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Biomechanics in Orthodontics: A Comprehensive Guide to Orthodontic Biomechanics

4.3(43)

By John Academy

Explore the intricate world of orthodontic biomechanics with our comprehensive course. Master the fundamental concepts, advanced techniques, and cutting-edge technologies shaping modern orthodontics. From archwires to aligner therapy, delve into the biomechanics of tooth movement, anchorage control, and space closure. Elevate your practice with expert insights, ensuring precision in class II and class III corrections. Join us for a transformative learning experience in the dynamic intersection of orthodontics and biomechanics.

Biomechanics in Orthodontics: A Comprehensive Guide to Orthodontic Biomechanics
Delivered Online On Demand
£24.99

Introduction to Orthodontic Biomechanics: Orthodontics Principles

4.5(3)

By Studyhub UK

Embark on an enriching journey through the fusion of Orthodontics and Biomechanics with our course: 'Introduction to Orthodontic Biomechanics: Orthodontics Principles.' Dive deep into the nuances of tooth movement, anchorage control, and the intricate play of orthodontic appliances. This meticulously designed curriculum is an essential toolkit for anyone eager to explore the scientific and technical aspects of achieving a picture-perfect smile. Whether you're a dental student, a novice in orthodontics, or simply someone intrigued by dental science, this course serves as a comprehensive guide to grasping the fundamentals and more. The programme is segmented into ten well-structured modules, covering a wide array of topics such as archwires, Class II and III corrections, and aligner therapy, culminating in a thorough understanding of Temporary Anchorage Devices (TADs). Learning Outcomes Gain a foundational grasp of orthodontic and biomechanical concepts. Understand the biomechanics involved in tooth movement. Acquire knowledge of various orthodontic appliances and auxiliaries. Learn the principles behind anchorage control in orthodontic treatments. Master the biomechanical techniques for space closure and Class II and III corrections. Why buy this Introduction to Orthodontic Biomechanics: Orthodontics Principles? Unlimited access to the course for forever Digital Certificate, Transcript, student ID all included in the price Absolutely no hidden fees Directly receive CPD accredited qualifications after course completion Receive one to one assistance on every weekday from professionals Immediately receive the PDF certificate after passing Receive the original copies of your certificate and transcript on the next working day Easily learn the skills and knowledge from the comfort of your home Certification After studying the course materials of the Introduction to Orthodontic Biomechanics: Orthodontics Principles there will be a written assignment test which you can take either during or at the end of the course. After successfully passing the test you will be able to claim the pdf certificate for £5.99. Original Hard Copy certificates need to be ordered at an additional cost of £9.60. Who is this Introduction to Orthodontic Biomechanics: Orthodontics Principles for? Dental students eager to supplement their academic knowledge Novices aiming to commence a journey in orthodontics Healthcare professionals looking to broaden their dental science understanding Individuals fascinated by the technicalities of achieving an ideal smile Academics or researchers focused on dental biomechanics Prerequisites This Introduction to Orthodontic Biomechanics: Orthodontics Principles does not require you to have any prior qualifications or experience. You can just enrol and start learning.This Introduction to Orthodontic Biomechanics: Orthodontics Principles was made by professionals and it is compatible with all PC's, Mac's, tablets and smartphones. You will be able to access the course from anywhere at any time as long as you have a good enough internet connection. Career path Orthodontist: £80,000 - £150,000 per annum Dental Surgeon focusing on Orthodontics: £60,000 - £120,000 per annum Biomechanical Engineer in Dental Science: £40,000 - £80,000 per annum Researcher in Orthodontic Biomechanics: £35,000 - £70,000 per annum Dental Appliance Technician: £25,000 - £45,000 per annum Dental Science Writer or Journalist: £30,000 - £55,000 per annum Course Curriculum Module 01: Introduction to Orthodontics and Biomechanics Introduction to Orthodontics and Biomechanics 00:11:00 Module 02: Basic Concepts in Orthodontic Biomechanics Basic Concepts in Orthodontic Biomechanics 00:11:00 Module 03: Biomechanics of Tooth Movement Biomechanics of Tooth Movement 00:10:00 Module 04: Archwires in Orthodontic Biomechanics Archwires in Orthodontic Biomechanics 00:14:00 Module 05: Orthodontic Appliances and Auxiliaries Orthodontic Appliances and Auxiliaries 00:14:00 Module 06: Anchorage Control in Orthodontics Anchorage Control in Orthodontics 00:13:00 Module 07: Biomechanics of Space Closure Biomechanics of Space Closure 00:11:00 Module 08: Biomechanics of Class II and Class III Corrections Biomechanics of Class II and Class III Corrections 00:14:00 Module 09: Biomechanics in Aligner Therapy Biomechanics in Aligner Therapy 00:13:00 Module 10: Temporary Anchorage Devices (TADs) Temporary Anchorage Devices (TADs) 00:11:00

Introduction to Orthodontic Biomechanics: Orthodontics Principles
Delivered Online On Demand2 hours 2 minutes
£10.99

Effective Physiotherapy Protocols for Diagnosing & Managing Anterior Hip Pain - Case Study

By Physiotherapy Online

This anterior hip pain live webinar provides the detail information about anterior hip pain, giving a complete picture of differential diagnoses both orthopedic & systematic aspects .This online case study webinar will explore different causes, pathophysiology of anterior hip pain. By end of this online webinar, participants will have a good understanding about the hip joint anatomy, biomechanics which contribute to anterior hip pain. Participants will understand different special testing which are required during the assessment of anterior hip pain. This webinar will also include the discussion of physiotherapy management of anterior hip pain using knowledge of best practice exercises, manual therapy, modalities , with complete comprehensive and practical demonstrations. What you'll learn 1. Understanding Anterior Hip Pain Objectives: Gain foundational knowledge of the anatomy and biomechanics of the hip joint. Understand the different types of hip pain and their locations, with a focus on anterior hip pain. Topics Covered: Anatomy of the hip joint: bones, muscles, tendons, and ligaments. Key biomechanics involved in hip function. Overview of anterior hip pain: characteristics and patient presentation. 2. Common Causes of Anterior Hip Pain Identify and differentiate between the common causes of anterior hip pain. Explore the risk factors associated with specific pathologies. Topics Covered: Labral tears and hip impingement (FAI). Hip flexor strains and tendinitis. Osteoarthritis and its early manifestations. Less common causes: hernias, referred pain from lumbar spine. 3. Anterior Hip Pain - Case Study Apply diagnostic principles through a real-life patient case. Develop clinical reasoning for selecting appropriate interventions. Topics Covered: Detailed case history and clinical presentation. Differential diagnosis approach. Evaluation of imaging and test results. Discussion of treatment planning and decision-making.Physical therapy protocols: stretching, strengthening, and neuromuscular re-education. Pharmacological options and when they are indicated. Interventional procedures (e.g., injections) and surgical options. Patient education and self-management strategies. 4. Management Strategies for Anterior Hip Pain Objectives: Learn evidence-based management approaches for anterior hip pain. Explore both conservative and interventional strategies. Topics Covered: Physical therapy protocols: stretching, strengthening, and neuromuscular re-education. Pharmacological options and when they are indicated. Interventional procedures (e.g., injections) and surgical options. Patient education and self-management strategies. Who Should Enroll Physiotherapist Sport & Exercise Physiologist Occupational Therapist MSK therapist CPD Credit Hours 1.5 hour Resources 60 days Access to Learning Resources Downloadable Course Material CPD Certificate Disclaimer: Our online physiotherapy courses meet the criteria and guidelines for CPD (Continuing Professional Development). The CPD hours indicated on the certificate contribute towards fulfilling professional standards and requirements necessary for CPD audits conducted by the HCPC and AHPRA. These CPD hours are important for maintaining physiotherapy registration and ensuring compliance with CPD audit and Physiotherapy registration renewal processes. Our courses are recognized as valuable continuing education resources across the UK, Australia, New Zealand, and throughout Asia and the Middle East.

Effective Physiotherapy Protocols for Diagnosing & Managing Anterior Hip Pain - Case Study
Delivered Online On Demand5 hours
£20

Comprehensive Therapeutic Guide to Ankle and Foot Anatomy

By Physiotherapy Online

Did you know that understanding the intricate anatomy of the ankle and foot can significantly enhance your ability to treat common injuries and conditions? Deepening your knowledge in this area can lead to more effective patient outcomes and a more rewarding clinical practice. Discover the Secrets of Ankle and Foot Anatomy! Unlock the secrets to effective treatment and rehabilitation of ankle and foot conditions with our comprehensive webinar designed specifically for physiotherapists and related professionals. Creating the Course Module Our "Therapeutic Guide to Ankle and Foot Anatomy" webinar is structured to ensure a deep and practical understanding of the topic. Here's how we create an impactful learning experience: Foundational Overview: Anatomy of the Ankle and Foot: Detailed exploration of bones, joints, ligaments, muscles, and nerves. Biomechanics: Insight into the function of each structure and their role in stability and mobility. Common Injuries and Conditions: Identification and Diagnosis: Recognizing and diagnosing issues such as sprains, strains, fractures, and plantar fasciitis. Treatment Techniques: Developing and applying effective physiotherapy treatment plans. Biomechanical Considerations: Gait Analysis: Understanding gait abnormalities and their impact. Muscle Imbalances and Footwear: Addressing contributing factors to prevent injuries. Interactive Learning: Q&A Sessions: Engage with expert physiotherapists and peers. Practical Demonstrations: Hands-on learning to reinforce concepts. Additional Resources: Lifetime Access: Continuous learning with access to resources. Downloadable Materials: Keep handy references and notes. CPD Certificate: Earn credit hours and bolster your professional development. Benefits of the Course Enhanced Clinical Skills: Gain a comprehensive understanding of the ankle and foot, enabling better diagnosis and treatment. Effective Treatment Plans: Learn to develop and apply evidence-based treatment strategies. Prevent Future Injuries: Understand and address biomechanical issues to prevent recurrences. Professional Growth: Earn CPD credit hours and enhance your qualifications. Resource Access: Lifetime access to valuable learning materials and practical exercises.

Comprehensive Therapeutic Guide to Ankle and Foot Anatomy
Delivered Online On Demand1 hour
FREE

Educators matching "Biomechanics in Orthodontics: A Comprehensive Guide to Orthodontic Biomechanics"

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Centaur Biomechanics

centaur biomechanics

Russell MacKechnie-Guire holds a PhD in Equine Biomechanics, graduating from the Royal Veterinary College in 2019. Russell’s thesis was titled ‘The Relationship between Saddle and Rider Kinematics, Equine Locomotion, and Thoracolumbar Pressures in Sports Horses’. Russell is based at Centaur Biomechanics, a company which he founded in 2006. He has extensively researched the effect that tack (saddle, bridle and girth) and the rider has on equine health and performance. Russell holds a post at Hartpury University as a Reader in Equine Biomechanics. Russell’s current area of research is horse-saddle-rider interaction, spinal kinematics in horses when ridden over ground, the effect that rider asymmetry has on equine back movement, and from a rehabilitation perspective, the effect that training aids and pole work exercise has on back movement. In addition, Russell collaborates with researchers on various research projects associated with equine health, rehabilitation and performance. Russell is a consultant for the British Equestrian Federations World Class, Team GBR programme and is a member of Team GBR’s Scientific Advisory Group. Russell also sits on the Society of Master Saddlers Scientific Advisory Group, and is part of the executive committee for the International Task force on Laterality in Sports Horses. Russell is also a Pilates instructor, Intrinsic (Human) Biomechanics Trainer, a BHSI equestrian coach, and a keen competitor in dressage and show jumping.

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