Anatomy of the brachial plexus

12,041views

Anatomy of the brachial plexus

Fundamentals Board Exam

Fundamentals Board Exam

Anatomical terminology
Bones of the vertebral column
Joints of the vertebral column
Muscles of the back
Anatomy of the vertebral canal
Anatomy clinical correlates: Bones, joints and muscles of the back
Anatomy clinical correlates: Vertebral canal
Carbohydrates and sugars
Fats and lipids
Proteins
Cellular structure and function
Cell membrane
Selective permeability of the cell membrane
Extracellular matrix
Cell-cell junctions
Endocytosis and exocytosis
Cytoskeleton and intracellular motility
Cell cycle
Mitosis and meiosis
Cystic fibrosis
Sickle cell disease: Clinical
Sickle cell disease (NORD)
Zellweger spectrum disorders (NORD)
Ehlers-Danlos syndrome
Marfan syndrome
Alzheimer disease
Definitions of acids and bases
Physiologic pH and buffers
Respiratory alkalosis
Respiratory acidosis
Buffering and Henderson-Hasselbalch equation
Metabolic and respiratory acidosis: Clinical
Metabolic acidosis
Metabolic alkalosis
Pharmacokinetics: Drug elimination and clearance
Introduction to pharmacology
Enzyme function
Pharmacodynamics: Drug-receptor interactions
Pharmacodynamics: Agonist, partial agonist and antagonist
Pharmacodynamics: Desensitization and tolerance
Pharmacokinetics: Drug metabolism
Sepsis
Anatomy of the arm
Muscles of the forearm
Anatomy of the elbow joint
Anatomy of the radioulnar joints
Inheritance patterns
Transcription of DNA
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
Vessels and nerves of the forearm
Muscles of the hand
Anatomy of the sternoclavicular and acromioclavicular joints
Anatomy of the glenohumeral joint
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
Light microscopy and staining methods
Nuclear structure
DNA structure
DNA replication
DNA damage and repair
Xeroderma pigmentosum
Hardy-Weinberg equilibrium
Huntington disease
Independent assortment of genes and linkage
Translation of mRNA
Gene regulation
Human development days 1-4
Human development days 4-7
Human development week 2
Human development week 3
Ectoderm
Mesoderm
Endoderm
Development of the cardiovascular system
Fetal circulation
Development of the respiratory system
Dementia: Pathology review
Frontotemporal dementia
Vascular dementia
Dementia with Lewy bodies
Mendelian genetics and punnett squares
ELISA (Enzyme-linked immunosorbent assay)
Fluorescence in situ hybridization
Polymerase chain reaction (PCR) and reverse-transcriptase PCR (RT-PCR)
Gel electrophoresis and genetic testing
Protein structure and synthesis
Oxygen-hemoglobin dissociation curve
Alpha-thalassemia
Beta-thalassemia
Anemia: Clinical
Bones and joints of the thoracic wall
Muscles of the thoracic wall
Vessels and nerves of the thoracic wall
Anatomy of the breast
Anatomy of the pleura
Anatomy of the lungs and tracheobronchial tree
Anatomy of the heart
Anatomy of the coronary circulation
Anatomy clinical correlates: Thoracic wall
Anatomy clinical correlates: Pleura and lungs
Anatomy clinical correlates: Heart
Anatomy of the superior mediastinum
Anatomy of the inferior mediastinum
Anatomy clinical correlates: Mediastinum
Insulin
Glucagon
Disorders of carbohydrate metabolism: Pathology review
Glycolysis
Electron transport chain and oxidative phosphorylation
Citric acid cycle
Gluconeogenesis
Glycogen metabolism
Pentose phosphate pathway
Amino acid metabolism
Disorders of amino acid metabolism: Pathology review
Anatomy of the inguinal region
Anatomy clinical correlates: Inguinal region
Nitrogen and urea cycle
Anatomy of the abdominal viscera: Blood supply of the foregut, midgut and hindgut
Abdominal quadrants, regions and planes
Anatomy of the anterolateral abdominal wall
Anatomy of the abdominal viscera: Esophagus and stomach
Anatomy of the abdominal viscera: Pancreas and spleen
Anatomy of the abdominal viscera: Kidneys, ureters and suprarenal glands
Anatomy of the abdominal viscera: Innervation of the abdominal viscera
Anatomy of the abdominal viscera: Liver, biliary ducts and gallbladder
Anatomy of the muscles and nerves of the posterior abdominal wall
Anatomy of the diaphragm
Anatomy of the vessels of the posterior abdominal wall
Fatty acid oxidation
Fatty acid synthesis
Hyperlipidemia
Familial hypercholesterolemia
Abetalipoproteinemia
Hypertriglyceridemia
Nucleotide metabolism
Phenylketonuria (NORD)
Anatomy of the pelvic girdle
Anatomy of the pelvic cavity
Anatomy of the urinary organs of the pelvis
Anatomy of the gastrointestinal organs of the pelvis and perineum
Anatomy of the male reproductive organs of the pelvis
Anatomy of the female reproductive organs of the pelvis
Arteries and veins of the pelvis
Nerves and lymphatics of the pelvis
Development of the digestive system and body cavities
Development of the gastrointestinal system
Development of the teeth
Development of the tongue
Development of the axial skeleton
Development of the limbs
Development of the muscular system
Development of the renal system
Development of the reproductive system
Clinical trials
Cell signaling pathways
Adrenocorticotropic hormone
Growth hormone and somatostatin
Growth hormone deficiency
Synthesis of adrenocortical hormones
Androgens and antiandrogens
Menstrual cycle
Bones of the lower limb
Anatomy of the anterior and medial thigh
Fascia, vessels and nerves of the lower limb
Thyroid hormones
Parathyroid hormone
Gigantism
Hyperpituitarism
Acromegaly
Hypopituitarism
Cushing syndrome
Adrenal cortical carcinoma
Interaction
Drug administration and dosing regimens
Pregnancy
Muscles of the gluteal region and posterior thigh
Anatomy of the popliteal fossa
Anatomy clinical correlates: Hip, gluteal region and thigh
Anatomy of the tibiofibular joints
Anatomy of the hip joint
Anatomy of the knee joint
Joints of the ankle and foot
Anatomy of the leg
Fat-soluble vitamin deficiency and toxicity: Pathology review
Vitamins and minerals
Water-soluble vitamin deficiency and toxicity: B1-B7: Pathology review
Coagulation (secondary hemostasis)
Coagulation disorders: Pathology review
Mixed platelet and coagulation disorders: Pathology review
Role of Vitamin K in coagulation
Stages of labor
Innate immune system
Introduction to the immune system
B- and T-cell memory
Resting membrane potential
Action potentials in myocytes
B-cell development
T-cell development
T-cell activation
B-cell activation, differentiation, and contraction
MHC class I and MHC class II molecules
Immunodeficiencies: T-cell and B-cell disorders: Pathology review
Immunodeficiencies: Combined T-cell and B-cell disorders: Pathology review
Immunodeficiencies: Clinical
HIV (AIDS)
Inflammation
Bones of the cranium
Bones of the neck
Superficial structures of the neck: Posterior triangle
Superficial structures of the neck: Anterior triangle
Fascia and spaces of the neck
Anatomy clinical correlates: Bones, fascia and muscles of the neck
Anatomy of the infratemporal fossa
Cranial nerves
Anatomy of the trigeminal nerve (CN V)
Introduction to the cranial nerves
Cranial nerve pathways
Anatomy of the orbit
Anatomy of the oculomotor (CN III), trochlear (CN IV) and abducens (CN VI) nerves
Viral structure and functions
Reading a chest X-ray
Staphylococcus aureus
Streptococcus pneumoniae
Clostridium difficile (Pseudomembranous colitis)
Klebsiella pneumoniae
Mechanisms of antibiotic resistance
Anatomy of the nose and paranasal sinuses
Anatomy of the oral cavity
Anatomy of the salivary glands
Anatomy of the facial nerve (CN VII)
Anatomy of the glossopharyngeal nerve (CN IX)
Anatomy of the vagus nerve (CN X)
Anatomy of the pterygopalatine (sphenopalatine) fossa
Vaccination and herd immunity
Vaccinations
Cell wall synthesis inhibitors: Penicillins
Infertility: Clinical
Contraception: Clinical
Development of the fetal membranes
Development of the placenta
Development of the nervous system
Development of the umbilical cord
Development of twins
Development of the integumentary system
Pharyngeal arches, pouches, and clefts
Development of the face and palate
Development of the ear
Development of the eye

Transcript

Watch video only

Content Reviewers

Scott Caterine, BSc (Hons.), MSc, MB, BCh, BAO (Hons.),Viviana Popa, MD

Have you ever fallen asleep with your shoulder in a weird position only to wake up to your arm completely asleep? Or hit the inside of your elbow, or the famous ‘funny bone’, and cause part of your hand to go numb?

This happens when we compress or bang the nerves found in our arms, all of which originate in the brachial plexus. The brachial plexus is a vast network of nerves originating from the anterior rami of C5 to T1, which extends through the axilla into the shoulder, arm, and hand, providing afferent, or sensory, nerve fibers from the skin, as well as efferent, or motor, nerve fibers to the muscles.

Alright, so, the brachial plexus is divided into five roots, three trunks, six divisions, three cords, and five terminal branches. The order can be remembered using the mnemonic. “Remember To Drink Cold Beer.”

Additionally, there are branches that leave the brachial plexus at various points along its length. Since the branches that come off of the roots and trunks are located above the clavicle, they are sometimes called the supraclavicular branches of the brachial plexus.

And since the branches that come off of the cords as well as the terminal branches are located below the clavicle, they are sometimes called the infraclavicular branches of the brachial plexus.

Okay, so starting with the roots, the five roots come from the anterior rami of the last four cervical nerves, C5-C8, as well as the anterior ramus of the first thoracic nerve or T1. These roots usually travel between the anterior and middle scalene muscles along with the subclavian artery.

These five roots give off some branches: the long thoracic nerve, which arises from C5-C7, and gives motor innervation to the serratus anterior muscle, the dorsal scapular nerve from C5, which gives motor innervation to the rhomboid and levator scapulae muscles, and a contribution to the phrenic nerve from C5, which gives motor and sensory innervation to the diaphragm.

At the inferior part of the neck, the five roots combine to form three trunks: C5 and C6 merge to form the superior or upper trunk, C7 remains as the middle trunk, and C8 and T1 merge to form the inferior or lower trunk.

The superior trunk gives off another branch, the suprascapular nerve, which travels across the posterior triangle of the neck, which we can see here highlighted in blue, and through the scapular notch to give motor innervation to the supraspinatus and infraspinatus muscles.

The superior trunk also gives off the nerve to subclavius, which gives motor innervation to the subclavius muscle. OK, now that we’ve gone over the roots, trunks, and the supraclavicular branches, let’s pause and do a quick quiz! Pause the video and see if you can identify them!

Moving on, each trunk splits into an anterior and a posterior division as they travel through the cervicoaxillary canal or the apex of the axilla, giving rise to a total of six divisions.

Think of it as travelling through a wormhole - and on the other side, the six divisions regroup with each other to form three cords.

The cords are named for their relationship to the second part of the axillary artery; so lateral to the axillary artery, there’s the lateral cord, which is formed by the anterior divisions of the superior and middle trunks; posterior to the axillary artery, there’s, you guessed it, posterior cord, formed by the posterior divisions of the superior, middle, and inferior trunks.

And medial to the axillary artery, there’s the medial cord, formed by the anterior division of the inferior trunk - no surprises there. Now, these cords sprout a number of branches.

The lateral cord gives rise to the lateral pectoral nerve, which gives motor innervation to the pectoralis major muscle and also to the pectoralis minor muscle via a communicating branch to the medial pectoral nerve.

Posterior cord gives rise to the upper and lower subscapular nerves, which give motor innervation to the subscapularis and the subscapularis and teres major muscles, respectively.

There’s the thoracodorsal nerve, sometimes called the middle subscapular nerve, which gives motor innervation to the latissimus dorsi muscle.

Next, the medial cord gives rise to the medial cutaneous nerve of the arm and the medial cutaneous nerve of the forearm, which give sensory innervation to the medial skin of the arm and forearm.

And more proximally, there’s the medial pectoral nerve, which gives motor innervation to the pectoralis minor and major muscles. And finally, three cords give rise to the five terminal branches.

The median nerve is formed by contributions from both the lateral and medial cords and is made up of fibers from C5 to T1. The other terminal branch of the lateral cord is the musculocutaneous nerve, which receives contributions from C5 to C7.

Sources

  1. "Brachial Plexus Palsy" World Scientific (1999)
  2. "Anatomy and Physiology" Asia Higher Education Science Anatomy and Physiology (2015)
  3. "B D Chaurasia's Human Anatomy" Cbs Publisher & Distributors P Ltd (2009)
  4. "Neck" Essential Clinically Applied Anatomy of the Peripheral Nervous System in the Head and Neck (2016)
  5. "Mononeuropathies" Neuromuscular Disorders of Infancy, Childhood, and Adolescence (2015)
  6. "Iatrogenic Injuries of the Nerves" Nerves and Nerve Injuries (2015)
  7. "Rehabilitation of brachial plexus and peripheral nerve disorders" Neurological Rehabilitation (2013)
  8. "Risk of ulnar nerve injury during cross-pinning in supine and prone position for supracondylar humeral fractures in children: a recent literature review" European Journal of Orthopaedic Surgery & Traumatology (2019)
  9. "Multiple unilateral variations in medial and lateral cords of brachial plexus and their branches" Anat Cell Biol (2014)
  10. "Patterns of connections between the musculocutaneous and median nerves in the axilla and arm" Clin Anat (2015)