Anatomy of the Endocrine System PDF

Summary

This document is about the anatomy of the endocrine system, covering the objectives, differences between exocrine and endocrine glands, and various glands in the body. It details the location, structure, and functions of endocrine organs.

Full Transcript

ANATOMY OF THE
ENDOCRINE SYSTEM

Taty Anna Kamarudin
Department of Anatomy
Faculty of Medicine, UKM.
 Objectives
Differentiate the exocrine and endocrine glands
Describe the gross anatomy of the thyroid and
parathyroid glands
Describe the gross anatomy of the pituitary gland
Explain the importance of hypothalamo-
hypophyseal portal system
Describe the gross anatomy of the adrenal glands
Describe the gross anatomy of the pineal gland
Apply the clinical significance of the endocrine
glands, e.g.: goitre and pituitary adenoma
Differences Between Exocrine And Endocrine
Glands
Exocrine Gland Endocrine Gland

Presence of duct No duct; directly into
blood
Mucous or serous Hormone
secretion
 Endocrine glands

Thyroid gland
Parathyroid gland
Pituitary gland
Suprarenal/Adrenal gland
Pineal gland
Pancreas
Thymus
Testes
Ovaries
 Thyroid Gland
Lies in anterior region of the neck
C5 – T1 vertebrae
Two lobes connected by isthmus
Lateral lobes extend from oblique line of
thyroid cartilage to 5th to 6th tracheal ring
Isthmus : 2nd ,3th and 4th tracheal rings

Surfaces : Lateral, medial and posterior
Poles : upper and lower poles 2
Coverings:
Pretracheal fascia : (outer false capsule)
larynx & trachea
True capsules (inner) : closely adhered
Between these : nerve and blood
vessels (+)
Thuroid
# gland: Relations

Lateral : infra-hyoid muscles
anterior border of sterno-mastoid muscle

Medial : upper pole contact with inferior constrictor muscle of
pharynx
- larynx and trachea with pharynx and oesophagus
- recurrent laryngeal nerve in tracheo-oesophageal
groove
- external laryngeal nerve –medial to the upper pole

Posterior : prevertebral muscles
- medial part of carotid sheath and its contents
- sympathetic trunk
- parathyroid glands
Relations of thyroid gland
 Anterolateral relations
C5-T1 vertebrae -
muscle
 Posterolateral relations
C5-T1 vertebrae

Common carotid artery, internal jugular vein, vagus nerve
Posterior relations
larynx, trachea
pharynx,
oesophagus
cricothyroid
muscle and its
nerve supply
external
laryngeal nerve
recurrent
laryngeal nerve

C5-T1 vertebrae
 Superior thyroid artery and superior
laryngeal nerve during thyroidectomy
The superior thyroid artery (STA) is the first
branch of the external carotid artery.

STA runs with the external branch of the
superior laryngeal nerve

High ligation of the STA (away from thyroid
gland) during thyroidectomy places this nerve
at risk of injury, which would produce
dysphonia by altering pitch regulation.
·
Ligation of STA be close to the tyria glad
 Inferior thyroid artery and
recurrent laryngeal nerve
The inferior thyroid artery (ITA) arises from the
thyrocervical trunk, a branch of the subclavian artery.

As the artery approaches the thyroid gland it crosses
the recurrent laryngeal nerve.

During thyroidectomy, ITA should be ligated away
from the gland, where the recurrent laryngeal nerve
is not close by to avoid nerve injury.

Recurrent laryngeal nerve injury will cause vocal cord
paralysis and hoarseness.
 Thyroid: Arterial supply
Superior thyroid artery (branch of external
carotid) and passes to the upper pole

Inferior thyroid artery (branch of thyrocervical
trunk) and passes behind the carotid sheath
to the back of the gland

Thyroid "ima" artery (variable) when present
it arises from the aortic arch or the
brachiocephalic artery
Thyroid ima artery
Arises from brachio-
cephalic trunk, arch of
aorta, right common carotid,
subclavian or internal
thoracic artery
Unpaired ; in 10% of
people
Supplied isthmus
Potential source of
bleeding during
tracheostomy
 Thyroid: Venous drainage

Superior thyroid veins - drains the upper pole to
the internal jugular vein

Middle thyroid veins - drains from the lateral side
of the gland to the internal jugular vein

Inferior thyroid veins - often several – drain the
lower pole to the brachiocephalic veins
Histology of thyroid gland
Covered with capsule
Septa extend into gland with blood vessels, nerve, lymphatic
Thyroid follicles:
-Lined by single layer of cuboidal epithelium
-Lumen contains eosinophilic colloid
-Inactive stage – lining cells are flat or cuboidal
-Active stage – cells become columnar
In aging thyroid – infiltration of thyroid by lymphocytes.

Thyroid C cell /Para follicular cell
-Neuroendocrine cells
-Small clumps in between the follicles
-In H&E – pale staining cells with granular cytoplasm
-Secrete Calcitonin
For
time
Parathyroid glands: Blood supply
Branches of the inferior thyroid artery
Also the superior thyroid arteries, thyroid ima
artery, laryngeal arteries, tracheal arteries or
oesophageal arteries
Blood drain into the plexus of veins on the
anterior surface of the thyroid comprising the
superior, middle and inferior thyroid veins
Thyroid disorders
Goiter – abnormal enlargement

Causes:
Hyperplasia
Nodular
Diffuse
Grave disease
Iodine deficiency
Cancer
Effects:
Hyperthyroidism
Hypothyroidism
 Parathyroid glands
2 pairs (superior and inferior)
Lie at posterior aspect of thyroid
Embedded in thyroid’s true capsule
Within the pretracheal fascia
Between the capsule and fascia: nerve and blood vessels

tropi
interior
Parathyroid gland: Histology

Capsule –fibro-elastic capsule
incomplete lobules
carried blood, nerve and
lymph
Parenchyma
Cells : chief cells
– small round
-central nuclei
-pale eosinophilic cytoplasm
-Synthesizes parathyroid hormone

: oxyphil cells
– eosinophilic cytoplasm
- increase in number with age
-larger than chief cells
-nuclei small and condensed
Parathyroid disorders
Hyperparathyroidism (parathyroid adenoma)

Hypoparathyroidism : due to inadvertent surgical removal
during throidectomy.

low Ca+ level.

tetany
Pituitary gland
Location: hypophyseal fossa
(sella turcica)
Lies below the hypothalamus;
Connected by infundibulum
Covered by diaphragma sella
(fold of duramater)

darkade
Pituitary gland: relations
cavernous sinus optic chiasma

sphenoid bone &
air sinus
Pituitary gland
Pituitary gland
Lobes : anterior – pars distalis
pars tuberalis
pars intermedia
posterior – pars nervosa
infundibular stalk
median eminence

Larges component
Pituitary gland
 Pituitary gland: blood supply

Superior and inferior hypophyseal arteries, branches
of internal carotid artery.
The veins drain into the cavernous sinuses.
 Pituitary Gland: Connections with
hypothalamus
Two pathways:
1. Nerve fibres from supraoptic
and paraventricular nuclei to
posterior lobe (hypothalamo-
hypophyseal tract).

2. Long and short portal blood
vessels that connect sinusoids
in the median eminence and
infundibulum with capillary
plexus in the anterior lobe
(hypothalamo-hypophyseal mi
portal system).
so
 anterior lobe -
receives venous
blood from the
hypothalamus via
hypothalamo-
hypophyseal
portal system of
veins
Hypothalamus -
transmits releasing
factors to the
pituitary
Pituitary gland: Histology
Pituitary gland
HISTOLOGY
Covered by fibro-elastic capsule
Trabeculae carried blood
vessels into pars distalis

PARS DISTALIS (Anterior
pituitary)
Chromophobes : ovoid, scanty
cytoplasm; with few granules
- Indistinct cell membrane
- Appears as NUCLEAR HEAPS

Chromophil cells : distinct cell
boundaries; granular cytoplasm
1.Acidophils – Alpha and Epsilon
2.Basophils -Beta, Gamma, Delta
cells
Pituitary gland
PARS TUBERALIS
Cuboidal cells with central nuclei
Finely granular cytoplasm

PARS INTERMEDIA
-Secrete melanocyte stimulating
hormone (MSH)
-basophilic; small cystic space with
eosinophilic materials
Posterior pituitary
(Pars nervosa)
Non-myelinated axon
Cells bodies present in supraoptic
and paraventricular nuclei of
hypothalamus
Expanded terminal end of
neurones – herring bodies (H)

Pituicytes
Specialized neuroglial cells
Short and branching process
Distinct cell membrane
Cytoplasm contains granules and
lipid vacuoles
Nucleus – ovoid with pink
chromatin granules
Pituitary gland (posterior pituitary)

H – Herring bodies
Hormones produced by pituitary gland
and their effects
Anterior pituitary
1.Growth hormone –produced from orangeophil – acts on overall growth
2.Follicular Stimulating hormone –from delta cells – promotes growth of ovarian
follicles
- testes to produce spermatozoa
3.Luteinizing hormone – gamma cells – promotes ovulation
- stimulates interstitial cells of testes
4.Lutetrophic hormone – gamma cells – acts on corpus luteum to secrete
progesterone
- activates secretion of milk (prolactin)
5.Thyroid stimulating hormone – beta cells – on thyroid gland
6.Adreno – Cortico-trophic hormone – beta cells – on suprarenal cortex

Posterior pituitary
1.Antidiuretic hormone (vasopressin) – constricts arterioles
͢ - raise blood pressure

2.Oxytoxin – acts on uterine muscle, duct of mammary gland
Disorders of pituitary gland

Adenoma – excessive production of hormone
ACTH – Cushing’s disease
GH - gigantism or acromegaly
- pressure symptom on optic chiasma and nerve
- visual disturbance and blindness

Panhypopituitarism
- failure of production of hormone
- rare ; blockage of arterial supply
- necrosis of cells
 Suprarenal/Adrenal glands
Paired,
yellowish
retroperitoneal

lie on the upper poles of
the kidneys.
Separated from kidney
by perirenal fat.

Surrounded by renal
fascia & pararenal fat.
Pararenal
fat

Perirenal fat

Coronal section
 Right
adrenal
gland

Pyramidal in shape.
Base is related to the superior pole of the right kidney.
rests posteriorly on the diaphragm.
lies behind the right lobe of the liver and extends medially
behind the inferior vena cava.
 Left
adrenal
gland

Crescentic in shape.
Extends along the medial border of the left kidney from the
superior pole to hilum.
rests posteriorly on the diaphragm.
lies behind the pancreas, lesser sac, and the stomach
Adrenal gland: Arterial supply

A. Superior suprarenal
arteries from the inferior
phrenic artery.

B. Middle suprarenal
(one or more) from the
aorta.

C. Inferior suprarenal
(one or more) from the
renal artery.
Adrenal gland: Venous drainage
Venous drainage is
via the suprarenal
veins.

The left suprarenal
vein drains into the
renal vein

The right suprarenal
vein drains into the
inferior vena cava.
Adrenal gland: Lymphatic drainage

Lateral (para-aortic) lumbar nodes.
Adrenal gland: Internal structure

Each gland has a pale cortex and a dark brown medulla.
Adrenal gland: Histology
Adrenal gland: Histology
Adrenal gland
Histology
- Outer layer: dense fibrous capsule
- Central vein located in the center of medulla.

Adrenal cortex
3 Zones : Zona glomerulosa
-beneath the capsule
-cells arranged in round clusters / groups
separated by fibrous trabeculae
- contain capillaries.
- cells cytoplasm contain smooth ER &
numerous mitochondria.
-produce mineralocoticoid ( Aldosterone )
 short here
Rec
Adrenal cortex: Zona Fasciculata
– cells arranged in
parallel cord; right angle to the capsule.
– cytoplasm abundant & pale staining
– lipid droplet.
– mitochondria & SER.
– secrete glucocorticoid ; also secrete small amount of sex
hormone.
Adrenal cortex: Zona Reticularis
– innermost cortical layer.
– small closely packed cells
– arranged in irregular cords.
– clusters of cells are separated by wide diameter capillaries.
– less cytoplasm (few lipid droplets)
– darker staining.
– small quantities of androgen & glucocorticoid.
Adrenal medulla
Secretes catecholamines (adrenaline & noradrenaline (NA))
H&E stain – chromaffin cells: granular, faintly basophilic cytoplasm
– numerous capillaries.
– venous channels – central vein.
Chrome salt fixation H&E – cells containing NA–strong positive
chromaffin reaction.

Physical & psychological stress – release of adrenal medullary
hormone.
Adrenal gland: Blood supply

– superior, middle & inferior arteries – plexus under capsule

Cortex
capillaries sinusoids descend between cords of secretory cells
in the ZF.
- into deep plexus in ZR.
- small venules
- central vein.

Medulla – long cortical arteries
rich network of capillaries - surround the secretory cells.
- drain into central vein
 Adrenal gland disorders
Hypoadrenalism – due to autoimmune adrenalitis: failure of
secretion of cortical hormone
- Addison’s disease (weakness, tiredness, skin
pigmentation, postural hypotension, hypovolaemia
and low blood sodium)

Hyperadrenalism -(adenoma or carcinoma)
-Ectopic ACTH syndrome (neuroendocrine tumour
in lungs) – produce excess amount of glucocorticoid

Cushing’s syndrome – due to excess amount of glucocorticoid
Conn’s syndrome – due to excessive production of aldosterone
Pineal gland
 Pineal gland

Small
spherical
Lies in midline of the brain
Inferior to the posterior end
of corpus callosum
Represents an evagination of
posterior part of roof of 3rd
ventricle
Connected to the brain by a
stalk containing nerve fibres
Synthesizes melatonin –
induced by darkness
Histology

Cells – pinealocytes – modified neurons;
many branched processes
- arranged in clusters
- surrounded by
fenestrated capillaries
- granular cytoplasm;
contain melatonin and its
precursor serotonin
- round nuclei with
prominent nucleoli

- neuroglial cells – likes astrocytes

Matrix – calcium and magnesium
phosphate
- Aging pineal gland contains basophilic
extracellular bodies (Pineal sand)
In a cranial
radiography,
pineal gland used
to mark the. -O
midline
Pine
glad
 Pancreas

Exocrine & endocrine gland
Longnecker, Daniel S. 2021.
Lies posterior to peritoneum,
Lies across the transpyloric plane -

Head, neck and tail regions
Arterial supply: splenic artery and superior & inferior
pancreaticoduodenal arteries
Venous drainage: splenic vein and superior & inferior
pancreaticoduodenal veins that drain into portal system
 Pancreas
Possesses ducts for its exocrine function: main duct &
accessory duct
Lymph drains into the lymph nodes along its arteries and
finally into coeliac and superior mesenteric nodes
exocrine

↑ endermine

X
Pancreas: Histology

Exocrine secretory acini : darkly stained
Islets of Langerhans – clumps of endocrine cells
scattered in exocrine tissue
- more numerous in tail of pancreas
- appear as area of pale epithelial mass
- arranged in irregular, anastomosing
cellular plates around a rich capillaries
network
Consists of polygonal or rounded cells
Alpha cells – lies at periphery ; produce glucagon
Beta cells – at the center ; produce insulin
Delta cells – larger cells ; produce gastrin.
 a temporary organ
Thymus
largest at puberty

After puberty, it ceases to
grow, gradually reduces in
size and finally replaced
by fatty tissue

Produces hormones that
regulate immune cells
production

Responsible for maturing
T cells
 Thymus

consists of two lateral lobes placed in close contact along the
middle line

located partly in the thorax, partly in the neck, and upward
extending from the 4th costal cartilage, as high as the lower
border of the thyroid gland.

Derived from the ventral wing of 3rd pharyngeal pouch
Thymus: Histology

Capsule:loose collagenous; invested by epithelial
cells
Epithelial cells serve as supporting framework
Septa – separating lobes

Cortex –basophilic, contain T lymphocytes
(thymocytes),macrophages, Cortical epithelial cells
– nurse cells
Medulla – eosinophilic epithelial cells, Hassal
corpuscles
Histology of thymus gland

Capsule-loose collagenous; invested by
epithelial cells
Epithelial cells serve as supporting framework
Septa – separating lobes

Cortex –basophilic, contain T lymphocytes
(thymocytes),macrophages
Cortical epithelial cells – nurse cells
Thymus gland
Medulla – eosinophilic
- contain robust epithelial
cells (large pale nucleus with
eosinophilic cytoplasm)
- Hassall’s corpuscle – groups
of keratinised epithelial cells

After puberty, lipid infiltration
occurs
Cords of epithelial cells
persists and produce thymic
hormones through life
Cortex Medulla

Kame
layers
Thymus in fetus
 Testes
In the scrotum
Oval shaped
Encapsulated in dense fibrous
tissue: tunica albuginea
Gives rise to fibrous septa-
divide testes to testicular
lobules
Each lobule consist of a
seminiferous tubule
Supplied by testicular arteries
Testes : histology
Leydig cells - In between the seminiferous tubules
- produce testosterone
 Disorders
Testicular cancer
Varicocoele: enlargement of testicular veins
(pampiniform plexus) due to impaired venous
drainage
Hydrocoele testis: accumulation of fluid in the
tunica vaginalis
 Ovaries
Location: pelvis (ovarian fossa)
Paired
Oval shaped
Encapsulated by fibrous capsule: tunica albuginea
Supplied by ovarian arteries
Ovaries :Germinal epithelium –simple cuboidal cells
Cortex – peripheral zone; constitude follicles
- corpus luteum ( oestrogen and progesterone)
- corpus albican
- tunica albuginea is surface cortex
Medulla – loose fibro elastic tissue and vascular
Growing follicles is surrounded by theca externa and theca
interna
Egg cells - large spheroidal cells with vesicular nucleus and
prominent nucleoli , surrounded by granulosa cells
 Ovarian disorders

Ovarian cysts : eggs failed to released from
follicle
Polycystic ovary syndrome : irregular
menstrual cycle
Ovarian cancer : metastasized
Menopause : shrunken ovaries with scars
y Any question?
[email protected]

&
Acknowledgement:
PM Dr. Elvy Suhana Mohd Ramli
Department of Anatomy, UKM