AS11-Lec2-External-Anatomy-An-Orientation.ppt (1).pdf

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Chapter 2. Anatomy &
Physiology of Farm Animals:
External Anatomy

2.1. Directional terms
2.2. Main body divisions
2.3 Integumentary System
Objectives:
 For overview of Anatomy & Physiology:
1. Define Anatomy & Physiology
2. Explain how anatomy and physiology are
related.

 Identify anatomical parts of the animal as
well as discuss its physiology.
 Homeostasis:
1. Define homeostasis and explain its
importance;
2. Define negative feedback and describe its role
in maintaining homeostasis and normal body
function.

 The language of anatomy:
1. Describe the anatomical position verbally or
demonstrate it;
2. Use proper anatomical terminology to
describe body directions, surfaces and body
planes;
 An Overview of Anatomy &
Physiology
 Anatomy (Greek words tomy - to cut &
ana – apart)
-study of structure & shape of the body/ body
parts & their relationship to one another.
 Gross Anatomy (Macroscopic
Anatomy)
-study of macroscopic body structures.
 Histology (Microscopic Anatomy )
-study of minute bodily structures with an aid
of a magnifying lens or microscope.
Basic approaches to the study of
Anatomy
A. Systemic anatomy – study of the body by
systems. e.g. Integumentary system, Circulatory
System, Nervous System

B. Regional anatomy – study of the organization
of the body by areas/ region; all systems are
studied at the same time.

C. Surface anatomy- uses superficial structures to
locate deeper structures; anatomic imaging a
noninvasive method for examining deep structures.
Physiology
 The study of how body and its parts work or
function.
 (physio = nature; ology = the study of)

Major Goals of Physiology:
1) To understand & predict the body’s responses to
stimuli, &
2) To understand how the body maintains
conditions w/in a narrow range of values in the
presence of a continually changing environment.
 Physiology divided according to:

1) The organisms involved, e.g. Physiology, or
2) The levels of organization w/in a given
organism, e.g., Cellular & Systemic
Physiology
 Relationship b/w Anatomy &
Physiology

 Anatomy & Physiology - always related i.e.,
body parts form a well organized unit;
each part w/ specific task to do to make
body operate as a whole.
Characteristics of Life
1. Organization – condition in w/c all
parts of an organism have specific
relationships to each other;
 Levels of Structural Organization
1.Chemical 2. Cellular Level – Molecules –
level – associate in specific ways to form
simplest level organelles, e.g. nucleus w/c
Atom- minute make up Cells
building blocks
of matter;
combines to
form
molecules. 3. Tissue Level – similar cells/
surrounding materials make up
tissues

6. Organism
Level
5. Organ -
System
Level

4. Organ
Level
2. Metabolism – ability to use energy to
perform vital functions.

3. Responsiveness/ Irritability – ability to
sense changes in the environment &
make the needed adjustments that
help maintain life.
4. Growth – increase in size of all or part
of an organism
a) Hyperthrophy – increase in size of a cell
/ organ.
b) Hyperplasia – increase in the number of
cells

5. Development – includes the changes an
organism undergoes through time.

6. Reproduction – formation of new cells
or new organisms.
Homeostasis
 Body’s ability to maintain stable internal
condition (dynamic state of equilibrium or
balance).

 Attained when body needs are adequately
met & is functioning smoothly.
Homeostatic Control Mechanisms
 Communication w/in the body
essential for homeostasis;

 Accomplished by:
a) Neural (electrical signals delivered
by the nerves) & Hormonal
Control Systems (blood-borne
hormones) as info. carriers;
Three Components:
a. Receptor – type of sensor that monitors
& responds to changes in the environment;

- responds to changes, e.g., stimuli by
sending information (input) to 2nd element
(control center)

- information flows from receptor to
control center via afferent pathway.
b. Control Center
- determines the level (set point) at w/c a
given variable is to be maintained;

- analyzes the information it receives, &

- determines appropriate response.
c. Effector
-provides means for control center’s
response (output) to a given stimulus.

- info flows from control center to effector
via efferent pathway
 (3) Input: 4) Output:
Information sent Information sent
along afferent along efferent
pathway pathway to activate

(2) Change
detected by (5) Response of
receptor effector feeds back
to influence
magnitude of
(1) Stimulus: stimulus & returns
Produces change in variable to
variable homeostasis
Negative Feedback Mechanisms
- functions to maintain homeostasis;

- any deviation from the set point is
made smaller or is resisted;

- do not prevent variation but maintain
variation w/in normal range.
e.g. maintenance of normal B.P.
Terminology and the Body
Plane
 Body Positions
 Anatomical position refers to a
person standing erect with face
directed forward, upper limbs hanging
to the sides, & palms of the hands
facing forward.

A person is supine when lying face
upward & prone when lying face
downward.
 Super

Superior superior

Proximal

Posterior
Infe
(Dorsal) inferior
Distal

Inferior

Proximal

Distal
Proximal

Figure 1.7 Directional Terms
All directional terms are in relation to a person in the anatomic position: a person standing erect with the face directed forward, the arms
sides, and the palms of the hands facing forward.
 position of the body can affect description
of body parts relative to each other.

 e.g. In anatomic position, the elbow is
above the hand, but in supine or prone
position, the elbow & hand are at the same
level.
 Directional Terms
 Right & left are retained as directional terms in
anatomic terminology.

 Up is replaced by superior,

 down by inferior,

 front by anterior (means that which goes before,
& ventral means belly)

 back by posterior (that which follows, & dorsal
means back).
 Proximal - nearest,
 Distal – distant;

terms used to refer to linear structures,
(e.g. limbs) in w/c one end is near some
other structure & the other end is farther
away.
e.g. each limb is attached at its :
 proximal end to the body &
 distal end (hand) is farther away.
 Medial - toward the midline;

 Lateral - away from the midline.
e.g.The nose is located in a medial position in
the face, and the eyes are lateral to the nose.

 Superficial -refers to a structure close to
the surface of the body;
e.g. The skin is superficial to muscle & bone.

 Deep - toward the interior of the body.
Table 1. DIRECTIONAL TERMS FOR HUMANS
Terms Etymology Definition Example
Right Toward the The right ear
body's right
side
Left Toward the The left ear
body's left
side
Inferior Lower Below The nose is
inferior to the
forehead
Superior Higher Above The mouth is
superior to
the chin
Table 1. DIRECTIONAL TERMS (cont.)
Terms Etymology Definition Example
Anterior To go Toward the The teeth
before front of the are anterior
body to the throat
Posterior Posterus, Toward the The brain is
following back of the posterior to
body the eyes
Dorsal Dorsum, Toward the The spine is
back back dorsal to the
(synonymous breastbone
with
posterior)
Table 1. DIRECTIONAL TERMS (cont)

Terms Etymology Definition Example

Ventral Venter, belly Toward the The navel is
belly ventral to the
(synonymous spine.
with anterior)
Proximal Proximus, Closer to a The
nearest point of phalanges is
attachment proximal to
the wrist.
Distal di + sto, to Farther from a The knee is
be distant point of distal to the
attachment hip.
Table 1. DIRECTIONAL TERMS (cont)

Terms Etymology Definition Example

Lateral Latus, side Away from The nipple is
the midline lateral to the
of the body breastbone
Medial Medialis, Toward the The bridge of
middle middle or the nose is
midline of medial to the
the body eye.
Superficial Superficialis, Toward or on The skin is
surface the surface superficial to
muscle
Table 1. DIRECTIONAL TERMS (cont.)
Terms Etymology Definition Example
Deep Deop, deep Away from The lungs
the surface, are deep to
internal the ribs.
 Body Parts and Regions
A. Upper limb : arm, forearm, wrist & hand.
a.1 Arm - shoulder to the elbow,
a.2 Forearm - elbow to the wrist.

B. Lower Limb: thigh, leg, ankle, & foot.
b.1 Thigh - hip to knee
b.2 Leg - knee to ankle
C. The Central Region of the Body
consists of the head, neck, & trunk.

c.1 Trunk divided into:
c.1.1 Thorax (chest),
c.1.2 Abdomen (region b/w thorax & pelvis)
c.1.3 Pelvis (inferior end of trunk associated
w/ hips).
 Frontal (forehead)
Cephalic Orbital (eye)
Otic (ear)
(head) Nasal(nose) Buccal (cheek)
Oral (mouth)—— Mental (chin)
Cervical (neck) -
Clavicular (collar bone)

Pectoral (chest)
Thoracic Axillary (arm pit)
(thorax)
Sternal (breastbone) Upper
Mammary (breast) Brachial (arm) limb
Antecubital (front of elbow)
Trunk
Abdominal (abdomen)
Umbilical (navel) Antebrachial (forearm)

Pelvic (pelvis)
Inguinal (groin) Carpal (wrist)
Pubic (genital)
Palmar (palm) manual
— Manual (hand)
Digital (fingers)
Coxal (hip)

Femoral (thigh)

Patellar (kneecap)

Crural (leg) Lower
— Lower limb
limb

Talus (ankle)
Dorsum (top of foot) — Pedal (foot) Pedal
Digital (toes)
(a) (foot)

Figure 1.8 Body Parts and Regions
The anatomic and common (in parentheses) names are indicated for some parts and regions of the body. (a) Anterior view.
 Cranial (skull)
Occipital (base of skull)
Nuchal (back of neck)

Acromial (point of shoulder)
Scapular
(shoulder blade)
Dorsal Vertebral
(back) (spinal column)

Olecranon (point of elbow) UPPER LIMB
Lumbar (Loin)
TRUNK -
Sacral (between hips)

Dorsum (back of hand)

Gluteal(buttock)

Perineal (perineum)

Popliteal (hollow behind knee)

Sural (calf)
LOWER LIMB

Plantar (sole)
Calcaneal (heel)

Figure 1.8 Body Parts and Regions
(continued)
Abdomen:
 subdivided superficially into four
quadrants by two imaginary lines—one
horizontal & one vertical—that intersect at
the navel.

 Quadrants formed are:
a) right upper quadrant
b) left upper quadrant
c) right lower quadrant &
d) left lower quadrant
Subdivisions of the Abdomen
Lines are superimposed over internal organs to demonstrate the relationship of the
organs to the subdivisions, (o) Abdominal quadrants consist of four subdivisions,
Planes (imaginary flat surfaces)
 Sagittal plane - runs vertically thru the body &
separates it into right & left parts.

 Median plane - sagittal plane that passes thru
the midline of the body & divides it into equal right
& left halves.

 Transverse/ Horizontal plane -runs parallel to
the surface of the ground & divides the body into
superior & inferior parts.

 Frontal /Coronal plane - runs vertically from
right to left & divides the body into anterior &
posterior parts.
 Frontal section
through the right hip

Figure 1.10 Planes of Section of the Body
Planes of section through the whole body are indicated by "glass" sheets.
Actual sections through the head (viewed from the right), abdomen (inferior
view), and hip (anterior view) are also shown.
 Organs often sectioned to reveal their
internal structure.

 A cut thru the long axis of the organ is a
Longitudinal Section.

 A cut at a right angle to the long axis is a
Transverse / Cross section.

 If a cut is made across the long axis at other
than a right angle, it is called an Oblique
Section.
 Intestine

Transverse section Oblique section
Figure 1.11 Planes of Section Through an Organ
Planes of section through the small intestine are indicated by "glass"
sheets. Although the small intestine is basically a tube, the sections appear
quite different in shape.
 Body Cavities
 body contains many cavities.
 Some such as the nasal cavity open to
the outside of the body, and some do not.
The trunk contains three large cavities that do
not open to the outside of the body:
 Three cavities:
a) Thoracic cavity
b) Abdominal Cavity,
c) Pelvic cavity
 Mediastinum
(divides
thoracic
cavity) Thoracic
cavity

Diaphragm
Abdominal
Abdominopelvic cavity
cavity

Figure 1.12 Trunk Cavities
(a) Anterior view showing the major trunk cavities. The diaphragm separates the thoracic cavity from the abdominal cavity. The mediastinum, w
the heart, is a partition of organs dividing the thoracic cavity, (b) Sagittal section of the trunk cavities viewed from the left. The dashed line show
between the abdominal and pelvic cavities. The mediastinum has been removed to show the thoracic cavity.
a) Thoracic cavity - surrounded by the rib cage;
separated from abdominal cavity by the muscular
diaphragm.

 divided into right & left parts by a median
structure called the mediastinum.

 Mediastinum - a partition containing the heart,
thymus, trachea, esophagus & other structures.

 The two lungs are located on either side of the
mediastinum.
b) Abdominal Cavity - bounded primarily by the
abdominal muscles; contains the stomach,
intestines, liver, spleen, pancreas & kidneys.

c) Pelvic Cavity - a small space enclosed by the
bones of the pelvis; contains the urinary bladder,
part of the large intestine, & internal reproductive
organs.

 The abdominal & pelvic cavities are not physically
separated & sometimes are called the
abdominopelvic cavity
 THE END
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