Lesson 1Axillary nerve anatomy: root levels, course through quadrangular space, sensory territory over lateral shoulder (regimental badge)This lesson explains where the axillary nerve starts, how it passes through the quadrangular space, its ties to the surgical neck and deltoid muscle, and connects this to its muscle control and feeling area on the side of the shoulder for spotting issues.
C5–C6 roots and posterior cord contributionsBoundaries of the quadrangular space in the axillaRelationship to surgical neck and humeral headMotor branches to deltoid and teres minorLateral shoulder cutaneous field and variantsLesson 2Peripheral nerve testing and focused sensory mapping: how to localize axillary nerve injury using dermatomes and motor testsLearn how to pinpoint axillary nerve damage with targeted muscle tests and skin sensation checks, using skin zones, nerve areas, and checks against nearby nerves to tell root problems from end-branch issues.
Dermatomes versus peripheral cutaneous fieldsMotor testing of deltoid and teres minor strengthPinprick and light touch over regimental badgeDifferentiating axillary from C5 radiculopathyComparing axillary with radial and suprascapularLesson 3Gross anatomy of the shoulder girdle: clavicle, scapula, proximal humerus and important articular surfacesGo over the clavicle, scapula, and upper arm bone structure, focusing on joint surfaces, dips, and bone shapes that form the shoulder and collarbone joints, to help with feeling them, reading scans, and checking injuries.
Clavicle curvatures, ligaments, and muscle attachmentsScapular borders, angles, and fossae orientationGlenoid cavity, labrum attachment, and versionProximal humerus head, tubercles, and surgical neckAcromioclavicular and sternoclavicular joint surfacesLesson 4Imaging selection and interpretation for shoulder trauma: plain radiographs (AP, scapular Y, axillary), when to use CT and MRI based on anatomical questionsThis covers picking and reading shoulder injury scans, like standard X-ray views, when to go for CT or MRI, and key body marks that show slips, breaks, and soft tissue damage on each type.
AP, scapular Y, and axillary radiographic viewsRadiographic signs of dislocation and subtle fractureWhen CT is preferred for complex fracture patternsWhen MRI is preferred for cuff and labral injuryRecognizing Hill‑Sachs and Bankart on imagingLesson 5Suprascapular and musculocutaneous nerve relations: brief review of sensory/somatic overlap around shoulderQuick look at suprascapular and musculocutaneous nerve paths around the shoulder, noting muscle branches, feeling overlap, and trap spots to separate their problems from just axillary nerve trouble.
Suprascapular nerve course and notch anatomyInnervation of supraspinatus and infraspinatusMusculocutaneous nerve path through coracobrachialisLateral antebrachial cutaneous sensory fieldPatterns distinguishing these from axillary lesionsLesson 6Deltoid, rotator cuff, and axillary muscles: origins, insertions, actions, and relation to abduction/rotationDetails where deltoid and rotator cuff muscles start and end, their nerve supply, movements, roles in lifting the arm, turning it, and keeping the arm head centred, and how damage causes specific weak spots.
Deltoid heads, attachments, and abduction arcSupraspinatus origin, tendon path, and functionInfraspinatus and teres minor external rotation rolesSubscapularis internal rotation and anterior restraintMuscle injury patterns and clinical strength testingLesson 7Surface landmarks for shoulder exam and procedures: acromion, coracoid, deltoid tuberosity, quadrangular space identificationKey spots you can feel for checks and procedures, like acromion, coracoid, deltoid bump, and quadrangular space, and how to use them for shots, fixes, and safe tool placement.
Palpating acromion, spine, and acromial angleLocating the coracoid and coracoacromial archIdentifying deltoid tuberosity and humeral shaftTriangulating the quadrangular space on surfaceLandmarks for glenohumeral joint injectionLesson 8Common shoulder dislocations and fractures: anterior vs posterior dislocation signs, latissimus of flattening, Hill-Sachs and Bankart lesions anatomyLooks at how front and back shoulder slips happen, their scan signs, linked breaks, and typical damage like Hill-Sachs and Bankart, tying bone and soft tissue harm to wobble patterns and nerve-blood risks.
Mechanisms of anterior versus posterior dislocationClinical signs and contour changes of dislocated shoulderHill‑Sachs lesion location and biomechanical impactBankart lesion anatomy and labral detachmentFractures of surgical neck, tuberosities, and glenoidNeurovascular complications in shoulder dislocationLesson 9Glenohumeral joint biomechanics: stability mechanisms, capsulolabral complex, rotator cuff functionBreaks down steady and moving supports of the shoulder joint, like capsule, lip, bands, and rotator cuff, showing how they work together for smooth moves without slips or repeats.
Glenoid version, depth, and concavity compressionCapsular ligaments and end‑range restraintRotator cuff force couples in elevationScapulohumeral rhythm and scapular stabilizersMechanisms of atraumatic and traumatic instabilityLesson 10Procedure landmarks and technique: reduction of anterior shoulder dislocation—stepwise maneuvers and anatomical rationale (traction-countertraction, scapular manipulation)Step-by-step ways to fix front shoulder slips, like pull-counterpull and shoulder blade moves, with body reasons, warnings for breaks, and tips to guard the axillary nerve.
Pre‑reduction assessment and neurovascular checkPrinciples of muscle relaxation and analgesiaTraction‑countertraction setup and executionScapular manipulation technique and landmarksPost‑reduction imaging and stability assessment
