Case 5- Diabetes

Question 1

Difference between testing of type 1 and 2 diabetes

Answer 1

Type 1 diabetes will have low insulin, high ketone levels and antibodies in their blood. Type 2 diabetes will have high insulin and no ketones.

Question 2

What do diabetics have in their urine

Answer 2

Sugar due to Hyperglycaemia

Question 3

Glucose levels in diabetics

Answer 3

In fasting plasma glucose diabetes is diagnosed at >7.0mmol/L, in random plasma glucose it is >11.1mmol/L.

Question 4

How can you diagnose type 1 diabetes

Answer 4

Blood or ketones in urine, found in dipstick test

Question 5

Screening diabetes with no symtpoms

Answer 5

• Overweight
• Vascular disease
• Over 40
• Hypertension
• Previous gestational diabetes
• People in a pre-diabetic state

Question 6

HBA1c test

Answer 6

Measures amount of Glucose stuck to a red blood cell. The patient does not have to fast. It is a reflection of chronic hyperglycaemia which shows diabetes and not an unusual rise in Glucose. Used in diagnosis of type 2 diabetes and monitoring established diabetes. A measure of >48 mmol/mol (6.5%) is diagnostic.

Question 7

Diagnosing pre-diabetic state

Answer 7

Oral Glucose tolerance test. You drink 75g of glucose and do a blood test at baseline and after 120 minutes. Diagnosed with impaired glucose tolerance at >7.8 mmol/L but less than 11.1 mmol/L at 120 minutes.

Question 8

Pre-diabetic fasting glucose levels and HBA1c

Answer 8

The fasting glucose for a normal person is <6.1mmol/L for diabetes it’s >7.0 mmol/L, in between its impaired fasting glycaemia (IFG). If IGT or IFT measure HBA1c, 42-47 mmol/mol is prediabetes

Question 9

Testing for Gestational diabetes

Answer 9

The oral glucose tolerance tests is done between 24-28 weeks. It is done in a fasting state. A fasting state plasma glucose level of 5.6mmol/litre or above or a 3 hour plasma glucose level of 7.8mmol/litre or above is indicative of gestational diabetes. Good diabetes control reduces complications at birth

Question 10

Hallmarks of Type 1 diabetes

Answer 10

Acute (symptoms present rapidly), young age, marked symptoms (very obvious symptoms that they are sure of), no family history, no complications when diagnosed, may present as an emergency.

Question 11

Hallmarks of type 2 diabetes

Answer 11

Insidious (don’t know when symptoms started, mild symptoms), older and middle aged, may have no symptoms, usually a family history, may present with or because of symptoms.

Question 12

General diabetes symptoms

Answer 12

Thirst, more urine passed, tiredness, weight loss and blurred vision

Question 13

Secondary diabetes

Answer 13

Occurs as a result of the treatment doctors give patients. Most likely steroid hormones which are prescribed for eczema and cirrhosis. Could be due to pancreatitis or pancreatic surgery which can destroy beta cells leading to diabetes. Endocrine conditions can antagonise insulin, i.e. crushing’s syndrome, acromegaly and phaeochromocytoma.

Question 14

Polygenic diabetes

Answer 14

The majority of type 1 and type 2 diabetes, means they are related to defects in multiple genes. In type 1 susceptibility increases with a genetic trigger and personal or family history of other autoimmune illnesses. Type 2 diabetes is the interaction between inherited genes, the environment and life-style.

Question 15

Genetic/inherited diabetes

Answer 15

Can be monogenic diabetes which is due to the inheritance of a mutation on a single gene. It is very rare occurring in 1-5% of cases. Mostly Neonatal Diabetes Mellitus or MODY (maturity onset diabetes of the young). In this case diabetes often develops before 25 and runs in the family from one generation to the next. May be treated by diet or tablets and does not always need insulin treatment.

Question 16

Gestational diabetes

Answer 16

Diabetes diagnosed in pregnancy. Occurs as a result of pregnancy related hormones increasing insulin resistance. More likely if the woman is overweight, had gestational diabetes before, a large baby in previous pregnancy (4.5kg), family history of diabetes and is from a South Asian, black or African Caribbean or middle Eastern background. It is associated with large babies and difficult labour. Resolves after delivery of the baby but can recur in subsequent pregnancies. It is a risk factor for type 2 diabetes

Question 17

Diabetes mellitus

Answer 17

A metabolic disorder which is characterised by chronic hyperglycaemia and disturbances of carbohydrates, fat and protein metabolism resulting from defects in insulin secretion, insulin action or both.

Question 18

Pathology of type 1 diabetes

Answer 18

Insulin deficiency, auto-immune condition, destruction of beta cells in the pancreas. Treatable with insulin.

Question 19

Pathology of type 2 diabetes

Answer 19

Insulin resistance, associated with obesity. More common in some racial groups, interplay between genes and environment

Question 20

How does insulin normally work

Answer 20

Normally insulin binds to the transmembrane receptor, this sets off a signalling cascade resulting GLUT4 transporters being added to the cell membrane allowing glucose to be moved from the plasma into the cell. In type 1 diabetes there is not enough insulin for this to happen.

Question 21

Microvascular complications of diabetes

Answer 21

Glucose accumulates in small blood vessels which damage them causing Microvascular microangiography. This tends to happen to people who have had diabetes for a long time and have poor glucose control.

Question 22

Complications of diabetes

Answer 22

• A 2-to-4-fold increase in cardio-vascular mortality
• It’s the leading cause of new cases of end stage renal disease (nephropathy)
• In the leading cause of new cases of blindness in working aged adults (retinopathy)
• Leading cause of non-traumatic lower extremity amputations. (neuropathy)
• Erectile dysfunction

Question 23

Insulin resistance

Answer 23

When there is a decreased ability of target tissues to respond normally to circulating insulin. When you have insulin resistance you get uncontrolled hepatic glucose production and decreased glucose uptake by target tissues. Obesity is the most common cause of insulin resistance.

Question 24

Obesity and insulin resistance

Answer 24

Most people with obesity and insulin resistance will not become diabetic as insulin levels will increase to compensate. Type 2 diabetes will develop when insulin resistant individuals develop impaired beta-cell function meaning that insulin resistance can no longer be compensated by increased insulin production.

Question 25

Non-pharmacological interventions for diabetes

Answer 25

Reduced calory intake, increased exercise and physical activity. Reduced alcohol and smoking

Question 26

Consequences of over-nutrition

Answer 26

People who are obese have their life expectancy reduced by 3 years. More likely to be unemployed, face stigma and discrimination and be hospitalised

Question 27

What is obesity a risk

Answer 27

• Liver disease
• Type 2 diabetes
• Reproductive problems
• Heart disease
• Anxiety and depression.

Question 28

Factors effecting control of appetite

Answer 28

Control of human appetite is an extremely complex set of interactions between behavioural, environmental and neurological factors. A number of theories about appetite control exist. One theory involves the interplay between short acting GI derived hormones and factors produced by adipose tissue.

Question 29

What part of the brain is important for appetite regulation?

Answer 29

The CNS in the hypothalamus

Question 30

Leptin

Answer 30

Is secreted by adipocytes, and secretion is in proportion to the level of adipocytes present, when fat stores decrease leptin levels will reduce and increase appetite. So high Leptin levels reduce apetite

Question 31

Cholecystokinin (CCK)

Answer 31

Released mainly by the duodenum and jejunum during a meal. Has local action of inhibiting gastric emptying and acts on hypothalamus to reduce appetite

Question 32

Glucagon-like peptide (GLP-1)

Answer 32

Released from small intestinal and colonic L-cells in proportion to calorie intake. It has a local effect of reducing gastric emptying and acts on the hypothalamus to reduce appetite

Question 33

Peptide YY (PYY)

Answer 33

Released by L cells in the GI tract acting on the hypothalamus to reduce appetite when there is high calorie intake.

Question 34

Ghrelin

Answer 34

Only known gut secreted orexigenic (appetite stimulant) and is secreted by the stomach in absence of food and will stimulate appetite.

Question 35

Hormones released in fasting state

Answer 35

In the fasting state Ghrelin increases in concentration. CCK, PYY, insulin and Leptin decrease in concentration.

Question 36

Biguanides i.e. Metformin

Answer 36

First line treatment for T2D (type 2 diabetes), it inhibits liver gluconeogenesis

Question 37

Advantages of Biguanides

Answer 37

Weight neutral/ weight loss. Cheap, improves mortality, not likely to cause hypoglycaemia. In overweight people with type 2 diabetes, metoformin is significantly more effective than intensive blood glucose control with sulphonylureas or insulin at reducing diabetes- related outcomes and all-cause mortality

Question 38

Disadvantages of Biguandiess

Answer 38

Gastrointestinal upset (nausea, wind, diarrhoea), best to take with or after food. Lactic acidosis, rare but can be fatal. Caution in use with impaired renal function, heart failure, liver disease.

Question 39

Sulphonlyureas i.e Gliclazide, Tolbutamide

Answer 39

Binds to Sulphonlyurea receptors on the beta cells of the pancreas, it blocks K+ channels depolarising the beta cell, resulting in increased insulin secretion from the Pancreas
Advantages- cheap, benefits glycaemic control
Disadvantages- Hypoglycaemia, weight gain, hyperinsulinemia

Question 40

Thiazolidenediones/ Glitazones i.e. Pioglitazone, Rosiglitazone

Answer 40

It activates the transcription factors ‘PPARy’ which when switched on stimulated the activation of genes involved in the lipid and glucose metabolism pathways. This enhances peripheral lipogenesis, decreases lipolysis, decreases plasma fatty acid levels which are sensitive to insulin. The onset of action is slow and can take 8 weeks for max effect.

Question 41

Thiazolidenediones side effects

Answer 41

Fluid retention, cardiac failure, weight gain, bladder cancer and liver dysfunction

Question 42

Rosiglitazon withdrawl

Answer 42

Long-term effects Drug withdrawal Rosiglitazone was associated with an increased risk of cardiovascular events, including congestive heart failure, myocardial infarction and stroke. For this reason rosiglitazone was withdrawn from EU market in 2010 and from the New Zealand and South Africa markets in 2011.

Question 43

Incretins

Answer 43

There are two main types of Incretins: GLP-1 and GIP. Both are hormones secreted by intestinal endocrine cells (L cells in the small intestine) in response to nutrient intake. Incretins help the body to produce more insulin ONLY when it is needed and reduce the amount of glucose being produced by the liver when it is not needed

Question 44

GLP-1

Answer 44

It is released from L cells in the pancreas and is rapidly broken down by the enzyme DPP-1V inactivating it. You presecibe a DPP-1V enzyme inhibitor and GLP-1 mimetics in order to increase the half life

Question 45

DPP-1V inhibitors i.e. sitagliptin

Answer 45

Advantages- oral, fewer hypoglycaemic episodes, not associated with weight gain, well tolerated.
Disadvantages- unaware of long term effects, expensive, discontinue if symptoms of acute pancreatitis.

Question 46

GLP-1 Mimetics i.e. exenatide

Answer 46

Modified to enhance incretin effects
Advantages- weight loss, low risk of hypoglycaemia
Disadvantages- nausea, vomiting, SC injections, contraindicated at low GFR, expensive, don’t know long term effects.

Question 47

Rapid acting Secretalogues i.e. Repaglinide

Answer 47

Meglitinides- non sulphonylurea beta cell stimulators. More expensive than sulphonylurea.
They have been associated with weight gain and hypoglycaemia. They have a rapid onset of action and a short duration of activity; they are taken shortly before each main meal. Although flexible use of these drugs in mealtime regimens may appeal to some people with diabetes (e.g. those with erratic lifestyles), multiple dosing requirements may limit their usefulness in practice

Question 48

SGLT2 inhibitors i.e. canagliflozin and dapagliflozin

Answer 48

Inhibits SGLT2 in the proximal renal tubule which is a Glucose specific transporter which usually transports Glucose back in the bloodstream. It prevents reabsorption of Glucose (increases Glucose in the urine), causes Glycosuria and osmotic diuresis.
Advantages- weight loss, low risk of Hypoglycaemia
Disadvantages- urinary tract infections, expensive, limited clinical experience, hypotension.

Question 49

Alpha Glucosidase inhibitors i.e. acarbose

Answer 49

Targets postprandial (after a meal) hyperglycaemia by reducing carbohydrate digestion and absorption. Causes adverse Gastrointestinal effects (abdominal bloating, flatulence and diarrhoea), not commonly used in clinical practise.

Question 50

NICE recommendations for type 1 diabetes

Answer 50

NICE recommends that patients should be offered multiple daily injection basal-bolus insulin regimens, rather than twice-daily mixed insulin regimens.

Question 51

Basal insulin

Answer 51

Provides a constant supply of insulin to bring down restring glucose levels, can be an intermediate or long acting Insulin

Question 52

Bolus insulin

Answer 52

Provides a short term effect on blood glucose, it is taken at meal times to keep blood glucose levels under control following a meal. Can be short acting or rapid acting insulin

Question 53

Basal-bolus regimen

Answer 53

involves taking longer acting form of insulin that keeps blood glucose levels stable through period of fasting and separate injections of shorter/rapid acting insulin to prevent rises in blood glucose levels resulting from meals

Question 54

Twice-daily mixed insulin regimen

Answer 54

Considered if a multiple daily injection basal–bolus insulin regimen is not possible. Generally biphasic insulin is injected 15 to 30 minutes before breakfast and the evening meal. Short or rapid acting insulin can be combines with intermediate insulin to produce biphasic combinations.

Question 55

Rapid acting insulin analogues i.e. NovoRapid

Answer 55

Onset between 5-15 minutes, peak after 1-2 hours. Lasts for 4-5 hours can be injected with food or post-prandial. Controls post prandial hyperglycaemia and covers mealtime carbohydrate intake. They have the benefit of allowing insulin to be taken immediately before a meal.

Question 56

Short actin Insulins (non-analogue) i.e Actrapid

Answer 56

A soluble form of human insulin. Onset 30-60 minutes and lasts 8-10 hours. Addresses post-prandial glucose excursion. The disadvantages are that come have to be injected 20-30 minutes before a meal meaning that meal planning is essential. Patients may need a snack between meals and there is a risk of hypoglycaemia.

Question 57

Immediate acting insulin i.e. Humulin 1

Answer 57

1-2 hours onset and lasts for 13-18 hours. It is given twice daily and addresses basal hyperglycaemia. Longer life span than rapid or short acting insulin but is slower to reach its peak.

Question 58

Long acting Insulin analogues i.e. Lantus and Levemie

Answer 58

Onset of action is about an hour and lasts the whole day. Has the advantage of greater predictability, potentially less weight gain and lower risk of hypoglycaemia. Can be given as a basal insulin or in a Basal Bolus regimen.

Question 59

Mixed insulin

Answer 59

Pre-mixed Insulin is a combination of two insulins mixed together, one short acting and one intermediate or long acting insulin. Thus providing both basal and postprandial coverage with one injection. Premixed analogues can conveniently be administered twice daily directly before the meal. Patients however must eat regular meals or they will be at greater risk of hypoglycaemia. Examples include: NovoMix 30, Humalog Mix 25, Humulin M3, Isuman Comb 25

Question 60

Twice daily injection

Answer 60

A twice-daily human mixed insulin regimen can be considered for adults with type 1 diabetes if a multiple daily injection basal–bolus insulin regimen is not possible. It may be considered if an adult using a twice-daily human mixed insulin regimen has hypoglycaemia that affects their quality of life. A twice-daily insulin regimen works on the assumption that the patient will have 3 meals each day hence it may be suitable for patients who have regular daily routines that include three main meals at similar times each day. It may also be appropriate for school children as injections can be given before and after school without the need for a lunchtime injection.

Question 61

Multiple daily injections

Answer 61

Involves injecting rapid insulin before meals together with one or more separate injections or intermediate or long acting insulin (twice-daily detemir should be used first line). The intermediate- or long-acting injection is given at the same time each day, commonly at bedtime, but in the case of insulin detemir it should be repeated in the morning, as recommended by NICE. MDI regimens provide tighter glycaemic control, which is associated with reduced rates of diabetic complications compared with twice daily regimens. It is the insulin injection regimen of choice.

Question 62

Multiple daily injections

Answer 62

Involves injecting rapid insulin before meals together with one or more separate injections or intermediate or long acting insulin (twice-daily detemir should be used first line). The intermediate- or long-acting injection is given at the same time each day, commonly at bedtime, but in the case of insulin detemir it should be repeated in the morning, as recommended by NICE. MDI regimens provide tighter glycaemic control, which is associated with reduced rates of diabetic complications compared with twice daily regimens. It is the insulin injection regimen of choice.

Question 63

Type 2 diabetes insulin

Answer 63

Insulin resistance which leads to Hyper-insulinemia. The insulin resistance causes a decline in beta cell function and you may get no insulin produced at all

Question 64

Type 1 insulin diabetes

Answer 64

An immune trigger or another cause results in the destruction of beta-cells in the Pancreas resulting in the absence of Insulin.

Question 65

How diabetes effects metabolism

Answer 65

The absence of Insulin or loss of effect on tissues will leave to derangement of metabolism. There will be increased protein breakdown of proteins from the skeletal muscle and increased Gluconeogenesis. There will be increased Glycogenolysis, decreased cellular Glucose uptake. There is no rapid reduction in blood Glucose after a meal because there is no Insulin. There will be increased Glucose in the blood as it is not taken into the cells so there will be Hyperglycaemia. The increased TAG breakdown will cause increased blood FA’s and ketogenesis causing Ketoacidosis. This is more common in type 1 diabetes because in even a small amount of Glucose will prevent the breakdown of TAG’s.

Question 66

MCADD

Answer 66

Medium and long chain FA’s can not be oxidised as you are missing the medium chain Acetyl CoA dehydrogenase, it may also be deficient. So you can not use fat stores properly. Beta oxidation will stop when you get to chain which is 12 carbons long. This means you cant make ketone bodies or undergo Gluconeogenesis so you will very quickly become hypoglycaemic once you have metabolised your ingested Glucose and Glycogen stores.

Question 67

Effects of MCADD

Answer 67

Defects in FA oxidation lead to:
• An overreliance on Glucose because FA’s are not utilised for energy and ketone bodies are not produced
• Gluconeogenesis is inhibited because of a reduction in energy produced by FA
• Accumulation of unusual medium chain FA derived C8 acylcarnitine’s and C6 and C10 acylcarnitine’s may inhibit gluconeogenic enzymes.

Question 68

Diagnosing MCADD

Answer 68

Diagnosed due to elevated C8 acylcarnitine with lesser elevation of C6 and C10 acylcarnitine’s. Normally diagnosed in Blood spot screening program

Question 69

MCADD treatment

Answer 69

Stopping the patients from entering a fasting state and having to use their fat stores, so they have regular meals at regular intervals. You may have to be put on a glucose drip in hospital if you are severely unwell

Question 70

Isovaleric anaemia

Answer 70

Defective leucine catabolism which causes a build-up of Isovaleryl-CoA. Causes a sweaty smell. Treatment is limitation of proteins in the diet, picked up in the neonatal blood spot screening programme.

Question 71

Phenylketonuria (PKU)

Answer 71

It is the most common error of amino acid metabolism. It is caused by a deficiency in phenylalanine hydroxylase (PAH) that converts phenylalanine to Tyrosine. This causes an accumulation of phenylalanine and a lack of Tyrosine. As well as the build up of phenylactate, phenylacetate and phenylpyruvate. There are lots of reasons for the deficiency it could be due to a mutation or a lack of expression. Tyrosine when present is converted into Melanin and neurotransmitters (Serotonins and catecholamines.

Question 72

Treatment for PKU

Answer 72

Limited phenylalanine intake through dietary means. Do not over-restrict phenylalanine below the bodies requirements (essential AA). Supplement the diet with Tyrosine. Avoid the sweetener aspartame.

Question 73

Effects of PKU

Answer 73

If not treated IQ will decrease. You can get brain damage in untreated PKU babies as the failure to produce proteins correctly results in a reduction of neurotransmitters

Question 74

Congenital PKU

Answer 74

When the mother has untreated PKU and the fetus does not

Question 75

Inherited PKU

Answer 75

When you have the PKU mutation

Question 76

Diagnosis of PKU

Answer 76

Phenylpyruvate in the urine

Question 77

PKU in the fetus

Answer 77

It’s especially important to have a limited phenylaline diet in pregnant woman because its harmful to the CNS of the postnatal human infant. There is competition between Phe and other amino acids for uptake by foetal tissue and perhaps by the placenta. In uncontrolled PKU the foetus will have embryopathy and fetopathy, low birth rate, reduced microphaly, congenital heart disease and Dysmorphic facial features.

Question 78

What metabolic diseases does the neonatal bloodspot test for

Answer 78

• phenylketonuria (PKU)
• medium-chain acyl-CoA dehydrogenase deficiency (MCADD)
• maple syrup urine disease (MSUD)
• isovaleric acidaemia (IVA)
• glutaric aciduria type 1 (GA1)
• homocystinuria (pyridoxine unresponsive) (HCU)