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ITM 101 | PHYSIOLOGY
LESSON # 1 - Introduction to Physiology
1st YEAR | A.Y. 2023-2024 | AUGUST 11, 2023
DR. SAGUIL

❖ The science of human physiology attempts to explain the Origin of Nutrients in the Extracellular Fluid
specific characteristics and mechanisms of the human body that
make it a living being. It links the basic sciences with medicine The Respiratory System provides oxygen for the body and
and integrates multiple functions of the cells, tissues, and organs removes carbon dioxide.
into the functions of the living human being. o The blood picks up oxygen in alveoli, thus acquiring
the oxygen needed by cells.
Cells are living units of the Body o The alveolar membrane is only 0.4 to 2.0 micrometers
thick, and oxygen rapidly diffuses by molecular motion
Cells are the basic living unit of the body. Tissues and organs through this membrane into the blood.
are made up of different cells supported by intracellular The Gastrointestinal Tract digests foods and facilitates
structures. absorption of nutrients.
o The entire body of a single person is composed of 35 o It dissolves nutrients, including car- bohydrates, fatty
to 40 trillion human cells, of which the red blood cells acids, and amino acids, that are absorbed from
constitute over 25 trillion. ingested food into the extracellular fluid of the blood.
Liver metabolizes nutrients changing chemical compositions of
Each cell possesses basic characteristics absorbed substances to more useful forms. It also eliminates
o For the cell to produce energy in the form of certain waste products produced in the body and toxic
Adenosine triphosphate, oxygen reacts with simplest substances that are ingested.
structures of fat, carbohydrates, and proteins. Cells The Musculoskeletal System includes the muscles and bones,
also reproduce and regenerate on their own to tendons, cartilages, and filaments. It is used to obtain food for
maintain the needed amount in the body. These cells nutrition and provides motility for protection.
are suspended in the extracellular fluid (internal
environment), in which its constituents are controlled. Removal of Metabolic End Products

Mechanism of Homeostasis— Maintenance of Nearly Constant Internal Lungs help excrete carbon dioxide from the blood, releasing it to
Environment the lung alveoli. breathing out carries carbon dioxide into the
atmosphere. Carbon dioxide is the most abundant of all the
Homeostasis is the maintenance of nearly constant conditions in metabolism products.
the internal environment. All tissues and organs essentially work Kidneys help regulate blood volume and blood pressure. One of
together to achieve a common goal, to maintain a relatively its main functions is to excrete waste products, slats, water, urea
constant environment. and uric acid, and excess of ions to regulate the Extracellular
The various ions, nutrients, waste products, and other fluid composition.
constituents of the body are normally regulated within a range Liver performs a distinct function in detoxification, the removal
of values, rather than at fixed values. Some ranges may have of ingested drugs and chemicals. The end waste products are
narrow indexes and slight variations may cause fatal outcomes primarily eliminated in the feces.
such as sickness or worse, death.
Regulation of Body Functions
EXTRACELLULAR FLUID TRANSPORT AND MIXING SYSTEM—THE BLOOD
CIRCULATORY SYSTEM The Nervous System is composed of three major parts, sensory
input, central nervous system (integrative portion), and motor
Extracellular fluid is output. It directs the activity of the muscular system and
transported through the body in two controls function of many internal organs.
stages. The first stage is movement of ○ Sensory receptors detect the state of the body and its
blood through the body in the blood surroundings.
vessels. The second stage is movement ○ The central nervous system is composed of the brain
of fluid between the blood capillaries and spinal cord.
and the intercellular spaces between ○ The motor output basically carries out one’s desire.
the tissue cells. The Hormones System controls many metabolic functions of
All the blood in the cells, including growth, rate of metabolism, and activities
circulation traverses the entire circuit associated with reproduction. It is being secreted by the
an average of once each minute when endocrine glands.
the body is at rest and as many as six ○ Thyroid hormone increases the rates of most chemical
times each minute when a person is reactions in all cells, thus helping set the tempo of
extremely active. The capillary walls bodily activity. Insulin con- trols glucose metabolism,
are permeable to most molecules in adrenocortical hormones con- trol sodium and
the blood plasma, with the exception potassium ions and protein metabolism, and
of plasma proteins, which are too large parathyroid hormone controls bone calcium and
to pass through capillaries readily. phosphate.
There is a continuous
exchange of substances between the Protection of the Body
cells and the interstitial fluid and
between the interstitial fluid and the The Immune System provides protection with a certain defense
blood. mechanism. It includes white blood cells, tissue cells derived

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LESSON # 1 - Introduction to Physiology
1st YEAR | A.Y. 2023-2024 | AUGUST 11, 2023
DR. SAGUIL

from white blood cells, the thymus, lymph nodes, and lymph Some Important Constituents and Physical Characteristics of the
vessels that protects the body from foreign invaders. Extracellular Fluid, Normal Range of Control, and Approximate
○ The immune system distinguishes its own cells from Nonlethal Limits for Short Periods
harmful foreign cells and substances; and destroys the Any changes in the levels of these parameters can potentially
invader by phagocytosis or by producing sensi- tized identify disease in the early stages. Diseases are basically
lymphocytes or specialized proteins like antibodies alteration of the normal homeostatic mechanisms, until it
that destroy or neutralize the invader. produces a visible clinical manifestation.
The Integumentary System provides protection against injury
and foreign invaders. Characteristics of Control Systems
○ The skin skin generally comprises about 12% to 15% of
body weight. It includes hair, nails, glands, and other Most control systems of the body operate by negative feedback.
structures. It covers , cushions , and protects the o The degree of effectiveness with which a control
deeper tissues and organs of the body and generally system maintains constant conditions is
provides a bound- ary between the body’s internal determined by the gain of the negative feedback.
environment and the out- side world. o Any stimulus is counteracted by a response that is
○ The integumentary system is also important for going to cause negativity to the initial stimulus.
temperature regulation and excretion of wastes, and it
provides a sensory interface between the body and
the external environment.

Reproduction

The Reproductive System provides formation of new beings like
ourselves, hence it may sometimes not be considered a
homeostatic function, it helps maintain homeostasis holistically.
○ Producing new beings translates to generating new
bodies in which trillions of additional cells can exist in
a well-regulated internal environment.
○ Essentially all body structures are organized to help
maintain the automaticity and continuity of life · Feed-forward control systems anticipate changes.. o The brain uses feed-forward control to cause the
required muscle contraptions.
o Sensory nerve signals from the moving parts inform
the brain, in retrospect, of whether the
inappropriate movement envisaged by the brain
has been performed correctly.
o The brain corrects the feed-forward signal, it sends
to the muscle the next time the movement is
going to be required. This process is called
adaptive control, which is in a sense more or less
a delayed negative feedback control.
· Positive feedback can sometimes cause vicious cycles and death, and
other times it can be useful.
o A system in our body that exhibits the positive
feedback response to what we call perturbation with
changes that amplify the perturbation and therefore
leads to instability rather than stability.
Automaticity of the Body
· Each functional structure, or organ, helps maintain a constant
internal environment.
· As long as homeostasis is maintained, the cells of the body
continue to live and function properly.

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· Each cell benefits from homeostasis and in turn, each cell CELL (PHYSICAL) STRUCTURE
contributes its share toward maintenance of homeostasis.
This is actually a reciprocal interplay that provides Cell contains highly organized physical structures “intracellular
continuous automaticity of the body. organelles” — represent physical structures of chemical
· Each cell contributes its share toward maintenance of aggregates that perform functions in a more efficient manner
homeostasis. than what can be achieved by dispersed chemicals throughout
the fluid matrix.
· Extreme dysfunction leads to death, whereas moderate
dysfunction leads to sickness. Most organelles of the cell are covered by membranes
composed primarily of lipids & proteins
○ Cell membrane
Organization of the Cell ○ Nuclear Membrane
Reconstruction of a typical cell, showing the internal ○ Membrane of ER
organelles in the cytoplasm and nucleus. ○ Membranes of mitochondria, lysosomes, and Golgi
Apparatus
The Protoplasm Lipids in the membranes provide a barrier that impedes
movement of water & water soluble substances from one cell
The protoplasm compartment to another
identifies the substances that Proteins in membranes often provide specialized pathways
make up the cell and these are the “pores” for passage of specific substances through membranes
following.
○ Also as enzymes which catalyze a multitude of
· Water constitutes 70 percent to different chemical reactions
85 percent of most cells.
· Ions/electrolytes (K+, Mg+2,
PO4-3, SO4-2, HCO3-, and small CELL/ PLASMA MEMBRANE
quantities of Nat, Cl-, and Ca+2). 55% proteins, 25% phospholipids, 13% cholesterol, 4% other
o The ions in electrolytes provide the inorganic lipids, and 3% carbohydrates
chemicals for cellular reactions. Basic structure — lipid bilayer with interspersed large globular
· Proteins (10-20%): structural proteins and globular (functional) proteins
proteins, which are mainly enzymes).
o Proteins can be identified as either structural
protein globular functional protein. Take note,
structural proteins, such as collagen, helps in the
structure and formation of the body. In globular
are often enzymes.
· Lipids (2%): phospholipids, cholesterol, triglycerides, and
neutral fats.
o They are often seen also in the cell membrane.
o Fat cells has about triglycerides to up to 95% of the
cell mass. They are representatives of cells that
can be energy storehouses.
· Carbohydrates (1% of total cell mass, 3% in muscles, 6% in
liver): glycogen
o The small amount of carbohydrates in the cells is
usually stored in the form of glycogen, this is an
insoluble polymer of glucose.
3 main types of membrane lipids “glycolipids”

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○ Phospholipids - most abundant, has 2 sides
Outer - (fatty acid portion) hydrophobic and
Physical Structure of the Cell soluble only in fats (e.g. O2, CO2, alcohol);
Cell and Its Organelles are Surrounded by Membranes faces each other
Composed of Lipids and Proteins that: Inner - (phosphate end) hydrophilic and
Surround the cell and its organelles. Some of the soluble in water (e.g. ions, glucose, urea);
principal organelles of the cell are your cell faces interstitial fluid & cell cytoplasm
membrane, the nuclear membrane, the endoplasmic ○ Sphingolipids - derived from the amino alcohol
reticulum, the Golgi apparatus, the mitochondria, sphingosine, functions to protect from harmful
lysosomes, and centrioles. factors, signal transmission, and adhesion sites for
Prevent free movement of water and water-soluble extracellular proteins
substances from one cell compartment to another. ○ Cholesterol - help determine the degree of
Proteins provide pathways (channels) to allow permeability of the bilayer to water- soluble
movement of specific substances through the constituents of body fluids. Also controls much of the
membranes. Many functions of the cell are to control fluidity of the membrane as well.
the trafficking of chemicals and substances, which is Membrane proteins “glycoproteins”
why there is an abundance of cell membranes. ○ Integral proteins - protrude all the way through the
membrane.

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LESSON # 1 - Introduction to Physiology
1st YEAR | A.Y. 2023-2024 | AUGUST 11, 2023
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Provide structural channels “pores” that ○ Uses hydrolytic enzymes to splits organic compounds
allow preferential diffusion of some into two or more parts by combining hydrogen from a
substances over others. water molecule with one part of the compound and
Carrier proteins for transporting substances combining the hydroxyl portion of the water molecule
that otherwise could not penetrate the lipid with the other part of the compound — to become
bilayer (e.g. through active transport) highly diffisuble (e.g. protein hydrolyzed to form
Receptors/ second messengers relaying the amino acids)
signal from the extracellular part of the Peroxisomes
receptor to the inte- rior of the cell. ○ Formed by self-replication (or perhaps by budding off
○ Peripheral proteins - attached only to one surface and from the smooth SR)
do not penetrate all the way through; function almost ○ Contain oxidases — combining oxygen with hydrogen
entirely as enzymes or as controllers of transport of ions derived from different intracellular chemicals to
substances through cell membrane pores. form hydrogen peroxide (H2O2) — which is a highly
Membrane carbohydrates “glycocalyx” - loose carbohydrate oxidizing substance and is used in association with
(proteoglycans) coat on the outside of the entire surface of the catalase — to oxidize/ catabolize many substances
cell that might otherwise be poisonous to the cell
○ overall negative surface charge that repels other Secretory Vesicles
negatively charged objects ○ formed by the ER — which pinch off to be Golgi
○ attaching cells to one another through glycocalyx apparatus — Golgi apparatus releases into the
○ act as receptors for binding hormones cytoplasm in the form of storage vesicles named
○ Some moieties enter into immune reactions “secretory vesicles/secretory granules”
CYTOPLASM ○ store protein proenzymes (enzymes that are not yet
Cytosol - jelly like fluid portion of the cytoplasm and contains activated) — secreted later through the outer cell
mainly dissolved proteins, electrolytes, and glucose membrane into the pancreatic duct and then into the
Dispersed in the cytoplasm are neutral fat globules, glycogen duodenum, where they become activated and
granules, ribosomes, secretory vesicles, and five especially perform digestive functions on the food in the
important organelles: intestinal tract
○ Endoplasmic reticulum (ER)
○ Golgi apparatus
○ Mitochondria
○ Lysosomes
○ Peroxisomes
Endoplasmic Reticulum
○ a network of tubular structures (cisternae) and flat
vesicular structures in the cytoplasm
○ Manufacture: proteins, carbohydrates, lipids
○ helps process molecules made by the cell and
transports them to their specific destinations
1. Rough (Granular) ER + Ribosomes
- Attached with minute granular particles
“ribosomes — composed of a mixture of
RNA and proteins; they function to
synthesize new protein molecules in the cell
2. Smooth (Granular) ER
- functions for the synthesis of lipid Mitochondria
substances and for other processes of the ○ Powerhouse; self-replicative
cells promoted by intrareticular enzymes ○ Mainly for chemical reaction of O2 with 3 types of
Golgi Apparatus foods: glucose (carbo), fatty acid (fats), amino acids
○ composed of four or more stacked layers of thin, flat, (proteins)
enclosed vesicles lying near one side of the nucleus ○ 2 Lipid Bilayer protein membranes
○ Function in association with ER — small transport Outer membrane
vesicles/ ER vesicles continually pinch off from the ER Inner membrane
and shortly thereafter fuse with the Golgi apparatus Cristae - infoldings of the inner
—> transported substances from ER are processed in membrane form shelves or tubules
the Golgi apparatus to form lysosomes, secretory which oxidative enzymes are
vesicles, and other cytoplasmic components attached;
Lysosomes the inner cavity of the
○ vesicular organelles that form by breaking off from the mitochondrion is filled with a
Golgi apparatus that provide an intracellular digestive matrix that contains large
system to digest the following: quantities of dissolved enzymes
damaged celllar structures; necessary for extracting energy
food particles ingested by the cell; from nutrients
unwanted matter such (e.g. bacteria) ○ Citric Acid Cycle: synthesizes a high-energy substance
called adenosine triphosphate (ATP) — which is then

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LESSON # 1 - Introduction to Physiology
1st YEAR | A.Y. 2023-2024 | AUGUST 11, 2023
DR. SAGUIL

transported out of the mitochondrion and diffuses FUNCTIONAL SYSTEMS OF THE CELL
throughout the cell to release its own energy — end
products are H2O & CO2 ENDOCYTOSIS — Ingestion by the Cell
Diffusion
- involves simple movement through the membrane caused by
the random motion of the molecules of the substance.
- Substances move through cell membrane pores or, in the case of
lipid-soluble substances, through the lipid matrix of the
membrane.
Active transport
- involves actually carrying a substance through the membrane by
a physical protein structure that penetrates all the way through
the membrane
Specialized function of the cell membrane that allows large
particles enter the cell
A. Pinocytosis - ingestion of small globules of
extracellular fluid, forming minute vesicles in the cell
cytoplasm
- only means whereby most large
macromolecules, such as most proteins, can
Cell Cytoskeleton — Filament & Tubular Structures enter cells; process also requires the
○ Rigid and have large numbers of filamentous or presence of calcium ions in the extracellular
tubular structures, which are composed of fibrillar fluid
proteins synthesized by ribosomes in the cytoplasm - Uses specialized protein receptors on the
○ Intermediate filaments small pits (coated pits) on the outer surface
strong ropelike filaments that often work of the cell of the membrane, that are
together with microtubules, providing specific for the type of protein that is to be
strength and support for the fragile tubulin absorbed
structures - On the inside of the cell membrane beneath
Types: desmin filaments in muscle cells, these pits is a latticework of fibrillar protein
neurofilaments in neurons, and keratins in called clathrin — which invaginates inward,
epithelial cells and fibrillar proteins surrounding the
○ Microtubules invaginating pit cause its borders to close
special type of stiff filament composed of over the attached proteins, as well as over a
polymerized tubulin molecules used in all small amount of extracellular fluid
cells to construct strong tubular structures - invaginated portion of the membrane breaks
Makes up the centrioles & mitotic spindles away from the surface of the cell, forming a
participate in cell division, allows cells to pinocytotic vesicle inside the cytoplasm of
move, and provides a tracklike system that the cell
directs the movement of organelles in the
cells
Nucleus
○ Control center — sends messages to the cell to grow
and mature, replicate, or die
○ Contains large quantities of DNA which comprise
genes — determine the characteristics of the cell’s
proteins, intracellular enzymes and nuclear activities;
also control and promote cell reproduction (mitosis)
Nuclear membrane/ Nuclear envelope
two separate bilayer membranes,
separates the nucleus from the
cytoplasm
Penetrated with several thousand
nuclear pores B. Phagocytosis - ingestion of large particles, such as
Nucleoli bacteria, whole cells, or portions of degenerating
simply an accumulation of large tissue.
amounts of RNA and proteins of - Only certain cells have the capability of
the types found in ribosomes; not phagocytosis—notably, tissue macrophages
surrounded by a membrane and some white blood cells.
RNA is used in conjunction with - initiated when a particle such as a
specific proteins to assemble bacterium, dead cell, or tissue debris binds
“mature” ribosomes that play an with receptors on the surface of the
essential role in forming proteins phagocyte.
- In the case of bacteria, each
bacterium is usually already

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attached to a specific antibody
which attaches to the phagocyte
receptors — dragging the
bacterium along with it.
- This intermediation of antibodies
is called opsonization
- Phagocytosis occurs in the following steps:
1. The cell membrane receptors attach to the
surface ligands of the particle.
2. The edges of the membrane around the
points of attachment evaginates outward to
surround the entire particle; then,
progressively more and more membrane
receptors attach to the particle ligands. All
this occurs suddenly in a zipper-like manner
○
to form a closed phagocytic vesicle.
3. Actin and other contractile fibrils in the SYNTHESIS OF CELLULAR STRUCTURES BY ER AND GOLGI
cytoplasm surround the phagocytic vesicle APPARATUS
and contract around its outer edge, pushing The structures of the cell are synthesized by the ER and Golgi Apparatus.
the vesicle to the interior Many of the products of ER, which are proteins, are further processed in
4. The contractile proteins then pinch the stem the cytoplasm.
of the vesicle so completely that the vesicle
separates from the cell membrane, leaving Granular ER - responsible for Cytoprotein formation. The
the vesicle in the cell interior in the same ribosomes synthesize the protein and exclude them to the wall
way that pinocytotic vesicles are formed. of the ER to Endoplasmic vesicles and tubules, which is now an
Endoplasmic Matrix.
When proteins enter the ER, the enzymes in the ER will cause
rapid changes including the congregation of carbohydrates to
form glycoproteins. In addition, the proteins are often
cross-linked, folded and shortened to form compact molecules.
The endoplasmic reticulum also synthesizes lipids. Small ER
vesicles (transport vesicles) continually break from the smooth
endoplasmic reticulum. Most of these vesicles migrate to golgi
apparatus.
The golgi apparatus processes the substances formed in the ER
(there is post-processing). The golgi apparatus performs the
compaction and processing of the products of the endoplasmic
reticulum, and small and large vesicles would break out from the
golgi apparatus and carry them to secretory substances. So the
transport instantly fuse with the golgi apparatus.

Lysosomes - digests the Pinocytic and Phagocytic foreign
substances in the cell. These are produced by the Endoplasmic
Reticulum, and often globular and enzymatic in function.

As soon as Pinocytic or Phagocytic vesicles are formed,
Lysosomes are attached to vesicles and empty the Digestive
Enzymes. This is now referred to as the Digestive Vesicle, and
they have hydrolyzing properties. It will destroy proteins,
carbohydrates, lipids, and other substances in the vesicle.

The products of digestion are often small molecules. Proteins EXTRACTION OF ENERGY FROM NUTRIENTS BY THE
end up being Carbohydrate, Carbohydrates end up being MITOCHONDRIA
Glucose. This can diffuse from the membrane of the vesicle and Almost all systems in the body are dependent on the mitochondrion
go to the cytoplasm. because the carbohydrates are going to be converted to glucose by the
digestive tract, and they will reach the liver before they reach the cell.
Any undigested substances are left behind in the form of
residual body that is excreted through the cell membrane by a
reverse endocytosis (exocytosis), which is basically the opposite
of endocytosis.

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LESSON # 1 - Introduction to Physiology
1st YEAR | A.Y. 2023-2024 | AUGUST 11, 2023
DR. SAGUIL

The principal substances from which cells extract energy are: Acetyl-CoA as a compound is formed in the mitochondrial
1. Oxygen matrix. Now this substance is then acted on by another enzyme
2. Carbohydrates, fats, and amino acids, which react with or series of enzymes in the process called citric acid cycle.
oxygen.

Almost all of the carbohydrates are converted to glucose by the
digestive tract and liver before they reach the cell.
Proteins are converted to amino acids and fats to fatty acids, but
inside the cell, these substances react chemically with oxygen
under the influence of enzymes that control the rate of reaction
and channel the released energy in the proper direction.

This process, the oxygen reactions, occurs inside the mitochondria and
energy released is used in the form of Adenosine Triphosphate (ATP).

In the Citric Acid Cycle, Acetyl-CoA are split into hydrogen ions
and carbon dioxide. The hydrogen ions are highly reactive and
eventually combine with oxygen that has diffused into the
mitochondria.

This reaction releases a tremendous amount of energy that is
used to convert large amounts of ADP to ATP. This requires large
numbers of protein enzymes that are actually part of the
mitochondria.

The initial event in ATP formation is the removal of the
electrons, the hydrogen atom, thereby converting it to hydrogen
ion. The terminal event of the hydrogen ion is moving through
large globular proteins called ATP synthetase, which protrudes
to the membranes of the mitochondria, which presents in the
The ATP or the adenosine triphosphate is a nucleotide mitochondrial matrix.
composed of nitrogenous base adenine, the pentose sugar
ribose, and three phosphate radicals. The last 2 phosphate The enzyme ATP synthetase uses the energy and movement of
radicals are connected with the remainder through high energy the hydrogen ions to effect the conversion of ADP to ATP, and
phosphate bonds. These bonds contain 12,000 calories of hydrogen ions combined with oxygen to form the by-product
energy per molecule of ATP under usual conditions the high water.
energy phosphate bonds are labile so they can be split instantly
whenever energy is required. The newly formed ATP is transported out of the mitochondrion
to all parts of the cell, where it synergizes the function of the
When ATP releases its energy, a phosphoric acid radical is spit cell. This is called Chemosmotic mechanism of ATP formation.
away, and adenosine diphosphate is going to be form the energy
that is derived from cell nutrients calls the ATP and phosphoric
acid to combine to form new ATP, which, in this case the entire
process actually continues over and over again for the body.

So most of the ATP produced in the cell is through mitochondria.
After entering the cell, the glucose is subjected to glycolysis to
form by pyruvic acid.
Less than 5% of the ATP forming the cell occurs actually via
glycolysis because there are other forms of ATP production,
particularly in fat.
Pyruvic acid as a product of glycolysis also comes from the
degradation of carbohydrates, fatty acids, and amino acids,
which are eventually all converted to Acetyl-CoA.

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ATP IS USED FOR MANY CELLULAR FUNCTIONS
SATP is mainly used in many cellular processes such as:
1. membrane transport as it occurs in the sodium potassium pump
which transports sodium out of the cell and potassium into the
cell
2. the synthesis of chemical compounds throughout the cell;
3. mechanical work, as occurs with the contraction of muscle fibers
or with ciliary and ameboid motion.

LOCOMOTION AND CILIARY MOVEMENTS OF CELLS

There are specialized mechanisms like locomotion and ciliary movement.
The most obvious type here is basically the skeletal muscle, cardiac
muscle, smooth muscle, which constitutes about 50% of the body.

Two other movements occur in other cells such as Ameboid locomotion
and ciliary movement, which can be seen in some of the epithelia of our
lining epithelium of the body.

1. AMEBOID MOVEMENT
The Amoeboid movement is typically seen in white
blood cells. This amoeboid movement is related to the
surroundings.
An example of amoeboid movement is the movement
of white blood cells through tissues. Typically,
amoeboid motion begins with the protrusion of
pseudopodium from one end of the cell. This results in
a continuous exocytosis, which informs a new cell
membrane at the leading edge of the pseudopodium
and continual endocytosis of the membrane in the
rear portions of the cell. The white blood cells reacts
to the substances produced by other tissues

Questions and Answers
Q: Is it worse for secondhand smokers?
Cigarette smoke is irritating to the respiratory system because it
contains numerous chemicals such as formaldehyde (formalin) and
carbon monoxide which are damaging to the respiratory epithelium.
That’s why they say that second-hand smoking is also dangerous since the
combustion of the cigarette along with the smoke contains these
hazardous materials.

Q: Can ciliary movement be restored after the individual has stopped
smoking?
Up to a certain point. When you irritate an epithelium or lining
cell of the body such as the respiratory epithelium, it gets replaced by
another type of cell. Ordinarily, the upper respiratory system is lined by
pseudostratified columnar epithelium. If it is irritated, it gets replaced by
2. CILIARY MOVEMENT squamous epithelium which is more resistant to irritation. This is the
A whip-like movement of the cilia on the surface of reason why the skin is made up of squamous epithelium. That’s why one
the cells. It occurs in two places of the body: of the common cancers of the lungs is squamous cell carcinoma. This
a. The respiratory airways process is called metaplasia. One type of cell is replaced by another.
- In the nasal cavity and the lower
respiratory airways, the movement of cilia Q: Could positive feedback and negative feedback occur simultaneously?
causes a layer of the mucus towards the Or is negative feedback always prioritized?
pharynx at the rate of 1 cm per minute. This Both occur simultaneously. One example of negative feedback is
way the passages with mucus or particles when a woman is pregnant, she does not ovulate. Before pregnancy,
that become entrapped on a mucus are ovulation occurs. During the process of ovulation, the body is subject to
continuously cleared. hormones such as estrogen and progesterone. Two other hormones in the
b. The uterine tubes of the female brain include the follicle stimulating hormone and luteinizing hormone.
- movement of egg cell from the ovary Luteinizing hormone increases so ovulation occurs. In that process, it is
reaches its destination in the uterus. sequential. Producing egg cells is positive feedback while pregnancy is

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1st YEAR | A.Y. 2023-2024 | AUGUST 11, 2023
DR. SAGUIL

negative feedback since ovulation stops. This can also happen in the
thyroid gland. Positive feedback is needed to produce thyroid hormone. To
prevent it from getting out of control, you also need negative feedback.

Q: What about people who vape? Is the effect similar to their cilia?
It actually could be worse than smoking because there are also
chemicals in that which should not be inhaled. The chemical making it
smell pleasant is fat-based which can be deposited in the lungs. Vaping
still irritates the lungs due to combustion.

Q: Regarding the executive check-up, is it required for those aged 40+
and is there any program for a free/discounted check-up?
Executive check-up is not covered by “usual healthcare”. It is not
necessarily diagnostic but it is preventive. That is why it is expensive.
Wellness programs of the gov’t can be a crude way of knowing if someone
has an illness but for executive check-ups, there is no program. Executive
check-ups can reveal hidden illnesses that are not yet felt. This is a good
thing but not everyone can afford it. With our current technology, we can
know through genetic testing which diseases we are likely to develop.

Q: Is there any other function of the cilia in the uterus aside from guiding
the egg to the uterus?
The egg must be guided to the uterus or else it goes to the
abdomen. This in itself is a major function. This is its main function.

Q: Does the tail of a sperm count as a form of cilia?
No, the tail of a sperm is a flagellum. Flagella are used for
movement of the cell itself while cilia are used for movement of particles.
They have different structures and microtubular components.

Q: Is the cilia hair?
Something to note is that ciliated cells in the ear are called hair
cells. But they are not hair.

Q: Mechanism for water intoxication?
It can happen but that is a topic for another day. The simplest
explanation is that the body maintains water and electrolytes. If you take
in too much water, it will mess up the normal concentrations which is
dangerous. You can even get too much oxygen. Electrolytes are very
important.

101 INTRODUCTION TO MEDICINE | PHYSIOLOGY
AYURA 2027 9
ITM 101 | PHYSIOLOGY
LESSON # 1 - Introduction to Physiology
1st YEAR | A.Y. 2023-2024 | AUGUST 11, 2023
DR. SAGUIL