diabetes Flashcards

1
Q

what is the endocrine function of the pancreas?

A

the beta cells secrete insulin and the alpha cells secrete glucagon

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2
Q

what does insulin do?

A

lowers blood glucose as its stimulated by high blood glucose

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3
Q

what does glucagon do?

A

raises blood glucose stimulated by low blood glucose

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4
Q

What hormone is released at hyperglycaemia?

A

Blood glucose concentration too high from set point so insulin released

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5
Q

What hormones are released at hypoglycaemia?

A

Blood glucose comcentration is too low from set point so glucagon and adrenaline are released

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6
Q

What chemical processes occur during hyperglycemia?

A

glycogenisis = the conversion of glucose to glycogen
- conversion of glucose to lipid
- increased metabolism so increased respiration to reduce blood glcuose levels

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7
Q

What chemical processes occur during hypoglycaemia

A

glycogenolysis = breakdown of glycogen to glucose

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8
Q

what is polydipsia?

A

thirst due to fluid loss and increased osmolarity

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9
Q

what defines type 1 diabetes

A

absolute need for insulin therapyw

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10
Q

what defines type 2 diabetes?

A

non insulin dependent diabetes and is the most common form of diabetes

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11
Q

what is gestational diabetes?

A

diabetes that develops during pregnancy and usually disappears after giving birth

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12
Q

what can diabetes be secondary to?

A

-pancreatic disease
-other endocrine disease e.g. cushings syndrome
-drugs
-abnormalities of insulin/ insulin receptor
-genetic syndromes - cystic fibrosis

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13
Q

for type 1 diabetes (IDDM) what can cause it and how can it be treated?

A

caused by:
-genetic predisposition
-autoimmune destruction of beta cells
-environmental factors like viruses or chemicals
treated by:
-insulin injections and diet

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14
Q

for type 2 diabetes (NIDDM) what can cause it and how can it be treated?

A

caused by
-multifactorial inheritance
-down regulation of insulin receptors so they have a reduced response to insulin
treated by
-dietary management and exercise
-oral hypoglycaemic agents

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15
Q

what is the genetic susceptibility of type 1 diabetes associated with?

A

-HLA
-DR3
-DR4

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16
Q

for type 1 diabetes, what lesions can it cause and what causes them

A

islet lesions - in early stages these cause inflammation and in later stages cause atrophy and fibrosis
caused by cell autoantibodies

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17
Q

what happens as a result of hyperglycemia?

A

check screenshots

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18
Q

what lesions are formed in type 2 diabetes?

A

tissue fibrosis and amyloid

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19
Q

is there HLA association with type 2 diabetes?

A

no

20
Q

what do diabetic complications depend on?

A

-severity and duration of hyperglycaemia
-level of glycaemic control

21
Q

give 3 acute complications of diabetes type 1 what are the symptoms

A

hypoglycaemia symptoms
-shaking, sweating, tachycardia
-hunger
-headache
-sudden moodiness
-behaviour changes, confusion
-blurred vision

ketoacidosis (this is worse than the non-ketoic version) where there’s a severe lack of insulin in the body
-blurred vision
-thirsty
-stomach pain
-more frequent urination
-confusion
-tiredness

hyperosmolar non-ketoacidotic coma
-severe hyperglycaemia
-dehydration
-lethargy

22
Q

give the symptoms of diabetes in the following categories:
-central
-systemiic
-repiratory
-eyes
-breath
-gastric
-urinary

A

-polydipsia, polyphagia, lethargy and stupor
-weight loss
-hyperventilation
-blurred vision
-smell of acetone in the breath
-nausea, vomiting, abdominal pain
-polyuria, glycosuria

23
Q

give general complications in diabetes

A

-reduced immune and poor healing response
-hyperglycemia
-reduced immune cell function
-increased inflammation
-bacterial and fungal infections

24
Q

give chronic complications in diabetic macrovascular disease

A

-cardiovascular disease
-peripheral vascular disease
-diabetic foot

25
Q

give chronic complications in diabetic microvascular disease

A

-diabetic neurapathy
-diabetic nephropathy
-diabetic cardiomyopathy
-diabetic retinopathy

26
Q

what are the consequences of atherosclerotic lesions?

A

-cardiovascular disease
-vascular insufficiency causing brain infarction and gangrene/ ulcers in legs

27
Q

give two examples of diabetic foot

A

-ulceration
-gangrene due to ischaemia

28
Q

how can diabetes cause major vascular disease?

A

by causing atherosclerotic lesions where the blood vessel is blocked

29
Q

what does diabetic microvascular disease cause?

A

-increased thickness of capillary basement membrane
-arteriolosclerosis
-vascular occlusion
-defective healing in chronic ulcers
-major complications in kidney and retina
-nerve damage

30
Q

what is diabetic nephropathy? what does it cause?

A

a renal faliure that mainly occurs in IDDM over NIDDM
-necrotising papillitis
-diabetic glomerulosclerosis

31
Q

what is diabetic glomerulosclerosis?

A

an end stage renal disease causing chronic renal faliure due to the BM changing and renal hyperfusion

32
Q

what is diabetic neuropathy? what does it cause?

A

-thickened capillaries and ischaemia
it causes:
-glycosylated nerve proteins
-axonal degeneration
-loss of myelination causing reduced conduction velocity
-reduced sensation
-muscle weakness, atrophy, wastage
-ptosis which is the 3rd cranial nerve palsy

33
Q

give some common occular complications of diabtes

A

-cataracts
-background diabetic retinopathy
-serious diabetic retinopathy
-endstage diabetic retinopathy

34
Q

what are the stages in diabetic retinopathy?

A
  1. microaneurysms
  2. haemorrhages
  3. exudates
  4. proliferative DR
35
Q

what does background diabetic retinopathy look like

A

scattered microaneurysms and dot haemorrhages

36
Q

what does serious diabetic retinopathy look like?

A

-cotton wool spots
-hard exudates
-haemorrhages
-venule bleeding
-vessel breakage

37
Q

what does end stage diabetic retinopathy consist of?

A

-uncontrolled new vessel growth
-fibrous tissue contraction
-retinal traction
-retinal detachment
-visual loss

38
Q

How is the increase in blood glucose regulated?

A
  1. Stimulus of the increased blood glucose concentration is detected as the input signal by the receptors being beta cells in the pancreas
  2. The output signal triggers insulin release which is a polypeptide hormone so a chemical messenger
  3. Effectors = liver/ muscle tissue
  4. Insulin binds to the protein receptor in the cell surface membrane of liver / muscle cells.
  5. Tertiary protein structure changes shape and the cells insert carrier proteins through which the glucose can enter the cell via facilitated diffusion
  6. Glucose is polymerised into glycogen
  7. Response is triggered of blood glucose concentration being lowered
  8. Negative feedback
39
Q

How is a decrease in blood glucose concentration regulated?

A
  1. Stimulus of the decreased blood glucose concentration is detected as the input signal by the receptors being alpha cells in the pancreas
  2. The output signal triggers glucagon release which is a polypeptide hormone so a chemical messenger
  3. Effectors = liver
  4. Glucagon binds to the protein receptor in the cell surface membrane of liver cells.
  5. Tertiary protein structure changes shape and the cells insert carrier proteins
  6. Glycogen glycosidic bonds are hyrolysed to release alpha glucose which moves out if tge carrier proteins by facilitated diffusion
  7. Response is triggered of blood glucose concentration being increased
  8. Negative feedback
40
Q

What three factors influence blood glucose concentration?

A
  • glucose from hydrolysis of consumed carbohydrates such as starch
  • glycogenolysis
  • gluconeogenisis
41
Q

give 2 oral hypoglycaemic agents

A

-sulfonylureas which stimulate insulin production
-metformin which inhibits liver glucose production

42
Q

what is necrobiosis lipoidica diabeticorum?

A

a skin condition mainly seen in women as a result of diabetes that causes severe ulceration

43
Q

what are the two types of diabetes mellitus?

A

-insulin dependent diabetes mellities - type 1
-non insulin dependent diabetes mellitus type 2

44
Q

what are the two mechanisms that are involved in the chronic complications of diabetes?

A

-polyol pathway: glucose is absorbed into tissue and converted into sorbitol
-protein glycosylation: releases advanced glycation end -products which inactivates protein and increases BM thickness

45
Q

why is cardiovascular disease a major cause of death in patients with diabetes?

A

due to accelerated atherosclerosis causing
-coronary artery disease
-ischaemic heart disease
-myocardial infarction

46
Q

why is wound healing compromised in diabetics?

A

-compromised immune cell function causing a decreased immune response
-compromised blood flow reduces o2 supply and reduced metabolites delays healing