endocrinology anatomy

Question 1

describe the location and surroundings of the hypothalamus

Answer 1

• Thalamus makes up the wall of the third ventricle
• Below thalamus is the hypothalamus
  o Also makes up part of inferior wall of 3rd ventricle
• Anterior commissure is an anterior border to the hypothalamus
• Hypothalamic sulus marks superior limit of hypothalamus
• Inferiorly the optic nerve/ optic chiasm
• Mamillary body is sometimes thought of as part of the hypothalamus

Question 2

what nerves surround the base of the hypothalamus and what is the raised platform which the pituitary stalk sits on called

Answer 2

Olfactory nerve, optic tract, crus cerebri all together formt his diamond shaped area

• Within this is the base of the hyppothalamus
• Tuber cinerum is a raised platform upon this is the infundibulum aka the pituitary stalk

Question 3

describe the cells within the hypothalamic nucleus and how they secrete hormones

Answer 3

The cells within these nuclei are able to make systemically active hormones

• These hormones can travel down the axon of the magnocellular neurons
• Axons pass down pituitary stalk
• End of this stalk/ the axons is in the the pituitary gland
• Then these hormones are secreted into the circulation from here

Question 4

what are some of the important hypothalamic nuclei

Answer 4

• Paraventricular Nucleus
• Supraoptic nucleus
• Suprachiasmatic nucleus
• Dorsomedial nucleus
• Ventromedial nucleus
• Posteroior nucleus
• Mammillary body

Question 5

where does the hypothalamus receive info from

Answer 5

Limbic system
- Emotion, memory, instinctive and learned behaviours
Circulating blood
- Physical, chemical and hormonal state
Reticular formation
- State of arousal
- Can go via the thalamus to the hypothalamus or directly
Autonomic NS
- Chemical constituents in fluid filled cavities
- Pressure in smooth muscle walls

Question 6

where does the hypothalamus disperse info to

Answer 6

Limbic system
-	Via the thalamus
-	Motor behaviour
Brainstem
-	Wakefulness and asleep
ANS
-	Internal organ control
Pitutary Gland
-	Secretes hormones

Question 7

the pituitary gland - what is it, what are the 2 parts and their locations/ surroudings

Answer 7

Aka hypophys cerebri (meaning something hanging off the bottom of the brain)
- Functional output from hypothalamus
- Connected to hypothalamus via infundibulum (pituitary stalk)
- Posterior = neurpophysis = neuronal
o Expansion of distal infundibulum
- Anterior = adenohypophysis = epithelial
o Upgrowth from roof of primitive oral cavity

Question 8

explain what the pituitary fossa is - where it is and what the hole in the middle is called

Answer 8

Depression in the middle of the skull
Hypophysial fossa – or pituitary fossa
- Extension of dura that goes over top of this fossa
- creates a shelf with a hole in the middle for the infundibulum to travel through
- This is known as the seller diaphragm
- Seperates cavity from rest of cranial cavity

Question 9

what hormones are made in the anterior pituitary and what do they do

Answer 9

Adrenocorticotrophic hormone (ACTH)
-	Adrenal gland production of sex hormones and corticosteroids
Luteinising Hormones (LH)
-	Same as below
Follicle stimulating hormones (FSH)
-	Stimulates ovarian follicale and production of oestrogen and progesterone
Thyroid stimulation (TSH)
-	Thyroxine production from thyroid
Growth Hormone (GH)
-	Growth in epiphyseal cartilage
Prolactin (PL)
-	Lactogenesis

Question 10

hormones made in the hypothalamus and what hormones do they promote/ inhibit

Answer 10

ACTH
-	CRH promotes
LH and FSH
-	LRHR promotes
TSH
-	TRH promotes
GH
-	GHRH promotes
-	GHIH inhibits
PL
-	PRH promtoes
-	PIH inhibits

Question 11

cells in the anterior pituitary and what they make

Answer 11

Somatotrophs
-	GH
Mammotrophs
-	PL
Corticotrophs
-	Corticotrophin
Thyrotrophs
-	TSH
Gonadotrophs
-	FSH and LH

Question 12

does the posterior pituitary make hormones?

Answer 12

Posterior pituitary isn’t making the hormones it’s just where the hormones are released into the systemic circulation

Question 13

what hormones are released from the posterior pituitary and what hypothalamic nuclei make these

Answer 13

Oxytocin
- Milk production and uterine contraction
- Paraventricular nucleus (PVN) make this hormone
Vasopression (anti-diuretic hromone, ADH)
- Increase water uptake in the kidneys
- Supraoptic nucleus (SON) make this hormone

Question 14

blood supply to the pituitary

Answer 14

Superior hypophyseal artery is one of the earliest branches of the internal carotid artery
- Comes off at the base of the infidibulum to create the pituitary portal system
- Also important as general blood supply
Inferior hypophyseal artery is another branch of the I. carotid artery

Question 15

veins draining the pituitary

Answer 15

Veins

• Drain sinusoids
• Carry hormones away from pituitary gland into systemic circulation

Question 16

what 2 hormones does the thyroid produce

Answer 16

• Iodine containing hormones
  o T3 (tirhydorthyronine) and T4 (thyroxine)
  o T3 more metabolically active, T4 secreted more by throid then activate in systemic circulation
  o Regulate basal metabolic rate
  o Secretion regulated by TSH from anterior pituitary gland
• Calcitonin
  o Controls blood calcium levels
  o Not under control of pituitary – negative feedback loop with blood calcium

Question 17

whats special about the thyroid glands storage capacity

Answer 17

Stores hormones in inactive form in extracellular compartment
- Other organs can’t do this – instead store in intracellular compartments

Question 18

what is the location of the thyroid in relation to muscles

Answer 18

• Deep to sternocleidomastoid muscle

- Deep to sternothyroid muscle

Question 19

blood supply of the thyroid

Answer 19

From 2 sources

• Branch of subclavian artery called the thyrocervical trunk, brach from this called inferior thyroid artery and
• Branch of the external carotid called the superior thyroid artery

Question 20

recurrent laryngeal nerve what does it supply and whats its relevance to the thyroid

Answer 20

• Supllies larynx

- It’s very close to the thyroid and is commonly damaged during thyroid surgery

Question 21

venous drainage of the thyroid

Answer 21

• Supeior thyroid vein
• Middle thyroid vein
• Inferior thyroid vein

Question 22

histology of the thyroid

Answer 22

• Unique as it has extracellular spaces to store thyroid hormones
• Follicles surrounded by cuboidal epithelial cells
• Have extracellula rspace amongst this
• Whole throid gland is seperated by the septa
  o Connective tissue that’s came in from the fibrous capsule
  o These carry the blood vessels

Question 23

what cells secrete / store thyroxine

Answer 23

Throxine made in the surrounding cuboidal epithelium it’s then secreted and stored in the centre of the follicle

Question 24

parathyroid location and number

Answer 24

Located on the back of the thyroid gland
Number of them is variable
- Typically have 4
o 2 on each side – inf. And sup.

Question 25

blood supply and venous drainage of the parathyroid

Answer 25

BLOOD SUPPLY
- From inferior thyroid artery from subclavian artery
- Lots of anastamoses in this area so may have supply from superior thyroid artery aswell
Venous drainage
- Similar to thyroid as drain through the same pathway

Question 26

histology of the thyroid

Answer 26

P- chied/ principle cells
-	Secrete PTH
A – adipocytes
-	20-40% of mass made of adipose tissue
-	After adolescense fat acumulate in the thyroid
O – oxyphil cell
-	Role unclear
C – capillary
-	Brings and drain blood

Question 27

structure of the pancreas

Answer 27

• Head (uncinate process), neck, body, tail
• Main oancreatic duct
• Hepatopancreatic ampulla (the accessory and main pancreatic ducts joined together)
• Accessory pancreatic duct

Question 28

arterial supply of the pancreas

Answer 28

ARTERIAL SUPPLY
- Complex, rich blood supply
Common Hepatic artery (a branch of the coeliac trunk)
- Gives off the gastroduodenal artery
- Gives off the right gastroomental and is thereafter known as anterior superior pancreaticoduodenal
- Divides into the posterior superior pancreaticoduodenal at about the same time

Superior Mesenteric artery

• Emerges between the pancreas ansd the duodenum
• Gives of the branch – inferior pancreaticoduodenal (anterior and posterior branches)
• These anastamose with the anterior and posterior counterparts coming from the common hepatic

Splenic artery

• Winds along the top of the pancreas
• Great pancreatic Artery is a branch that comes off of this
• Supplies much of the body and tail of pancreas

Question 29

venous drainage of the pancreas

Answer 29

Splenic Vein
- Drains the neck, body and tail
Superior and inferior pancreaticoduodenal veins
- Drains the head
- Both drain into the superior mesenteric vein

Question 30

lymphatic supply to the pancreas

Answer 30

• Most goes via pancreaticosplenic nodes
• Some via celiac nodes
  Ultimately draining to lymph nodes around the superior mesenteric artery or the coeliac trunk via the hepatic nodes

Question 31

histology of the pancreas

Answer 31

• Most of substance made up of acciner cells
• Adipocytes (AC)
• Pancreatic islets (I) aka the endocrine cells of the pancreas

Question 32

testis structure - 3 main structures and funtions

Answer 32

-	Ductus (vas) deferens
o	Transport sperm from semeniferous tubules to ejaculatory ducts
-	Epididymis
o	Has a head, body and tail
o	Sperm is stored and matured
-	Seminiferoud tubules
o	Produce spermatozoa
o	Also where male hormones are produced

Question 33

development and blood supply of the testis

Answer 33

• Testis develop in abdominal cavity
• By birth descend to the scrotum
  o As they descend bring down blood, nerves, ducts
  o Main blood supply are gonadal testicular arteries
  o Arise from the abdominal aorta at L2

Question 34

venous drainage of the testis

Answer 34

Venous drainage
-	Pampiniform plexus of veins
o	Drains epididymis and testes
-	Testicular/ ovarian veins
o	R – IVC
o	L – Left renal artery

Question 35

descent of testis in development

Answer 35

• Helped by gubernaculum
  o A fibrous cord of tissue that attaches to inferior portion of gonad and to the scrotum (or labia in females)
  o Guides testis descent
• Inguinal canal > passge through anterior abdominal wall created by the processus vaginalis (forms during embryonic development)
  o The route which the testis move through the muscle into the scrotum
• Processus vaginalis finally forms the spermatic cord > collection of the vessels, nerves and ducts that testis drags with it as it descends

Question 36

spermatic cord

Answer 36

• Tube shaped connection between pouch in scrutum and abdominal wall
• Surrounded by fascia
• Runs from opening in the inguinal canal into the scrotum through inguinal ring

Question 37

what are the 3 cell types in the seminiferous tubules

Answer 37

Seminiferous tubules are lined with 3 cell types –
1- Germ cells (sperm in various stages of development)
2- Sertoli cells (supporting cells)
3- Leydig cells (endocrine function)

Question 38

androgens produced by leydig cells

Answer 38

• Testosterone
• Androstenedione
• Dehydroepiandrosterone (DHEA)

Question 39

whats the stages the follicles fo trhough in oogenesis

Answer 39

• Every ~28 days (or more) ovarian follicle ruptures and releases ovum into peritoneal cavity
• Primordial follicle is starting point for egg formation
• Primary follicle – larger cuboidal granulosa cells
• Secondary follicle as granulosa cells proliferate
• As fluid starts to form the follicle is known as an antral follicle
• Antrums join to one big shape forming graafian follicle
• This ruptures and releases an oocyte
• The remainign structure is known as the corpus luteum

Question 40

what are the zones of the ovary

Answer 40

Peripheral zone – cortex
-	Contains ovarian follcile
-	Each follicle contains one ovum
Central zone – medulla
-	Contaisn blood vessels

Question 41

what is the control system in the HPO axis

Answer 41

• Hypothalamus secretes GnRH
• FSH and LH released from anterior pituitary
• FSH stimulate follicle to grow
  o As these grow they secrete oestrgen and inhibins (granulosa cell release this)
  o Inhibin has negative feedback on pituitary to inhibit FSH
• LH surge drives ovulation
  o Also stimulates development of corpus luteum
  o Corpus luteum secretes progesterone
  o Progesterone stimulates growth and differentiation of endometrium (oestrogen also helps with this)
  o High progesterone inhibits FSH and LH secretion

Question 42

what happens hormonally if pregnant

Answer 42

If get pregnant…

• Fertilised embryo secrete hCG
• Placental hormone secreted by placental cels in early developing embryo
• hCG signals to corpus luteum preventing it from degenerating
• corpus luteum continues to secrete progesterone and eostradiol
• if no hCG (no fertilised egg) endometrium degenerates = period

Question 43

uterus structure and position

Answer 43

• hollow pear-shaped, muscular organ
• sits between bladder and rectum in females
• suspended by broad ligament
• has as….
  o Fundus
  o Body
  o Cervix
• Normal position
  o Anteverted (in respect to vagina) – rotated forward towards anterior surface of body
  o Anteflexed (in respect to cervix) – flexed towards anterior surface of body

Question 44

layers of the uterine wall

Answer 44

3 tissue layers…
-	Endometrium
o	Innermost layer, divided into…
o	1 – functional layer – rich in glands, thickens and becomes rich in blood vessels, is shed in menstruation
o	2 - Basal layer- not lost during menstruation, a fresh functional layer is regenerated from this layer during each cycle
-	Myometrium
o	Middle, muscular layer (smooth)
o	Thickest layer
o	Prodcues contractions in childbirth
-	Perimetrium
o	Outermost layer 
o	Part of vsiceral peritoneum

Question 45

histology of the uterus in different menstrual stages

Answer 45

Menstrual phase
-	Low progesterone
-	Cell death
-	Restriction of blood vessels
-	Ischaemia
-	Endometrial shedding
Early proliferative phase
-	Sparse/ small uterine glands
-	Stroma proliferates, thickens
-	Vascularisation of stroma
Late proliferative phase
-	Thick stratum functionalis
-	Colled glands
-	Densely packed glands
Secretory
-	Inc. progesterone
-	Complex, coiled glands
-	Max. thickness
-	Saw-toothed glands

Question 46

blood supply to the uterus

Answer 46

• Internal iliac artery
• External iliac artery
• Uterine artery (branch of IIA) paired
  Uterine veins (tribitary of the IIV) paired

Question 47

placenta

Answer 47

• highly vascular organ
• formed from elements of membranes that surround developing foetus and uterine endometrium
• vital physiological exchange between maternal and fetal circulation
• expelled from uterus as the afterbirth

Question 48

functions of the placenta

Answer 48

• transport of gases and nutrients
• excretion – fetal waste
• hormone/ growht factor production
  o hCG, estradiol, progesterone
• metabolic functions
  o synthesis of glycogen
• Protection

Question 49

endocrine secretions of the placenta

Answer 49

Human Chorionic Gonasotrophin (hCG)
- Secreted by trophoblast cells of the early embryo during…
o Stimulates the production of progesterone and so prevents the corpus luteum from degenerating
Progesterone
- Important for maintenance of pregnancy
- Acts on myometrium to inhibit uterine contractions
Estradiol
- Help uterus grow, maintains uterine lining and stimulates growth and development of the mammary glands

Luteal-placental shift occurs around 8 weeks into pregnancy, placenta takes over secretion of progesterone from corpus luteum

Question 50

what are the 2 parts of the placenta - and what proportions do they make up throughout pregnancy

Answer 50

Villous Chorion > fetal part of the placenta develops from chorionic sac

Decidua Basalis > maternal part of placenta derived from the endometrium

By end pf 4 months of pregnancy the decidua basalis is almost completely replaced by fetal part of placenta

Outer layer of chorion is the trophoblasts which provide nutrients for foetus

Question 51

the placenta - chronic villous description

Answer 51

• Blood vessels come into the villous
• Branch villi arise from stem villous
• Each septum divides fetal part of placenta into convex areas – cotyledon
• Each cotyledon consists of 2 or more stem villi and many branch villi
• Blood vessels supply the foetus with blood and O2 take away CO2

Question 52

umbilical cord

Answer 52

• 2 umbilical arteries which bring deoxygenated blood from foetus to placenta
• Well-oxygenated blood carried by single umbilical vein – brings O2 to foetus

Question 53

all substances are transported from mother to fetus via one of the following mechanisms…

Answer 53

• Simple diffusion
• Facilitated diffusion (electrical gradients)
• Active transport
• Pinocytosis (endocytosis of small amoutn of material being engulfed into the cell

Question 54

maternal vs fetal placenta surfaces

Answer 54

maternal

• Cotyletons on matenal surface covered in grooves occupied by placental septums
• Each cotyleton has a few stem villi and many branch villi

fetal

• Blood vessels running in the chorionic plate deep to the anion
• Converge to form umbilical vessels at the attachment of umbilical cord

Question 55

histology of the placneta

Answer 55

In early placenta there ar enot that many villi compared to late placenta