud's disease
9.6.2. Vascular Tumours
9.6.3. Vascular Malformations

9.7. Benign Soft Tissue Tumors

9.7.1. Classification of the most frequent tumors
9.7.2. When to do surgery. Biopsy?
9.7.3. Results and complications

9.8. Nerve Tumors

9.8.1. Classification of the most common tumors
9.8.2. When to operate and how
9.8.3. Results and complications

9.9. Benign Bone Tumors. Pseudotumorous lesions

9.9.1. Classification
9.9.2. When to operate and how
9.9.3. Results and complications

9.10. Malignant Tumors of Soft Parts and Bones

9.10.1. Classification
9.10.2. Surgical Management
9.10.3. Results and complications

Module 10. Advances in Hand Surgery. Other Lesions

10.1. Ultrasound Applications in Wrist Surgery

10.1.1. Ultrasound anatomy of the wrist
10.1.2. Ultrasound-guided interventionism in the wrist
10.1.3. Ultrasound-guided surgery

10.2. Applications of Ultrasound in Hand Surgery

10.2.1. Ultrasound anatomy of the hand
10.2.2. Ultrasound-guided interventionism in the hand
10.2.3. Ultrasound-guided hand surgery

10.3. Wrist and hand injuries specific to musicians. Conservative and surgical treatment

10.3.1. Wrist and carpal injuries in musicians
10.3.2. Finger injuries in musicians
10.3.3. Conservative and surgical treatment

10.4. Wrist and hand injuries specific to climbers. Conservative and surgical treatment

10.4.1. Wrist and carpal injuries in climbers
10.4.2. Finger injuries in climbers
10.4.3. Conservative and surgical treatment

10.5. Specific injuries in certain manual workers

10.5.1. Wrist injuries in the workplace
10.5.2. Hand injuries in the workplace
10.5.3. Conservative treatment vs. Surgical

10.6. Total Wrist Arthroplasty

10.6.1. Indications for Total Wrist Arthroplasty
10.6.2. Types of arthroplasty
10.6.3. Wrist prosthetic surgery
10.6.4. Wrist arthroplasty complications

10.7. Neuropathic pain and its management. Complex Regional Dystrophy Syndrome

10.7.1. Identification of the Patient with Neuropathic Pain
10.7.2. Management of Neuropathic Pain
10.7.3. Symptoms and Diagnostic Criteria of CRPS
10.7.4. Pharmacological and Interventional Treatment of CRPS

10.8. New Technologies applied to Hand Surgery. Robotics, 3D

10.8.1. Technological advances in Hand Surgery
10.8.2. Robotics and the Hand
10.8.3. 3D engineering in Hand Surgery

10.9. Artificial Intelligence. Current and future applications

10.9.1. Possibilities of AI
10.9.2. Diagnostics and development of conservative treatment
10.9.3. Surgical possibilities of AI

10.10. Infantile spastic hand. Three-dimensional analysis and applied treatments

10.1.1. Identification of an Infantile Spastic Hand
10.1.2. Diagnostic Methods and Three-dimensional Analysis
10.1.3. Management of the spastic hand in children

A university program that will allow you to be aware of the possibilities offered by AI in Hand Surgery"