Upper Limb Regenerative Medicine Training Course
This programme has been crafted or physicians who wish to establish a comprehensive, evidence-based understanding of musculoskeletal ultrasound of the shoulder, elbow, wrist and hand. Participants will immerse themselves in the anatomical nomenclature and sonographic anatomy of the upper limb, gaining the ability to distinguish muscles, tendons, ligaments, bursae, nerves and vessels on realtime imaging. Emphasis is placed on the development of skills to localise target tissues under ultrasound guidance and on a clear understanding of the indications, contraindications and safety considerations inherent to imageguided orthobiological interventions.
The course begins with selfpaced theoretical modules. In parallel, supervised hands-on workshops enable participants to refine their scanning technique on both volunteer models and patients, progressing to inplane and outofplane needle approaches for precise orthobiological injection. Throughout the programme, performance is monitored via structured image recognition tasks and practical evaluations, ensuring that each delegate achieves proficiency. By fostering a supportive learning environment and offering supervised guidance, the course ensures that attendees leave with the confidence and dexterity required to perform ultrasound examinations and safe, effective ultrasoundguided injections of the upper limb.
Upper Limb Regenerative Medicine Training Course
This programme has been crafted or physicians who wish to establish a comprehensive, evidence-based understanding of musculoskeletal ultrasound of the shoulder, elbow, wrist and hand. Participants will immerse themselves in the anatomical nomenclature and sonographic anatomy of the upper limb, gaining the ability to distinguish muscles, tendons, ligaments, bursae, nerves and vessels on realtime imaging. Emphasis is placed on the development of skills to localise target tissues under ultrasound guidance and on a clear understanding of the indications, contraindications and safety considerations inherent to imageguided orthobiological interventions.
The course begins with selfpaced theoretical modules. In parallel, supervised hands-on workshops enable participants to refine their scanning technique on both volunteer models and patients, progressing to inplane and outofplane needle approaches for precise orthobiological injection. Throughout the programme, performance is monitored via structured image recognition tasks and practical evaluations, ensuring that each delegate achieves proficiency. By fostering a supportive learning environment and offering supervised guidance, the course ensures that attendees leave with the confidence and dexterity required to perform ultrasound examinations and safe, effective ultrasoundguided injections of the upper limb.
level
beginner to intermediate
mode
SELF-PACED ONLINE & IN-CLINIC
duration
12 hours online, 8 hours in-clinic
cpd
12 points online, 8 points in-clinic
online fee
$600 + gst
in-clinic fee
$2,500 + gst
level
mode
DURATION
cpd
online fee
in-clinic fee
BEGINNER TO INTERMEDIATE
SELF-PACED ONLINE & IN-CLINIC
12 hours online, 8 hours in-clinic
12 points online, 8 points in-clinic
$600 + gst
$2,500 + gst
level
mode
duration
cpd
online fee
in-clinic fee
BEGINNER TO INTERMEDIATE
SELF-PACED ONLINE & IN-CLINIC
12 hours online, 8 hours in-clinic
12 points online, 8 points in-clinic
$600 + gst
$2,500 + gst
Ultrasound-Guided Injection
- Principles of Musculoskeletal Ultrasound: Utilising ultrasound for musculoskeletal interventions requires proficiency in machine settings, probe manipulation, and image interpretation. Detailed knowledge of ultrasound physics, tissue characteristics (e.g., echogenicity), and artefacts (e.g., reverberation, shadowing) ensures accurate diagnosis and precise needle placement.
- Proper Handling and Positioning: Optimal probe handling and patient positioning are critical for obtaining high-quality ultrasound images. Techniques such as dynamic scanning and multiplanar assessment enhance diagnostic accuracy and procedural success.
- Needle Guidance: Real-time needle guidance allows for precise localisation and delivery of therapeutic substances into targeted anatomical structures. This minimises procedural complications and maximises therapeutic efficacy.
Manual Injection Techniques
Landmark Identification: Proficiency in identifying anatomical landmarks facilitates safe and effective manual injections, particularly in settings where ultrasound guidance may be limited or unavailable. Mastery of palpation techniques and knowledge of surface anatomy enhance procedural efficiency and patient safety.
Ultrasound-Guided Injection
- Principles of Musculoskeletal Ultrasound: Utilising ultrasound for musculoskeletal interventions requires proficiency in machine settings, probe manipulation, and image interpretation. Detailed knowledge of ultrasound physics, tissue characteristics (e.g., echogenicity), and artefacts (e.g., reverberation, shadowing) ensures accurate diagnosis and precise needle placement.
- Proper Handling and Positioning: Optimal probe handling and patient positioning are critical for obtaining high-quality ultrasound images. Techniques such as dynamic scanning and multiplanar assessment enhance diagnostic accuracy and procedural success.
- Needle Guidance: Real-time needle guidance allows for precise localisation and delivery of therapeutic substances into targeted anatomical structures. This minimises procedural complications and maximises therapeutic efficacy.
Manual Injection Techniques
- Landmark Identification: Proficiency in identifying anatomical landmarks facilitates safe and effective manual injections, particularly in settings where ultrasound guidance may be limited or unavailable. Mastery of palpation techniques and knowledge of surface anatomy enhance procedural efficiency and patient safety.
What You Will Have Access To
1. Anatomy, pathology and imaging
2. Live patients
3. Biologic treatments for shoulder, elbow and hand conditions
4. Patient selection criteria and assessment
5. Injection techniques specific to upper limb joints
6. Biologic agents used in lower limb regenerative medicine
7. Identifying conditions amenable to treatment of osteoarthritis, tendonitis, and ligament injuries
8. Safety protocols and patient outcomes assessment
What You Will Learn
1. Anatomy, pathology and imaging
2. Live patients
3. Biologic treatments for shoulder, elbow and hand conditions
4. Patient selection criteria and assessment
5. Injection techniques specific to upper limb joints
6. Biologic agents used in lower limb regenerative medicine
7. Identifying conditions amenable to treatment of osteoarthritis,tendonitis, and ligament injuries.
8. Safety protocols and patient outcomes assessment
Upper Limb Regenerative Medicine
Book Your Course
Our Orthobiologics Regenerative Medicine Training offers a comprehensive curriculum in Best Practice biological therapy.
Upon booking, you gain access to our online program, featuring theory sessions and instructional videos on injection techniques. The online component fee is deducted when you book into practical hands-on training.
Online component $600 + GST
Practical Hand On Training: $2500 + GST
Get in Contact
Upper Limb Regenerative Medicine
Book Your Course
Our Orthobiologics Regenerative Medicine Training offers a comprehensive curriculum in Best Practice biological therapy.
Upon booking, you gain access to our online program, featuring theory sessions and instructional videos on injection techniques. The online component fee is deducted when you book into practical hands-on training.
Online component: $600 + GST
Practical Hand On Training: $2500 + GST
Get in Contact
Frequently Asked Quetions