Unit 5 - Diabetes 2

Question 1

What do all diabetic patients benefit from advice on?

Answer 1

• nutrition
• physical activity
• weight loss
• smoking cessation

Question 2

What is the mainstay of treatment for Type 2 diabetes?

Answer 2

Dietary control

Question 3

What does DESMOND stand for?

Answer 3

Diabetes Education and Self-Management for Ongoing and Newly Diagnosed

Question 4

What does X-PERT stand for?

Answer 4

eXPert Education versus Routine Treatment health diabetes programme

Question 5

What does DAFNE stand for?

Answer 5

Dose-Adjustment for Normal Eating

Question 6

What are the pharmacological options to manage type 2 diabetes?

Answer 6

• agents that primarily lower glucose levels by their actions on the liver, muscle and adipose tissue
• agents that primarily work by stimulating insulin release by binding to the sulphonylurea receptor
• drugs that affect glucose absorption
• drugs that control blood glucose via the kidneys
• drugs that target the incretin axis

Question 7

Give two examples of agents that primarily lower glucose levels by their actions on the liver, muscle and adipose tissue

Answer 7

Biguanides

Thiazolidinediones

Question 8

Give an example of a biguanide

Answer 8

Metformin

Question 9

What is the first line treatment for type 2 diabetes patients?

Answer 9

Metformin

- especially in overweight and obese patients

Question 10

How does metformin work?

Answer 10

Increases hepatic insulin sensitivity
Increases uptake of glucose into peripheral cells
Reduces hepatic glucose production by both gluconeogenesis and glycogenolysis
Delays intestinal glucose absorption

Question 11

What are the effects of metformin?

Answer 11

Aids weight loss

Shown to reduce total cholesterol, LDL cholesterol and triglyceride levels

Question 12

What are the side effects of metformin?

Answer 12

Gastrointestinal effects

• abdominal bloating
• cramps
• nausea
• vomiting
• diarrhoea

Question 13

How can the side effects of metformin be mitigated?

Answer 13

Start at a low dose and titrate upward

Question 14

Which rare, but life threatening disease, can be caused by metformin?

Answer 14

Lactic acidosis

Question 15

Give an example of a thiazolidinedione

Answer 15

Pioglitazone

Question 16

Why have thiazolidinediones lost favour as a second or third line of type 2 diabetes management?

Answer 16

Adverse effects

Question 17

How do thiazolidinediones work?

Answer 17

Decreases insulin resistance by activation of peroxisome proliferator-activated receptor-gamma (PPAR-gamma)

• increased glucose transporter (GLUT-1 GLUT-4) expression
• decreased free fatty acid levels
• decreased hepatic glucose output

Question 18

What are the side effects of thiazolidinediones?

Answer 18

Weight gain
Increased fracture risk
Possible increased risk of bladder cancer
Fluid retention

Question 19

Why was the marketing authorisation for rosiglitazone suspended in 2010?

Answer 19

New evidence suggesting that cardiovascular risk outweighed benefits

Question 20

Give two examples of agents that primarily works by stimulating insulin release by binding to the sulphonylurea receptor

Answer 20

Sulphonylureas
- gliclazide
- glimepride
Glinides
- repaglinide

Question 21

What are the second-line agents in treating patients with type 2 diabetes?

Answer 21

Sulphonylureas

Glinides

Question 22

When are sulphonylureas used as a first-line treatment for type 2 diabetes?

Answer 22

When the patient is not overweight

When the patient is not able to tolerate metformin

Question 23

What is added to metformin if glycaemic control is inadequate?

Answer 23

Sulphonylureas

Question 24

How do sulphonylureas and glinides work?

Answer 24

Bind to sulphonylurea receptor on pancreatic beta cells
- increasing sensitivity to glucose
- increased secretion of endogenous insulin in response to a given glucose load
Increase tissue sensitivity to insulin

Question 25

What are the side effects of sulphonylureas and glinides?

Answer 25

Weight gain
Hypoglycaemia
Increased risk in people with mild to moderate renal impairment and severe hepatic impairement

Question 26

Give an example of alpha-glucosidase inhibitors

Answer 26

Acarbose

Question 27

How do alpha-glucosidase inhibitors work?

Answer 27

Acarbose reduces carbohydrate digestion by interfering with GI glucosidase activity
- leading to reduced post-prandial hyperglycaemic peaks

Question 28

What are the side effects of alpha-glucosidase inhibitors?

Answer 28

Abdominal discomfort
Flatulence
Diarrhoea

GI side effects limit the use of acarbose in practice

Question 29

What are SGLT2?

Answer 29

Sodium/glucose cotransporter 2

Question 30

Give examples of SGLT2 inhibitors?

Answer 30

• dapagliflozin
• canagliflozin
• empagliflozin

Question 31

What are SGLT2 inhibitors?

Answer 31

‘Gluco-uretic agents and control blood sugar levels via the kidneys

Question 32

How do SGLT2 inhibitors work?

Answer 32

Normally glucose is reabsorbed from the kidneys via the SGLT2 transporter protein
Inhibiting the action of these transporters leads to more glucose excreted in urine
- lowers blood glucose with a low risk of hypoglycaemia

Question 33

What are the side effects of SGLT2 inhibitors?

Answer 33

• severe life threatening cases of diabetic ketoacidosis have been reported
• dehydration and hypotension
• particularly in those urine diuretics
• increased fungal genital infections and urinary tract infections

Question 34

What is the HbA1c test?

Answer 34

Glycated haemoglobin lab tests are used to diagnosis and assess control of diabetes mellitus

Question 35

How long is the lifespan of a red blood cell?

Answer 35

120 days

Question 36

What does the proportion of glycated haemoglobin depend on?

Answer 36

Glycation of haemoglobin occurs at a variable rate during the lifespan of the red blood cells
The proportion of glycated haemoglobin depends on the mean glucose level over the previous 120 days

Question 37

What is the normal range of HbA1c?

Answer 37

20 - 42 mmol/mol

Question 38

When is diabetes usually diagnosed?

Answer 38

HbA1c = or > 48 mmol/mol

Question 39

Give examples of agents that target the incretin axis in type 2 diabetes

Answer 39

GLP-1 receptor agonists

• exenatide
• liragluide
• dulaglutide

Question 40

How do GLP-1 receptor agonists work?

Answer 40

Stimulation of GLP-1 receptor leads to longer lasting glucose dependant insulin release

• GLP-1 agonists increase insulin release
• GLP-1 agonists decrease glucagon release
• GLP-1 agonists slow gastric emptying
• GLP-1 receptor agonists there fore aid weight loss

Question 41

Apart from type 2 diabetes, what else is liraglutide licensed for?

Answer 41

Non-diabetic individuals as a weight loss treatment

Question 42

What are the side effects of GLP-1 receptor agonists?

Answer 42

Nausea - usually temporary and disappears around two weeks after initiation
Increased satiety, augment weight loss
Pancreatitis
- rare but patients and carers should be aware of signs

Question 43

What is a DDP4 inhibitor?

Answer 43

DPP-4 inhibitors work by blocking the action of DPP-4, an enzyme which destroys the hormone incretin

• incretins help the body produce more insulin only when it is needed
• reduce the amount of glucose being produced by the liver when it is not needed

Question 44

What are DDP4 inhibitors also known as?

Answer 44

Gliptins

Question 45

What are recommended for use by NICE as an alternative second or third-line therapy for Type 2 diabetes?

Answer 45

DDP4-inhibitors

- gliptins

Question 46

How do DDP4 inhibitors work?

Answer 46

DPP-4 inhibitors work by blocking the action of DPP-4, an enzyme which destroys the hormone incretin. Incretins help the body produce more insulin only when it is needed and reduce the amount of glucose being produced by the liver when it is not needed. These hormones are released throughout the day and levels are increased at meal times

Question 47

What are the advantages of DDP4 inhibitors as a Type 2 diabetes treatment?

Answer 47

Low risk of hypoglycaemia

Do not lead to weight gain

Question 48

What are the side effects of DDP4 inhibitors?

Answer 48

GI side effects

Upper respiratory tract infections