Endocrine

Question 1

What hormones are released from the anterior pituitary?

Answer 1

ACTH
TSH
LH/FSH
GH

Question 2

What hormones are released from the posterior pituitary?

Answer 2

Prolactin

ADH

Question 3

What visual disturbance is caused by compression of the optic chiasm?

Answer 3

Bitemporal hemianopia

Question 4

What are the different types of pituitary tumours?

Answer 4

Non-functional
Functional
Other

Question 5

What are the effects of functional pituitary tumours?

Answer 5

Prolactin - prolactinoma
GH - acromegaly
ACTH - Cushing’s disease
TSH - TSHoma

Question 6

Give three examples of ‘other’ pituitary tumours

Answer 6

Craniopharyngioma
Pituitary cancer
Rathke’s cyst

Question 7

Describe non-functional pituitary tumours

Answer 7

Most common (25%)
No hormonal releases
Mass effects
- visual field defects
- headache
- stops other pituitary hormones working
- eye movement problems due to involvement of cranial nerves --> blurred vision

Question 8

How should non-functioning pituitary tumours be investigated?

Answer 8

Imaging - MRI
Visual field assessment
Measure pituitary hormones

Question 9

How should non-functioning pituitary tumours be managed?

Answer 9

Surgery - protection of vision

Radiotherapy

Question 10

Describe hypopituitarism

Answer 10

Failure of the (anterior) pituitary
Can affect a single hormonal axis or all hormones (panhypopituitarism)
Leads to secondary gonadal/thyroid/adrenal failure
Need multiple hormone replacement

Question 11

In hypopituitarism, what hormonal replacement therapy should always be started first?

Answer 11

Hydrocortisone

Question 12

Give some potential causes of hypopituitarism

Answer 12

Tumours
Radiotherapy
Infarction/haemorrhage (apoplexy)
Infiltrate (sarcoid)
Trauma
Lymphocytic hypophysitis

Question 13

What are potential causes of high prolactin?

Answer 13

Prolactinomas
Physiological - pregnancy, breast feeding
Drugs that block dopamine
Stalk effect - loss of inhibitory dopamine

Question 14

Give examples of drugs that block dopamine

Answer 14

Tricyclics
Antiemetics
Antipsychotics

Question 15

What is a prolactinoma?

Answer 15

Pituitary tumour that secretes prolactin

Question 16

What are the clinical features of a prolactinoma?

Answer 16

Galactorrhoea
Headaches
Mass effects
Visual field defects
Amenorrhoea/erectile dysfunction

Question 17

Describe the diagnosis of prolactinoma

Answer 17

Serum prolactin (>6000)
MRI pituitary
Test remaining pituitary function

Question 18

Describe the treatment of a prolactinoma

Answer 18

Medical:
Dopamine agonist - cabergoline, bromocriptine

Surgical:
VF compromised
Failure of medical therapy

Question 19

Describe the association of prolactinomas and pregnancy

Answer 19

Pituitary gland get bigger in pregnancy - increase in prolactin production

Dopamine agonists are contraindicated
[Prolactin] is unhelpful
Monitor visual fields if macroprolactinoma

Question 20

Describe acromegaly

Answer 20

Pituitary tumour secreting growth hormone post puberty

Question 21

What are the clinical features of acromegaly?

Answer 21

Sweats and headaches
Alteration of facial features
Increased hand/feet size
Visual impairment
Cardiomegaly

Question 22

Describe the diagnosis of acromegaly

Answer 22

Glucose tolerance test (glucose should suppress GH)
Measure IGF-1 (GH stimulates liver to produce IGF-1)
MRI

Question 23

Describe the management of acromegaly

Answer 23

Surgery - first line to debulk tumour

Drugs:
Somatostatin analogue - octreotide (before and after surgery)
Dopamine agonist
GH receptor antagonist (Pegvisomant)

Radiotherapy - residual tumour/ongoing symptoms

Question 24

Describe Cushing’s disease

Answer 24

Pituitary tumour secreting ACTH

Question 25

What are the symptoms of Cushing’s disease?

Answer 25

Weight gain 
Thin skin 
Easy bruising
Hypertension
Osteoporosis

Question 26

How can Cushing’s disease be diagnosed?

Answer 26

Try to suppress ACTH by dexamethasone suppression therapy

Question 27

Describe the management of Cushing’s disease

Answer 27

Surgery first line

If fails or inappropriate:
Bilateral adrenalectomy
Medical therapy - metyrapone, ketoconazole
Radiotherapy

Question 28

Describe TSHoma

Answer 28

Rare pituitary tumour releasing TSH

Question 29

What TFT results are associated with TSHoma?

Answer 29

High TSH

High fT4

Question 30

What are the two types of Diabetes Inspidus?

Answer 30

Central

Nephrogenic

Question 31

What are potential central causes of diabetes insidius?

Answer 31

Idiopathic
Trauma
Pituitary tumour
Pituitary surgery
Pregnancy

Question 32

What are the clinical features of diabetes inspidus?

Answer 32

Polydipsia

Polyuria (>3L/d urine output)

Question 33

Describe the diagnosis of diabetes inspidus

Answer 33

Try to stimulate the release
Water deprivation test
Assess ability to concentrate urine with ADH (nephrogenic won’t)

Question 34

What is diabetes inspidus?

Answer 34

ADH deficiency

Question 35

Describe the treatment of diabetes inspidus

Answer 35

Treat underlying cause

ddAVP (spray, tablets, injection)

Question 36

What are the layers of the adrenal cortex, and what does each layer produce?

Answer 36

Zona Glomerulosa = aldosterone
Zona Fasciculata = cortisol
Zona Reticularis = androgens

Question 37

What cells are located in the adrenal medulla, and what do they produce?

Answer 37

Chromograffin cells

Catecholamines

Question 38

What features are commonly associated with primary aldosteronism (Conn’s syndrome)?

Answer 38

Hypertension

Hypokalaemia

Question 39

What biochemistry is associated with primary aldosteronism (Conn’s syndrome)?

Answer 39

High aldosterone
Low renin
Very high aldosterone:renin ratio

Question 40

What medications should be stopped if a patient is thought to have primary aldosteronism (Conn’s syndrome)?

Answer 40

Beta blockers

Question 41

What medications can be used in patients who have primary aldosteronism (Conn’s syndrome)?

Answer 41

Alpha blockers
Verapamil
Hydralazine

Question 42

How is primary aldosteronism (Conn’s syndrome) diagnosed?

Answer 42

Saline suppression test
2L of saline over 4 hours (should suppress aldosterone production)
4h aldosterone >470pmol/l = highly suspicious

Question 43

Describe the management of primary aldosteronism (Conn’s syndrome)

Answer 43

Surgical:
Unilateral laparoscopic adrenalectomy - if adrenal adenoma
Cures hypokalaemia
Cures HTN in 30-70%

Medical:
MR antagonist (spironolactone/eplerenone)

Question 44

What are the clinical features associated with Cushing’s syndrome?

Answer 44

Hirsutism
Striae
Proximal myopathy
Plethora
Easy bruising
HTN

Question 45

Describe the diagnosis of Cushing’s syndrome

Answer 45

24h urinary free cortisol
Dexamethasone suppression testing
Late night salivary cortisol (cortisol should be at its lowest levels during the night)

Question 46

What are the causes of Cushing’s syndrome?

Answer 46

ACTH dependent:
Pituitary adenoma = Cushing’s disease
Ectopic ACTH
Ectopic CRH

ACTH independent:
Adrenal adenoma
Adrenal carcinoma
Nodular hyperplasia

Question 47

What is the mode of inheritance of congenital adrenal hyperplasia?

Answer 47

Autosomal recessive

Question 48

Define congenital adrenal hyperplasia

Answer 48

Range of genetic disorders relating to defects in steroidogenic genes

Question 49

What is the most common gene which is mutated in congenital adrenal hyperplasia?

Answer 49

CYP21 (21 hydroxylase)

Question 50

What happens to hormone levels in congenital adrenal hyperplasia?

Answer 50

Aldosterone and cortisol not produced

Increased androgen and 17-OH progesterone

Question 51

What are the effects on males and females in congenital adrenal hyperplasia?

Answer 51

Males: adrenal crisis (hypotension, hyponatraemia), early virilization

Females: ambiguous genitals

Question 52

What is the management of congenital adrenal hyperplasia?

Answer 52

Mineralocorticoid and glucocorticoid replacement

Question 53

What are the signs and symptoms of phaechromocytoma?

Answer 53

HTN
Episodes of headaches, palpitations, pallor, sweating
Tremor, anxiety, N&V, chest/adbo pain

Crisis last ~15 mins
Generally otherwise well

Question 54

What are the causes of phaechromocytoma?

Answer 54

Genetics - 25%
Malignancy - 15-20%
Benign - 80-85%

Question 55

What genetics are associated with phaechromocytoma?

Answer 55

MEN, VHL, SDHB & SDHD mutations,

Neurofibromatosis

Question 56

Describe the pre-operative treatment of phaechromocytoma

Answer 56

Alpha blockers initially
(Phenoxybenzamine/doxazosin)
Aim for SBP <120mmHg

Beta blockers if tachycardic
Labetolol, bisopropol

Encourage salt intake (maintain fluid status)

Question 57

Define adrenal insufficiency

Answer 57

Inadequate adrenocortical function

Question 58

What are the clinical features of adrenal insufficiency?

Answer 58

Anorexia, weight loss
Fatigue, lethargy
Dizziness, hypotension
Abdo pain, vomiting, diarrhoea
Skin pigmentation

Question 59

What is the ‘suspicious biochemistry’ associated with adrenal insufficiency?

Answer 59

Low Na
High K
Hypoglycaemia

Question 60

What test can be used to assess whether a patient has adrenal insufficiency?

Answer 60

Short SynACTHen test
Measure plasma cortisol levels before and 30m after IV ACTH injection

Normal: baseline >250nmol/L, post ACTH >480nmol/L

Question 61

What ACTH, renin and aldosterone levels are associated with adrenal insufficiency?

Answer 61

High ACTH
High Renin
Low Aldosterone

Question 62

Give three functions of Ca

Answer 62

Muscle contraction
Bone growth and remodelling
Second messenger signalling
Stabilising of membranes
Enzyme co-factor
Secretion of hormones (insulin)

Question 63

What is the normal total calcium range?

Answer 63

2.2-2.6mmol/L

Question 64

Describe the position of the parathyroid glands

Answer 64

Usually 4 glands on the posterior aspect of the thyroid gland
2 at superior poles; 2 at inferior poles
Supplied by the inferior thyroid artery
10% of people have ectopic parathyroid glands

Question 65

What effect does PTH have on blood calcium levels?

Answer 65

Increases

Question 66

What are the actions of PTH in the kidneys?

Answer 66

Reabsorption of calcium at DCT
Internalisation of Na/PO4- co-transporter at PCT (hypophosphataemia and hypercalcaemia)
Inhibits N/H exchanger –> bicarbonate wasting (mild acidosis)

Question 67

What are the actions of PTH on the bones?

Answer 67

Continuous PTH = increased number and activity of osteoclasts

Intermittent PTH = increased number of osteoblasts

Question 68

What are the actions of PTH in the gut?

Answer 68

Stimulates the synthesis of active form of VIT D in the kidney (1,25-dihydroxycholecalciferol) –> increases Ca absorption in gut

Question 69

Where is PTH stored?

Answer 69

Chief cells in parathyroid gland

Question 70

What controls the secretion of PTH?

Answer 70

Ca Sensing Receptors (CaSR)

Question 71

Where are CaSR located?

Answer 71

Parathyroid gland
Thyroid
Kidney

Question 72

Describe what happens when CaSR are activated in the parathyroid gland

Answer 72

Rising Ca –> activates CaSR
Inhibits translation of PTH gene
PTH secretion inhibited

(Rising Ca –> activates calcium sensing proteases –> degrade PTH)

Question 73

What familial condition is associated with loss of function of the CaSR?

Answer 73

Familial hypocalciruric hypercalcaemia

Question 74

Describe what happens when CaSR are activated in the kidney

Answer 74

Increases urinary Ca and Mg excretion

Increases Na, K, Cl excretion

Question 75

Describe what happens when CaSR are activated in the thyroid

Answer 75

Stimulates the release of calcitonin from C cells –> lowers serum Ca

Question 76

Describe the process by which Vit D is activated

Answer 76

Cholecalciferol (UV light) and Ergocalciferol (diet) are inactivated

Hydroxylated in liver to 25-hydroxycholecalciferol (storage form)

Hydroxylated in kidneys to 1,25-dihydroxycholecalciferol (active form)

Question 77

Give three actions of Vit D

Answer 77

Increases calcium and phosphate absorption from gut
Bone mineralisation and mobiles Ca stores
Immunomodulation
Increases bone strength
Reduces insulin resistance
Interaction with RAAS

Question 78

Give the assay results associated with 25-hydroxycholecalciferol

Answer 78

<15nmol/l = severe deficiency
15-30nmol/l = deficiency
>50nmom/l = adequate

Question 79

What is the normal range for 1,25-dihydroxycholecalciferol?

Answer 79

50-125pmol/L

Question 80

If a patient has a raised serum Ca, what should always be measured?

Answer 80

PTH

Question 81

When do symptoms of hypercalcaemia generally arise?

Answer 81

Serum Ca >3mmol/L

Question 82

Give some symptoms associated with hypercalcaemia

Answer 82

Confusion, depression, fatigue, coma
Shortening of QTc, bradycardia, HTN
Polyuria, nephrogenic DI, stones, nephrocalcinosis
Anorexia, constipation, nausea, pancreatitis
Muscle weakness, bone pain, osteoporosis

Question 83

Give DDx if Calcium and PTH are both raised?

Answer 83

Parathyroid overactivity
Familial hypocalciuric hypercalcaemia
Lithium

Question 84

Give DDx if Calcium is raised and PTH is normal?

Answer 84

Parathyroid overactivity
Familial hypocalciuric hypercalcaemia
Lithium

Question 85

Give DDx if Calcium is raised and PTH is undetectable?

Answer 85

Malignancy
Drugs (thiazide, lithium, calcium supplements)
Granulomatous disease

Question 86

What investigations are needed if a patient has hypercalcaemia?

Answer 86

Hx and examination
CXR (signs of malignancy, hilar lymphadenopathy - signs of sarcoidosis)
FBC, ESR
TFTs
Myeloma screen
Short SynACTHen test
Vit D

Question 87

What are the ways in which malignancies can cause hypercalcaemia?

Answer 87

Osteolytic metastases and myeloma
Tumour secretes PTHrP
Tumour produces 1,25-dihydroxycholecalciferol

Question 88

What tumours are most likely to secrete PTHrP?

Answer 88

Squamous cell lung cancer
Oesophageal cancer
Renal cell carcinoma
Breast cancer

Question 89

What type of tumour is most likely to produce 1,25-dihydroxycholecalciferol?

Answer 89

Lymphoma (activated macrophages)

Question 90

Give examples of conditions which can produce endogenous 1,25-dihydoxycholecalciferol

Answer 90

Lymphoma
Sarcoid
Wegner’s granulomatosis

(usually responds to steroids)

Question 91

Why does adrenal insufficiency cause hypercalcaemia?

Answer 91

Increases PCT Ca reabsorption

Increases bone resorption

Question 92

Describe Milk-Alkali syndrome

Answer 92

Hypercalcaemia
Metabolic acidosis
Renal insufficiency

(ingestion of calcium and antacids - rare with PPI)

Question 93

What is the management of PTH independent hypercalcaemia?

Answer 93

Stop offending/contributing medications

Rehydrate (3-4L normal saline in 24h)

±loop diuretics - promotes calciuria

Bisphosphonates (inhibits bone reabsorption)

Steroids (haematological malignancy, vit D intoxication, granulomatous disease)

Question 94

Who is most likely to have primary hyperparathyroidism?

Answer 94

Postmenopausal women

Question 95

What are the causes of primary hyperparathyroidism?

Answer 95

85% isolated parathyroid adenoma
14% parathyroid hyperplasia
<1% parathyroid carcinoma

Question 96

What end organ damage is associated with primary hyperparathyroidism?

Answer 96

Bone:
Osteoporosis
Bone cysts, subperiosteal resorption
Brown tumours (collections of osteoclasts, mineralised bone and fibrous tissue)

Kidney:
Renal calculi
Nephrocalcinosis - calcium deposits in kidney
Renal impairment

Pancreatitis

Question 97

What investigations should be arranged to confirm diagnosis of primary hyperparathyroidism?

Answer 97

DHx
U&Es
PTH
Urine calcium:creatinine ratio
Vit D

Question 98

What investigations should be arranged to assess end organ damage in primary hyperparathyroidism?

Answer 98

DEXA

Renal USS

Question 99

When should MEN-1/2 be considered as a potential cause of primary hyperparathyroidism?

Answer 99

<40yr

Hx of hyperparathyroidism in 1st degree relative

Question 100

What investigations are needed if surgery is indicated in the management of primary hyperparathyroidims?

Answer 100

Sestamibi - radio labelled isotope –> taken up by parathyroid gland
Neck USS

Question 101

What are the indications for parathyroidectomy?

Answer 101

Calcium >3mmol/L
Hypercalciuria
Osteoporosis
Renal stones

Question 102

What complications are associated with parathyroidectomy?

Answer 102

Vocal cord paresis, haematoma causing tracheal compression

Transient hypocalcaemia,

“Hungry bones”

Question 103

If someone has no-end organ damage or is unfit for surgery for management of their primary hyperparathyroidism, what surveillance should they have?

Answer 103

Annual bone profile, renal function and urinary calcium

DEXA and renal USS every 3y

Question 104

Describe the medical RRx for primary hyperparathyroidism

Answer 104

Only if not fit for surgery

Bisphosphonates - preserve bone mass but little effect on calcium

Calcium sensing agonists (cinacalcet)
Reduces serum calcium but doesn’t prevent end-organ damage

Question 105

Give three causes of vitamin D deficiency

Answer 105

Poor sunlight exposure
Malabsorption
Gastrectomy
Enzyme inducing drugs - anticonvulsants
Renal disease

Question 106

Define osteomalacia

Answer 106

Failure to ossify bones in adulthood as a result of Vit D deficiency leading to hypo-mineralisation of trabecular and cortical bone

Question 107

How does osteomalacia present?

Answer 107

Bone pain
Proximal myopathy
Hypocalcaemia

Question 108

What biochemistry results are suggestive of osteomalacia?

Answer 108

Low calcium
Low phosphate
High Alk Phos
Low Vit D 
Elevated PTH

Question 109

What radiological appearances are associated with osteomalacia?

Answer 109

Looser zone - pseudo-fractures commonly occur in femur/pelvis
Osteopenia - areas of low bone density

Question 110

How can Vit D deficiency be managed?

Answer 110

Cholecalciferol (D3) = restores body stored, corrects metabolic disturbances

Alfacalidol (active Vit D) - in renal impairment, heal bony abnormalities

Question 111

Define diabetes

Answer 111

A metabolic disorder of multiple aetiology characterised by chronic hyperglycaemia with disturbance of carbohydrate, protein and fat metabolism resulting in defects in insulin secretion, insulin action or both

Question 112

Describe and explain the symptoms of diabetes

Answer 112

Glycosuria –> depletion of energy stores
(Tired, weak, weight loss, difficulty concentrating, irritability)

Glycosuria –> osmotic diuresis
(Polyuria, polydipsia, thirst, dry mucous membranes, reduced skin turgor, postural hypotension)

Glucose shifts –> swollen ocular lenses
(Blurred vision)

Question 113

Describe and explain the presentation of insulin deficiency

Answer 113

Ketone production
(N&V, abdo pain, heavy/rapid breathing, acetone breath, drowsiness, coma)

Depletion of energy stores
(Weakness, polyphagia, weight loss, growth retardation in young)

Complications (T2DM)
(Microvascular, macrovascular, neuropathy, infection)

Question 114

What are the diagnostic values for diabetes in a fasting glucose test?

Answer 114

Normal: <7.0

Diabetes >7.0

Question 115

What are the diagnostic values for diabetes in a OGTT?

Answer 115

Normal: <7.8
IGT: 7.8-11.0
Diabetes: >11.1

Question 116

What HbA1c value corresponds to diabetes?

Answer 116

6.5% (48mmol/L)

Question 117

Describe T1DM

Answer 117

Chronic, progressive metabolic disorder characterised by hyperglycaemia and the absence of insulin secretion due to autoimmune destruction of beta cells in the Islets of Langerhans

Question 118

Describe T2DM

Answer 118

Chronic, progressive metabolic disorder characterised by hyperglycaemia, insulin resistance and relative impairment of insulin deficiency

Question 119

How is MODY inherited?

Answer 119

Autosomal dominant

Question 120

How many genes cause MODY, and what is the most common?

Answer 120

6 genes

HNF1-alpha 70%

Question 121

What are the three main features of MODY?

Answer 121

Often <25y at onset
Runs in families - autosomal dominant
Managed by diet, OHAs, insulin

Question 122

Define gestational diabetes

Answer 122

Carbohydrate intolerance with onset, or diagnosis, during pregnancy

Question 123

What risk factors are associated with gestational diabetes?

Answer 123

High BMI
Previous macrosomic baby/gestational DM
FHx of diabetes

Question 124

Who should be tested for gestational diagnosis, when and what is the criteria?

Answer 124

Women with risk factors
OGTT at 24-28 weeks

Fasting venous plasma glucose >/= 5.1mmol/L OR
1 hour value >/= 10.0mmol/L OR
Two hours after >/= 8.5mmol/L

Question 125

Give potential causes of secondary DM

Answer 125

Disorders of exocrine pancreas (pancreatitis, carcinoma, CF, haemochromatosis)

Endocrinopathies (Acromegaly, Cushing’s, phaechromocytoma)

Drug therapies (Immunosuppressive agents, anti-psychotics)

Question 126

Under fasting conditions, what is the basal secretion of insulin per hour?

Answer 126

40ug/h

Question 127

Describe the release of insulin

Answer 127

1st phase: stored insulin is released immediately due to increased plasma glucose levels

2nd phase: blood insulin levels starts to fall, the pancreas produces more insulin

Question 128

Give an example of a short/rapid (bolus) insulin

Answer 128

Novorapid

Question 129

Give an example of intermediate/long (basal) insulin

Answer 129

Determir
Degludec
Glargine

Question 130

Give and example of a mixed insulin

Answer 130

Novomix 30

Humalog Mix 25/50

Question 131

What is Whipple’s triad in regard to hypoglycaemia?

Answer 131

1. Symptom of low blood glucose
2. Measure low plasma glucose
3. Symptoms improve with glucose

Question 132

At what concentration of blood glucose are counter-regulatory hormones released? What hormones are they? What is the effect?

Answer 132

3.8mmol/L

Glucagon and adrenaline

Sweating, palpitations, shaking, nausea, anxiety

Question 133

What what blood glucose concentration is cognitive function impaired?

Answer 133

2.5-2.8mmol/L

Question 134

How is mild hypoglycaemia treated in hospital?

Answer 134

Give 15-20g of quick acting carbohydrate
Test blood glucose after 15mins
If <4mmol/L repeat up to 3x

Question 135

How is moderate hypoglycaemia treated in hospital?

Answer 135

If capable and cooperative, 15-20g of quick acting carbohydrate

If not, 1.5-2 tubes GlucoGel or 1mg Glucagon IM

Test blood glucose levels after 15mins
If <4mmol/L repeat up to 3 times

Question 136

How is severe hypoglycaemia treated in hospital?

Answer 136

Check ABC
Stop IV insulin
Give IV glucose over 10 mins
Test blood glucose after 10 mins
If <4mmol/L repeat

Question 137

How often does a person with diabetes need to check their blood glucose levels whilst driving?

Answer 137

Every 2 hours

Question 138

What are the three aspects of DKA?

Answer 138

1. Metabolic acidosis (pH <7.3)
2. Plasma glucose (>13.9mmol/L)
3. Urinary/plasma ketones (++ on urine/ >3mmol/L in plasma)

Question 139

What are some of the symptoms of DKA?

Answer 139

Breathlessness - Kussmaul's breathing
Abdominal pain 
Leg cramps
N&V
Confusion

Question 140

What are some of the precipitants of ketoacidosis?

Answer 140

New onset DM
Insulin omission
Acute illness
Steroids
Infections

Question 141

What losses are associated with DKA?

Answer 141

Water: 6-8L (100ml/kg)
Sodium: 500-1000mmol/L
Chloride: 350mmol/L
Potassium: 300-1000ml/L

Question 142

Describe the management of DKA

Answer 142

Treat the precipitant
Fluids
Potassium replacement
Insulin - with glucose once the blood glucose levels starts to fall

Question 143

How high are the blood glucose levels in HHS?

Answer 143

> 30mmol/L

Question 144

What are precipitating factors of HHS?

Answer 144

Infection
Poor compliance
Drugs

Question 145

Describe the management of HHS

Answer 145

Treat the precipitant

Fluids
0.9% saline
Rate of Na fall should not exceed 10mmol/24hr

Insulin
Rate of fall no more than 5mmol/L/hr

Other
LMWH
Foot protection