Endocrine Flashcards
Name the 2 posterior pituitary hormones
ADH, Oxytocin
What hormones are released from the anterior pituitary
TSH, FSH, LH, GH, ACTH, Prolactin
What is the role of growth hormone
Induces targets to produce insulin-like growth hormone (IGF). IGF stimulates growth and increased metabolism
Where does ACTH stimulate and what does this cause
Adrenal gland. Increased secretion of glucocorticoids to regulate metabolism and stress response
A- Where is the Pituitary located
A- Sella Turcica/ pituitary fossa - directly behind the sphenoid air cells.
Anterior Pituitary
A- From where does the anterior pituitary develop
B- How are hormones stored and released
C- What hormones are released
A- Rathkes pouch, from an invagination of buccal mucosa / endoderm
B- Communication for release is via the hypothalamus. The hypothalamus releases neurotransmitters into the hypophyseal portal vessels which trigger release of hormone from the anterior pituitary
C-TSH, FSH/LH, ACTH, Prolactin, Growth hormone
Posterior Pituitary
A- Where does the posterior pituitary develop from
B- What hormones are released
C- Where are these hormones produced
A-Neural ectoderm- Consists of neurons that are extensions of the hypothalamus. Axons make up the stalk and the neutron terminates in the posterior pituitary lobe
B- ADH, Oxytocin
C- Supra-optic and paraventricular nuclei of the hypothalamus
What is the difference between a hormone that acts as an endocrine vs a paracrine vs autocrine
Endocrine- carried by the circulation to a distant site of action
Paracrine- direct effect on nearby cells
Autocrine- affect on the tissue that secrets it
HESX1 is a homeobox gene implicated in which disorder
Septo-optic dysplasia –> hypopituitary
Growth Hormone
A) Function
B) How does it generate growth promoting affects
C) Regulation
A: affects carbohydrate and lipid metabolism and growth promotion
B- Via IGF-1. GH binds to cell surface receptors which results in transcription of IGF-1. IGF-1 increases synthesis of DNA, RNA and proteins
C: Secretion is pulsatile. Nocturnal release occurs during slow-wave sleep. GHRH stimulates, Somatostatin inhibits growth hormone synthesis and release
Gonadotrophins- FSH + LH
A- Function of FSH
B- Function of LH
C- How is FSH/LH production stimulated
D- What hormone inhibits FSH/LH production
A- FSH: stimulates ovaries to mature follicles, binds to glomerulosa cells and stimulates conversion of testosterone to oestrogen. In males, binds to Sertoli cells in males to increase seminiferous tubules and support the development of sperm
B- Males- Stimulates leydig cells to produce testosterone. Females- binds to ovarian cells to stimulate steroidogenesis
C- Hypothalamus releases GnRH in pulsatile fashion –> stimulates production and release of FSH and LH from the hypothalamus
D- Inhibin
Thyroid stimulating Hormone:
A- Function
B- What regulates it
A- binds to cell receptors on thyroid follicular cells and activates adenylyl cyclase to cause production of thyroid hormone
B- Stimulated by TRH from hypothalamus. Inhibited by Thyroid hormone and Glucocorticoids
The precursor for ACTH gives rise to what other hormone
MSH- melanocyte stimulating hormone
In what order do you loose your pituitary hormones
GH
FSH/LH
TSH
ACTH
“Get Fizzed Tom A”
Name 3 genes associated with congenital hypopituitary
1- PROP1; most common cause of congenital multiple pituitary hormone deficiencies. Presents in growth failure at approx 6 years of age- deficient in Growth Hormone, Thyroid hormone, Prolactin, FSH and LH
2- PIT-1
3- HESX1- affects production of all anterior pituitary hormones. If homozygous, septa-optic dysplasia
What is Hall-Pallister Syndrome
What are the features
Absent pituitary gland + Hypothalamic Hamartoblastoma.
PALiSTER-HaL
-Pituitary failure
-Anus imperforate
-Limb abnormalities- polydactyl
-Skull- craniofacial abnormalities
-Throat- bifid oesophagus
-Epilepsy
-Renal Abnormalities
-Hypothalamic hamartoma
-Laryngeal cleft
CRANIOPHARYNGIOMA
A- What is it
B- What area of the pituitary does it affect
C- What classical visual symptoms due you get
D- What other symptoms can you get
A- A tumour arising from Rathke’s pouch
B- Anterior pituitary
C- Bitemporal hemianopia due to optic chiasm compression
D:
-Headache, temperature dysregulation,
-Hormone deficiency:
->GH: Growth failure
-> ADH: Diabetes insidious
-> ACT: Addison crisis (due to secondary adrenal failure) - hypoglycaemia, hyperkalaemia, hyponatreamia, hypotension, fever
What affect does hypoglycaemia have on growth hormone release
Stimulates its release
Which hormone inhibits the release of Prolactin
A- Dopamine
Dopamine antagonist, pituitary tumour, disruption of the pituitary stalk will cause increased PRL release –> lactation
Name 3 factors that stimulate ACTH production
When are ACTH levels highest
Stress, Fasting, Hypoglycaemia
Upon waking - secreted in a diurnal pattern
On which part of the renal tubule does ADH act
How does ADH work
What stimulates ADH release
Collecting duct
Stimulates the translocation of aquaporions. In high concentrations, it also stimulates smooth muscle cells
Increased plasma osmolality- perceived by osmo-receptors in the hypothalamus + reduced blood volume- sensed by baroreceptors in the aortic arch and carotid sinus
Which of the following does not stimulate GH secretion
A- Insulin
B- Glucagon
C- Dopamine
D- Arginine
C- Dopamine
Insulin, Glucagon and Arginine stimulate GH releasee
How do you perform a growth hormone stimulation test
Administer Glucagon/ insulin/Arginine –> measure level post –> GH <10 on 2x occasions is a positive test for deficiency
What are 4 contra-indications to giving growth hormone
OSA, Malignancy, Fanconi anaemia, IDDM
On average, how much does a child from between the ages of
A) 1-2
B) 2-4
C) 4- puberty
D) Puberty onward
A) 30-35cm
B) 7.5cm
C) 5cm
D 5-11cm
A) How do you calculate mid-parental height for a
BOY
GIRL
B) Above what cm different is a child not inkeeping with their genetic potential
BOY: (Father height + Mother height) +13 / 2
GIRL: (Father height + Mother height) -13 / 2
B) If >8.5cm above/below your mid parental height this is not in keeping with the genetic potential
What are the feature of Hall-Pallister syndrome
PALSTER-HaL”
-Pituitary failure. polydactyl
-anal imperforate
-lung abnormalities
-Skull- craniofacial abnormalities
-Throat- bifid oesophagus and tongue
-Epilepsy
-Renal abnormalities
-Hypothalamic hartoma
-Laryngeal cleft
What test is used to check for Growth hormone deficiency
GH stimulation test
Give insulin/glucagon/clonidine/arginine and test growth hormone for 2 hours to see if rises
If it doesn’t central GH deficiency
what are the side effects of growth hormone
T2DM
SUFE
Gynaecomastia
OSA
Benign intra-cranial HTN
Not used in cancers
SHOX gene is implicated in what
In what syndromes would you find more and less of it
SHOX= important for growth and expressed in chondrocytes.
Carries on the X and Y chromosome
Turner - less of it –> short
Klinefelters XXY –> too much of it –> tall
What is the abnormalities in Russel Silver syndrome
What are the symptoms
IGF-2 inappropriate methylation/ uniparental disomy etc
Sx; triangular face with large head, FTT, hemiatrophy, growth failure
What is the key difference between familiar short stature vs constitutional delay
Familial- normal growth velocity, bone age <1 separate year from chronological age, normal puberty onset, Final height short
Constitutional- bone age >1 year delayed from chronological age. Puberty delayed. Final height normal
NSD1 gene is implicated in what disorder
Soto syndrome
Soto syndrome
-what gene
-what sx
NSD1 gene
Sx: tall childhood growth velocity, frontal bossing, high arched palate, hypertelerosim, behavioural issues
What is the investigation for Diabetes Insipidus
Water deprivation test
-Keep testing until serum osmalaity >295
-failure to concentrate urine
-then give DDAVP
-If responds = central; if no response= nephrogenic
NDI gene on the X-chromosome is seen in what condition
Neonatal diabetes insipidus
Mutation of the V2 receptor –> congenital nephrogenic DI
What are nephrogenic causes of DI
Mutation at V2 receptor
Aquaporion mutation
Concentrating syndrome
-Bartter syndrome
-Gitteman Syndrome
What is inappropriately excreted in cerebral salt wasting
What effect does it have on
-blood pressure
-serum Na
-urine Na
-urine output
What is the treatment
ANP- atrial natureitic peptide
-Blood pressure: lower
-Blocks Aldosterone secretion –> lower sodium reabsorption –> reduced serum sodium
-urine sodium = very high
-urine output = very high
TX: IV Fluids with NaCl
What are causes of SIADH
What affect does it have on
-serum osmolality
-urine osmolality
-serum Na
-urine Na
-Blood pressure
What is the treatment
Infection- meningitis
Trauma
2nd part of recovery from neurosurgery (death of Anterior pituitary cells
Overdose of DDAVP
Serum osm: low
Urine osm: high
Serum Na: low
Urine sodium: relatively high
Blood pressure: normal
Fluid restrict
Salt replace
Urate crystals
Tolvaptin
What is the treatment of diabetes insipidus
Access to free water
Salt and protein restriction
Thiazide diuretic- trick proximal tubule to absorb more water
DDAVP
What features do you get in pseudohypoaldosteronism
What causes it
Signs of mineralocorticoid deficiency e.g. hyperkalaemia, hyponatraemia, hypotension
BUT high renin and high aldosterone
In true hypoaldosteronism get high renin but low aldosterone
Cause: loss of function mutation on sodium channel
What are the features of Liddles syndrome and why
What is the treatment
Liddles- gain of function mutation of epithelial sodium channel
Results in pseudohyperaldosteronism
-hypokalaemia, HTN
-metabolic alkalosis
-renin and aldosterone levels low
Treatment = aliloride which block the channel
what test would you order for paeochromocytoma
plasma noremetanephrine test
What do you get in
MEN III
MEN II
MEN I
MEN III:
-Medullary thyroid hyperplasia
-Medullary adrenal hyperplasia - phaeochromocytoma
-Mucosal neuroma
MEN II:
-Medullary thyroid neoplasm
-Medullary adrenal gland - phaeochromcytoma
-Parathyroid hyperplasia
MEN I
-parathyroid hyperplasia
-pituitary tumour
-pancrease carcinoma
What features do you get in 17OH deficiency
Cannot form cortisol and androgens. Only get androgen deficiency because deoxycortisone acts like cortisol.
Males= under-virilization
Female= lack of progress via puberty
Testing:
-reduced DHEA and androgen
-reduced cortisol
-increased ACTH
TX
-Hydrocortisone to reduce ACTH so not causing mineralocorticoid excess
-Testosteron/Oestrogen supplements
What occurs in a 3BHDH deficiency
What do you see on lab tests
What do you see externally
Cannot synthesis any elements in the cortex except DHEA
-deficiency in aldosterone, cortisol and androgens
Get
-low blood sugar, low blood pressure
-hyponatraemia, hyperkalaemia, metabolic acidosis
-increased renin and ACTH
-reduced Aldosterone and cholesterol
-increased DHEA
Males= undervirilisation + salt wasting
Females= may get mild virilization due to increased DHEA
What occurs in 21-OH deficiency
What do you see on labs
What do you see externally
Cannot form aldosterone and cortisol
Results in adrenal insufficiency of these areas and increased androgen production
Labs:
-increased DHEA, Androgen
-increased ACTH, reduced cortisol, no synacthen response
-increased Renin, reduced aldosterone, hyponatraemia, hyperkalaemia, metabolic acidosis, low blood pressure
External:
Female- virilzation of external genitalia
Male- no affect- present in crisis due to salt wasting and lack of cortisol response in stress
What occurs in a 11-B OH deficiency
What occurs in lab
What do you see symptomatically
Cannot form Cortisol only. Nil issues with mineralocorticoids or androgens
Labs:
-increased ACTH, reduced cortisol, nil response to synacthen
-Slightly increased androgens
-Normal renin and aldosterone as renin regulates this pathway
-INCREASED DEHYDROXYCORTISOL
What are the zones of the adrenal cortex and what do they produce
Zona Granulosa- Mineralocorticoids
Zona Fasciculata- Glucocorticoids
Zona Reticularis - Androgens
What age is the adrenal gland made
when does it begin steroid production
8 weeks
9-12 weeks
What are the features of McCunes Albright syndrome
Coast of Maine birth spot
Fibrous dysplasia
Endocrine hyperfunction e.g. oestrogen producting cysts, hyperfunction of adrenal gland
What test helps differentiate primary vs secondary Cushings syndrome
Dexamethasone suppression test
-Give 11pm dose of dexamethasone
-should suppress ACTH secretion
-check cortisol mane
-if reduced cortisol, secondary causes (pituitary adenoma secreting ACTH)
-if nil change to cortisol, ACTH independent lesion e.g. adrenal adenoma
When is the best time in cushings to check a cortisol level
midnight- reverse of normal cortisol peak elevation
What is conns syndrome
Aldosterone secreting adrenal tumour
How do you investigation primary vs secondary adrenal insufficiency
Short Synacthen test
What is an adrenal crisis
Decompensation due to hypo functioning adrenal system in context of a stressor
-Cortisol: low BSL, hypotension
-Aldosterone: hyperkalaemia, hyponatraemia, hypotension, metabolic acidosis
What are 4 causes of hyperaldosteronism
-Conns syndrome
-Renal artery stenosis
-Renin secreting tumour
-Reduced ECF volume e.g. nephrotic syndrome
DAX1 mutation is seen in what
congenital adrenal hypoplasia
What is a STAR mutation and what is the result
Affects cholesterol uptake in to the adrenal gland
Nil uptake -> nil dyshormogenesis
In males, results in undervirilization
In both causes salt wasting and cortisol deficiency
What is given to stop idiopathic central precocious puberty
GnRH - Lucrin - stops pulsatile GnRH so FSH and LH are secreted
