The Art Of Motion : Understanding Joints And Cartilage
Published 11/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 606.75 MB | Duration: 0h 37m
Published 11/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 606.75 MB | Duration: 0h 37m
Explore the Intricate Structure and Function of Joints and Cartilage: A Journey Through Human Mobility
What you'll learn
Identify Key Structures: Accurately name and locate bones, joints, and cartilage within the musculoskeletal system.
Understand Joint Mechanics: Explain the types and functions of joints and how they facilitate movement.
Apply to Clinical Cases: Use anatomical knowledge to assess and address common musculoskeletal issues and disorders
Integrate Structure and Function: Describe how the anatomy of bones and cartilage supports overall body function and health
Requirements
This course is designed to be user-friendly and accessible, requiring no prior experience in anatomy. It’s crafted to guide you step-by-step through the musculoskeletal system with clear, straightforward explanations. All you need to focus on is the course content, as it covers everything from basic concepts to advanced details in a comprehensive yet approachable manner.
Description
Unlock the complexities of human movement in this comprehensive course, The Art of Motion: Understanding Joints and Cartilage. Designed for students, healthcare professionals, and anyone with a keen interest in the human body, this course offers an in-depth exploration of the critical structures that enable mobility and stability.Throughout the course, you will journey through the fascinating world of cartilage and joints. You will begin by examining the three primary types of cartilage: hyaline, elastic, and fibrocartilage. Each type has distinct properties and functions that contribute to the overall mechanics of the body. Understanding these variations is essential for grasping how cartilage acts as a cushion and support in joints, protecting bones during movement and bearing weight.The course emphasizes practical applications and real-world relevance, featuring interactive lessons, engaging visuals, and clinical case studies. You will analyze common joint injuries and conditions, such as arthritis and ligament tears, to understand their impact on mobility and overall health. This hands-on approach ensures that you not only learn the theoretical aspects of anatomy but also how they apply to everyday life and professional practice.By the end of this course, you will have a solid foundation in the anatomy of joints and cartilage, empowering you to appreciate the art of human motion. Whether you are preparing for a career in healthcare, physical therapy, or simply want to deepen your understanding of the body’s mechanics, this course provides the knowledge and skills you need to succeed. Join us on this enlightening journey and discover how the anatomy of joints and cartilage shapes our ability to move, perform, and thrive in everyday life.
Overview
Section 1: What is DIMA ?
Lecture 1 What is DIMA ?
Section 2: Introduction of Joints
Lecture 2 Classification of Joints
Lecture 3 Fibrous and Cartilagenous Joints
Lecture 4 Synovial Joints
Lecture 5 Types of Synovial Joints
Lecture 6 Terms of Movements
Lecture 7 Movements Of Joints
Section 3: Introduction of Cartilage
Lecture 8 Cartilage
Section 4: Clinical Anatomy
Lecture 9 Clinical Anatomy
MRCS for overseas doctors,Medical Students preparing for USMLE,Physical Therapy Students : Those studying physical therapy will gain crucial insights into anatomy,Athletes and Coaches : Sports enthusiasts and coaches will appreciate detailed knowledge of musculoskeletal structure to enhance performance and prevent injuries,Healthcare Professionals,Anatomy Enthusiasts : Individuals with a passion for human anatomy will enjoy the detailed exploration of bones, joints, and cartilage, satisfying their curiosity and expanding their knowledge,Chiropractic Students : Aspiring chiropractors will find this course essential for grasping the complexities of spinal and joint mechanics