Histology of the Liver and Pancreas PDF

Summary

This document describes the histology of the liver and pancreas, including their structures, functions, and roles in the digestive system. It also covers the digestive system of the toad and frog, including the buccal cavity of the frog. The document emphasizes the anatomy and physiology of the digestive system.

Full Transcript

HISTOLOGY OF THE LIVER
DIGESTIVE SYSTEM
Description: Largest structure of the body cavity
Concerned with o Brown in color
o ingestion of food o Secretes digestive juice (bile)
o physical and chemical digestion of food ➔ Bile - is green/yellow in color and is a fluid or
o absorption of nutrients digestive enzyme that aids in the digestion of
o elimination of undigested remains. fats in food
Includes ◆ Stored in the gallbladder
o Digestive tract or alimentary canal ◆ Bile travels in the gallbladder
o Digestive glands through the bile duct
➔ Bile duct - passes through the pancreas
towards the intestine
Has three lobes:
o Right lobe
o Left anterior lobe
o Left posterior lobe
Hepatic lobules
o Separated from each other by connective tissue
partition or septa.
o Large central vein - found at the center of the lobule
➔ Radiating from the central vein are
polygonal-shaped hepatic cells or
hepatocytes arranged into cords or plates.
o Hepatic sinusoids - spaces found in between
hepatic plates
➔ Lead toward the periphery of the hepatic
lobule.
Hepatocytes
o Liver cells
Liver receives blood from two different sources:
o Portal canals/vein - found around each lobule within
DIGESTIVE SYSTEM OF THE TOAD
the septa.
The toad has a complete digestive tract, with two ➔ contains branches of the portal veins,
openings: hepatic arteries, and bile ducts.
o Mouth ➔ Major source of the blood of the liver
o Cloaca ➔ Carries veinous blood from the intestine,
pancreas, and spleen
The main parts of the tract:
o Hepatic artery - brings oxygenated blood to the liver
o Mouth
Portal triad:
o Oral or buccal cavity
o Portal vein
o Pharynx
o Hepatic artery
o Esophagus
o Bile duct
o Stomach
o Small intestine
o Large intestine
o Rectum
o Cloaca
The digestive glands include:
o Liver,
o Gallbladder
o Pancreas
o Note: These glands are not found within the tract,
but they secrete digestive juices that enter the
alimentary canal through ducts.

The bile duct is different from the vein and artery in that it
is lined with simple columnar epithelium.

DO | BLOCK05191D 1
 panindigan mo ‘yan beh pinili mo ‘yan

Pancreas makes trypsin, insulin, and glucagon
o Trypsin - breaks down protein
o Insulin - tells cells to store glucose from the
bloodstream as glycogen
o Glucagon - tells cells to release stored glucose to
the bloodstream (raises glucose level in the blood)

HISTOLOGY OF THE PANCREAS
Description: Located in the inside curve of the stomach
o Gland that often falls apart during preservation
process
o Has both the endocrine and exocrine functions.
Exocrine pancreas
o perform the digestive function Intralobular duct
o consist of closely packed acini arranged into small o Made of simple cuboidal epithelium
lobules o Seen within the lobules
Pancreatic acini o Receive secretions from intercalated discs
o consists of pyramidal-shaped cells surrounding a Different types of Islets of Langerhans
lumen. o Alpha cells - produces glucagon
Isolated pancreatic islets/Islets of Langerhans o Beta cells - produces insulin
o Produces hormones and is secreted to the
bloodstream
o Help control the level of glucose in the blood
o Found within the masses of acini cells
o Are pale-staining structures composed of cells
arranged in cords.
o Have rich capillary network.
o Perform the endocrine function of the pancreas.
Head of the pancreas
o Widest part of the pancreas
o Found on the right side of the abdomen
o Nestled on the curve of the duodenum
➔ Duodenum - first part of the small intestine
Body of the pancreas
o Middle of the pancreas
Tail of the pancreas
o Tip of the pancreas
o Located on the left side of the abdomen and in DIGESTIVE SYSTEM OF THE FROG
close proximity to the spleen

BUCCAL CAVITY OF THE FROG

DO | BLOCK05191D 2
 panindigan mo ‘yan beh pinili mo ‘yan

2. Place the frog in the dissection tray on its back.
Frog is in a ventral position.
Should have candle wax where the frog can
be pinned.

3. The cloaca, which is where you will begin the
incision to open the frog’s body cavity, should be
between the frog’s hind legs.
Use scissors to lift the skin.

4. Cutting open the torso with an “I” pattern.

Upper and lower lip folds
o The skin folds in the margin of upper jaw and lower
jaw
Median subrostral fossa 5. Lift the flaps of the body wall and pin back.
o A prominent depression at the tip of the upper jaw
Tuberculum prelinguale
o A median elevation at the tip of the lower jaw
Sulcus marginalis
o A pair of deep grooves found at the inner margin of
the upper jaw.
o receives the elevation at the lower jaw
Maxillary teeth
o row of small teeth located along the margin at the
upper jaw 6. There is a spiderweb-like membrane that covers
Vomerine teeth many of the organs, which you may have to
o Another set of teeth is found on the roof of the carefully pick off to get a clear view of the organs
mouth inside.
Internal nares
o anterolateral openings
Eyeball prominences
o Bulging regions at the posterior half of the roof of
the mouth
Openings of the Eustachian tube
o Found on the posterolateral side of the eyeballs
medial to the angles of the jaw is a pair of openings
Tongue
o Is attached to the floor of the mouth cavity near the
CAVITIES OF THE FROG
anterior end by a short pedicle.
Vocal sacs
o Two slit-like openings in the posterolateral corner of 1. Pericardial Cavity
the floor of the tongue. Anterior
o Often lacking in females Small
Esophagus
Contains the heart
o Behind the mouth is the pharynx that leads into this
opening of a short distensible tube (esophagus)
Glottis 2. Pleuroperitoneal Cavity
o Laryngeal prominence with a vertical slit-like Posterior
opening ventral to the esophagus Large
Houses the lungs and other internal organs
FROG DISSECTION or viscera

Transverse septum
1. Prepare the dissection tray and get your frog. o Separates the two cavities
Usually, the frog to be used is already dead Parietal peritoneum
and preserved. o A glistening membrane that lines the body wall
In the case of a live frog, you have to
o The extension of the parietal peritoneum forms the
anesthetize first by putting chloroform in the
jar of the frog or pith the spinal cord of the covering layer of the intestine and other viscera.
frog to numb the frog. Visceral peritoneum or Serosa
o Extends to the visceral organs
Mesentries

DO | BLOCK05191D 3
 panindigan mo ‘yan beh pinili mo ‘yan

oSuspends the digestive tract 7. Mesogaster
o are extensions also of the parietal peritoneum. portion of the dorsal mesentery supporting
Dorsal mesentery the stomach
o the part that attaches the digestive tract for most of
its length to the median dorsal line 8. Small intestine
Ventral mesentery Absorption of digested nutrients occurs here
o attaches the organs to the midventral line Duodenum - straight portion
o is usually lost except in the region of the liver and Ileum - curved portion
○ Held together by a membrane
the urinary bladder.
(mesentery)
○ Blood vessels running through the
DIGESTIVE SYSTEM OF THE FROG mesentery carry and absorb
nutrients away from the intestine
Part of the dorsal mesentery supporting the
small intestine and the large intestine is the
mesentery proper and the mesorectum,
respectively.

9. Large intestine
Wider intestine
Leads to the cloaca
○ Cloaca - last stop before solid
waste, sperm, eggs, and urine exit
the frog’s body
➔ chamber that serves as a
common passageway to
the outside for both
digestive and urogenital
systems
➔ It terminates at the cloacal
aperture.

10. Anus
ORGANS OF THE PLEUROPERITONEAL CAVITY Opening outside the body

1. Liver
large, trilobed, brownish organ occupying the
anterior half of the pleuroperitoneal cavity.

2. Gallbladder
stores the bile secreted by the liver.

3. Hepatic ducts
from the liver and cystic ducts from the
gallbladder
may be traced to the point where it joins the
common bile duct.

4. Common bile duct
enters the duodenum of the small intestine.

5. Esophagus
Leads from the frog’s mouth to the stomach

6. Stomach
Curving underneath the liver
First major site of chemical digestion
Can be seen dorsal to the liver
Cardiac region - area nearest the esophagus
○ is guarded internally by a cardiac
sphincter, a ring of smooth muscle.
Fundus - bulges anteriorly
Pylorus - the narrow end when the stomach
is followed posteriorly
○ guarded internally by the pyloric
sphincter

DO | BLOCK05191D 4
 panindigan mo ‘yan beh pinili mo ‘yan

14. Oviduct
Curly structure outside the kidney
Where eggs are produced
Also found in males as a vestigial oviduct
(looks similar but has no purpose)
11. Kidney
Flat bean-shaped organ located at the lower
back of the frog near the spine
Often dark-colored but a little reddish/brown
Filters waste from the blood
Fatty bodies - stored fat of the frog

12. Testes
Located on top of the kidney
Pale-colored and roundish

13. Spleen
Dark red
Spherical or round and dense
Serves as a holding area of the blood
15. Rugae
longitudinal folds in the inner wall of the
stomach

16. Pyloric sphincter
similar to the cardiac sphincter
consists of a circular muscle that regulates
the flow of food into the small intestine.

DO | BLOCK05191D 5
 panindigan mo ‘yan beh pinili mo ‘yan

Two stages of respiration:
RESPIRATORY SYSTEM o External respiration - the exchange of gases
Description: for obtaining oxygen and getting rid of between the environment and the respiratory
carbon dioxide. organs
o Eliminates the body from a surplus of CO2 o Internal respiration -the exchange of gases
Respiration between body fluids and tissue cells.
o The exchange of gases
Respiration in an adult frog occurs in 3 different ways:
HISTOLOGY OF THE LUNGS
1. Cutaneous respiration Respiratory system
Takes place through the moist surface of the o Is comprised of organs that help in the intake and
outer skin
supply of oxygen to tissues as well as to get rid of
Takes place all the time regardless if the frog
carbon dioxide.
is in or out of the water.
Allows respiratory gases to readily diffuse
directly down their gradients between their
blood vessels and the surroundings.
When the frog is in the water, the frog
breathes through its skin.
When the frog is outside of the water, the
moist skin of the frog helps absorb dissolved
oxygen from the air.

2. Buccal respiration
Takes place through the lining of
bucco-pharyngeal cavity
Mouth is permanently close, nostrils are
open.
Floor of buccal cavity is alternately raised
and lowered, which allows air to be drawn in
and out of the buccal cavity,
Mucous epithelial lining of the buccal cavity
is rich with blood vessels (capillaries) which Bronchus
absorb O2 and give off CO2
o Small tube that leads to the lungs
3. Pulmonary respiration Alveoli
Takes place through the lungs o Lined with a thin epithelium which is richly supplied
with blood capillaries (contain deoxygenated blood
Frogs and toads utilize various respiratory organs, such as for gas exchange)
the lungs, skin, and mucous lining of the mouth. o Oxygen in the inhaled air diffuse blood while carbon
o These organs are characterized by a dioxide is released to alveoli
semi-permeable membrane through which gases o numerous chambers of the lungs that sometimes
diffuse readily. interconnect with one another.
o Interalveolar septum - very thin partition between
alveoli
Oxygen Arteriole
o is obtained from the environment o Small artery that leads to the capillaries
because it is needed for
metabolism.
Carbon dioxide
o produced as a by-product of
metabolism
o Is released into the environment
Inspiration
o Inhalation or taking in oxygen
Expiration
o Exhalation or giving off CO2
Frogs and toads utilize various
respiratory organs, such as the lungs,
skin, and mucous lining of the mouth.
o These organs are characterized
by a semi-permeable membrane
through which gases diffuse
readily.

DO | BLOCK05191D 6
 panindigan mo ‘yan beh pinili mo ‘yan

o Egg-shaped in a living toad.
Alveoli
o Singular: alveolus
o Membranous sacs lined by small air pockets
o Where gas exchange takes place

RESPIRATORY SYSTEM: ANATOMY

CIRCULATORY SYSTEM
Primary functions:
o Transport of respiratory gases, food materials,
waste products, hormones and minerals within the
body
o Defense against foreign organisms
o Maintenance of body temperature in warm-blooded
or homeothermic animals.
Vertebrates (Toads) have a closed type of circulatory
system composed of:

1. Heart
Nostrils pumps deoxygenated blood to the lungs and
o pair of openings at the anterolateral part of the distribute oxygenated blood to all the organs.
snout.
2. Arteries and Arterioles
o Also called external nares
Vessels
o Lead to the internal nares
convey oxygenated blood from the heart to
Openings of the Eustachian tube the smallest vessels
o Found at the roof of the oral cavity, near the angle Pulmonary artery - delivers deoxygenated
of the jaw blood to the lungs for oxygenation
o The tube connects the mouth cavity with the
cavities of the middle ear. 3. Capillaries
Glottis Smallet vessels
o slit-like opening at the posterior region of the Found in various tissues and organs of the
pharynx body with the exception of the pulmonary
o opens downward into the cavity of the larynx artery
Larynx
o Voice box 4. Venules and Veins
o supported or stiffened by cartilages Deoxygenated blood is collected from the
➔ Arytenoid cartilages - anterior pair capillaries to the venules and to the veins
➔ Cricoid cartilages - posterior pair before it returns to the heart.
Vocal cords Pulmonary vein - collects oxygenated blood
o thin elastic bands in each half of the larynx. from the lungs and delivers it back to the
Bronchus heart for distribution throughout the body.
o Is connected to the larynx
o Lead to the lungs
o Extremely short tube
Lungs
o collapsed in the preserved toad

DO | BLOCK05191D 7
 panindigan mo ‘yan beh pinili mo ‘yan

Atrioventricular valves
o thin flaps between the atria and ventricle
Open circulatory system -
o may not be seen in the specimen
blood is not enclosed in blood
vessels Semilunar valves
Closed circulatory system - o flaps that open into conus arteriosus
blood is enclosed in blood o may not be seen in the specimen
vessels
ANATOMY OF THE FROG’S HEART

FROG’S HEART
Heart
o Cone-shaped muscular organ lying in the thorax.
o Muscular central pumping station
o Drives blood to the circulatory system
o Lies mid-ventrally inside the arterial trunk region
o Has a broad base that is directed anteriorly and a
narrow apex posteriorly
Three chambers of the heart of a frog:
o 2 Atria or Auricles
➔ Left Auricle
➔ Right Auricle
➔ Are dark in color and lies anteriorly
o 1 Ventricle
➔ Pink colored
➔ Triangular or conical and lies posteriorly
Sinus Venosus
o A dark colored, thin-walled, and triangular chamber
ASSOCIATED STRUCTURE AND PARTS o Attached dorsally to the heart
OF THE HEART Truncus Arteriosus
o Tubular chamber that arises anteriorly from the
Pericardium right ventral side of the ventricle
o a thin transparent two-layered membrane covering
the heart
o Sac-like structure that contains lubricating
pericardial fluid
o Parietal pericardium - outer wall of the pericardium
o Visceral pericardium - inner wall of the pericardium
o Pericardial fluid - lubricating fluid
Pericardial cavity
o coelom/cavity where the heart is situated
Atria
o Singular: atrium
o two globular structures atop the ventricle
Ventricle
o most posterior conical structure of the heart
Conus arteriosus
o one-shaped tube arising from the ventricle on its
ventral side
Sinus venosus When the frog is sectioned, the internal structure is visible.
o this is best seen when the tip of the ventricle is o Internal structure is hollow and muscular
lifted In order to keep the unidirectional flow of the blood, the
o a thin-walled triangular sac on the dorsal side of various chambers are separated by the vault.
the heart and is continuous with the right atrium.

INTERNAL STRUCTURE OF THE HEART
Interatrial septum
o wall separating the right from the left atrium

DO | BLOCK05191D 8
 panindigan mo ‘yan beh pinili mo ‘yan

COMMON CAROTID ARTERY
Description: short vessel that runs forward and outward
Divides into two:

1. External carotid artery or Lingual artery
Smaller and inner branch
supplies blood to the thyroid gland, muscles
of the hyoid apparatus, and the tongue, and
the internal carotid artery

2. Internal carotid artery
The bigger and outer branch
Divides further into three:
○ Palatine artery - supplying blood to
the roof of the oral cavity.
○ Cerebral artery - supplies blood to
the brain
○ Ophthalmic artery - supplies blood
to the eyes

FROG’S ARTERIAL SYSTEM
Arteries (except the pulmonary arteries)
o supply oxygenated blood to different parts of the
body.
Conus arteriosus
o Located on the ventral side of the heart between
the auricles/atria
o cone-shaped or bulb-shaped structure
o Anteriorly, it divides into left and right branches
(truncus arteriosus)
Truncus arteriosus
o Divides into three branches
➔ Common Carotid artery
➔ Systemic Arch Carotid gland
➔ Pulmocutaneous artery o Found at the base of the internal carotid artery
o Oval structure
o Regulates the blood flow going to the head

SYSTEMIC ARCH
Other name: Aortic Arch
Description: the middle branch of the truncus arteriosus.
o Longest of the three arches
o Has the greatest distribution of blood
Dissection: Can be seen by tearing the parietal
peritoneum and gently deflecting the lungs and other
internal organs on one side.
Four smaller branches arise from the systemic arch:
o Laryngeal artery - supplies blood to the larynx and
jaw

DO | BLOCK05191D 9
 panindigan mo ‘yan beh pinili mo ‘yan

o Esophageal artery - supplies blood to the o Behind the dorsal aorta
esophagus o Supplies blood to the dorsal wall
➔ May arise from the occipital vertebra Oviducal arteries
o Occipital artery or Occipito-vertebral artery - o Found on the ventral side of the dorsal aorta at the
supplies blood to the orbit and nose region of the cloaca
o Posterior vertebral artery - supplies blood to the o A branch that goes to the oviduct in female frogs
vertebral column
Subclavian artery
o Extends laterally and becomes the branchial artery
that supplies blood to the forelimbs

Following the dorsal aorta posteriorly, it eventually divides
into left and right common iliac arteries.
DORSAL AORTA Follow one of the iliac arteries and look for the
Description: formed when the left and right systemic epigastricovesical artery, which further divides into:
arches join together. o Epigastric artery - located anteriorly; supplies blood
Dissection: can be seen best by tearing the remaining to the abdominal wall
portions of the parietal peritoneum. o Rectovesical artery - located posteriorly; supplies
Coeliacomesenteric artery blood to the cloaca and urinary bladder
o Found slightly below the point of junction of the Femoral artery
systemic arches o Found at the region of the thigh
o Single-layer artery o Supplies blood to the muscles and anterior part of
o Divides into two: the thing
➔ Coeliac artery Common iliac continues to the entire length of the hindlimb
◆ Left gastric artery - supplies blood as the sciatic artery.
to the left side of the stomach and
left side of the pancreas
◆ Hepatic artery - supplying blood to
the liver and portions of the
pancreas
◆ Pancreatic arteries - go to the rest
of the pancreas
➔ Anterior mesentric artery
◆ Splenic artery - supplying blood to
the spleen
◆ Intestinal arteries - supplying
blood to the small intestine
◆ Anterior hemorrhoidal artery -
supplying blood to the large
intestine and cloaca
Renal artery
o Branches going to the kidneys
o Dorsal aorta sends off 5-6 pairs of small renal
arteries in a series into both the kidneys
Spermatic arteries
o Supplies blood to the testes for males
Ovarian arteries
o Supplies blood to the ovaries of the female
Posterior mesenteric artery
o Arises from the posterior end of the dorsal aorta
and sometimes from the anterior mesenteric
o Goes to the large intestine or rectum
Adiposal arteries
o Supplies blood to the adipose tissues
Lumbar arteries

DO | BLOCK05191D 10
 panindigan mo ‘yan beh pinili mo ‘yan

ANTERIOR VENA CAVA

Right and left precavals collect venous blood from the
PULMOCUTANEOUS ARTERY anterior part of the body.
Description: posterior branch of the truncus arteriosus Each precaval is formed by the union of three major veins
that eventually divides into the pulmonary artery and which meet simultaneously:
cutaneous artery. o External jugular vein - formed by the slender and
o Pulmonary artery - carries blood to the lungs sinus lingual from the tongue and mandibular from
the outer margin of the jaw.
o Cutaneous artery - goes anteriorly and dorsally o Subclavian vein - formed by the brachial from the
behind the tympanum and divides into: forelimb and musculocutaneous from the side of the
➔ Auricularis artery - supplies blood to the body and head.
lower jaw o Innominate vein - formed by the internal jugular
➔ Dorsalis artery - supplies blood to the dorsal from the cranial cavity and orbit and subscapular
part of the skin from the shoulder and back of the arm.
➔ Lateralis artery - supplies blood to the lateral
part of the skin
POSTERIOR VENA CAVA
FROG’S VENOUS SYSTEM
Differentiated into:
o Systemic veins
o Portal Veins
o Pulmonary veins
Deoxygenated blood from the rest of the body travels
towards the heart in three large vessels that all open to the
sinus venosus:
o 2 Anterior Vena Cava
o 1 Posterior Vena Cava

Description: a large dark-colored vein
o Lies ventral to the dorsal aorta
Divides into three:
o Renal veins
➔ Posterior end is formed between two kidneys
from which it drains blood by 5-6 pairs of
renal veins
o Spermatic or Ovarian veins
➔ Genital veins
➔ Received from gonads directly or through the
interior part of renal vein
o Hepatic veins
➔ Short pair
➔ Opens to the posterior angle of the sinus
venosus

RENAL PORTAL SYSTEM
Frogs have well-developed portal systems
Description: veins which carry blood to a capillary system
in the kidney

DO | BLOCK05191D 11
 panindigan mo ‘yan beh pinili mo ‘yan

Blood of each hind leg is connected by two veins:
o Outer Femoral vein
➔ On entering the abdominal cavity, the
femoral veins divide into:
◆ Dorsorenal portal
◆ Ventral pelvic vein - while running
along the outer border of kidney, on
its side, it receives blood from the
lumbar region via a dorsal lumbar
vein
o Inner sciatic vein
Renal portal vein - enters the kidney by various branches
which break up into capillaries
Pelvic veins of both sides are united to form the anterior
abdominal vein
o Receives blood from urinal bladder and ventral
abdominal wall

UROGENITAL SYSTEM
Description: primarily involved in assisting the frog in
carrying out urine excretion and reproduction.
Urogenital
o is a combination of the Greek word “ouro” meaning
urine and “genitales" refers to reproduction.
Functionally, these are two separate systems, namely the
urinary or excretory system and reproductive system.
o Develop from a common germ layer origin and
utilize common ducts to release their products.
Hence, they are usually considered together.
o Are situated closely in frogs
Excretory system consists of:
o Kidneys
o Urinary Bladder
o Urete
o Cloaca
Organs of the male reproductive system:
o Testes
o Sperm ducts
o Cloaca
Organs of the female reproductive system:
o Ovaries
o Oviducts
o Uterus
o Cloaca

KIDNEYS
Description: main organ of the excretory system
Position: These lie dorsal to all other organs in the
abdominal cavity and to the peritoneum, thus
retroperitoneal in position.
Composition: made up of nephrons
o Nephrons - remove waste products of metabolism
from the body as well as regulate the amount of
ions inside the body of the animal.
Mesonephric ducts/Wolffian ducts
o Collects urine from the kidneys
o Convey urine to the urinary bladder
Urinary bladder
o Lies ventral to the cloaca
o Sac that stores urine until it passes out of the body
to the cloaca
Ureter
o Connected to each kidney

DO | BLOCK05191D 12
 panindigan mo ‘yan beh pinili mo ‘yan

o Tube through which urine passes in the urinary
bladder

PAIRED GONADS (TESTES AND OVARY)
Description: principal organs of the reproductive system
of sexually reproducing animals
o sites for the production of gametes.
o sources of important hormones needed for the
development and sexual maturation of the animal.
Testes
o Produce sperm
Sperm
o Male sex cells which move through the sperm ducts
o conveyed to the outside through the kidneys and
then into the mesonephric duct.
Sperm ducts
o Tubes that carry the sperm into the cloaca
Cloaca
o Exit-point of the body
Ovaries
o Produces eggs
Eggs
o Female sex cells that move through the oviducts,
then uterus, then cloaca
o pass through the oviduct which empties into the
cloaca.

HISTOLOGY OF FROG’S KIDNEY
Renal corpuscles/Malpighian body
o Each renal corpuscle is made up of the glomerulus
(glomeruli, pl.) and the Bowman’s capsule
o Glomerus - the tufts of capillaries Renal Tubule
o Bowman’s capsule - is represented by the clear o Starts as a thin, double-walled ciliated cap
spherical area surrounding the glomerulus. (bowman’s capsule) enclosing a bunch of
Renal tubules capillaries (glomerulus)
o Interspersed among the renal corpuscles o Gets blood supply from the capillaries of the
o are represented by rounded structures lined with efferent arteriole and renal portal vein
epithelial cells. Glomerulus
Nephron o receives blood from an afferent arteriole of the renal
o Made of renal corpuscles and renal tubules artery
o Functional unit of a kidney. o From glomerulus, blood is collected by the efferent
o It is in this structure where the process of urine arterioles, which is joined by the renal vein.
formation occurs.
HISTOLOGY OF FROG’S TESTES
Seminiferous tubules
o several compartmentalized ovoid structures
represented in portions
o Held together by connective tissue
➔ Where the blood capillaries, lymph vessels,
nerves, muscles, and roofs of interstitial cells
in between the lobule
Interstitial cells
o Secrete testosterone responsible for the secondary
sex characteristics of the individual
Germinal epithelia
o Cells lining the seminiferous tubules
o Function for the production of sperm cells through
spermatogenesis.
Immature vs mature sperm cells
o Immature sperm cells - appear ovoid in shape with
well-defined nucleus

DO | BLOCK05191D 13
 panindigan mo ‘yan beh pinili mo ‘yan

➔ Sizes vary depending on the degree of 2. Primary spermatocyte
maturity. Round and larger than spermatogonia
o Mature sperm cells - appear thread-like. Large round nuclei
➔ Found in bundles in the lumen of the tubules
floating in spermatic fluid 3. Secondary spermatocyte
➔ When mature, sperm drop into the lumen to Arise after first meiotic division
pass into the ureter through the vasa Nuclear diameter is smaller
efferentia and bidder’s canal.
➔ From the ureter, they pass into the vesicular 4. Spermatids
seminalis where sperm are stored. Arise
Arise after meiotic division II
Smaller in size
Early spermatid - small and round
Late spermatid - small and elongated

5. Spermatozoa
Exhibit highly elongated head and tail
Head - contain ellipsoid nucleus
○ Has completely condensed
chromatin
○ Heads of several spermatozoa
appear to be arranged in a rail that
are embedded in the apical
cytoplasm of sertoli cells
Tail - point toward the seminiferous lumen
Sertoli cells - somatic cells of the testis and
are essential for testis formation and
spermatogenesis
○ Facilitate the progression of germ
SPERMATOGENESIS cells to spermatozoa via direct
contact and by controlling the
Primordial cells → spermatogonium → primary environment within the seminiferous
spermatocyte → secondary spermatocyte → spermatids tubules
→ sperm
Takes place within follicular structures called the
spermatocytes that rest upon the basement membrane of HISTOLOGY OF FROG’S OVARIES
the seminiferous tubules

Within the ovary, the eggs are arranged into individual
follicles composed of oocytes and follicle cells.
The wall of ovary is composed of a visceral peritoneum
which forms the germinal epithelium.
1. Spermatogonia o Internal to it is a fibrous connective tissue having
First stage blood vessels, muscle fibers, and nerves
constitute a large portion of the sperm cell o Gives off several small groups of cells or oogonia
population in the tubule of immature frogs which form the ovarian follicle
Large and round Ovarian follicle
Oval nuclei o Surrounded by theca or sheet
o Composed of two concentric layers of stromal cells
(theca externa and theca interna)

DO | BLOCK05191D 14
 panindigan mo ‘yan beh pinili mo ‘yan

Theca externa
o Covering that surrounds the entire ovary OOGENESIS
Degree of maturation of egg cells Description: process by which female germ cells undergo
o can be determined by the amount of the yolky meiosis and differentiation into a mature oocyte
material accumulated in the cytoplasm. Differs from spermatogenesis by:
o Mature oocytes will have more accumulated yolk o Gametes formed in spermatogenesis house a
and pigments. motile nucleus while nuclei from through oogenesis
Germinal vesicle contain materials to initiate and maintain
o Nucleus of the oocyte metabolism and development.
o Its nuclear membrane is serrated. o Sperm differentiates for motility, while the egg
Nucleoli develops for relatively complex cytoplasm.
o Found within the nucleus
o function in organizing the distribution of
accumulating yolk in the growing oocyte.
Follicle cells
o ovoid cells lying immediately outside the cell
membrane.
o function in nourishing the growing oocyte.
Theca interna (cyst wall)
o Thin layer of connective tissue surrounding follicle
cells
o does not cover the whole egg cell.
o It is absent at the region of future rupture during
ovulation release of eggs.
o The cyst wall forces the egg to separate out from
the surrounding follicle cells.
1. Oogonia
Arise from germ cells

2. Primary (immature) oocyte
Proliferates before entering meiosis
Oocyte are arrested in meiotic phase during
the whole process of folliculogenesis until
the gonadotropin induce signals trigger them
to resume meiosis prior to ovulation

3. Follicular oocyte
When immature oocyte progresses beyond
the early duplicate of meiotic prophase
its surrounded by follicle cells
During folliculogenesis, oocyte increases in
size due to the incorporation of the yolk and
only
Only a portion of the developing oocyte
reach final maturity
○ Remaining ones (those who did not
reach maturity) undergo atresia

Zona pellucida
o Support communication between oocyte and follicle
cells
o Protects oocytes, eggs, embryos during
development
o Regulates interactions between ovulated egg and
free-swimming sperm during and after fertilization

DO | BLOCK05191D 15
 panindigan mo ‘yan beh pinili mo ‘yan

FROG’S UROGENITAL ANATOMY

MALE FROG FEMALE FROG

DO | BLOCK05191D 16
 panindigan mo ‘yan beh pinili mo ‘yan

NERVOUS SYSTEM HISTOLOGY OF THE SPINAL CORD
Description: organ system that integrates all body Description: connects the brain and PNS
functions White matter
o Provides a system of communication for the cells of o Composed of nerve fibers carrying ascending and
the body so they can work as a team to maintain descending information
homeostasis o Makes up the outer region of the spinal cord
o System of communication provided by the nervous o an outer, lightly stained area
system is through high-speed nerve impulses Grey matter
o Receives, stores, and transmits nerve impulses that o Contains cell bodies
control and coordinate the activities of the body o Located in the center of the spinal cord
Integration o An inner darkly stained, butterfly-shaped or
o done through transmission and processing of H-shaped structure
information from the external environment or within o Has a dorsolateral extension (dorsal horn or dorsal
the organism's body. cornua) and ventrolateral extension (ventral horn or
Nerve impulses ventral cornua).
o How information is being transmitted within this o Within the ventral horn, are cell bodies of motor
system neurons, which are darkly stained, star-shaped
Nerves/Tracts cells.
o pathways where these impulses are conducted are Central canal
through groups of neuronal axons bundled together o Center of the spinal cord
o Called “nerves” when situated in the PNS o Contrains cerebrospinal fluid
o Called “tracts” when situated in the CNS Dorsal root
Ganglia/Nuclei o Contains afferent sensory fibers that transmit
o cell bodies where these axons extend from usually signals from the periphery to the dorsal root
cluster together to form ganglion
o Called “ganglia” when situated outside the CNS Ventral root
o Called “nuclei” when situated inside the CNS o Contains efferent motor axons
Spinal nerve
o Made of dorsal and ventral roots
MAJOR DIVISIONS OF THE VERTEBRATE
Pia mater
NERVOUS SYSTEM o the membrane inseparably fused with the main
mass of the spinal cord.
1. Central Nervous System Dura mater
serves as the main processing center of o a loose membrane covering the spinal cord.
information Meninges of the CNS
includes the brain and the spinal cord. o Made of the pia mater and dura mater
Dorsal fissure
2. Peripheral Nervous System o A shallow fissure that marks the median dorsal side
include all other nervous tissues outside the of the cord
CNS. Ventral fissure
is subdivided into afferent or sensory and o Found deeper
efferent or motor divisions. o mark the ventral aspect of the cord.
○ Afferent division - sends information
to the CNS
○ Efferent division - carries
information away from the CNS.
➔ either supplies the skeletal
muscles (somatic nervous
system), or the visceral
organs (autonomic
nervous system).

DO | BLOCK05191D 17
 panindigan mo ‘yan beh pinili mo ‘yan

CENTRAL NERVOUS SYSTEM
Description: involved receiving, analyzing, coordinating,
and storing information from the different parts of the body FOREBRAIN
o Sites of information processing Description: largest part of the brain
Brain of the frog o is represented by the cerebrum and diencephalon.
o Elongated, bilaterally symmetrical Consists of a pair of anteriorly directed olfactory lobes, a
o White-colored pair of cerebral hemispheres, and a diencephalon
o Situated in the cranial cavity of the skull Olfactory lobes
o Surrounded by thin, pigmented, vascular tissue o Anterior small spherical structures which are fused
membrane (pia mater) together in the median plane
o Outside the pia membrane is the tough fibrous o Each lobe gives off an olfactory nerve
membrane lining the interior of the cranial cavity o For sense of smell
(dura mater) Telencephalon
Meninges o Long oval structures that is separated from the
o Grayish membrane that covers most part of the olfactory lobes
brain and spinal cord o Coordinates the activities of the neuromuscular
o Tough dura mater - adheres to the walls of the mechanisms of the body
cranium and neural canal o Seat of intelligence and control in higher animals
o Inner pia matter - that closely adheres to the brain Diencephalon
and spinal cord o Short and paired structure of the forebrain situated
Subdural space behind the cerebral hemispheres
o Spach between the pia mater and dura mater o Region of the brain that controls the metabolism of
o Filled with a shock-absorbing, watery, clear, fats and carbohydrates
lymphatic cerebrospinal fluid (CSF) o Regulates genital functions
Cerebrospinal fluid (CSF) o Posterior to the cerebrum
o Found in the cavities of the brain and central canal o A depressed region
of the spinal cord o Functions in processing sensory information.
Cerebrum o Sometimes referred to as twist brain
o the most anterior lobes of the brain Pineal body
o frog’s thinking center o Club-shaped endocrine gland
o constricts anteriorly to form the olfactory bulb o Arises behind the diancephalon
Olfactory bulb o Hollow and thin walled stalk
o extends further anteriorly to form the olfactory o Projecting from the roof of the diencephalon
nerves Choroid plexus
Olfactory nerves o Anterior to the pineal gland
o the first pair of the cranial nerves. o Covers a portion of the diencephalon
Divided into three main parts: o a network of fine blood vessels
o Forebrain - prosencephalon Optic chiasma
o Midbrain - mesencephalon o Crossing of the optic nerves which go to the eye
o Hindbrain - rhombencephalon Infundibulum
o Behind optic chiasma
o Extends posteriorly and is divided by a median
longitudinal group
Pituitary body
o Slightly covered by the infundibulum
Hypothalamus
o An important center regulating the whole endocrine
system and other parts of the brain

DO | BLOCK05191D 18
 panindigan mo ‘yan beh pinili mo ‘yan

➔ X (vagus)
➔ Note: sabi ni miss sa discussion, seven but
acc naman sa discussion sheet, six nerves

CRANIAL NERVES

MIDBRAIN
Description: well-developed part of the brain
o Consists of two dorsolateral round optic lobes
Mesencephalon (optic lobes)
o Center for impulses coming from the eyes
o Represents the midbrain Description: In an adult frog, there are 10 pairs of cranial
o Optic lobes and optic thalami are concerned with nerves.
the control of the movements of the eye muscles o Emerge from the brain through the cranium to
o Immediately posterior to the diencephalon supply the different organs of the body
o Functions in coordinating responses to visual o Some cranial nerves are purely motor, some are
inputs. purely sensory, while others are mixed.
Cranial nerves III (oculomotor nerve) and IV (trochlear Each cranial nerve originates from the vein through
nerve) two roots:
o Emerge from the midbrain o Dorsal root
o Ventral root
o Note: these two do not unit with each other and
HINDBRAIN look like separate nerves
Description: Consists of the cerebellum (metencephalon) CN 11 & CN 12
and medulla oblongata (myelencephalon) o Additional nerves present in humans
Cerebellum (metencephalon) o CN 11 (Accessory nerve) - controls the movement
o Rudimentary, narrow, transverse gland lying of certain neck muscles
dorsally, immediately behind the optic lobe o CN 12 (Hypoglossal nerve) - enables tongue
o a depressed ridge immediately posterior to the optic movement
lobes Different cranial nerves of the frog:
o Controls of the mechanism of automatic
movements of the body 1. CN 01 (Olfactory nerve)
o Brings about coordination and movements of Arises from the anterior end of the olfactory
locomotion lobe
o Regulates complex muscular movements of the Innervates the cells of the olfactory sac
Sensory in nature
body
o functions in balance.
2. CN 02 (Optic nerve)
Medulla oblongata (myelencephalon)
Arise from the retina of the eye
o seen as an inverted triangle that tapers posteriorly.
Purely sensory
o Widening of the spinal cord
o posterior to the cerebellum 3. CN 03 (Oculomotor nerve)
o An important nerve center Small nerve arising from the ventral side of
o Has nerve centers of all different functions the midbrain
o regulates most visceral functions. Divides into branches which supply the
o 4th ventricle - cavity of the myelencephalon that is anterior, superior, and interior recti muscles
also triangular and the interior oblique muscles of the eye
o Seven/six pairs of cranial nerves arise from the Excusively motor
sides of the medulla oblongata
➔ CN V (trigeminal) 4. CN 04 (Trochlear nerve)
➔ CN VI (abducens) Small nerve arising from the dorsal side of
➔ CN VII (facial) the brain, between the optic lobes of the
➔ CN VIII (auditory) cerebellum
➔ IX (glossopharyngeal) Close to the superior oblique muscles of the
eye

DO | BLOCK05191D 19
 panindigan mo ‘yan beh pinili mo ‘yan

Exclusively motor

5. CN 05 (Trigeminal nerve)
Largest of the cranial nerves
Arises from the anterior end of the medulla
oblongata
Divides into three branches
○ Ophthalmic superficialis - sensory
○ Mandibular - sensory
○ Maxillary - motor
Mixed nerve

6. CN 06 (Abducens nerve)
Arises from the ventral side of the medulla
oblongata
Enters the orbit and goes to the posterior
rectus muscle of the eye
Motor nerve

7. CN 07 (Facial nerve)
Has both visceral sensory and visceral motor
PERIPHERAL NERVOUS SYSTEM
fibers
Divided into two branches
○ Palatine - goes to the roof of the
buccal cavity
○ Hyomandibular - goes to the tongue
and muscles of the jaw
Mixed nerve

8. CN 08 (Auditory nerve)
Arises from the medulla oblongata
Goes to the internal ear
Sensory

9. CN 09 (Glossopharyngeal nerve)
Arises from the lateral side of the medulla
oblongata
Goes to the tongue, hyoid, and pharynx
Mixed nerve

10. CN 10 (Vagus nerve)
Arises from the lateral side of the medulla
oblongata Description: includes nerves arising from the brain and
Goes as a visceral branch to the larynx, spinal cord
esophagus, stomach, gastric, heart, and o Cranial nerves - arise directly from the brain
lungs o Spinal nerves - arise from the spinal cord
Mixed nerve Nerve:
o Solid structures that look like white threads
o May be afferent (sensory), efferent (motor), or both
Sensory nerve fibers
o Those that carry impulses from the receptors to the
CNS
Motor nerve fibers
o carry impulses of appropriate order from CNS to
effector organs

DO | BLOCK05191D 20
 panindigan mo ‘yan beh pinili mo ‘yan

REFERENCES

Notes from the discussion by Ms. Jaryna Limbauan

De La Salle University Powerpoint Presentation

SPINAL CORD
Description: Posterior to the medulla oblongata
Functions:
o Links the brain and most parts of the body
o Spinal reflex actions
o an elongated cylindrical structure and tapers
posteriorly.
Reflex
o involuntary, predictable response to a stimulus.
Has two enlargements:
o Brachial enlargement - at the level of the arms and
shoulder
o Lumbas enlargement - found at the posterior aspect
of the trunk
o These enlargements represent aggregates of nerve
supplying the forelimbs and hindlimbs, respectively.
Filum
o The pointed end of the spinal cord
o is housed within the neural canal of the urostyle.
Roots of the spinal nerves
o Towards the posterior end of the spinal cord, the
roots tend to crowd themselves and together with
the filum terminale, they appear like horse’s tail,
thus referred to as cauda equina.
Central canal
o cavity of the spinal cord.
Ventricles
o cavities of the brain

DO | BLOCK05191D 21