Tag: humerus

The image offers a detailed lateral view of the right elbow joint, showcasing its key anatomical components with precision. This illustration highlights the bones, ligaments, and supportive structures that enable the elbow’s range of motion and stability. It serves as an excellent resource for understanding the intricate mechanics of this critical joint.

The shoulder’s posterior region is a critical area of the human body, housing a sophisticated array of muscles that drive movement and maintain stability. This article examines the deep muscles of the left shoulder as depicted in the provided medical image, focusing on the humerus, teres minor, supraspinatus, spine of scapula, deltoid, infraspinatus, teres major, latissimus dorsi, triceps brachii: long head, and triceps brachii: lateral head. These structures are essential for understanding upper body mechanics and their role in daily activities. By exploring their anatomy and functions, readers can gain a deeper appreciation of the shoulder’s complex design and its importance in physical health.

The elbow joint, as depicted in a medial sagittal section through the right elbow, is a hinge joint that permits flexion and extension of the forearm, playing a vital role in upper limb movement. This anatomical structure, involving the humerus, ulna, and radius, is designed for stability and precise motion, essential for daily activities like lifting and reaching. This article explores the detailed anatomy of the right elbow in a sagittal view, its physical functions, and its significance in facilitating forearm mobility.

The elbow joint is a complex hinge joint that facilitates flexion and extension of the forearm, supported by key ligaments like the ulnar and radial collateral ligaments, and the annular ligament at the proximal radioulnar joint. This structure allows for precise movements while ensuring stability, making it essential for activities like lifting and throwing. This article explores the anatomical structure of the elbow joint, its physical functions, and its role in upper limb mobility, providing a comprehensive understanding of its components and significance.

The human skeleton is a remarkable framework that provides structure, support, and protection to the body while facilitating movement. Divided into the axial skeleton and appendicular skeleton, it consists of 206 bones working in harmony. The axial skeleton forms the central axis, supporting the head, neck, back, and chest, and includes the skull, vertebral column (with the sacrum and coccyx), and thoracic cage, made up of the ribs and sternum.