Week 13 - Pancreas

Question 1

The ideal experimental study will be… (5)

Answer 1

Controlled (placebo)
Randomized
Double blind
Large
Analysed by 'intention to treat' method

Question 2

Considerations when testing medical interventions. So what are the implications for your trial?

Answer 2

Patients will tend to get better naturally
Placebo effect
Effect of treatment itself

Can’t conduct study in sick patients

Question 3

Why is random allocation good? (4)

Answer 3

Best way to ensure intervention / control groups have similar characteristics
Avoids allocation bias
Simplifies interpretation of different between intervention / control
Facilitates blinding

Question 4

Significance of blinding

Answer 4

Need to keep key people (patient, outcome assessor, statistician) blind to randomization code

Single blind - patient OR assessor
Double blind - Patient AND assessor
Triple blind - Patient + outcome assessor + statistician

Question 5

Which trial outcomes should be used?

Answer 5

Symptom, clinical sign, biochemical test, development of clinical disease, death

Ideally objective
Should be important for both patient and doctors
Can have several

Question 6

3 basic designs of randomised control trial

Answer 6

Parallel group - single intervention
Crossover trial - single intervention switched part way through (for rapidly achieved, reversible outcomes)
Factorial design - 2 or more interventions

Question 7

What is the importance of trial size?

Answer 7

If too small, statistical power is limited
May fail to detect an important intervention effect (TYPE 2 ERROR)
Estimate of trial effect will be imprecise

Question 8

What is a type 2 error?

Answer 8

May fail to detect an important intervention effect because trial too small

Question 9

What are the advantages of a large sample size?

Answer 9

Higher statistical power
More precise estimate of effect size
Ability to think about impact of intervention in different sub-groups
BUT this does not automatically make the trial more representative - still need to do good sampling

Question 10

Discuss the ethics of randomized control trials

Answer 10

Intervention must be LIKELY to benefit rathre than harm
Control group to get usual care - not no care
Informed consent crucial
Monitoring / reporting safety and adverse effects

Question 11

What is the null hypothesis?

Answer 11

Assumption that there will be no difference between intervention and control groups - important first step of analysis

Question 12

Steps of trial analysis (3)

Answer 12

1. Compare characteristics of intervention and control groups at entry
2. Establish whether intervention has been applied, how did it meet endpoints
3. Does outcome differ? (Measurement depends on what the outcome is)
   & what does this mean in terms of risk, relative risk, absolute risk, etc.

Question 13

ISSUE with trial anaylsis

Answer 13

No all patients will comply with study
Some will choose to stop, have to stop, etc.
Can be correct with ‘Intention to treat analysis’
LOOK AT THIS xxxx

Question 14

Cost-benefit vs cost-effectiveness

Answer 14

Benefit - how much does it cost to ‘save a life’ using this treatment?
Effectiveness - Cost of benefit compared with other clinical interventions

Question 15

What are the acute metabolic complications of diabetes?

Answer 15

DKA and HHS

Question 16

Outline Type 1 diabetes pathophysiology

Answer 16

Complete lack of insulin
Compensatory hormones are secreted
Ketone bodies produced

Insulin deficiency leads to ketosis (which leads to acidosis) and hyperglycaemia (which leads to osmotic diuresis and dehydration)

Question 17

What are the compensatory hormones secreted in type 1 diabetes?

Answer 17

Glucagon
Catecholamines
Cortisol
Growth hormones

Question 18

What do Type 1 diabetes lose through osmotic diuresis?

Answer 18

Water, sodium, total body potassium, chloride, calcium, phsophate, magnesium

Electrolyte imbalance particularly bad for electrical tissues in heart

Question 19

Diagnosing DKA - 2 signs

Answer 19

Ketones +++

Glucose high

Question 20

What do you give to someone in DKA?

Answer 20

Insulin
Fluids
Metabolic correction

Question 21

Investigations for DKA

Answer 21

pH less than 7.3
Capillary and seum glucose - can be normal
Ketones
ABG
ECG - heart attacks can put you in a DKA (and vice versa)
CE - cardiac enzymes (troponin)
FBC - infection
Amylase
CXR
Blood cultures
MSU - infection

Question 22

How do you diagnose type 1 diabetes?

Answer 22

Random blood sugar of over 11.1 (if they have symptoms)

If no symptoms, need two random readings above 11.1

Question 23

Ongoing management of diabetic patient with DKA

Answer 23

Hours early warning scores & blood gas
Hourly fluid balance
Electrolytes every 2-4 hours
XXX

Question 24

Definition of hyperglycaemic hyperosmolar state

Answer 24

Hyperglycaemia (>30mmol/l) without significant ketosis or acidosis
Dehydration with some depression consciousness

Question 25

Management of hyperglycaemic hyperosmolar state

Answer 25

Fix hypokalaemia
Insulin
Fluids

Question 26

Chronic complications of diabetes

Answer 26

Microvascular - nephrology, rentinopathy, neuropathy

Macrovascular - CHD, stroke, PVD, blood pressure

Question 27

What is the pathophysiology of the chronic complications?

Answer 27

Leakage of PAS positive glycated plasma proteins, which increase extracellular matrix, hypertrophy and hyperplasia of endothelium

Question 28

What is HbA1c?

Answer 28

Average of amount of glucose over the past 90 days
Also called amadori product
This process happens will all proteins

Question 29

Controllable risk factors for microvascular complications in patients with diabetes

Answer 29

xxx

Question 30

Risk factors for retinopathy (4)

Answer 30

Poor glycaemic control
Genetic factors
High BP
smoking

Question 31

Classification of diabetic retinopathy

Answer 31

Proliferative and non-proliferative (with or without maculopathy)

IT will be the first microvascular complication

Question 32

Markers of nonproliferative DR

Answer 32

xxx

Question 33

Markers of proliferative diabetic retinopathy

Answer 33

xxx

Question 34

Treatment for proliferative retinopathy

Answer 34

burn about 1000 holes in retina to decrease the oxygen demand for the retina.
Lose some peripheral vision, but helps to maintain central vision

Question 35

Nephropathy - risk factors and incidence

Answer 35

xxx

Question 36

How do we screen for nephropathy?

Answer 36

Microalbuminuria
Albumin : creatinine random sport collection
24h urine collection with creatinine
Timed collection

Question 37

Treatment and prevention of diabetic nephropathy (4)

Answer 37

Tight BM control
Tight BP control
ACE inhibitor
Low protein diet, lipid control

BP is key

Question 38

Types of diabetic neuropathy

Answer 38

xxx

Question 39

Describe autonomic neuropathy

Answer 39

Damage to nerves supplying major organs
Rare complication (occurs after 12-20 ts poor control)
Feeling dizzy, delayed stomach emptying, diabetic diarrhoea, sweating when eating, bladder and erectile dysfunction)

Question 40

Describe neuropathic vs ischaemic foot

Answer 40

Neuropathic - Sensory defect, but you still have pulses, foot starts to claw and you are no longer walking on fat pads, ulceration and callus formation where you are walking

Ischaemic foot - not necessarily going to have sensory defect but will lose pulse, foot structure is maintained and ulceration will not necessarily be at pressure points

Question 41

Cardiovascular disease risk in diabetes

Answer 41

Risk in type 2 diabetes patients same as people who have already had a heart attack

SO need to use secondary prevention methods in diabetes patients xxx ADD EXAMPLES

Question 42

HbA1c targets XXX

Answer 42

XXX

Question 43

Outline of general diabetic management

Answer 43

Advice
Blood pressure
Cholesterol
Diabetic control
Eye care
Foot care
Guardian drugs (ACE inhibitors)

Question 44

What causes obesity? (5)

Answer 44

Metabolism
Appetite regulation
Energy expenditure
Genetics
Behavioural and cultural factors

Question 45

Common findings in obese patients (2)

Answer 45

Lack of feeling of fullness

Night eating habits

Question 46

Factors that contribute to weight gain (6)

Answer 46

Socio-economic status
Smoking cessation
Hormonal
Inactivity
Psychosocial / emotions
Medications

Question 47

Medical complications of obesity

Answer 47

Pulmonary disease
Stroke
Cataracts
CHD
Diabetes
Cancer (various)
ETC

Question 48

What is insulin resistance syndrome?

Answer 48

Physiologic response inadequate for amount of insulin secreted

Question 49

What are the clinical manifestations of insulin resistance syndrome?

Answer 49

Central obesity
Glucose intolerance
Atherosclerosis
Hypertension
Polycystic ovary syndrome

Question 50

What is metabolic syndrome?

Answer 50

xxx

Question 51

What causes NAFLD?

Answer 51

Excessive intake of fat
Reduced hepatic oxidation of FFA
Increased De Novo lipogenesis
Increased delivery of FFA

Question 52

In what patients would you consider drug therapy?

Answer 52

xxx

Question 53

Potential pharmacological interventions for obesity?

Answer 53

Orlistat - inhibits pancreatic lipase causing fat malabsorption

GI adverse effects

Question 54

What are incretins?

Answer 54

GI hormones that are released after meals, stimular insulin secretion
GLP1 signalling system

Question 55

What is the gold standard treatment in obesity?

Answer 55

Bariatric surgery

Question 56

Outline insulin analogues - quick overview of types and benefits

Answer 56

xx

Faster

Question 57

Commonest drug with errors - why?

Answer 57

Insulin - wrong dose, wrong time,

Question 58

Sick day rules for patients with diabetes

Answer 58

NEver stop insulin
If BM less than 11
If BM 11-17
If BM

xx

Question 59

Common causes of hypoglycaemia

Answer 59

Missed/delayed meals
Overdose / estimation of insulin
Weight loss
Increased physical activities
xxx

Question 60

Outline the stepwise management of type 2 diabetes

Answer 60

Diete and exercise
oral monotherapy
oral combination
insulin + oral agents

Question 61

What is metformin?

Answer 61

Insulin sensitiser

xxx

Question 62

What are sulphoylureas?

Answer 62

Stimulate insulin secretion
Act on beta cells
Risks of hypo

Question 63

Discuss action of incretin hormones / GLP-1 analogues?

Answer 63

B-cell
A-cell
Liver
Stomach 
Brain

INJECTION
Work on pancreas
xxxx

Question 64

Discuss actions of DPP-4 inhibitors

Answer 64

Works on same pathway as GLP-1 analogues, but less effective

ORAL
Work on pancreas
xxxx

Question 65

Discuss actions of SGLT-2 inhibitors

Answer 65

xxx
Inhibits SGLT2 receptors in PCT, patient will pee out glucose
Can cause UTIs

Question 66

How would you classify diabetes?

Answer 66

Vascular disease

& this is the biggest risk for mortality (especially macrovascular)

Question 67

What is the sequence of hormones that come in in response to hypoglycaemia?

Answer 67

xxx

Question 68

What is the plasma glucose concentration (when constant)?

Answer 68

5 mmol/L

Range is 4-7 mmol/L in healthy people

Question 69

What is the critical glucose level for the brain?

Answer 69

Less than 2.5 mmol/L

Question 70

What prevents plasma glucose surging / plummeting?

Answer 70

Hormone control of metabolism to maintain constant levels

Question 71

Roles of insulin

Answer 71

Stimulates nutrient storage - uptake of glucose, glycogen synthesis, uptake of FA and AA
Inhibits nutrient release - Inhibits release of glucose from liver, inhibits fat and protein breakdown

Question 72

What are the counter-regulatory hormones and their role?

Answer 72

Stimulate pathways leading to energy release
Glucagon: principal effects in liver
Stimulates hepatic glucose production
Adrenaline (and sympathetic NS)
Stimulates hepatic glucose production
Stimulates lipolysis: release of FA from adipose tissue stores
Cortisol
Stimulates hepatic glucose production
Stimulates proteolysis: release of amino acids from body proteins (skeletal muscle)

Question 73

Metabolic pathways that prioritise energy STORAGE (3)

Answer 73

Glycogenesis - Synthesis of glycogen from glucose
Lipogenesis - Synthesis of FA from acetyl CoA
Triglyceride synthesis - Esterification of FA for storage as TG

Question 74

Metabolic pathways that prioritise energy RELEASE (4)

Answer 74

Glycogenolysis - Release of glucose from glycogen stores
Gluconeogenesis - De novo synthesis of glucose from non-carbohydrate substrates
Lipolysis - Release of FA from TG breakdown
Ketogenesis - Production of ketone bodies from Acetyl CoA via beta-oxidation (FA to Acetyl Co A)

Question 75

Outline the metabolic response to hypoglycemia

Answer 75

Imediate response is glucagon from pancreas, fall in plasma glucose is detected by pancreas (which starts secreting more glucagon) xxxx

Question 76

Short, medium and long term defences against hypoglycemia

Answer 76

Short - glucagon, epinephrine, sympathetic NS
Medium - Ketogenesis (this protects muscle tissues from proteolysis)
Long - Cortisol stimulate proteolysis to supply AA substrates for gluconeogenesis

Question 77

Defences against hyperglycemia

Answer 77

Insulin - stimulates glucose uptake by tissues, inhibits liver glucose production
Lack of insulin action leads to hyperglycemia, DM (type 1 and type 2)

Question 78

What does insulin stimulate in Liver, adipose tissue and muscle?

Answer 78

Insulin stimulates
Liver 
glycogenesis
glycolysis
lipogenesis  	
Adipose tissue 
glucose uptake
free fatty acid uptake
lipogenesis
Muscle 
glucose uptake
amino acid uptake
glycogenesis

Question 79

What does insulin inhibit in liver and adipose tissue?

Answer 79

Insulin inhibits
Liver
glycogenolysis
gluconeogenesis

Adipose tissue
Lipolysis

Question 80

2 vehicles for fat transport

Answer 80

Chylomicrons
VLDL particles (carry from liver

Question 81

How is fat stored?

Answer 81

As triglycerides (transported as free fatty acids)

Question 82

How do you turn free fatty acid into triglyceride

Answer 82

Esterification

Question 83

What transporter does adipose tissue do to take up glucose?

Answer 83

GLUT4, insulin dependent

Question 84

Describe metabolic pathway in adipose tissue

Answer 84

xxx

Question 85

Describe metabolic pathway in muscle

Answer 85

Muscle has a private store of glycogen (it an’t be shared with the rest of the body) - will only leave cell as lactate, fatty acid, AA
Skeletal muscle is MOST IMPORTANT IN GLUCOSE UPTAKE

Question 86

What transporter does muscle tissue do to take up glucose?

Answer 86

GLUT4, insulin dependent

Question 87

What is most important in glucose uptake? Good buffer to prevent spikes

Answer 87

Skeletal muscle

Question 88

Describe glucose and amino acid metabolism in the liver

Answer 88

xxx

Question 89

Describe fatty acid metabolism in the liver

Answer 89

FA can be turned into acetyl CoA via B-oxidation (stimulated by glucagon) BUT this process leads to development of keto acids if overloaded
FA can be turned into triglycerides for transport by VLDLs

Question 90

What is ketogenesis?

Answer 90

synthesis of acetoacetate and hydroxybutyrate (ketone bodies) from Acetyl Co A

Question 91

Overview of diabetic ketoacidosis

Answer 91

xx

Question 92

Overview of the metabolic disturbances in DM

Answer 92

xxx

Question 93

What is a SGLT transporter? Types and characteristics

Answer 93

xxx

Question 94

Role of somatostatin? Where is it made?

Answer 94

xxx

Question 95

What can measuring C protein show us?

Answer 95

Whether insulin is being secreted

Question 96

Factors regulating insulin secretion

Answer 96

xxx