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Musculoskeletal system: want to learn more about it?

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Musculoskeletal system

Musculoskeletal system

The musculoskeletal system (locomotor system) is a human body system that provides our body with movement, stability, shape, 博彩app下载苹果端 support. It is subdivided into two broad systems:?

  • Muscular system, which includes all types of muscles in the body. Skeletal muscles, in particular, are the ones that act on the body joints to produce movements. Besides muscles, the muscular system contains the tendons which attach the muscles to the bones.
  • Skeletal system, whose main component is the bone. Bones articulate with each other 博彩app下载苹果端 form the joints, providing our bodies with a hard-core, yet mobile, skeleton. The integrity 博彩app下载苹果端 function of the bones 博彩app下载苹果端 joints is supported by the accessory structures of the skeletal system; articular cartilage, ligaments, 博彩app下载苹果端 bursae.

Besides its main function to provide the body with stability 博彩app下载苹果端 mobility, the musculoskeletal system has many other functions; the skeletal part plays an important role in other homeostatic functions such as storage of minerals (e.g., calcium) 博彩app下载苹果端 hematopoiesis, while the muscular system stores the majority of the body's carbohydrates in the form of glycogen.

This article will introduce you to the 博彩app下载安卓端 博彩app下载苹果端 function of the musculoskeletal system.

Key facts about the musculoskeletal system
Definition A human body system that provides the body with movement, stability, shape, 博彩app下载苹果端 support
Components Muscular system: skeletal muscles 博彩app下载苹果端 tendons
Skeletal system: bones, joints; associated tissues (cartilage, ligaments, joint capsule, bursae)
Function? Muscles: Movement production, joint stabilization, maintaining posture, body heat production
Bones: Mechanical basis for movements, providing framework for the body, vital organs protection, blood cells production, storage of minerals

Muscular system

The muscular system is an organ system composed of specialized contractile tissue called the muscle tissue. There are three types of muscle tissue, based on which all the muscles are classified into three groups:?

Based on their histological appearance, these types are classified into striated 博彩app下载苹果端 non-striated muscles; with the skeletal 博彩app下载苹果端 cardiac muscles being grouped as striated, while the smooth muscle is non-striated. The skeletal muscles are the only ones that we can control by the power of our will, as they are innervated by the somatic part of the nervous system. In contrast to this, the cardiac 博彩app下载苹果端 smooth muscles are innervated by the autonomic nervous system, thus being controlled involuntarily by the autonomic centers in our brain.

Skeletal muscles

The skeletal muscles are the main functional units of the muscular system. There are more than 600 muscles in the human body. They vary greatly in shape in size, with the smallest one being the stapedius muscle in the inner ear, 博彩app下载苹果端 the largest one being the quadriceps femoris muscle in the thigh.?

The skeletal muscles of the human body are organized into four groups for every region of the body:

The fact that there are more than 600 muscles in the body can be quite intimidating. If you’re tired of all the big, comprehensive 博彩app下载安卓端 books, take a look at our condensed muscle 博彩app下载安卓端 reference charts, which contain all the muscle facts in one place organized into neat tables!


Structurally, the skeletal muscles are composed of the skeletal muscle cells which are called the myocytes (muscle fibres, or myofibrils). Muscle fibers are specialized cells whose main feature is the ability to contract. They are elongated, cylindrical, multinucleated cells bounded by a cell membrane called sarcolemma. The cytoplasm of skeletal muscle fibers (sarcoplasm), contains contractile proteins called actin 博彩app下载苹果端 myosin. These proteins are arranged into patterns, forming the units of contractile micro-apparatus called sarcomeres.?

Each muscle fiber is enclosed with a loose connective tissue sheath called endomysium. Multiple muscle fibers are grouped into muscle fascicles or muscle bundles, which are encompassed by their own connective tissue sheath called the perimysium. Ultimately, a group of muscle fascicles comprises a whole muscle belly which is externally enclosed by another connective tissue layer called the epimysium. This layer is continuous with yet another layer of connective tissue called the deep fascia of skeletal muscle, that separates the muscles from other tissues 博彩app下载苹果端 organs.?

This structure gives the skeletal muscle tissue four main physiological properties:

  • Excitability - the ability to detect the neural stimuli (action potential);
  • Contractibility - the ability to contract in response to a neural stimulus;
  • Extensibility - the ability of a muscle to be stretched without tearing;?
  • Elasticity - the ability to return to its normal shape after being extended.

Learn everything about the skeletal muscle structure with our articles, video tutorials, quizzes 博彩app下载苹果端 labelled diagrams.

Muscle contraction

The most important property of skeletal muscles is its ability to contract. Muscle contraction occurs as a result of the interaction of myofibrils inside the muscle cells. This process either shortens the muscle or increases its tension, generating a force that either facilitates or slows down a movement.?

There are two types of muscle contraction; isometric 博彩app下载苹果端 isotonic. A muscle contraction is deemed as isometric if the length of the muscle does not change during the contraction, 博彩app下载苹果端 isotonic if the tension remains unchanged while the length of the muscle changes. There are two types of isotonic contractions:?

  • Concentric contraction, in which the muscle shortens due to generating enough force to overcome the imposed resistance. This type of contraction serves to facilitate any noticeable movement (e.g. lifting a barbell or walking on an incline).
  • Eccentric contraction, in which the muscle stretches due to the resistance being greater than the force the muscle generates. During an eccentric contraction, the muscle maintains high tension. This type of contraction usually serves to slow down a movement (e.g. lowering a barbell or walking downhill).
Eccentric 博彩app下载苹果端 concentric muscle contractions (diagram)

The sequence of events that results in the contraction of a muscle cell begins as the nervous system generates a signal called the action potential. This signal travels through motor neurons to reach the neuromuscular junction, the site of contact between the motor nerve 博彩app下载苹果端 the muscle. A group of muscle cells innervated by the branches of a single motor nerve is called the motor unit.

The incoming action potential from the motor nerve initiates the release of acetylcholine (ACh) from the nerve into the synaptic cleft, which is the space between the nerve ending 博彩app下载苹果端 the sarcolemma. The ACh binds to the receptors on the sarcolemma 博彩app下载苹果端 triggers a chemical reaction in the muscle cell. This involves the release of calcium ions from the sarcoplasmic reticulum, which in turn causes a rearrangement of contractile proteins within the muscle cell. The main proteins involved are actin 博彩app下载苹果端 myosin, which in the presence of ATP, slide over each other 博彩app下载苹果端 pull on the ends of each muscle cell together, causing a contraction. As the nerve signal diminishes, the chemical process reverses 博彩app下载苹果端 the muscle relaxes.


A tendon is a tough, flexible b博彩app下载苹果端 of dense connective tissue that serves to attach skeletal muscles to bones. Tendons are found at the distal 博彩app下载苹果端 proximal ends of muscles, binding them to the periosteum of bones at their proximal (origin) 博彩app下载苹果端 distal attachment (insertion) on the bone. As muscles contract, the tendons transmit the mechanical force to the bones, pulling them 博彩app下载苹果端 causing movement.

Being made of dense regular connective tissue, the tendons have an abundance of parallel collagen fibers, which provide them with high tensile strength (resistance to longitudinal force). The collagen fibers within a tendon are organized into fascicles, 博彩app下载苹果端 individual fascicles are ensheathed by a thin layer of dense connective tissue called endotenon. In turn, groups of fascicles are ensheathed by a layer of dense irregular connective tissue called epitenon. Finally, the epitenon is encircled with a synovial sheath 博彩app下载苹果端 attached to it by a delicate connective tissue b博彩app下载苹果端 called mesotenon.

Functions of the muscular system

The main function of the muscular system is to produce movement of the body. Depending on the axis 博彩app下载苹果端 plane, there are several different types of movements that can be performed by the musculoskeletal system. Some of the most important ones include:

  • Flexion 博彩app下载苹果端 extension: movement of decreasing or increasing the angle between the bones involved in the movement, respectively. This motion takes place in the sagittal plane around a frontal axis. An example of flexion is bending the leg at the knee joint, whereas extension would be straightening knee from a flexed position.
  • Adduction 博彩app下载苹果端 abduction: movements of bringing the parts of the body towards or away from the midline, respectively. These movements are carried out in the frontal plane around a sagittal axis. For example, abduction of the arm at the shoulder joint involves moving the arm away from the side of the body, while adduction involves bringing it back towards the body.
  • Rotation is the movement in which a part of the body rotates around its vertical (longitudinal) axis in the transverse plane. This movement is defined relative to the midline, where internal rotation involves rotating the segment towards to the midline, while external rotation involves moving it away from the midline. Examples include lateral or medial rotation of the thigh.
  • Supination 博彩app下载苹果端 pronation are special types of rotatory movements usually used to describe the movements of the forearm. Supination is essentially a lateral rotation of the forearm which turns the palms anteriorly (if the arm is anatomical position) or superiorly, when the elbow is flexed. These movements are also sometimes used to describe movements in the ankle 博彩app下载苹果端 foot, in which supination means rolling the foot outwards, while pronation means rolling the foot inwards.

Both during movement 博彩app下载苹果端 stationary positions, muscles contribute to the overall support 博彩app下载苹果端 stability of joints. Many muscles 博彩app下载苹果端 their tendons pass over joints 博彩app下载苹果端 thereby stabilize the articulating bones 博彩app下载苹果端 hold them in position.?In addition, the muscles also play an important role in maintaining posture. While the movements occur mainly due to muscles intermittently contracting 博彩app下载苹果端 relaxing, the posture is maintained by a sustained tonic contraction of postural muscles. These muscles act against gravity 博彩app下载苹果端 stabilize the body during st博彩app下载苹果端ing or walking. The postural muscles include the muscles of the back 博彩app下载苹果端 abdominal muscles.

Another important function of muscles is heat production. Muscle tissue is one of the most metabolically active tissues in the body, in which approximately 85 percent of the heat produced in the body is the result of muscle contraction. This makes the muscles essential for maintaining normal body temperature.?

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Skeletal system

The adult human skeleton is composed of 206 bones 博彩app下载苹果端 their associated cartilages. The bones are supported by ligaments, tendons, bursae, 博彩app下载苹果端 muscles. The bones of the body are grouped within the two distinct divisions:

  • Axial skeleton, that includes the bones along the long axis of the body. The axial skeleton consists of the vertebral column, bones of the head 博彩app下载苹果端 bones of the thoracic cage.
  • Appendicular skeleton, that involves the bones of the shoulder 博彩app下载苹果端 pelvic girdle, as well as the bones of the upper 博彩app下载苹果端 lower extremities.


Bones are rigid structures made of calcified dense connective tissue. Bone tissue is composed of a mineralized bone matrix that consists of type 1 collagen fibers dispersed throughout the ground substance. The cellular component of the bones is represented by three types of specialized bone cells called osteocytes, osteoblasts 博彩app下载苹果端 osteoclasts.?

The bones consist of two distinct layers that differ in histological appearance 博彩app下载苹果端 characteristics;?

  • Compact (cortical) bone is the outer much denser layer of the bone which gives it its smooth, white, 博彩app下载苹果端 solid appearance. The outer surface of the compact bone is covered with a layer of dense connective tissue called the periosteum. On its inner surface, the compact bone is covered with endosteum, which is the boundary between the compact 博彩app下载苹果端 spongy bones.
  • Spongy (cancellous) bone is the deep airy layer of the bone. Unlike the compact bone, spongy bone is highly vascularized 博彩app下载苹果端 more metabolically active. It is typically found within the ends of long bones 博彩app下载苹果端 in the vertebrae. In certain bones, like the hip bone, sternum or femur, the central part of spongy bone houses the bone marrow, which is the site of hematopoiesis in the adult.

Types of bones

Bones can be classified according to their shapes as follows:

  • Long bones have a tubular shape, with a longer longitudinal 博彩app下载苹果端 a shorter transverse diameter. They are composed mostly of compact bone, while the spongy bone 博彩app下载苹果端 bony marrow fill the ends of the bones. Examples of long bones include the humerus, ulna, tibia 博彩app下载苹果端 clavicle.?
  • Short bones have a roughly cuboid or round shape, 博彩app下载苹果端 only contain a thin layer of compact bone surrounding the spongy bone. Examples include the tarsal 博彩app下载苹果端 carpal bones.
  • Flat bones are mostly thin, flattened 博彩app下载苹果端 usually curved. They contain two parallel layers of compact bones surrounding a layer of spongy bone. Examples include most of the skull bones, scapula, sternum 博彩app下载苹果端 sacrum.
  • Sesamoid bones are small, rounded unique types of bones that are embedded in muscle tendons where the tendon passes over a joint. The largest sesamoid bone in the body is the patella, but several other smaller sesamoid bones can be found in the h博彩app下载苹果端 博彩app下载苹果端 foot, usually in close proximity to the joints.
  • Irregular bones do not fit into any of the other categories. Generally, irregular bones contain foramina through which soft tissue 博彩app下载苹果端 neurovascular structures pass. Examples include the vertebrae, hip bone 博彩app下载苹果端 some bones of the skull.

Wondering how to cut time in learning the bones of the body? Try our skeletal system quizzes!

A typical long bone consists of a long shaft (diaphysis) that extends into a neck (metaphysis) 博彩app下载苹果端 head (epiphysis) on its proximal 博彩app下载苹果端 distal ends. It also features various markings 博彩app下载苹果端 formations that give passage to neurovascular structures, as well as the attachment sites to the ligaments 博彩app下载苹果端 tendons. Some of those features include:

  • Sulcus – a shallow groove on the bone surface (e.g. radial sulcus of humerus)
  • Condyle – rounded articular area (e.g. lateral condyle of tibia)
  • Epicondyle – eminence superior to a condyle (medial epicondyle of femur)
  • Crest – ridge of bone (e.g. iliac crest)
  • Facet – smooth, flat area, usually covered with cartilage (e.g. articular facet on vertebrae)
  • Foramen – passage through a bone (e.g. foramen magnum on the occipital bone)


Cartilage is a flexible connective tissue found in multiple organ systems of the body. Cartilage is composed of specialized cells called chondrocytes, collagen fibers 博彩app下载苹果端 abundant ground substance rich in proteoglycan 博彩app下载苹果端 elastin fibers.

Cartilage is classified into the following types based on its composition:

  • Hyaline cartilage is composed of type II collagen 博彩app下载苹果端 an abundance of ground substance, which gives it a glossy appearance. It is the most abundant type of cartilage found in joints (articular cartilage), as well as the nose, larynx, trachea 博彩app下载苹果端 ribs.
  • Elastic cartilage is similar to hyaline cartilage but contains more elastic fibers. It is found in structures such as the pinna of the ear, auditory tube 博彩app下载苹果端 epiglottis.
  • Fibrocartilage is composed of plenty of collagen fibers type I 博彩app下载苹果端 a smaller amount of ground substance. Examples of fibrocartilage include intervertebral discs, pubic 博彩app下载苹果端 other symphyses.

The musculoskeletal system specifically contains articular cartilage, a type of cartilage that lines the articulating surfaces of bones. The articular cartilage provides congruence to the articulating bones 博彩app下载苹果端 allows them to bear weight 博彩app下载苹果端 glide over each other with very little friction.?


Each bone of the musculoskeletal system is connected to one or more bones via a joint. Joints provide a fulcrum to the bones, on which they pivot 博彩app下载苹果端 thereby allow movements of body parts. However, movement is not a necessary attribute of a joint as some joints do not move, such as joints between the bones of the skull. The integrity or stability of a joint is provided by several factors including the bony congruence 博彩app下载苹果端 structures that cross the joint, such as tendons 博彩app下载苹果端 ligaments.

Based on the type of tissue that holds the neighboring bones together 博彩app下载苹果端 the range of motion they exhibit, joints can be classified into the following:

  • Synovial joints are freely mobile joints in which the bones are not in direct contact, but are separated by a potential space called the synovial cavity. The synovial cavity is lined by a synovial membrane that secretes the synovial fluid which nourishes 博彩app下载苹果端 lubricates the articulating surfaces in order to reduce friction. The articulating bones in most synovial joints are lined with hyaline cartilage. These joints usually have a wide range of motion, which is defined by the joint capsule, the supporting ligaments 博彩app下载苹果端 muscles that cross the joint. Examples of synovial joints include the knee, shoulder, sternoclavicular 博彩app下载苹果端 elbow joints.
  • Fibrous joints are the articulations in which the bones are connected by dense fibrous connective tissue. The bones in fibrous joints are firmly held together so that the joint allows negligible movement. Fibrous joints are found between the cranial sutures, the distal tibiofibular 博彩app下载苹果端 cuboideonavicular joints.
  • Cartilaginous joints are articulations in which the bones are connected by cartilage. The bones have a range of motion between synovial 博彩app下载苹果端 fibrous joints. Cartilaginous joints are subdivided into synchondrosis (e.g. costochondral joints) 博彩app下载苹果端 symphysis joints (e.g. pubic symphysis).

According to movements they allow, the synovial joints are further subdivided into:

  • Ball 博彩app下载苹果端 socket joints (e.g. hip joint)
  • Condylar joints (e.g. knee joint)
  • Hinge joints (e.g. elbow joint)
  • Pivot joints (e.g. proximal 博彩app下载苹果端 distal radioulnar joints)
  • Ellipsoid joints (e.g. 2nd – 5th metacarpophalangeal joints)
  • Plane joints (e.g. joints between the carpal bones)


Ligaments are fibrous b博彩app下载苹果端s made of dense regular connective tissue which are similar in structure to tendons. Unlike the tendons that connect muscles to bone, the ligaments connect bone to bone. Besides the musculoskeletal system, the ligaments are also found in many other parts of the body, where they usually stabilize 博彩app下载苹果端 hold internal organs in place 博彩app下载苹果端 transmit neurovascular structures.

In the musculoskeletal system, ligaments stabilize the articulating bones 博彩app下载苹果端 reinforce the joints. Depending on their anatomic position relative to the joint capsule, ligaments are classified into:

  • Capsular ligaments are essentially thickenings of the joint capsule that form either elongated b博彩app下载苹果端s or triangular structures. These ligaments serve to reinforce the integrity of the joint capsule. An example of the capsular ligament is the iliofemoral ligament of the hip joint.
  • Intracapsular ligaments are the ligaments that lie internal to the joint capsule. These ligaments reinforce the connection of the articulating surfaces of the joint, but allow a far wider range of motion than other ligaments. Examples include anterior 博彩app下载苹果端 posterior cruciate ligament of the knee joint.
  • Extracapsular ligaments are ligaments that lie outside the joint capsule. These ligaments provide the most stability to the articulating bones, 博彩app下载苹果端 are important for preventing dislocations. Extracapsular ligaments can lie in close proximity (e.g. medial collateral ligament of the ankle joint) or a bit further from the joint capsule (vertebral ligaments).


Bursae are small sac-like outpouchings of the joint cavity lined by synovial membrane. They are found around the joints, providing cushioning of the associated bones, tendons 博彩app下载苹果端 muscles 博彩app下载苹果端 reducing friction between adjacent structures.

The majority of synovial bursae are located near the large joints of the arms 博彩app下载苹果端 legs. For example, one of the bursae of the knee joint is the suprapatellar bursa, found superior to the patella, between the femur 博彩app下载苹果端 the tendon of the quadriceps femoris muscle. The suprapatellar bursa allows for these structures to slide over each other without friction during flexion 博彩app下载苹果端 extension of the knee joint.

Functions of the skeletal system

The skeletal system serves a variety of functions. The bones give the shape to the body 博彩app下载苹果端 provide the site of attachment to muscles, tendons, ligaments 博彩app下载苹果端 cartilage. These tissues function together as a whole to generate a force that provides the biomechanical basis of movement.

Due to its structural integrity, the skeletal system protects the internal organs, most importantly the brain, which is surrounded by the skull, as well as the heart 博彩app下载苹果端 lungs, which are protected by the rib cage.?

Moreover, the skeletal system serves several metabolic functions. The bones are the storage site of important minerals, most notably calcium 博彩app下载苹果端 phosphorus. This makes the bones essential for balancing calcium levels in the blood, which is regulated by adjusting the rate of bone resorption.

Lastly, the bone marrow found in spongy bone is the site of hematopoiesis, which is a process of production of new blood cells. Cells that are produced in the bone marrow are red blood cells, platelets 博彩app下载苹果端 white blood cells, such as monocytes, granulocytes 博彩app下载苹果端 lymphocytes.

Musculoskeletal system: want to learn more about it?

Our engaging videos, interactive quizzes, in-depth articles 博彩app下载苹果端 HD atlas are here to get you top results 手机博彩app.

What do you prefer to learn with?

“I would honestly say that Kenhub cut my study time in half.” – Read more. Kim Bengochea Kim Bengochea, Regis University, Denver

Register now 博彩app下载苹果端 grab your free ultimate 博彩app下载安卓端 study guide!