Skeletal muscle histology

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Skeletal muscle histology

MSK Module Content

MSK Module Content

Resting membrane potential
Action potentials in myocytes
Neuron action potential
Neuromuscular junction and motor unit
Sliding filament model of muscle contraction
Cholinergic receptors
Lambert-Eaton myasthenic syndrome
Neuromuscular junction disorders: Pathology review
Myasthenia gravis
Myalgias and myositis: Pathology review
Pediatric orthopedic conditions: Clinical
Muscle weakness: Clinical
Slow twitch and fast twitch muscle fibers
Muscle spindles and golgi tendon organs
Muscle contraction
Skeletal muscle histology
Muscular system anatomy and physiology
Lower back pain: Clinical
Back pain: Pathology review
Systemic lupus erythematosus (SLE): Clinical
Osteoporosis
Child abuse: Clinical
Non-steroidal anti-inflammatory drugs
Rheumatoid arthritis
Physiological changes during exercise
Polymyositis
Lordosis, kyphosis, and scoliosis
Spinal disc herniation
Acetaminophen (Paracetamol)
Osteochondroma
Scleroderma
Skeletal system anatomy and physiology
Bone remodeling and repair
Legg-Calve-Perthes disease
Genu varum
Inflammatory myopathies: Clinical
Muscular dystrophies and mitochondrial myopathies: Pathology review
Mitochondrial myopathy
Inclusion body myopathy
Monoclonal antibodies
Spondylolysis
Spondylosis
Spondylitis
Bone disorders: Pathology review
Muscular dystrophy
Mixed connective tissue disease
Cartilage histology
Raynaud phenomenon
Scleroderma: Pathology review
Osteoarthritis
Cartilage structure and growth
Fibrous, cartilage, and synovial joints
Septic arthritis
Slipped capital femoral epiphysis
Bone tumors
Osgood-Schlatter disease (traction apophysitis)
Achondroplasia
Rheumatoid arthritis: Clinical
Developmental dysplasia of the hip
Bone tumors: Pathology review
Neck trauma: Clinical
Spinal cord reflexes
Pediatric bone and joint infections: Clinical
Paget disease of bone
Bone histology
Pediatric bone tumors: Clinical
Anatomy clinical correlates: Bones, joints and muscles of the back
Joints of the wrist and hand
Osteomalacia and rickets
Osteomalacia
Osteopetrosis
Osteoporosis medications
Osteosclerosis
Osteogenesis imperfecta
Osteomyelitis
Clostridium perfringens
Necrotizing fasciitis
Skin and soft tissue infections: Clinical
Brachial plexus
Anatomy of the brachial plexus
Klumpke paralysis
Anatomy clinical correlates: Wrist and hand
Muscles of the hand
Achilles tendon rupture
Rotator cuff tear
Somatosensory receptors
Carpal tunnel syndrome
Patellar tendon rupture
Ankylosing spondylitis
Marfan syndrome
Polymyalgia rheumatica
Reactive arthritis
Seronegative arthritis: Clinical
Psoriatic arthritis
Juvenile idiopathic arthritis
Seronegative and septic arthritis: Pathology review
Rheumatoid arthritis and osteoarthritis: Pathology review
Ehlers-Danlos syndrome
Alport syndrome
Gout
Gout and pseudogout: Pathology review
Antigout medications
Nucleotide metabolism
Joint pain: Clinical
Lesch-Nyhan syndrome
Thoracic outlet syndrome
Introduction to the muscular system
Introduction to the skeletal system
Development of the muscular system
Torticollis
Pigeon toe
Neuromuscular blockers
Myotonic dystrophy
Development of the axial skeleton
Development of the limbs
Muscles of the back
Anatomy of the arm
Anatomy clinical correlates: Clavicle and shoulder

Transcript

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Content Reviewers

Rishi Desai, MD, MPH

Now, let’s get a closer look! There are three types of muscles: skeletal, cardiac, and smooth muscle. Each of them has distinct functions as well as structural characteristics that can be identified histologically.

Let’s focus on skeletal muscles, which are composed of large, elongated, branching, and cylindrical cells with multiple nuclei that are located along the periphery. These cells are often also called muscle fibers. In this longitudinal section of skeletal muscle, the muscle fibers are the narrow strands that are all arranged in the same direction. The muscle fibers are also arranged in parallel bundles called fascicles.

With longitudinal sections of skeletal muscle, the nuclei may not always look like they’re in the periphery, but with a transverse section, it’s much easier to visualize. It’s also easier to identify the endomysium, which is the connective tissue that surrounds the polygonal muscle fibers. The perimysium is also easier to identify, since it’s an even thicker layer of connective tissue that surrounds the fascicles.

Skeletal muscle has a rich network of capillaries, and if we zoom in further, we can see that the capillaries are typically seen at the corners of the polygonal muscle fibers. Although it’s not always easy to see with H&E staining, the subtypes of skeletal muscle can sometimes be differentiated. In this example, the Type I or slow twitch muscle fiber is distinguished by its smaller size and darker stain when compared to the neighboring Type II or fast twitch muscle fibers.

The muscle fibers contain many myofibrils that are made up of contractile proteins called myofilaments. The myofilaments consist of thin actin filaments and thick myosin filaments that are arranged in parallel and also form the basic unit of the striated muscles called a sarcomere. The myofilaments mainly consist of thin actin filaments and thick myosin filaments. The alignment and structure of the sarcomeres result in perpendicular bands that can be seen in this image as striations that run vertically. These striations can be seen in both skeletal and cardiac muscles.

Key Takeaways

Skeletal muscles are composed of large, elongated, and cylindrical cells that are also called muscle fibers. Each fiber has multiple nuclei in the periphery, and the capillaries that supply the skeletal muscle are typically found at the corners of the muscle fibers. Within each muscle fiber, there are myofibrils, which are long, thin structures made up of repeating units called sarcomeres.

Sarcomeres are the basic functional units of muscle contraction and are made up of thick and thin filaments that slide past each other during muscle contraction. With high-power magnification and electron microscopy, we can identify some of the different parts of the sarcomere that form the striations, such as the A band, I band, and the Z discs that run down the middle of the I bands.

Skeletal muscle fibers are surrounded by a layer of connective tissue called the endomysium and are grouped into bundles called fascicles, also surrounded by another layer of connective tissue called the perimysium. The entire muscle is surrounded by a layer of connective tissue called the epimysium.