the link
... Body Planes: In order to describe the direction of movement, the body is divided into planes. The body is positioned in the anatomical position, which means the body is facing forward, hands at the side with the palms facing forwards and feet pointing straight ahead. The sagittal plane is vertical a ...
... Body Planes: In order to describe the direction of movement, the body is divided into planes. The body is positioned in the anatomical position, which means the body is facing forward, hands at the side with the palms facing forwards and feet pointing straight ahead. The sagittal plane is vertical a ...
With a Posterior Approach to the Scapula
... describe spatial relationships of the suprascapular nerve and ascending branch of the circumflex scapular artery to the posterior surgical approach to the scapula despite these structures being vulnerable during this approach. We aimed to define the topographic distribution in which these vulnerable ...
... describe spatial relationships of the suprascapular nerve and ascending branch of the circumflex scapular artery to the posterior surgical approach to the scapula despite these structures being vulnerable during this approach. We aimed to define the topographic distribution in which these vulnerable ...
of the upper limb
... • the suprascapular notch is where the superior border joins the base of the coracoid process • the suprascapular nerve passes through the suprascapular notch, which is bridge by superior transverse scapular ligament • ossificaTon of this ligament can result in compression of the nerve with weeke ...
... • the suprascapular notch is where the superior border joins the base of the coracoid process • the suprascapular nerve passes through the suprascapular notch, which is bridge by superior transverse scapular ligament • ossificaTon of this ligament can result in compression of the nerve with weeke ...
Bony avulsion of the supraspinatus origin from the scapular spine
... In general, a young patient will dislocate their shoulder or suffer a fracture of the greater tuberosity due to the force of the SS tendon when they fall on their shoulder. An avulsion on the scapular side, as seen in the present case, is rare. Most avulsions about the shoulder joint can be treated ...
... In general, a young patient will dislocate their shoulder or suffer a fracture of the greater tuberosity due to the force of the SS tendon when they fall on their shoulder. An avulsion on the scapular side, as seen in the present case, is rare. Most avulsions about the shoulder joint can be treated ...
L1-Bones of upper limb
... it forms 1/3 of a sphere, it articulates with the glenoid cavity of the scapula. Greater tubercle: at the lateral margin of the humerus. Lesser tubercle: projects anteriorly. The two tubercles are separated by Intertubercular Groove. Anatomical neck: formed by a groove separating the hea ...
... it forms 1/3 of a sphere, it articulates with the glenoid cavity of the scapula. Greater tubercle: at the lateral margin of the humerus. Lesser tubercle: projects anteriorly. The two tubercles are separated by Intertubercular Groove. Anatomical neck: formed by a groove separating the hea ...
Radiographic Anatomy of the Upper By
... scapula, which is made deeper by a fibrocartilaginous ring - the labrum glenoidale. Capsules attached to epiphyseal line of glenoid and humerus ,except inferiorly where it extends downwards on the medial aspect of the neck of the humerus as the axillary pouch. The capsule of the shoulder joint is ...
... scapula, which is made deeper by a fibrocartilaginous ring - the labrum glenoidale. Capsules attached to epiphyseal line of glenoid and humerus ,except inferiorly where it extends downwards on the medial aspect of the neck of the humerus as the axillary pouch. The capsule of the shoulder joint is ...
Appendicular notes - Littlemiamischools.org
... • Bones of the upper and lower limbs and the girdles (shoulder and hip) that attach the limbs to the axial skeleton. • Bones of the limbs help to get us from place to place and to manipulate our environment. ...
... • Bones of the upper and lower limbs and the girdles (shoulder and hip) that attach the limbs to the axial skeleton. • Bones of the limbs help to get us from place to place and to manipulate our environment. ...
12_skeleton_upper_appendicular-29sept2016
... Scapula [“shovel”]: lies over 2nd to 7th ribs. 245 borders superior, axillary, vertebral (or medial and lateral) angles superior and inferior glenoid fossa [“socket-like”] articulates with head of humerus supra glenoid tubercle [“above” and “bump little”] anchor for biceps long head coracoid process ...
... Scapula [“shovel”]: lies over 2nd to 7th ribs. 245 borders superior, axillary, vertebral (or medial and lateral) angles superior and inferior glenoid fossa [“socket-like”] articulates with head of humerus supra glenoid tubercle [“above” and “bump little”] anchor for biceps long head coracoid process ...
C. Upper Extremities - Crestwood Local Schools
... C. Upper Extremities 1. Consists of 60 bones a. Includes humerus, ulna, radius, carpals, metacarpals, and phalanges 2. Humerus- (arm bone) longest and largest bone in the upper extremities a. Proximal end is a head that goes into the glenoid cavity of the scapula ...
... C. Upper Extremities 1. Consists of 60 bones a. Includes humerus, ulna, radius, carpals, metacarpals, and phalanges 2. Humerus- (arm bone) longest and largest bone in the upper extremities a. Proximal end is a head that goes into the glenoid cavity of the scapula ...
deltoid muscles
... pass between the scapula and proximal end of humerus: supraspinatus, infraspinatus, teres minor, teres major ...
... pass between the scapula and proximal end of humerus: supraspinatus, infraspinatus, teres minor, teres major ...
deltoid muscles
... pass between the scapula and proximal end of humerus: supraspinatus, infraspinatus, teres minor, teres major ...
... pass between the scapula and proximal end of humerus: supraspinatus, infraspinatus, teres minor, teres major ...
the axilla - Deranged Physiology
... This document was created by Alex Yartsev ([email protected]); if I have used your data or images and forgot to reference you, please email me. ...
... This document was created by Alex Yartsev ([email protected]); if I have used your data or images and forgot to reference you, please email me. ...
20010 all shouldert
... cage. In a healthy patient, have their arm hanging down to their side, the humeral head should be in alignment with the glenoid fossa of the scapula. However, following a traumatic dislocation, leave the arm in the position it is in! The humeral head will not be resting in the glenoid fossa when dis ...
... cage. In a healthy patient, have their arm hanging down to their side, the humeral head should be in alignment with the glenoid fossa of the scapula. However, following a traumatic dislocation, leave the arm in the position it is in! The humeral head will not be resting in the glenoid fossa when dis ...
shoulder 2012
... cage. In a healthy patient, have their arm hanging down to their side, the humeral head should be in alignment with the glenoid fossa of the scapula. However, following a traumatic dislocation, leave the arm in the position it is in! The humeral head will not be resting in the glenoid fossa when dis ...
... cage. In a healthy patient, have their arm hanging down to their side, the humeral head should be in alignment with the glenoid fossa of the scapula. However, following a traumatic dislocation, leave the arm in the position it is in! The humeral head will not be resting in the glenoid fossa when dis ...
Muscles of the shoulder region
... 1. Superficial muscles (Trapezius and Latissimus dorsi), that cover most of the other muscles on the back. 2. Deep extrinsic muscles: arise from the axial skeleton ( Levator scapulae, Rhomboideus major and minor, and the serratus anterior). 3. Intrinsic muscles arising from the scapula and passing t ...
... 1. Superficial muscles (Trapezius and Latissimus dorsi), that cover most of the other muscles on the back. 2. Deep extrinsic muscles: arise from the axial skeleton ( Levator scapulae, Rhomboideus major and minor, and the serratus anterior). 3. Intrinsic muscles arising from the scapula and passing t ...
Shoulder Anatomy and Injuries - PA
... Shoulder Anatomy - joints • Glenohumeral • ball and socket • lacks bony stability (small glenoid, large humerus) • provides motion ...
... Shoulder Anatomy - joints • Glenohumeral • ball and socket • lacks bony stability (small glenoid, large humerus) • provides motion ...
Anatomy of the Elbow The elbow is a hinge joint made up of the
... The joint cavity is cushioned by articular cartilage covering the head of the humerus and face of the glenoid. The scapula extends up and around the shoulder joint at the rear to form a roof called the acromion, and around the shoulder joint at the front to form the coracoid process. ...
... The joint cavity is cushioned by articular cartilage covering the head of the humerus and face of the glenoid. The scapula extends up and around the shoulder joint at the rear to form a roof called the acromion, and around the shoulder joint at the front to form the coracoid process. ...
MUSCLES OF THE PECTORAL GIRDLE Objectives At the end of
... superior trunk of brachial plexus if clavicle fractures ...
... superior trunk of brachial plexus if clavicle fractures ...
Scapula
In anatomy, the scapula (plural scapulae or scapulas) or shoulder blade, is the bone that connects the humerus (upper arm bone) with the clavicle (collar bone). Like their connected bones the scapulae are paired, with the scapula on the left side of the body being roughly a mirror image of the right scapula. In early Roman times, people thought the bone resembled a trowel, a small shovel. The shoulder blade is also called omo in Latin medical terminology.The scapula forms the back of the shoulder girdle. In humans, it is a flat bone, roughly triangular in shape, placed on a posterolateral aspect of the thoracic cage.