CHEMPATH: Clinical chemistry CPC

Question 1

Which of the following is associated with depression?

1. Hyperkalaemia
2. Hypokalaemia
3. Hypercalcaemia
4. Hypocalcaemia
5. Uraemia

Answer 1

• Hypocalcaemia –> irritability and fits;
• Hypercalcaemia –> subtle tiredness, depression

Calcium, in general, affects the brain and nervous system

• Potassium affects heart before neurones –> heart becomes irritable –> arrhythmias (VF)
• As potassium rises, myocardium becomes more stable, however, the ultimate stable rhythm = asystole

Question 3

Answer 3

• Answer:
  
  • Smith’s fracture = posterior displacement of the radius (i.e. radius** towards the **BACK of the hand)
    
    • Falling on a flexed wrist
    • Treated with manipulation under anaesthesia (MUA) and plaster

Other:

• • Colle’s fracture = anterior displacement of the radius (i.e. radius** towards the **PALM of the hand)
    * Falling on an extended wrist
    
    • Pott’s fracture = ankle fracture involving both tibia and fibula

Question 4

What do these results show?

Answer 4

Haematuria

Question 5

What is the cause of massive haematuria in this patient? (with hypercalcaemia, depression, fracture and blood in urine)

1. Renal stone
2. Glomerulonephritis
3. DKA
4. Acute rheumatic fever
5. Subacute bacterial endocarditis

Answer 5

Renal stones (or glomerulonephritis)

• Renal stones –> tear urothelium –> macroscopic haematuria
• Glomerulonephritis –> microscopic haematuria (not overt)
• DKA –> acidosis, ketonuria
• Acute rheumatic fever –> proteinuria (or normal)
• Subacute bacterial endocarditis à microemboli, microscopic haematuria, splenomegaly

Question 6

How do you investigate calcified renal stones?

Answer 6

• Investigated with:
  
  • Plain abdominal XR –> calcified stones (can be confused with gallstones)
  • USS abdomen –> nephrocalcinosis

Question 7

Answer 7

N.B. do plasma calcium before PTH because you need the calcium level to interpret any PTH level

Question 8

List 3 causes of Ca2+ levels of 2.82.

Answer 8

• Cancer
• Primary HPT
• Sarcoidosis

Question 9

If the PTH level is 3.0 (1.1-6.8 pM) and Ca is 2.82, what is the cause?

Answer 9

PTH is INAPPROPRIATELY high for the Ca level.

This is a normal level so malignancy and sarcoid would be excluded as the high Ca would suppress PTH.

• Sarcoid = PTH suppression/low (as produces lots of calcium which suppresses PTH)
• Cancer = PTH high (endogenous production) = from PTHrP or invading bone cancer
• 1^st HPT = PTH normal/high (despite hypercalcaemia)

Question 10

What are the actions of PTH?

Answer 10

PTH actions:

• Kidneys:
  
  • Activate 1-alpha hydroxylase = vitamin D activation:
    
    • Absorb calcium from gut
    • Absorb phosphate from gut
  • Directly resorb calcium
  • Directly excrete phosphate
• Bone:
  
  • Activate osteoclasts

Question 11

What are the features and complications of hypercalcaemia?

Answer 11

Band keratopathy shown on eye

Question 12

What are the different types of kidney stones?

Answer 12

Question 13

What are the risk factors for renal calcium stones?

Answer 13

• Risk Factors:
  
  • FHx
  • Dehydration
  • Hypercalciuria
  • Hypercalcaemia
  • HPT
  • Recurrent UTI

Question 14

How do renal stones present?

Answer 14

• Pain
• Haematuria
• Recurrent infections (Proteus mirabilis)
• Renal failure

Question 15

What Ix do you do for calcium renal stones?

Answer 15

• CT-KUB
• Stone analysis
• Urine and serum biochemistry

Question 16

How do you manage renal stones?

Answer 16

• Most stones will pass –> painkillers:
  
  • PR diclofenac is very good
• Lithotripsy
• Cystoscopy
• Lithotomy

Question 17

How do you prevent renal stones?

Answer 17

• Drink more water
• Treat hypercalciuria (e.g. thiazides)
  
  • Not in parathyroid adenoma –> hypercalcaemia (reduces calcinuria but increases serum Ca)
• Treat hypercalcaemia

Question 18

How do you manage hypercalcaemia firstly?

Answer 18

Urgent treatment ([Ca²⁺] >3.0mmol/L ± unwell) – if calcium <2.8mmol/L, this doesn’t need to be as intense

• FLUIDS –> IV 0.9% saline
  
  • 4-hourly or 6-hourly bags of 1L 0.9% NaCl
  • 1^st bag of 1L given over 1 hour (if severely dehydrated)
• IV frusemide (prevent pulmonary oedema and aid calciuresis)
• MAYBE IV pamidronate (bisphosphonate), 30-60mg (if CANCER is the primary cause of the hypercalcaemia)

Question 19

How is the primary hyperparathyroidism/hypercalcaemia managed in the long term?

Answer 19

• Well hydrated
• Avoid thiazides (reduce hypercalciuria but increase plasma calcium)
• Surgery (parathyroidectomy)
  
  • Technetium Sesta MIBI and USS performed à shows hyperactive parathyroid
  • If both tests concordant à whole neck does NOT need to be opened
  • If tests not concordant à surgeon needs to view all four glands and take out the largest one

Question 20

What does this bone histology show?

Answer 20

Brown tumours =

• multinucleate giant cells
• Activated osteoclasts in the bone
• long-standing undiagnosed HPT

Question 21

What does the XR show in longstanding hypercalcaemia?

Answer 21

Radial cysic changes with longstanding hypercalcaemia (but initially normal)

NB: Looser’s zones are in longstanding Vitamin D deficiency/osteomalacia (needs to be very low). This is a pseudofracture.

Question 22

What does this CXR show?

Answer 22

Bihilar lymohadenopathy

Question 23

How does sarcoidosis cause hypercalcaemia?

Answer 23

Macrophages in the lungs express 1 alpha hydroxylase

Vitamin D leads to excessive calcium

Patients more likely to become hypercalcaemic in summer months because of increased exposure to sunlight

Question 24

What is most increased in bloods in Paget’s disease? What about osteomalacia?

Answer 24

Alkaline phosphatase in bone (because increased osteoclast activity which release ALP)

Question 25

What is increased in a patient with MI?

Answer 25

AST is most increased

Also release CK (due to damage, this activates enzymes), LDH, troponins.

Question 26

What is the pathophysiology of Paget’s disease? What is the most useful imaging investigation?

Answer 26

Increased activity of both osteoclasts and osteoblasts –> increase in ALP and osteocalcin

Investigation: technetium bisphosphonate scan a.k.a. bone scan

Question 27

Whata are the features of Paget’s disease?

Answer 27

• Features:
  
  • Asymptomatic
  • Bowed tibia (it will also be warm)
  • High risk of fracture

Question 28

What is increased in Addison’s disease?

Answer 28

K is high

Na is low

Question 29

What is most raised in someone with gallstone?

Answer 29

ALP (alkaline phosphatase)

Question 30

What is most raises in someone with jaundice caused by viral hepatitis?

Answer 30

ALT

Question 31

What is raised most in someone with jaundice caused by alcoholic hepatitis?

Answer 31

AST

Question 32

What is most increased in a patient with prostatic carcinoma?

Answer 32

Acid phosphatase a.k.a. PSA

Question 33

What is raised in someone with primary HPT?

Answer 33

Calcium

Question 34

What imaging is best used to look for abdominal metastases?

Answer 34

FDG-PET Scans – glucose uptake…

• Look for abdominal metastases
• Marker = FDG (fluorodeoxyglucose) –> scan is labelled as an FDG PET Scan
  
  • Non-specific marker as glucose is taken up by ANY active cell
  • Cancer cells are more active so they will take up more FDG

NB: Gallium 68 scan (with somatostatin analogue) used for neuroendocrine tumours.

Question 35

Which technecium scan is used for the thyroid?

Answer 35

• Technetium 99m (pertechnetate) scan –> iodine uptake by thyroids
  
  • Diffuse uptake = diffuse goitre / Graves’ disease
  • Unilateral uptake / hot nodule = adenoma

Question 36

What is the portal triad?

Answer 36

bile duct

portal vein

hepatic artery

Question 37

Why is AST increased following acute MI?

Answer 37

• Increase following an acute MI (AST is found within the myocytes)
• AST goes up about 3 days after an MI and remains for around 14 days (3-14 days)

Question 38

What are the indications for dialysis?

Answer 38

Indications for Dialysis:

• Refractory hyperkalaemia
• Refractory fluid overload
• Metabolic acidosis
• Uraemic symptoms (encephalopathy, nausea, pruritis, malaise, pericarditis)
• CKD stage 5 (GFR <15mL/min)

Question 39

Whis the pathophysiology of rhabdomyolysis?

Answer 39

• Rhabdomyolysis –> acute kidney injury (because myoglobin is very nephrotoxic)
  
  • Very high CK (from muscle breakdown) –> renal failure
  • Prevention = IV bicarbonate, allows them to excrete extra CK

Question 40

What is the transaminase ratio in chronic alcoholic cirrhosis?

Answer 40

AST will be higher than ALT (2:1) in patients with chronic alcoholic cirrhosis

NB: ALT will be higher than AST in patients with viral hepatitis

Question 41

What rises most in acute vs chronic renal failure?

Answer 41

• In acute** renal failure caused by dehydration, **UREA will rise the most
• In chronic** renal failure that is caused by a fall in GFR, **CREATININE will rise the most

Question 42

Name 2 markers of glucose control.

Answer 42

• Last 3 weeks = fructosamine
  
  • It is important to have good diabetic control during pregnancy (cannot wait 3 months to assess HbA1c)
  • As pregnancy progresses, you get more insulin resistance, so glucose control becomes more important
  • FreeStyle Libre = a probe that you can put on your arm and swipe to get a reading
• Last 3 months = HbA1c

Question 43

What is the management of Paget’s?

Answer 43

TREATMENT –> bisphosphonates (only if painful) – bone formed with Ca²⁺ bisphosphonate not degraded by osteoclasts

Question 44

Describe how a Gallium 68 scan works.

Answer 44

• Could be an insulinoma
• Superimpose a radiolabelled scan using Gallium 68 (Gallium can be stuck onto a somatostatin analogue so that it goes to tissues that have somatostatin receptors; i.e. any neuroendocrine cell)
  
  • AKA: Gallium DOTATATE scan

IMPORTANT: spleen has a lot of receptors for somatostatin so it will always appear hot (so, localisation in the spleen is a telling feature of Gallium 68 scans using somatostatin analogues)

• The kidneys, cysts in kidneys, and adrenals will also appear hot

Question 45

What is a sesta MIBI/Sestamibi?

Answer 45

• Used by the parathyroids and myocardium
• I.E. in MI, you see an area of a lack of uptake of MIBI

Question 46

Scans overview:

• Abdominal metastasis from cancer - FDG PET scan
• CT scan w/ contrast - Visualise anatomy (portal, venous, arterial)
• Bony metastasis / Paget’s - Tc bisphosphonate
• Thyroid scans - Tc 99m pertechnetate
• Neuroendocrine tumours (insulinomas, phaeo) - Gallium 68 dotatate
• Parathyroid scans - Sesta MIBI
• Phaeochromocytoma - MIBG (Meta-iodobenzylguanidine), Gallium dotatate