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Human Body
Anatomy
Physiology

Princess Lilac Velasquez-Dacanay, RN, MD
College of Nursing
University of Assumption
Systems of the Human Body
1. Integumentary
System
Systems of the Human Body
2. Skeletal System
Systems of the Human Body
3. Muscular System
Systems of the Human Body
4. Nervous System
Systems of the Human Body
5. Endocrine System
Systems of the Human Body
6. Cardiovascular System
Systems of the Human Body
7. Lymphatic System
Systems of the Human Body
8. Respiratory System
Systems of the Human Body
9. Digestive System
Systems of the Human Body
10. Urinary System
Systems of the Human Body
11. Reproductive System
BASIC LIFE PROCESSES

METABOLISM

RESPONSIVENESS

MOVEMENT

GROWTH

DIFFERENTIATION

REPRODUCE
Homeostasis
Body Fluids
FEEDBACK SYSTEMS
FEEDBACK SYSTEMS

Negative Feedback

Positive Feedback
Quick
Review

What is the main goal of a positive
feedback?
a. To restore homeostasis
b. To return body parameter to the setpoint
c. To intensify body parameters until there is
an interruption
Quick
Review

TRUE or FALSE: Homeostasis is the
maintenance of dynamic internal
stability

TRUE
HOMEOSTATIC IMBALANCE

ENVIRONMENT GENETICS

LIFESTYLE AND PHYSIOLOGIC
BEHAVIOR CHANGES
 DISORDER DISEASE
→ abnormality of structure → recognizable set of signs
or function and symptoms

❖ Local disease
❖ Systemic Disease
 SIGNS SYMPTOMS
→ objective → subjective

→ observable, measured → not apparent to

→ rash, fever, blood observer

pressure, edema → headache, nausea,
anxiety
Anatomical
Terminologies
 “
“You taught me a secret language I can’t
speak with anyone else…”

” 24
PRONE POSITION SUPINE POSITION
REGIONAL NAMES
SUPERIOR INFERIOR
ANTERIOR POSTERIOR
MEDIAL LATERAL

INTERMEDIATE
IPSILATERAL CONTRALATERAL
PROXIMAL DISTAL
SUPERFICIAL DEEP
DORSAL PALMAR/PLANTAR
BODY CAVITIES
BODY CAVITIES
ABDOMINOPELVIC REGIONS AND
QUADRANTS
ABDOMINOPELVIC REGIONS AND
QUADRANTS
BODY MOVEMENTS
BODY MOVEMENTS
BODY MOVEMENTS
BODY MOVEMENTS
BODY MOVEMENTS
BODY MOVEMENTS
BODY MOVEMENTS
BODY MOVEMENTS
BODY MOVEMENTS
Quick
Review

What term best describes a face-down
orientation?
a. Inferior
b. Prone
c. Lateral
d. Proximal
Here’s your cup of
positivi-tea! :)

52
The Human
Body Recipe
College of Nursing
University of Assumption
CHEMISTRY
- Science of structure and interactions of matter

❖ Solid - compact, definition shape and volume
❖ Liquid - definite volume, assume shape of container
❖ Gas - neither definite shape or volume
HUMAN BODY
MAJOR LESSER TRACE
ELEMENTS ELEMENTS ELEMENTS
Oxygen Calcium Aluminum
Carbon Phosphorus Boron
Hydrogen Potassium Chromium
Nitrogen Sulfur Cobalt
Chlorine Copper
Magnesium Fluorine
Iron Iodine
Manganese
etc
CHEMICAL REACTION
- Occurs when new bonds form or old bonds break between atoms

METABOLISM
- Refers to all chemical reactions occurring in the body

ENERGY
- Capacity to do work
POTENTIAL ENERGY
- Stored energy due to its position

KINETIC ENERGY
- Matter in motion

CHEMICAL ENERGY
- Stored in bonds of compounds and molecules
 EXERGONIC ENDERGONIC
REACTIONS REACTIONS
- Release > absorb energy - Absorb > release energy
- EXO = EXIT - ENDER = ENTER

concentration temperature
SYNTHESIS REACTIONS
- Two or more molecules combine to form new molecules
- “To put together”
- ANABOLISM → endergonic
DECOMPOSITION REACTIONS
- Split large molecules into smaller molecules
- CATABOLISM → exergonic
EXCHANGE REACTIONS
- Consist of both synthesis and decomposition reactions
REVERSIBLE REACTIONS

- Products may revert to original reactants
OXIDATION-REDUCTION REACTIONS

- Oxidation → loss of electrons
- Reduction → gain of electrons
- Always parallel
BIOMOLECULES
CARBOHYDRATES
- Main source of energy for humans

❖ Monosaccharides
❖ Disaccharides
❖ Polysaccharides
FUNCTIONS OF CARBOHYDRATES
1) Main source of energy in the body
2) Storage form of energy
3) Excess carbohydrate is converted to fat
4) Glycoproteins and glycolipids are components of cell
membranes and receptors
5) Structural basis of many organisms
CARBOHYDRATES

Glucose, Fructose, Galactose, Deoxyribose,
Monosaccharides
Ribose

Disaccharides Sucrose, Lactose, Maltose

Polysaccharides Glycogen, Starch, Cellulose
LIPIDS

- Store energy for later use
- Hydrophobic
❖ Fatty acid
❖ Triglycerides
❖ Phospholipids
❖ Steroids
❖ Fat-soluble vitamins
FUNCTIONS OF LIPIDS
1) Storage of energy
2) Structural component of biomembranes
3) Metabolic regulators
4) Acts as surfactants, detergents, and emulsifying agents
5) Act as electric insulators in neurons
6) Provide insulation against changes in external temperature
7) Give shape, contour and protection to the body
8) Help in absorption of fat soluble vitamins
9) Improve palatability of food
CLINICAL APPLICATIONS OF LIPIDS

1) Excessive fat deposits cause obesity

1) Abnormality in cholesterol and
lipoprotein metabolism leads to
cardiovascular diseases

1) In DM, deranged metabolism may lead to
ketosis
LIPIDS

Synthesize triglycerides and phospholipids →
Fatty Acids
ATP production

Triglycerides Protection, insulation, energy storage

Phospholipids Major lipid component of cell membranes
LIPIDS

Cholesterol, Bile salts, Vitamin D, Adrenocortical
Steroids
hormones, sex hormones

Eicosanoids Prostaglandins, leukotrienes

Others Carotenes, Vitamin E, Vitamin K, Lipoproteins
PROTEINS
1. Form structural framework of the body
2. Acts as hormones that regulate various physiological processes
3. Muscle contraction and movement
4. Immunologic function to protect the body
5. Transportation of vital substances
6. Catalytic role in regulating biochemical reactions
ENZYMES
- Apoenzyme: protein portion
- Cofactor: nonprotein portion
1) Highly specific
2) Very efficient
3) Subject to variety of cellular controls
CLASSIFICATION OF ENZYMES

Oxidoreductase Transfer of hydrogen or addition of oxygen

Transferases Transfer of groups other than hydrogen

Hydrolases Cleave bond and add water;

Lyases Cleave without adding water

Isomerases Intramolecular transfers.

Ligases ATP dependent condensation of two molecules
NUCLEIC ACIDS
- Huge organic molecules
- Contains carbon, hydrogen,
oxygen, nitrogen, and phosphorus
- Chain of long repeating
monomers → nucleotides
DEOXYRIBONUCLEIC RIBONUCLEIC ACID
ACID (DNA) (RNA)

- Inherited genetic materials - Relays instructions from
- gene the gene to guide each
cell’s synthesis from AA
 DNA vs RNA
DNA RNA
Nitrogenous bases Adenine, Cytosine, Guanine, Thymine Adenine, Cytosine, Guanine, Uracil

Sugar in nucleotides Deoxyribose Ribose

Number of strands two one

Nitrogenous base pairing A-T, G-C A-U, G-C

Replication Self-replicating DNA blueprint

Encodes information for making Carries genetic code and assists in
Function
protein making proteins

Types Nuclear, mitochondrial mRNA, tRNA, rRNA
Cellular Level
of
Organization
PLASMA MEMBRANE
- Fluid mosaic model

FUNCTIONS:
1. Acts as a barrier
2. Controls flow of substances in/out of cell
3. Help identify other cells
4. Intercellular signaling
LIPID BILAYER
- Layers are made of phospholipids, cholesterol, and glycolipids
MEMBRANE PROTEINS
- Integral or peripheral
FUNCTIONS OF MEMBRANE PROTEINS
1. Formation of selective ion channels
FUNCTIONS OF MEMBRANE PROTEINS
2. Act as carriers or transporters
FUNCTIONS OF MEMBRANE PROTEINS
3. Act as receptors or cellular recognition sites
FUNCTIONS OF MEMBRANE PROTEINS
4. Serves as enzymes that catalyzes specific reactions
FUNCTIONS OF MEMBRANE PROTEINS
5. Serves as linkers that anchors filaments in plasma membrane
FUNCTIONS OF MEMBRANE PROTEINS

6. Acts as a cell-identifying marker
MEMBRANE FLUIDITY
DIFFUSION

FACILITATED
SIMPLE DIFFUSION OSMOSIS
DIFFUSION

Driven by Movement of solvent
Carrier mediated
concentration through selective
process
gradient permeability
Occurs from higher Occurs from higher
Solute binds to
concentration to concentration to
specific carrier
lower concentration lower concentration
OSMOTIC PRESSURE

HYPOTONIC HYPERTONIC
ISOTONIC SOLUTION
SOLUTION SOLUTION
ACTIVE TRANSPORT

- Movement of substances against concentration gradient
- Requires energy
❖ SOURCES OF ENERGY
1) ATP - primary active transport
2) Ionic concentration gradient - secondary active transport
PRIMARY ACTIVE TRANSPORT

- Substances move across membrane against its concentration by
pumps or carriers using ATP
- Example: Na-K pump
SECONDARY ACTIVE TRANSPORT

- Coupled active transport of two substances across the
membrane using energy supplied by Na+ or H+ concentration
gradient maintained by primary active transport pumps.
ENDOCYTOSIS

- Movement of substances into a cell in vesicle
PHAGOCYTOSIS

- “Cell-eating”
- Movement of solid particle into a cell after pseudopods engulf it
to form phagosome
EXOCYTOSIS

- Movement of substances out of a cell in secretory vesicles that
fuse with plasma membrane and release their contents into ECF
CYTOPLASM

- intracellular fluid
- site of many chemical reactions for cell functioning

❖ CYTOSKELETON
a. Serves as scaffold that helps determine cell shape
b. Aids in movement if organelles within the cell
CYTOPLASM
CENTROSOME

- Microtubule organizing center
- Location: near nucleus
❖ Centrioles
❖ Pericentriolar matrix
- Contains tubulins that build microtubules in nondividing
cells
- Forms mitotic spindle during cell division
CILIA AND FLAGELLA

- Motile projections of cell surface
RIBOSOMES
- Site of protein synthesis

1. Ribosomes associated with ER synthesize proteins destined for
insertion in the plasma membrane or secretion from the cell.

2. Free ribosomes synthesize proteins used in the cytosol.
ENDOPLASMIC RETICULUM

- Membranes in flattened sac form
- Under electron microscope: railway track appearance

❖ ROUGH ER
- Due to ribosome attached to cytoplasmic side of membrane
❖ SMOOTH ER
- Has no ribosome
- Synthesize fatty acids and steroids
ENDOPLASMIC RETICULUM
GOLGI COMPLEX
- Network of flattened sooth membranes
- Converging area of ER
- Main function: protein sorting, packaging and secretion

★ Cis - proximal
★ Medial - intermediate
★ Trans - distal
GOLGI COMPLEX
LYSOSOMES
- membrane -enclosed vesicles that form the Golgi complex

❖ AUTOPHAGY
- Engulfing another organelle, digest it, and return digested
components in cytosol
PEROXISOMES
- “Microbodies”
- Contains oxidases that removes hydrogen atoms from organic
substances
- Abundant in liver → detoxification
- Contains catalase that decompose H2O2
- Can self-replicate
PROTEASOMES
- Continuous destruction of unneeded and damaged proteins
- Contain proteases → proteins to small peptides
MITOCHONDRIA
- “Powerhouses” of the cell
- Generate ATP through reactions of aerobic
cellular respiration

- Role in apoptosis
NUCLEUS
- most prominent feature of a cell

a. Controls cellular structure
b. Directs cellular activities
c. Produces ribosomes in nucleoli
NUCLEUS
NUCLEUS
PROTEIN SYNTHESIS
KEY STEPS:
1) Transcription
2) Translation
TRANSCRIPTION
TRANSCRIPTION
1) Messenger RNA (mRNA)
- Directs synthesis of protein
1) Ribosomal RNA (rRNA)
- Joins the ribosomal proteins to make ribosomes
1) Transfer RNA (tRNA)
- Binds to amino acid and holds it in place on a ribosome until
it is incorporated into a protein during translation
TRANSLATION
CELL DIVISION
- Process by which cells reproduce themselves

a. SOMATIC CELL DIVISION
b. REPRODUCTIVE CELL DIVISION
SOMATIC CELL
DIVISION
CELL CYCLE
MITOTIC PHASE
 Importance of the M phase
Phase Description
Prophase Chromatin condenses into visible chromosomes, the nuclear envelope breaks down,
and the mitotic spindle forms

Prometaphase The chromosomes attach to the spindle fibers and begin to move towards the center of
the cell

Metaphase The chromosomes align at the equator of the cell, forming the metaphase plate

Anaphase The sister chromatids separate and move towards opposite poles of the cell

Telophase The chromosomes reach the poles of the cell, the nuclear envelope reforms, and the
chromosomes begin to decondense

Cytokinesis The cytoplasm divides, resulting in two daughter cells with identical genetic material
 SOMATIC CELL CYCLE

G1 Phase S Phase G2 Phase Mitosis Cytokinesis
APOPTOSIS NECROSIS

➔ Normal type of cell ➔ Pathological cell death
death ➔ Tissue injury
➔ No inflammatory ➔ Debris may trigger
response inflammatory response
REPRODUCTIVE
CELL DIVISION
 Basic differences mitosis - meiosis

Mitosis Meiosis
Type of reproduction Asexual Sexual

Count of daughter cells 2 daughters 4 daughters

Altered number of chromosomes Same Halved

Count of cell division cycles 1 division 2 divisions
FERTILIZATION
- Gametes merge to form zygote
QUIZ