Skin, Muscles, and Thorax - PDF

Summary

This document provides detailed information about the structure and function of skin, muscles, and the thorax. It covers the different layers of skin, types of muscles, and the respiratory system. The document is well-illustrated with diagrams to help with understanding the anatomy.

Full Transcript

Muscles and skin
By Dr. Raneen Sweity , Dr Ibraheem AbuAlrub & Dr Muawiya Abu-Rajab
 Skin
Is the largest organ by weight and surface area.
It varies in thickness in different area, thinnest in the eyelids and thickest in
the heels.
It is function as :
Protection: Acts as a barrier against pathogens, chemicals, radiation and
physical injury.
Regulation: Helps regulate body temperature through sweat production
and blood flow.
Sensation: Contains nerve endings that respond to touch, pain,
temperature, and pressure.
Metabolism: Involved in the synthesis of vitamin D when exposed to
sunlight.
Immune Defense: Plays a role in the body's immune response.
Structure of the Skin
It consists of two major layers:
Epidermis: outer, thinner layer, consists of
epithelial tissue, avascular layer.
Dermis: inner, thicker vascular layer.
Epidermis
The outermost layer, primarily composed of keratinized stratified
squamous epithelium. It provides a protective barrier and contains cells
like
Keratinocytes : the most abundant cell filled with keratin which work as
barrier
Melanocytes are cells responsible for melanin production ( the pigment of
the skin)
Langerhans cells which is responsible for immune defense against
pathogens
Tactile epithelial Least numerous of the epidermal cells and are responsible
for detection of touch sensations.
Dermis
The deeper part of the skin.
Composed of dense irregular connective tissue containing collagen
and elastic fibers.
Has great tensile strength (resists pulling or stretching forces).
Has the ability to stretch and recoil easily.
It has many cells including fibroblast, macrophages, nerve cells and
adipocytes.
Blood vessels, nerves, glands, and hair follicles are also embedded in
the dermis.
Subcutaneous layer- hypodermis
Not part of the skin
It is situated beneath the dermis
It is composed of loose connective tissue and adipose (fat) tissue. It
contains collagen and elastin fibers, blood vessels, and nerves.
Attaches the skin to the underlying tissues and organs.
It play roles in heat isolation, energy storage, anchoring and
cushioning the underling structure.
The appendages of the skin
The nails.

Hair follicles.

Sebaceous glands.

Sweat glands.
The nails
They are keratinized plates on the dorsal surfaces of the tips of the
fingers and toes.

The proximal edge of the plate is the root of the nail.

The nail folds is folds of skin that surround and overlap the nail (With
the exception of the distal edge of the plate)

The nail bed is the surface of skin covered by the nail.
Hair and Hair Follicles
Hairs are distributed in various
numbers over the whole surface
of the body, except lips, palms of
the hand and soles of the feet.
Follicles are invaginations of the
epidermis into the dermis from
which hairs grow out.
Hair and Hair Follicles
Hair Shaft: This is the visible part of the hair that extends above the skin. It
consists of three layers:
Hair Follicle: This is the structure beneath the skin that produces hair. It has
several components:
Sebaceous Gland: Associated with the hair follicle, this gland produces
sebum, an oily substance that moisturizes and protects the hair and scalp.
Arrector Pili Muscle: A small muscle attached to the hair follicle. When it
contracts (often due to cold or fear), it causes the hair to stand up, creating
"goosebumps."
Hair Bulb: The base of the hair follicle, where hair growth begins. It
contains cells that divide and grow to form the hair.
Sebaceous Glands
They are situated on the undersurface of the follicles and lie within
the dermis.

Their secretion, the sebum, pour onto the shafts of the hairs.

Sebum is an oily material that helps preserve the flexibility of the
emerging hair.

It also oils the surface epidermis around the mouth of the follicle.
Sweat glands
They are long, spiral, tubular glands
Distributed over the surface of the body, except on
the red margins of the lips, the nail beds, and the
glans penis and clitoris.
The sweat glands are the most deeply penetrating
structures of all the epidermal appendages.
They are responsible for sweat secretion, which
plays major role in human body temperatures
regulation and work as defense against pathogens.
Types of muscles
Skeletal muscle terminology
Muscle : special form of connective tissue that have the propriety of
contractility.
Agonist: The muscle primarily responsible for a specific movement. It
contracts to produce the action.
Antagonist: The muscle that opposes the action of the agonist. It
relaxes when the agonist contracts, allowing smooth movement.
Prime mover: Another term for the agonist; it emphasizes the
muscle's role as the main force behind a specific movement.
Synergist: Muscles that assist the agonist in performing a movement.
They help stabilize the joint and enhance the efficiency of the action.
Skeletal muscle terminology
Origin : is the muscle attachment that moves the least. Usually
located proximally.
Insertion : is the muscle attachment that moves the most. Usually
located distally.
The belly : is the fleshy part of the muscle
Tendons
Aponeurosis : is a flat, sheet-like fibrous tissue that serves a similar
function to a tendon but connects muscles to each other or to the
parts they move, rather than to bones
Main muscles groups- upper limb
Muscle Location action

Supraspinatus Shoulder Upper limb abduction

Infraspinatus Shoulder Lateral rotation of arm

Subscapularis Shoulder Medial rotation of arm

Teres minor Shoulder Lateral rotation of arm

Biceps Arm Elbow flexion

Triceps Arm Elbow extension
Main muscles groups- lower limb
Muscle Location action

Pelvic flour muscles pelvic Support rectum, urethra and
vagina
Iliopsoas Pelvic Hib flexion

Gluteus maximus and the Gluteal region and thigh Hib extension
hamstring muscles
hamstring muscles Thigh Knee flexion

Quadriceps femurs Thigh Knee extention
Thorax
is the region of the body between the neck and the
abdomen
Superiorly the thorax communicates with the neck
and Inferiorly it is separated from the abdomen by
the diaphragm.
Function is to protects the lungs and heart and
affords attachment for the muscles of the thorax,
upper extremity, abdomen, and back.
Thoracic cavity
The cavity of the thorax can be
divided into:
Mediastinum medially which
contains mediastinal structures
(heart, main vessels, thymus,
lymph nodes…etc )
2 pleural cavity which contain
lungs.
The thoracic wall
The thoracic wall is formed:
Posteriorly by the thoracic part of the
vertebral column.
Anteriorly by the sternum & costal
cartilages.
laterally by the ribs & intercostal spaces.
Superiorly by the suprapleural
membrane.
Inferiorly by the diaphragm.
Chest wall
Skin (dermis and epidermis )
Superficial fascia (subcutaneous tissue): a layer of loose connective
tissue that contains blood vessels, fat and nerves. It support overlying
tissue and protect the underlying tissue.
Respiratory accessory muscles such as serratus anterior.
Intercostal Spaces
❑The spaces between the ribs contain three muscles of respiration:
The external intercostal : its fibers runs inferomedially (forward and downward).
The internal intercostal: its fibers runs inferolaterally (backward and downward).
The innermost intercostal muscle its fibers runs inferolaterally (backward and
downward)..
❑The intercostal nerves and blood vessels run between the intermediate and
deepest layers of muscles
They are arranged in the following order from above downward: intercostal vein,
intercostal artery, and intercostal nerve (i.e., VAN).
Chest wall
Endothoracic fascia : it is a layer of loose connective tissue that lays
between innermost intercoastal muscle and partial pleura.
Pleura
It is a sac formed of 2 layers of mesothelium ( special form of
epithelium that is composed of single layer of epithelium)
Visceral Pleura: This layer directly covers the lungs, following their
contours and fissures.
Parietal Pleura: This layer lines the inner surface of the chest wall and
diaphragm, providing a protective barrier.
Pleural Cavity: The space between the visceral and parietal pleura
contains a small amount of pleural fluid, which reduces friction
between the layers during respiration.
Pleura
Functions:
Lubrication: The pleural fluid allows
smooth movement of the lungs during
inhalation and exhalation, preventing
friction.
Pressure Regulation: The pleura help
maintain a negative pressure in the
pleural cavity, which is crucial for lung
expansion.
Protection: The pleura provide a barrier
against infection and other potential
irritants.
Cardiovascular System
It is composed from heart, blood vessels and
blood.
The heart works as a pump that pushes blood to
the organs, tissues & cells.
Blood delivers oxygen and nutrients to every cell
and removes the CO2 and waste products made by
those cells.
Blood is carried from the heart to the rest of the
body through arteries, arterioles, and capillaries &
is returned to the heart through venules and veins.
Heart
The heart is muscular organ weighted 250-400
grams.
It is pyramidal in shape lies within the pericardium
behind the sternum.
It is pyramid in shape, it is base is composed of
great vessels and pyramidal walls are composed
of muscles.
It is composed from 4 champers forming 2
separated pumbs.
Heart
Right atrium is separated from right ventricles by
tricuspid valve.
Left atrium is separated from left ventricle by the
bicuspid valve.
Pulmonary valve separate the right ventricle from
the pulmonary artery.
Aortic valve separate the left ventricle from the
aorta.
The pericardium
A fibro-serous sac that encloses the heart and the
roots of the great vessels lies within the middle
mediastinum.
It restrict excessive movements of the heart &
serves as a lubricated container.
Heart wall
The walls of the heart are composed of:
The epicardium which is the serous pericardium
covers the heart externally.
The Myocardium the cardiac muscle.
The endocardium a layer of endothelium that
lines internally.
Heart valves
1. Tricuspid Valve
Location: Between the right atrium and right ventricle.

2. Pulmonary Valve
Location: Between the right ventricle and the
pulmonary artery.

3. Mitral (Bicuspid) Valve
Location: Between the left atrium and left ventricle.

4. Aortic Valve
Location: Between the left ventricle and the aorta.
Arterial Supply of the Heart
The arterial supply of the heart is provided by:
The right coronary artery.
The left coronary artery.
They arise from the ascending aorta
immediately above the aortic valve.
The coronary arteries and their major
branches are distributed over the surface of
the heart.
Conducting System of the Heart
The normal heart contracts rhythmically at 70-
90 beats/minute in the resting adult.
The rhythmic contractile process originates
spontaneously in the conducting system.
The atria contract first and together, followed
later by the contractions of both ventricles
together.
The slight delay in the passage of the impulse
from the atria to the ventricles allows time for
the atria to empty their blood into the ventricles
before the ventricles contract.
Major blood vessels
Aorta with its major
branches (brachiocephalic
trunk, left common carotid
artery and left subclavian)
Pulmonary arteries
Superior vena cava
Inferior vena cava
Pulmonary veins
Blood circulation
 Lungs
They are two organs located within the
thoracic cavity. Responsible for gas exchange.
Lungs are divided in to lobes and segments.
Fissures divides different lobes.
 Bronchial Tree
Trachea: Divides into the right and left main bronchi at
the level of the carina (around the T4-T5 vertebral level).
Carina: separates the openings of the right and left main
bronchi.
Main Bronchi: Branch into lobar bronchi (secondary
bronchi)—three on the right and two on the left—
corresponding to each lobe.
Segmental Bronchi: Further division into tertiary bronchi,
each supplying a specific bronchopulmonary segment.
Bronchioles: Smaller airways that lack cartilage and lead
to the alveolar ducts and alveoli, where gas exchange
occurs.
Lung lobes and fissures
Blood supply
Pulmonary Arteries: Carry deoxygenated blood
from the right ventricle of the heart to the lungs
for oxygenation.
Pulmonary Veins: Return oxygenated blood to
the left atrium of the heart.
Bronchial Arteries: Supply oxygenated blood to
the lung tissue itself.
Gas exchange