Human Anatomy Lecture 3 PDF

HUMAN ANATOMY LECTURE 3 DR.NIBRAS RIYADH Skin The skin is divided into two parts: the superficial part, the epidermis; and the deep part, the dermis. The epidermis is a stratified epithelium. On the palms of the hands and the soles of the feet, the epidermis is extremely thick, to withstand the wear and tear that occurs in these regions. The dermis is composed of dense connective tissue containing many blood vessels, lymphatic vessels, and nerves. The dermis of the skin is connected to the underlying deep fascia or bones by the superficial fascia, otherwise known as subcutaneous tissue. The appendages of the skin are the nails, hair follicles, sebaceous glands, and sweat glands. Fasciae The fasciae of the body can be divided into two types— superficial and deep and lie between the skin and the underlying muscles and bones. The superficial fascia, or subcutaneous tissue is a mixture of loose areolar and adipose tissue that unites the dermis of the skin to the underlying deep fascia. The deep fascia is a membranous layer of connective tissue that invests the muscles and other deep structures. In the neck, it forms well-defined layers and in the thorax and abdomen, it is merely a thin film of areolar tissue covering the muscles and aponeuroses. Muscle The three types of muscle are skeletal, smooth, and cardiac Skeletal muscles produce the movements of the skeleton; they are sometimes called voluntary muscles and are made up of striped muscle fibers. A skeletal muscle has two or more attachments. The attachment that moves the least is referred to as the origin, and the one that moves the most, the insertion. Under varying circumstances, the degree of mobility of the attachments may be reversed ; therefore, the terms origin and insertion are interchangeable. The fleshy part of the muscle is referred to as its belly. The ends of a muscle are attached to bones, cartilage, or ligaments by cords of fibrous tissue called tendons. Occasionally, flattened muscles are attached by a thin but strong sheet of fibrous tissue called an aponeurosis. A raphe is an interdigitation of the tendinous ends of fibers of flat muscles. Skeletal Muscle Action All movements are the result of the coordinated action of many muscles. A muscle may work in the following four ways: Prime Mover: A muscle is a prime mover when it is the chief muscle or member of a chief group of muscles responsible for a particular movement. For example, the quadriceps femoris is a prime mover in the movement of extending the knee joint. Antagonist: Any muscle that opposes the action of the prime mover is an antagonist. For example, the biceps femoris opposes the action of the quadriceps femoris when the knee joint is extended. Before a prime mover can contract, the antagonist muscle must be equally relaxed. Fixator: A fixator contracts isometrically (i.e., contraction increases the tone but does not in itself produce movement)to stabilize the origin of the prime mover. For example, the muscles attaching the shoulder girdle to the trunk contract as fixators to allow the deltoid to act on the shoulder joint. Synergist: In many locations in the body, the prime mover muscle crosses several joints before it reaches the joint at which its main action takes place. To prevent unwanted movements in an intermediate joint, groups of muscles called synergists contract and stabilize the intermediate joints. For example, the flexor and extensor muscles of the carpus contract to fix the wrist joint, and this allows the long flexor and the extensor muscles of the fingers to work efficiently. Nerve Supply of Skeletal Muscle The nerve trunk to a muscle is a mixed nerve, about 60% is motor and 40% is sensory. Smooth muscle consists of long, spindle-shaped cells closely arranged in bundles or sheets. In the tubes of the body, it provides the motive power for propelling the contents through the lumen. In the digestive system, it also causes the ingested food to be thoroughly mixed with the digestive juices. , fibers are irregularly arranged and interlaced with one another Their contraction is slow and sustained and brings expulsion of the contents of the organs. In the walls of the blood vessels, the smooth muscle fibers are arranged circularly and serve to modify the caliber of the lumen. A. Quadriceps femoris extending the knee as a prime mover, and biceps femoris acting as an antagonist. B. Biceps femoris flexing the knee as a prime mover, and quadriceps acting as an antagonist. C. Muscles around shoulder girdle fixing the scapula so that movement of abduction can take place at the shoulder joint. D. Flexor and extensor muscles of the carpus acting as synergists and stabilizing the carpus so that long flexor and extensor tendons can flex and extend the fingers Depending on the organ, smooth muscle fibers may be made to contract by local stretching of the fibers, by nerve impulses from autonomic nerves, or by hormonal stimulation Cardiac muscle consists of striated muscle fibers that branch and unite with each other. It forms the myocardium of the heart. Its fibers tend to be arranged in whorls and spirals, and they have the property of spontaneous and rhythmic contraction Joints A site where two or more bones come together, whether or not movement occurs between them, is called a joint. Joints are classified according to the tissues that lie between the bones: fibrous joints, cartilaginous joints, and synovial joints The articulating surfaces of the bones are joined by fibrous tissue, and thus very little movement is possible. Example: The sutures of the vault of the skull. allow slight movement during birth, but later in life they become rigid and fixed. A secondary cartilaginous joint is one in which the bones are united by a plate of fibrocartilage and the articular surfaces of the bones are covered by a thin layer of hyaline cartilage like the joints between the vertebral bodies. A small amount of movement is possible. Synovial Joint The articular surfaces of the bones are covered by a thin layer of hyaline cartilage separated by a joint cavity. This arrangement permits a great degree of freedom of movement. The cavity of the joint is lined by synovial membrane, which extends from the margins of one articular surface to those of the other. The synovial membrane is protected on the outside by a tough fibrous membrane referred to as the capsule of the joint. The articular surfaces are lubricated by a viscous fluid called synovial fluid, which is produced by the synovial membrane. In certain synovial joints, for example, in the knee joint, discs or wedges of fibrocartilage are interposed between the articular surfaces of the bones. These are referred to as articular discs. Ligament: A ligament is a cord or band of connective tissue uniting two structures. Commonly found in association with joints, ligaments are of two types. Most are composed of dense bundles of collagen fibers and are unstretchable under normal conditions. The second type is composed largely of elastic tissues and can therefore regain its original length after stretching. Bursae Bursa is a lubricating device consisting of a closed fibrous sac lined with a smooth membrane. Its walls are separated by a film of viscous fluid. Bursae are found wherever tendons rub against bones, ligaments, or other tendons. They are commonly found close to joints where the skin rubs against underlying bony structures, for example, the prepatellar bursa. 1. Which statement is false regarding the anatomical position?* a. The palms face the front. b. The thumbs point away from the body. c. The head is turned to the left side. d. The posture is standing erect. 2. What’s another name for anterior?* The elbow is _________between the wrist a. Dorsal and shoulder.* b. Ventral c. Cranial a. Medial d. Caudal b. Intermediate c. Distal d. Lateral THANK YOU

Human Anatomy Lecture 3 PDF

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