**Endocrine**

Dr Alan Shortt

39

NHS Tayside Endocrinology Web

Endocrinology articles Medscape

University of Maryland Center for Diabetes and Endocrinology

Endocrinology An Integrated Approach Nussey and Whitehead 2001 NCBI

Thyroid hormone physiology

Thyroid function tests

Hypothyroidism BMJ 2008;337:a801
Clinical features	Coarse facies – dry thickened skin on face and hands, puffy eyes, sparse hair on scalp with loss of outer 1/3 eyebrows Slow croaky monotonous speech Slow pulse, slow ankle jerks
Primary hypothyroidism	Commonest cause in the West is autoimmune Hashimoto’s Patients almost always test positive for anti-thyroid peroxidase (anti-TPO) and antithyroglobulin antibodies
Secondary hypothyroidism	low T4 with normal TSH due to pituitary failure
Subclinical hypothyroidism bmj/337/bmj.a834	Normal free T3 and T4, but elevated TSH.Common condition, affecting about 5-10% of women over the age of 50.Thyroxine should be started if: Positive anti-TPO or antithyroglobulin antibodies – most will develop overt hypothyroidism eventually.The patient has been treated for Graves’ disease in the past.The patient has another organ-specific autoimmune disease.The TSH is >10 mU/l.If the patient does not fall into any of the above groups, they should have TFTs repeated every 6 months; there is very little evidence to suggest that they will benefit from thyroxine, and the risks of osteoporosis and atrial fibrillation from unnecessary treatment should be borne in mind. However, a trial of thyroxine could be considered if patient symptomatic, if the TSH is rising, if strong FH of thyroid disease if the patient has a goitre The aim of treatment is to keep the TSH within the normal range
Congenital Hypothyroidism

Thyroxine Replacement

Levothyroxine 50-100 mcg od, before breakfast, adjusted in 50cg steps every 3-4 weeks until normal metabolism maintained

(usual maintainance 100-150 mcg od – 200mcg if obese).

In cardiac disease, severe hypothyroidism, and patients over 50 years, should be introduced at 25micrograms once daily, adjusted in steps of 25 mcg every 4 weeks according to response; usual maintenance dose

After changes in dose of thyroxine, thyroid function tests should normally be repeated after approximately 8 weeks allowing steady state to be achieved. The total daily dose can usually be administered as a single dose in the morning.

It takes 6-8 weeks for the thyroid stimulating hormone (TSH) to change in response to an alteration in dosage.

Many patients don’t feel the benefit of treatment for 3 months after thyroxine is started, and complete recovery can take up to 12 months.

Once the patient is stable, their thyroid function should be checked annually.

The aim should be to keep restore free T4/T3 and TSH within the normal range, (TSH ideally around 1 mU/l)

TREATMENT-INDUCED TSH SUPPRESSION

Some patients feel very well on a dose of thyroxine that keeps the free T4 and T3 within the normal range, but causes the TSH to become suppressed.
Ideally, dose reduction should be attempted, but a proportion of these people will then become symptomatic and may need to stay on the higher dose.
There are potential harmful effects involved in treating patients in this way; there is some evidence that TSH suppression has an adverse effect on bone mass in postmenopausal women and that there is an increased incidence of atrial fibrillation. It is therefore advisable to exclude osteoporosis by ordering a DEXA scan, which may need to be repeated at regular intervals if there is an initial abnormality.

Reduce dose if:
patient develops new-onset AF, angina or heart failure
patient develops osteoporosis
serum T3 concentration is raised.

youtu.be/JYbio13fOA

Armour thyroid

Hyperthyroidism
Primary hyperthyroidism Graves	autoimmune condition more common in women 40-60. Most patients will have TSH-receptor antibodies which bind to and stimulate the TSH receptor with a prolonged stimulatory action (LATS)70-80% will be positive for anti-TPO antibodiesMore common in females (8:1). Hyperkinesia restlessness and fidgeting. Prominent eyeballs (exopthalmos), lid retraction (staring eyes visible sclera and wide palpebral fissure) and lid lag (delayed movement of upper lid) May be opthalmaplegia and diplopia, grittiness, discomfort May be goitre +/- bruit. Tachycardia (+/- arrythmia AF, ST, SVT, VEBs) Fine tremor, hot sweaty palms clubbing (acropachy) pretibial myxoedema (thick raised mauve plaques with peau d’orange appearance over shins and feet) shoulder muscle wasting (thyrotoxic myopathy- difficulty rising from chair) Firm, smooth diffuse goitre
Toxic multinodular goitre	Secondary hyperthyroidism in already hyperplastic gland. Predominance of CVS symptoms AF, heart failure
Toxic adenoma	>eg TSH-producing pituitary adenoma
Thyroiditis	Painful form usually viral Painless especially in the postpartum period. Usually self-limiting.

t3 thyrotoxicosis = normal plasma levels of thyroxine T4 but raised triiodothyronine T3. Clinically identical

Anti-thyroid drugs
Referral	Hyperthyroidism should usually be referred to a secondary care facility to initiate treatment, as management options might include radioiodine treatment. Initial GP investigations might include LATS antibodies and ultrasound
Carbimazole	tablets 5mg, 20mg Dose: 15-40mg daily, maintained until patient becomes euthyroid, usually 4-8 weeks; the dose may then be progressively reduced to a maintenance of 5-15mg daily.During carbimazole treatment, patients should be advised to report signs and symptoms of infection, especially sore throat, which may indicate bone marrow suppression. If sensitivity (eg rash) occurs with carbimazole then propylthiouracil is an alternative.
Propylthiouracil	tablets 50mg Dose: 200 – 400mg daily. Maintain this dose until the patient becomes euthyroid. The dose may then be gradually reduced to a maintenance dose of 50 to 150mg daily
Beta blockers	Adjunct for relief of thyrotoxic symptomsNadolol tablets 40mg, 80mg Dose 80-160mg odPropranolol m/r capsules 80mg and 160mg Dose 80mg od increased as necessary to 240mg dailySome patients may require doses up to 320mg daily (unlicensed)Nadolol produces a more reliable response, it is water soluble and is excreted unchanged.Note that carbimazole and levothyroxine can be given concomitantly in a blocking-replacement regimen, although this is NOT suitable during pregnancy.
Thyrotoxic Crisis

Thyroid swelling / goitre

Midline swelling, moves with swallowing
Retrosternal extension, thyroid bruit
moves with tongue protrusion only = thyroglossal cyst
Neck, eyes, pulse, tremor, skin/hair
Proximal myopathy; reflexes

Thyroid screening
Patients are at increased risk of thyroid disease
Patients on lithium and amiodarone should have 6mly TFTs
Women with type 1 diabetes should have TFTs checked in the first trimester of pregnancy and post-delivery (high risk of postpartum thyroid dysfunction)
People with Down’s syndrome, Turner’s syndrome and Addison’s disease should have annual checks, as they are at risk of developing hypothyroidism.
Diabetic patients should also have an annual TFT check
Patients with AF should have a one-off test to exclude hyperthyroidism.
Patients with hyperlipidaemia and macrocytosis should also be tested as a one-off, to exclude underlying hypothyroidism

Thyroid cancer

Papillary

Follicular

Medullary

Anaplastic

Lymphoma

Parathyroid

parathyroid glands
4 glands from 4th (and 3rd) branchial arch 40 mg in wt 40mm in diameter

nelm Primary hyperparathyroidism

Hyperparathyroidism

Primary

Increased secretion of parathyroid hormone PTH from parathyroid adneoma(s), hyperplasia or rarely carcinomaMay be mild asymptomatic hypercalcaemia orpolyuria and polydypsia

renal calculi

bone pain

abdo pain

constipation

fatigue

lethargy

Secondary

Increased PTH secretion in response to hypocalcaemia (CKD, Vit D deficiency)signs and symtoms of hypocalcaemia +/- the underlying cause

Tertiary

autonomous PTH secretion following chronic secondary hyperparathyroidism.

Secondary hyperparathyroidism 10 Cs
calcium low
cramps
carpopedal spasm
chvostek
convulsions
cataracts
caries/cavities
crazy
cardiac arrythmias
cranial pressure raised

Hypoparathyroidism

Congenital
Autoimmune
Post thyroidectomy or parathyroidectomy
Pseudohypoparathyroidism
Hypomagnaesaemia
iron overload
Wilsons Disease

Pituitary

Pituitary Hormones
Anterior Pituitary	Posterior Pituitary
those giant gonads prolong the action TSH GH Gonadotrophins FSH/LH PRL ACTH	ADH Oxytocin produced in the hypothalamus

Hypopituitarism

HPA Dysfunction

Acidophil adenoma

Pituitary tumours

Prolactinomas NEJM 2010;362:1219

Chromophobe adenoma

Acromegaly / gigantism
Arthropathy
Big boggy hands
CTS
DM / glycosuria
Enlarged tongue heart and throat
Fields (bitemporal hemianopia)
Gynaecomastica galactorrhoea greasy skin
Hypertension
Increasing shoe/ring/dentures/ size
Jaw enlargement and prognathism

Excess GH secretion (> 10ng/ml fasting) from acidophilic or less commonly chromophobic adenoma (rarely histologically normal pituitary) causing excess growth of viscera, bones, soft tissuesof the hand, supraorbital ridges, sinuses and lower jaw.

May present with: headaches, visual disturbance, paraesthesia in hands and feet, change in hat ring or shoe size, arthralgia, sweating, DM or hypertension.

Diabetes insipidus

Presents like DM with polydypsia and polyuria.

May be cranial (head injury, pituitary tumours and infiltrations, meningitis and encephalitis, strokes, idiopathic and familial) or nephrogenic (CKD, lithium, electrolyte disturbance, or familal)

Diagnosis

– exclude other causes of polydisia and polyuria ( DM, hypercalcaemia, CRF, diuretic abuse, psychogenic)

– check glucose, electrolytes, Ca, U&E, plasma and urine osmolarity. (Nigh Na increased plasma osmolarity but low urine osmlolarity)

– water deprivation test

– CXR – sarcoid TB

youtu.be/4iSiOyhq1l0

youtu.be/1ECDmWuqgEI

youtu.be/f0jMsVT6mVI

Diabetes Insipidus Medscape

SIADH
Paraneoplastic syndromes Ca Bronchus kidney brain tumour lymphoma
Lung disease bronchiectasis atypical Pneumonia
Cranial abnormalities infections head injuries vascular
Porphyria hypothyroidism
Drugs chemotherapy – vincristine cyclophosphamide neuroleptics carbamazepine chlorpropamide opiates
idiopathic

Inappropriate salt excretion in prescence of hyponatraemia

Symptoms – fatigue, anorexia and weight loss.

Diagnosis
low plasma sodium and plasma osmolality
inappropriately high urine osmolality (1.2-2x plasma)
high urine Na > 20 mmol/l
urine volume 0.5-1.5l per 24hrs
no oedema
normal renal, adrenal and thyroid function

Cushings Glucocorticoid excess

ACTH dependant

ACTH independant

Hypersecretion of adrenal glucocorticosteroids
– bilateral adrenal hyperplasia due to ACTH from pituitary adenoma
– or rarely paraneoplastic syndrone

Glucocorticoid secreting primary adrenal tumouralso long term steroid use

ACTH levels suppressed – no pigmentation

Moon shaped round plethoric face.
Buffalo hump due to prominent supreaclavicular and dorsal cervical fat pads.
Truncal obesity
Purple abdominal striae.
Purpura and spontaneous bruises over extremeties
Acne and hirsuites
Hypertension

24 hr urinary cortisol
Midnight Cortisol
9 am cortisol
Dexamethasone suppression test
Plasma ACTH

Primary Hyperaldosteronism

Excess autonomous mineralocorticoid/aldosterone production from adrenal adenoma with suppression of renin – Conns syndrome (also rarely Ca or Bilateral adrenal hyperplasia).

Causes renal sodium retention, K and H+ loss — hypertension, hypokalaemia, metabloic alkalosis.

youtu.be/cWMIGaGAOA4

Secondary Hyperaldosteronism

Renal hypoperfusion (RAS, heart failure, cirrhosis) causing raised renin levels (also rarely Renin producing tumour)

Friederckson Waterhouse

bilateral hemorrhage into the adrenal glands in meningococcal septicaemia leading to adrenal insufficiency

Adrenal Failure

Primary adrenal failure – Addisons – glucocorticoid and mineralocorticoid deficiency

Secondary adrenal failure – isolated ACTH deficiency in pituitary disease

causes glucocorticoid deficiency only

Causes
Autoimmune
Infiltrations – amyloid haematochromatosis
Infections – TB fungi
Haemorrhage – anticoagulants, meningococcal septicaemia
CAH
Adrenal Mets

Hypotension, hyponatraemia, hypokalaemic acidosis.

Pigmentation in buccal mucosa, scar tissue, and palmar crease due to xs ACTH

youtu.be/IYDKd75E

Other causes of buccal pigmentation
Peutz-Jegher syndrome – AD + multiple small intestine polyps

Addisonian crisis

Shock
Hypotension
Hypoglycaemia
Stupor
Terminal Coma

Seen in known cases of Addisons and meningococcal septicaemia.
Give IV hydrocortisone 100mg dextrose saline (taking blood for baseline electrolytes) and transfer ITU.

Phaeochromocytoma
10% multiple
10% malignant
10% adrenal / bilateral
10% extra adrenal
10% in children
10% in children

Episodes of palpitations, sweating, pallor headache associted with marked hypertension.

Catecholamine producing tumour of adrenal medulla.

Diagnosed by raised 24 hr urinary catecholamines.

May be part of Multiple endocrine neoplasia syndrome, Von Hippel Lindau and neurofibromatosis

youtu.be/esv0u2AnID8

youtu.be/2ihZICnCQdM

MEN
MEN1	MEN2
PPP parathyroidhyperplasia pancreatictumours gastrinoma insulinoma pituitary adenomas – prolactinoma acromegaly	TAP Thyroid– medullary ca Adrenal– phaechromocytoma Parathyroid – primary hyperparathyroidism