endocrine physiology p138

Question 1

3 modes of communication in the body

Answer 1

cell -> cell (neural synapse)

cell -> several cells (paracrine)

several cells -> many cells (endocrine)

Question 2

process of synapse

Answer 2

impulse arrievs at terminal presynaptic cell

transmitter released from storage vesicles

transmitter diffuses in synaptic cleft

transmitter binds to receptor on posynaptic cell

alters postsynaptic cell:

• excitatory e..g impulse generated, muscle contracts, glnf secretes
• inhibitory e.g. postsynaptic cell is switched off

transmitter action is terminated

Question 3

drug actions on synapses

Answer 3

enhance or block

Question 4

paracrine communication

Answer 4

one cell to several

immune cells often

often part of cascade reactions

Question 5

autocrine commuication

Answer 5

chemcial acts on a cell releasing it (self-feedback)

can also be regulated by drugs

Question 6

endocrine transmission

Answer 6

secreted by a gland

hormone sent to all parts of the body via blood stream

acts only on cells with correct membrane protein corresponding to it

Question 7

nerves

Answer 7

actions very specific and often localised

rapid transmission

sutiable for rapid responses e.g.:

• vol. muslce contractions
• thinking
• salivary secretions
• oral/pharyngeal and oesphageal functions

Question 8

hormones

Answer 8

can affect many cells (different body parts)

co-ordinated body wide actions

slow to act but effect persists

suitable for prolonged controls e.g.

• small intestine gland response
• control of metabolism/growth
• regulation of blood calcium and glucose

Question 9

can nerves and hormones work together

Answer 9

some body functions involve both types of communication

• regulation of blood pressure
• stress reactions
• thermal regulation

Question 10

2nd messengers

Answer 10

peptide transmitters (1st messengers) can’t cross cell membrane so instead act on a receptor protein on the cell membrane

intracellular effects are therefore regulated by second messengers

• G proteins and cAMP
• calcium ions (G proteins/ Ca²⁺)

Question 11

steroid hormones

properties

Answer 11

can pass through target cell membrane and act on receptors inside the target cell

Question 12

anterior pituitary hormones

Answer 12

• adrenocorticotropic hormone (ACTH)
• follicle stimulating hormone (FSH)
• luteinsing hormone (LH)
• thyroid stimulating hormone (TSH)
• growth hormone (GH)
• prolactin (PL)

Question 13

hypothalmic anterior pituitary hormones

Answer 13

hypothalamus secretes ‘releasing’ hormones

passed to the anterior pituitary via blood vessels - hypothalamic pituitary portal vessels

trigger hormone secretion from ant pituitary

Question 14

hypothalmic AP hormones

Answer 14

• corticotropin releasing hormone (CRH)
• gonadotropin releasing hormone (GRH)
• thryotropin releasing hormone (TRH)
• growth hormon releasing hormone (GHRH)
• somatostatin (SS; GH inhibiting hormone)
• prolactin releasing hormone (PLRH)
• dopamine (DA; also PLIH)

Question 15

posterior pituitary

signalled by

hormones relased

Answer 15

hormones made in hypothalamus go to posterior pituitary along nerve axons

hormones relased by PP

• ADH (vasopressin)
• oxytocin

Question 16

cortex hormones from adrenal glands

Answer 16

mineralcorticoids e.g. aldosterone

glucocorticoids e.g. cortisol

sex hormones e.g. androgens, oestrogens

Question 17

medulla of adrenal glands releases

Answer 17

adrenaline

modified sympathetic ganglion

Question 18

pancreatic islets relaseases

Answer 18

glucagon - α cells

insulin - β cells

somatostatin - δ cells

Question 19

pancreatic δ cells release

Answer 19

somatostatin

Question 20

pancreatic β cells release

Answer 20

insulin

Question 21

pancreastic α cells release

Answer 21

glucagon

Question 22

glucagon

Answer 22

released in response to low blood sugar

acts to raise blood glucose

actions:

• when glucose is gone you need glucagon
  
  • glycohenesis in the liver
  • gluconeogenesis in the liver
  • lipolysis and ketone synthesis

Question 23

insulin

Answer 23

released in response to raised blood glucose concentrations

acts to lower blood glucose

facilitates glucose entry into - muscle cells, adipocytes

gluocse uptake to liver is not insulin dependent

promotes formation of m acromolecules

Question 24

somatostatin

Answer 24

functions as a local hormone, inhibits secretion of both insulin and glucagon

seperate from the action of inhibiting growth hormone release from anterior pituitary

Question 25

diabetes melliyus

Answer 25

abnormality of glucose regulation (lots of sweet pee)

Question 26

diabetes insipidus

Answer 26

abnormality of renal function - watery pee

reduced ADH

Question 27

type 1 diabetes mellitus

Answer 27

insulin defcicient

Question 28

type 2 diabetes mellitus

Answer 28

insulin resistant

Question 29

type 1 diabetes mellitus

is

Answer 29

immune mediated pancreatic β cell destruction

ciculating antibodies present:

• glutanic acid decarbozylase
• islet cell antibodies
• insulin cell antibodies

causes hyperglyceamia (inc blood glucose)

results in ketoacidosis

Question 30

ketoacidosis

Answer 30

type 1 diabetes mellitus

body breaks fdown fats - produce ketone bodies

build up in insulin def and lower blood pH

blood glucose is raised concurrent to this

due to these phenomena there is osmotic diuresis and resultant dehydration

sodium and potassium loss due to leaking out of cells and into urine

Question 31

signs of ketoacidosis

Answer 31

polyuria

polydipsia

tiredness

Question 32

acute presentation of ketoacidosis

Answer 32

hyperglyceamia

Question 33

type 2 diabetes mellitus is

Answer 33

insulin resistance and relative insulin deficiency

metabolic disorder

• elevataed basal insulin (defect in insulin resistance)
• decreased overal insulin (β cell response to hyperglycaemia inadequate)
• basal hepatic glucose increased (insulin fails to supress glucose)
• insulin stimulated muscle glucose uptake reduced

Question 34

sigsn of type 2 diabetes

Answer 34

glucose intolerance in body

hyperinsulinaemia

hypertension

abdominal obesity

dyslipidaemia (abnormal lipid levels in blood)

procoagulant epithelial markers (causes early platelet adhesions, sticky endothelium)

early and acclerated athersclerosis

Question 35

typical characteristics of type 1 diabetes

Answer 35

younger

thin

family Hx of autoimmune disease

diabetic symptoms

easily get ketosis

Question 36

typical characteristics of type 2 diabetic

Answer 36

older

obese

strong family Hx

present with secondary complications (cardiac etc)

rarley get ketosis

Question 37

drugs for diabetes

Answer 37

oral hypoglucaemic drugs (reduce blood glucose Hyper>Drug=Hypo)

bisguianides

sulfonylureas

carbohydrate absorptiono delayers

Question 38

bisguanides

Answer 38

good drug, lowers blood glucose, reduce gluconeogenesis but doesn’t lead to hypo

e.g. metformin

• taste distubance
• lactic acid build up due to taking it - can be fatal
• insulin sensitisers

Question 39

sulfonylureas

Answer 39

stimulate insulin secretion

risk of causing hypo and weight gain (due to increase macromolecules)

insulin scretagogues

e.g. gliclazide

Question 40

carbohydrate absorption delayers

Answer 40

does what it says

e.g. A-carbose

Question 41

type 2 diabetes specific management

Answer 41

weight loss

diet restriction

diet pills (orlistat, sibutramine)

gastric bypass

Question 42

type 1 diabetes specific management

Answer 42

insulin sub cutaneously

different preparations/regimes - indivualised

ideal sugar 4<7

HbA1C (6<10%) measure of glucose bound to haemoglobin

Question 43

macrovascular complications of diabetes

Answer 43

PVD lower limbs

neuropathy (autonomic - impacts small vessels, causes ischaemia and diabetic foot)

cerbrovascular (stroke, TIA)

Question 44

microvascular diabetic complications

Answer 44

retinopathy - blindness

nephropathy (backflow from bladder)

Question 45

types of multiple endocrine neoplasia

Answer 45

1

2a

2b

Question 46

MEN1

Answer 46

multiple endocrine neoplasia

• parathyroid
• pancreaitc islets
• anterior pituitary

Question 47

MEN2a

Answer 47

multiple endocrine neoplasia

• parathyroid
• medullary thryoid
• phaechromocytoma

Question 48

MEN2b

Answer 48

multiple endocrine neoplasia

• medullary thyroid
• pahechormocytoma
• mucosal neuromas
• marfanoid appearance

Question 49

pituitary tumours are called

Answer 49

adenomas

Question 50

functional adenomas can cause

Answer 50

amenorrhea-galactorrhea syndrome

Cushing’s disease

Acromegaly

Question 51

amenorrhea-galactorrhea syndrome

Answer 51

hyperprolactinaemia - infertilty, poor breast milk production

Question 52

Cushing’s disease

Answer 52

caused by excess of gluocorticoids secodary to adreanl hyperplasia

excess ACTH production

signs

• moon face
• buffalo hump
• central obesity + proximal muscle wasting
• hirsutism in females

systmic effects

• cortisol = insulin resistance = impaired glucose tolerance/diabetes
• mineralcortcoids = salt and water resistance- oedema and HT

Question 53

Cushing’s syndrome

Answer 53

non-pitutary

caused by primary adrenal disease

decreased GH

• growth failure in children
• metabolic changes in adults - inc fat, reduced vitality

non functional adenomas

Question 54

acromegaly

Answer 54

growth hormone excess after epiphyseal plates have fused

if in children known as Gigantism - Test for IGF-1 (insuliln like growth factor 1)

signs

• coarse facial features
• visual field defects - bitemporal hemianopia (optic nerve crossover)
• enlarged tongue
• denture no longer fitting
• inc diastema and reverse overbite
• ankylosis of TMJ
• hypertension
• large hands and feet
• type 2 diabetes
• nerve pathology - III, IV and VI palsies
• CVD - ischaemic heart disease, acromegalic cardiomyopathy

Question 55

non-functional adenomas

Answer 55

space occupying tumours

visual field defects

hormone deficiencies due to destruction of paraenchyma of pituitary (replaced with tumour)

can be reduced with trans-spehnoidal surgery

Question 56

thryoid hormones

Answer 56

T3: tri-iodothyronine (deiodinated form of T4 works once in target cells)

T4 -thyroxine (more numerous than the former)

Question 57

hyperthyroidsim

Answer 57

excess T3 and T4

Question 58

hyperthyroidism can cause

Answer 58

graves disease

toxic multi-nodular goitre

toxic adenoma

Question 59

graves disease

Answer 59

due to hyperthyroidism

• auto-antibodies stimulate the TSH receptor = more hormone produced in pituitary
• exopthalmos
• finger clubbing
• opthalmopathy

Question 60

toxic multinodular goitre

Answer 60

goitre is swelling of thyoid resulting in excess bound hormone (thryotoxicosis)

Question 61

toxic adenoma

Answer 61

takes control of hormone release

signs

• tachycardia
• atrial fibrilation
• tremor
• exopthalmos
• goitre
  
  • diffuse multi-nodular? iodine?
  • solitary? caner risk!

symptoms

• weight loss
• heat intolerance
• tremor/irritability
• emotional

Question 62

tx for toxic adenoma

Answer 62

carbimazole > methimazole (anti-thyroid drug), block and replace w T4 as needed

partial thyroidectomy

radioactive iodine

can both lead to hypothyroidsm

Question 63

hypothyroidism aka

Answer 63

myxoedema

Question 64

priamry cause of hypothyroidism

Answer 64

hashimoti’s thyroiditis

Question 65

Hashimoti’s thyroiditis

Answer 65

gradual autoimmune destruction of thyroid gland

• goitre and hypothyroid features
• vitiligo
• type 1 diabetes
• pernicious anaemia (B12/Folate)
• Addison’s disease
• Down’s syndrome

idiopathic atrophy (10x more in female, lymphocyte infiltrate into organs cause organ specific autoimmune disease)

radiodine treatment/thyroidectomy surgery

iodine deficiency (goitre)

caused by drugs used for hyperthryoidism - carbimazole, amiodarone, lithium

congenital

Question 66

secondary cause of hypothyroidism

Answer 66

hypothalmic/pituitary disease - don’t release the hormones that act on the thyroid gland

decreased TRH (hypothalamus)

decreased TSH (ant.pit)

Question 67

sigsn of hypothyoidism

Answer 67

• dry coarse skin
• bradycardia
• hyperlipidaemia
• confused state/memory loss
• goitre (hashimoto’s and iodine def)
• delayed reflexes

Question 68

symptoms of hypothyroidism

Answer 68

• lethary
• cold intolerance
• depression
• weight gain
• hoaeseness, puffed face adn extremitis
• angina
• hair loss

Question 69

hyperthyroidism tx

Answer 69

Carbimazole *TASTE DISTURBANCES

• Titration
• block and replace w/ T4

β- blockers
Radioiodine

• Hypothyroid risk w/time

Partial Thyroidectomy (w/ drug therapy to stabilise)

Graves Opthalmopathy- simple treatments

Question 70

hypothyroidism tx

Answer 70

thyroxine

monitor TSH levels

Question 71

dental aspects of thyroid issues

Answer 71

Hyperthyroid- Pain, Anxiety problems, don’t treat until controlled

Hypothyroid- if severe avoid sedation!!!

If controlled treat patient as if normal

Goitre is detectable to the dentist

Question 72

thryoid cancer

Answer 72

Papillary - good prognosis

Folicular- poor prognosis

Undifferentiated in Elderly

Cold Nodules on radioisotope scan

Can affect TSH- give T4 post op

Question 73

Addison’s disease basic

Answer 73

destruction of adrenal tissue

Question 74

Cushing disease/syndrome basic

Answer 74

excess adrenal action

Question 75

therapeutic corticosteroids basic issue

Answer 75

suppress adrenal action and their adverses affects

Question 76

adrenal gland is

Answer 76

op top of kidneys

made of 3 main zones

produces hormones thanks to cholesterol made in the liver

Question 77

3 main zones of adrenal gland

Answer 77

zona glomerulosa

zona fasicularis

zona reticularis

Question 78

zona glomerulosa makes

Answer 78

aldosterone - mineralcotocoid

RAAS system - BP + Salt/H2O

• dec BP detected
• Angiotensin II causes secretion of aldosterone
• Aldosterone causes increased reabsorption of Sodium and increases water retention to increase blood pressure
• Increases Pottasium loss

ACE inhibtors affect this hormone but have side effects

1. cough
2. angio-oedema
3. oral lichenoid reaction

AT2 blockers

Question 79

zona fasicularis makes

Answer 79

cortisol - glucoroticoid - ACTS ON ANGIOTENSIN

aka “The Stress Hormone”

Breakdown of fat and protein

Reduces osteogenesis

Counteracts Insulin= Higher blood sugar

Decreases amino acid uptake by muscles

lowers immune reactivity

raises blood pressure

Circadian release- Nocturnal peak

Question 80

zona reticularis makes

Answer 80

adrenal androgens

DHEA

testosterone precursor

involved in adrenarche a.k.a early maturation puberty etc

Question 81

therapeutic steroids

Answer 81

given ‘point values’ based on their potency against naturally occuring Cortisol

cortisol has value of 1

e.g 5mg Prednisalone = 20mg of Hydrocortisone
Hydrocortisone = 1
Prednisalone = 4
Triamcinolone = 5
Dexamethasone = 25
Bethamethasone = 30

Enhance glucorticoid effect- think of what cortisol does normally (x multiplied by factor of steroid potency)

Enhanced mineralcorticoid effect- salt and water retention w/ aldosterone action in RAAS = Hypertension

Question 82

side effects of steroids

Answer 82

• hypertension - aldosterone
• osteoporosis - cortisol
• type 2 diabetes - cortisol
• increased infection risk - cortisol
• increased cancer risk

Question 83

adrenal disorders

hyperfunction

Answer 83

glucoticoids (cortisol) - Cushing’s syndrom

Mineralcorticoids (aldosterone) - Conn’s syndrome

Question 84

Cushing’s syndrome

Answer 84

hyperfunction of adrenal (cortisol)

• arenal tumour (primary)
• pituitary tumour (secondary) = inc ACTH level
• ectopic ACTH production from lung tumour (weird)

Question 85

Conn’s syndrome

Answer 85

hyperfucntion of adrenal gland - mineralcorticoid (aldosterone)

• caused by adrenal tunour
• either hyperplasia/malignancy
• excess sodium retention - hypertension
• excessive potassium loss - polyuria and muscle weakness

Question 86

adrenal disorders

hypofunction

Answer 86

addison’s disease (primary) - gland destruction

pituitary failure (secondary)

Question 87

Addison’s disease

Answer 87

hypofunction of adrenal gland - primary

GLAND DESTRUCTION

surgical/TB/ cancer can cause, but main one is Autoimmune adrenalitis

• thyroid
• diabetes mellitus
• pernicious anaemia (B12 and folate

signs

• postural hypotension (BP drops upon standing - head rush) - due to salt and water loss
• weight loss and lethargy
• hyperpigmentation - scars, mouth, skin creases
• vitiligo

symptoms

• weakness
• anorexia
• loss of body hair (females)

Question 88

Addison’s disease test will have

Answer 88

high ACTH

low cortisol

synacthen - negative

Question 89

addisonian crisis

Answer 89

• hypotension
• vomitting
• eventual coma
• hyponatraemia (low sodium) hence the hypotension
• hypovolaemic shock (>20% of blood volume lost)

cortisol and fludrocortisone

Question 90

managing addisonian crisis

Answer 90

treat the problem

fluid reuscitation

• saline infusions
• corticosteroids IV
• correct hypoglycaemia
• treat precipitating event (infection)

Question 91

pitituary disease (secondary)

Answer 91

causes reduction in secretion of adren-corticotropic releasing hormone

low ACTH

low cortisol

synacthen - positive

Question 92

synacthen

Answer 92

tests ACTH stimulation

if ACTH normal = negative result

if ACTH low = positive result

Question 93

adrenal hyperfunction tx

Answer 93

Detect Cause

• pituitary
• Renal
• Ectopic (lung)

Surgery follows

• pituitary
• Adrenalotomy
• Adrenalectomy

Question 94

adrenal hypofuntion tx

Answer 94

Hydrocortisone- replace cortisol

Fludrocortisone- replace aldosterone

Question 95

steroids in dentistry

Answer 95

If someone has stopped prolonged systemic steroids in last 3 months

• High risk
• Cover with 100mg IM dose of steroid to cover patient

ALWAYS ASK ABOUT STEROID USE PAST 6 MONTHS

Diabetes and CV disease in Addison’s

Candidiasis in Cushing’s

Oral Pigmentation in Addison’s and Cushing’s

Can be other causes

• Melanotic Macule
• Drugs- Minocycline (antibiotic), Azidothymidine (HIV/AIDs), Oral Contraceptive
• Naevus
• Pregnancy