Anatomy of the axilla

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Anatomy of the axilla

M&M Exam 2

M&M Exam 2

Introduction to the skeletal system
Introduction to the muscular system
Bones of the upper limb
Fascia, vessels and nerves of the upper limb
Anatomy of the brachial plexus
Anatomy of the pectoral and scapular regions
Anatomy of the arm
Muscles of the forearm
Vessels and nerves of the forearm
Muscles of the hand
Anatomy of the sternoclavicular and acromioclavicular joints
Anatomy of the glenohumeral joint
Anatomy of the elbow joint
Anatomy of the radioulnar joints
Joints of the wrist and hand
Anatomy of the axilla
Anatomy clinical correlates: Clavicle and shoulder
Anatomy clinical correlates: Axilla
Anatomy clinical correlates: Arm, elbow and forearm
Anatomy clinical correlates: Wrist and hand
Anatomy clinical correlates: Median, ulnar and radial nerves
Bones of the lower limb
Fascia, vessels and nerves of the lower limb
Anatomy of the anterior and medial thigh
Muscles of the gluteal region and posterior thigh
Vessels and nerves of the gluteal region and posterior thigh
Anatomy of the popliteal fossa
Anatomy of the leg
Anatomy of the foot
Anatomy of the hip joint
Anatomy of the knee joint
Anatomy of the tibiofibular joints
Joints of the ankle and foot
Development of the axial skeleton
Development of the limbs
Development of the muscular system
Bone histology
Cartilage histology
Skeletal muscle histology
Skeletal system anatomy and physiology
Bone remodeling and repair
Cartilage structure and growth
Fibrous, cartilage, and synovial joints
Muscular system anatomy and physiology
Brachial plexus
Neuromuscular junction and motor unit
Sliding filament model of muscle contraction
Slow twitch and fast twitch muscle fibers
Muscle contraction
Muscle spindles and golgi tendon organs
Radial head subluxation (Nursemaid elbow)
Developmental dysplasia of the hip
Legg-Calve-Perthes disease
Slipped capital femoral epiphysis
Transient synovitis
Osgood-Schlatter disease (traction apophysitis)
Rotator cuff tear
Dislocated shoulder
Winged scapula
Thoracic outlet syndrome
Carpal tunnel syndrome
Ulnar claw
Erb-Duchenne palsy
Klumpke paralysis
Iliotibial band syndrome
Unhappy triad
Anterior cruciate ligament injury
Patellar tendon rupture
Meniscus tear
Patellofemoral pain syndrome
Sprained ankle
Achilles tendon rupture
Spondylolysis
Spondylolisthesis
Degenerative disc disease
Spinal disc herniation
Sciatica
Compartment syndrome
Rhabdomyolysis
Osteogenesis imperfecta
Craniosynostosis
Pectus excavatum
Arthrogryposis
Genu valgum
Genu varum
Pigeon toe
Flat feet
Club foot
Cleidocranial dysplasia
Achondroplasia
Osteomyelitis
Bone tumors
Osteochondroma
Chondrosarcoma
Osteoporosis
Osteomalacia and rickets
Osteopetrosis
Paget disease of bone
Osteosclerosis
Lordosis, kyphosis, and scoliosis
Osteoarthritis
Spondylosis
Spinal stenosis
Rheumatoid arthritis
Juvenile idiopathic arthritis
Gout
Calcium pyrophosphate deposition disease (pseudogout)
Psoriatic arthritis
Ankylosing spondylitis
Reactive arthritis
Spondylitis
Septic arthritis
Bursitis
Baker cyst
Muscular dystrophy
Polymyositis
Dermatomyositis
Inclusion body myopathy
Polymyalgia rheumatica
Fibromyalgia
Rhabdomyosarcoma
Myasthenia gravis
Lambert-Eaton myasthenic syndrome
Back pain: Pathology review
Rheumatoid arthritis and osteoarthritis: Pathology review
Seronegative and septic arthritis: Pathology review
Bone tumors: Pathology review
Neuromuscular junction disorders: Pathology review
Muscular dystrophies and mitochondrial myopathies: Pathology review
Bone disorders: Pathology review
Opioid agonists, mixed agonist-antagonists and partial agonists
Osteoporosis medications
Anatomy of the descending spinal cord pathways
Anatomy of the ascending spinal cord pathways
Anatomy clinical correlates: Spinal cord pathways
Anatomy of the oculomotor (CN III), trochlear (CN IV) and abducens (CN VI) nerves
Ascending and descending spinal tracts
Motor cortex
Pyramidal and extrapyramidal tracts
Spinal cord reflexes
Sensory receptor function
Somatosensory receptors
Somatosensory pathways
Vascular dementia
Dementia with Lewy bodies
Frontotemporal dementia
Alzheimer disease
Parkinson disease
Huntington disease
Opsoclonus myoclonus syndrome (NORD)
Adult brain tumors
Pituitary adenoma
Acoustic neuroma (schwannoma)
Pediatric brain tumors
Congenital neurological disorders: Pathology review
Headaches: Pathology review
Seizures: Pathology review
Cerebral vascular disease: Pathology review
Traumatic brain injury: Pathology review
Spinal cord disorders: Pathology review
Dementia: Pathology review
Central nervous system infections: Pathology review
Movement disorders: Pathology review
Demyelinating disorders: Pathology review
Adult brain tumors: Pathology review
Pediatric brain tumors: Pathology review
Neurocutaneous disorders: Pathology review
General anesthetics
Local anesthetics
Neuromuscular blockers
Anti-parkinson medications
Medications for neurodegenerative diseases
Opioid antagonists
Muscles of the back
Anatomy clinical correlates: Bones, joints and muscles of the back
Acetaminophen (Paracetamol)
Non-steroidal anti-inflammatory drugs
Parathyroid conditions and calcium imbalance: Clinical
Parathyroid disorders and calcium imbalance: Pathology review
Parathyroid hormone
Hypoparathyroidism
Hyperparathyroidism
Amyotrophic lateral sclerosis
Muscle weakness: Clinical
Spinal muscular atrophy
Dementia and delirium: Clinical
Anatomy of the basal ganglia
Basal ganglia: Direct and indirect pathway of movement
Lower back pain: Clinical

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Content Reviewers

Viviana Popa, MD,Scott Caterine, BSc (Hons.), MSc, MB, BCh, BAO (Hons.),Leah Labranche, PhD, MSc, BSc(Hons),Andrew Horne, MSc, BSc (Hons)

I know what you’re thinking: Isn’t the axilla just a fancy name for the armpit?! Well, besides the axilla being notoriously ticklish, it’s also where many important neurovascular structures enter and exit to reach their target locations.

Think of it like a train station, with many trains passing through enroute to delivering electrochemical signals, blood, and lymphatics to their appropriate destinations.

Now, let’s start with the boundaries of the axilla. The axilla is located at the junction of the arm and thorax, and connects superiorly to the neck, anteriorly to the pectoral region, inferolaterally to the upper limb, and inferomedially to the thoracic wall.

The axilla is shaped like a pyramid that has an apex, a base, and four walls. The apex of the axilla is also called the cervico-axillary canal, which is the door between the neck and the axilla.

The cervico-axillary canal is bounded by the first rib, clavicle, and superior edge of the scapula. The base of the axilla is formed by skin, subcutaneous tissue, and axillary fascia, and forms what is called the axillary fossa, or what we know as the armpit.

Moving on to the four walls of the axilla, the anterior wall is made up by two muscles: the pectoralis major and pectoralis minor.

The inferior-most aspect of the anterior wall is called the anterior axillary fold, and it’s formed by the pectoralis major.

The posterior wall of the axillary is formed mainly by the scapula and overlying subscapularis muscle.

The inferior aspect of the posterior wall is formed by the teres major and latissimus dorsi muscles, inferiorly forming the posterior axillary fold. The medial wall is formed by serratus anterior muscle that overlies the 1st-4th ribs and intercostal muscles. Finally, the lateral wall is a bony wall formed by the intertubercular sulcus of the humerus.

Let’s move on to the contents of the axilla. Right below the skin, there’s a lot of fat and connective tissue. If you dissect deeper, you will see the axillary sheath that surrounds the axillary vein, which is the most superficial, as well as the axillary artery and the surrounding brachial plexus. The axilla also contains lymphatic vessels and axillary lymph nodes.

Let’s start with the axillary artery, which begins as a continuation of the subclavian artery at the lateral border of the first rib, and extends to the inferior border of the teres major before turning into the brachial artery. The axillary artery is divided into three parts as it passes posterior to the pectoralis minor. The first part is between the lateral border of the first rib and the medial border of the pectoralis minor, and is contained within the axillary sheath.

The second part is posterior to the pectoralis minor, and the third part extends from the lateral border of the pectoralis minor to the inferior border of teres major.

Each part of the axillary artery has a number of important branches. One memory trick is that the part number also tells you how many branches it has.

Sources

  1. "Human Anatomy & Physiology" Pearson (2017)
  2. "Principles of Anatomy and Physiology" Wiley (2019)
  3. "Moore's Clinically Oriented Anatomy" LWW (2022)
  4. "Grant's Dissector" LWW (2020)
  5. "Netter Atlas of anatomy 17th ed" Elsevier (2022)
  6. "Neurovascular Compression Syndromes of the Shoulder" The Athlete's Shoulder (2009)
  7. "Axillary management for young women with breast cancer varies between patients electing breast-conservation therapy or mastectomy" Breast Cancer Research and Treatment (2020)
  8. "The axillary vein and its tributaries are not in the mirror image of the axillary artery and its branches" PLOS ONE (2019)