complications of diabetes melitue
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Complication of diabetes melitueTRANSCRIPT
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COMPLICATIONS OF DIABETES
MELLITUS
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A metabolic disorder of various etiologies, characterized by chronic hyperglycemia due to insulin deficiency and/or insulin resistance as well as increased hepatic glucose output.
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Type 1 Type 2 Other causes
(Genetic defect of β cell function, genetic defects of insulin action, disease of exocrine pancreas, endocrinopathies, drug/chemical-induced, infections and uncommon forms)
Gestational DM
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ACUTE CHRONIC
• Diabetic Ketoacidosis• Hyperglycemic
Hyperosmolar State• Hypoglycemia
• Microvascular- Retinopathy- Nephropathy- Neuropathy
• Macrovascular- Accelerated
arteriosclerosis- Myocardial infarction- Stroke- Lower extremity gangrene
COMPLICATIONS OF DIABETES MELLITUS
-Diabetic Foot Ulcer-Infections
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CHRONIC COMPLICATIONS OF DIABETES MELLITUS
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HCO3-
HypertriglyceridemiaResembles
Pancreatitis
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Reduced insulin:glucagon ratio↓
↑Lipolysis↓
↑fatty acid↓
Excess acetyl CoA↓
↑ Ketogenesis↓
↑Beta hydroxy butyrate (toxic to body)↓
Induce nausea/vomiting
Ketonemia
Ketonuria
Reduce HCO3-
Metabolic acidosis
Kussmaulrespiration (to compensate)-‘air hunger’
↑Acetone
Fruity smell in the breath
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Absolute insulin deficiency/Increase counter
regulatory hormones↓
↑Catabolism of carbohydrate, fats and proteins
↓Hyperglycemia
↓Osmotic diuresis
↓Polyuria and nocturia (loss of
electrolytes + fluid)↓
Dehydration↓
Thirst center↓
Polydipsia
Nausea and vomiting
Impairs renal
excretion of H+ and ketone
AggravateacidosisAffect pH
dependent enzyme
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Increased chylomicrons in the blood (>1000mg/L)
Obstruct capillaries
Local ischemia and acidemia
Local damage expose TG to pancreatic lipases
TG → Fatty acids
Further local injury + ↑ inflammatory mediators and free radicals
Resembles Pancreatitis
↓
↓
↓
↓
↓
↓
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Tachycardia Dehydration/hypotension Tachypnea Abdominal tenderness (resembles
pancreatitis/surgical abdomen) Lethargy/ Reduce alertness (obtundation) Cerebral edema Coma
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severe ketoacidosis + histotoxic action of the ketone bodies + disturbances in water and electrolyte balance → reduced oxidative metabolism of the central nervous system →diabetic coma
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Hyperglycemia: Test with dipstick, confirm with venous blood glucose level
Ketonemia: test plasma with Ketostix. Finger prick sample for β-hydroxybutyrate
Ketouria: measure urine ketone levels Acidosis: measure
- pH of arterial blood- bicarbonate in venous blood
Arterial blood gas Urinalysis
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Symptoms of hyperglycemia from history Pulse: >100bpm/ <60bpm Systolic BP <90 mmHg Glasgow Coma Score <12/abnormal ‘Alert,
Voice,Pain, Unresponsive’ scale (AVPU) O2 saturation <92% on air (If normal
respiratory function)
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Replace fluid losses Replace electrolyte losses Restore acid-base balance Replace deficient insulin Monitor blood glucose closely Treat underlying cause
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• Usually occur in Type 2 DM• Caused by relative insulin deficiency and inadequate
fluid intake • Involved mostly elderly patients
Hyperglycemia DehydrationDecreased
consciousness
Ketosis
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Dehydration Stupor/Coma Confusion
ABSENCE OF KETOACIDOSISNo nausea, vomiting and Kussmaul respiration(delays the seeking of medical attention
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marked increase in plasma osmolarity(reaches 340mOsm/L (280-295mOsm/L)
↓Profound cellular dehydration
↓severe loss of intracellular fluid in the brain cells
↓Coma
Plasma osmolality = (2(Na+ + K+) + glucose + urea) all in mmol/L
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Due to insulin treatment for both Type 1 and Type 2 DM
Due to improper dosing with exogenous insulin or by induction of endogenous insulin
Exercise, fasting, low glucose intake
Hypoglycemia
Low insulin, High Counter regulatory hormone
X Restore blood glucose level
↓
↓
↓ Insulin treatment
Hypoglycemia
↓
Release of glucagon
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sweating Confusion Irritability Headaches Abnormal behaviour Motor incoordination Coma Weakness Convulsion
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Rapid oral/IV glucose IM glucagon
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1.Coronary heart disease2.Peripheral arterial disease3.Cerebrovascular disease
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Also called ischemic heart disease. Caused by a hardening or thickening of the
walls of the blood vessels that go to the heart.
Blood supplies oxygen and other materials to the heart for normal functioning. If the blood vessels to the heart become narrowed or blocked by fatty deposits, the blood supply is reduced or cut off, resulting in a heart attack.
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Diabetes mellitus – metabolic disorder
Endothelial injury
Increase production of advanced glycation end products (AGEs)
Make the platelets ‘sticker’
Increase coagulation potential
Abnormal clot formation (thrombosis)
Pathogenesis :
Increase permeability and adhesion of molecules ;
monocyte,leukocyte,platelet,lipids (LDL)
Oxidized LDL attracts macrophages and monocytes to the site
Smooth muscle emigration from media to intima
Lipids engulf by cells foam cells, smooth muscle cells proliferate
Collagen and other ECM deposition
Coronary heart disease
Atheroslerotic plaque
Accumulation of lipid intracellularly & extracellularly
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Reduction of blood flow
Anaerobic metabolism
Decreased blood supply to the myocardium, decreased oxygen supply
Myocardial ischemia myocardial necrosis
Inflammatory response
Hyperthermia/fever
Acidosis
Decreased myocardial contractility low cardiac
output
Sympathetic stimulation
Tachycardia Decreased perfusion of oxygenated blood to other organs
Dyspnea, fatigue and body weakness
Decreased systemic circulation
Redirection of blood from skin major organs
Pathophysiology :
Chest pain
Pallor
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Signs and symptoms : Chest pain – usually a feeling of
squeezing/pressure. If the patient has autonomic diabetic neuropathy, he may not has the chest pain
Decreased tolerance for physical activity Chronic fatigue Shortness of breath Swelling of the legs and ankles Palpitation
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refers to a group of conditions that affect the circulation of blood to the brain, causing limited or no blood flow to affected areas of the brain
Atherosclerosis is one of the conditions that can cause cerebrovascular disease.
During this process, high cholesterol levels coupled with inflammation in areas of the arteries in the brain can cause the cholesterol to build up in the vessel in the form of a thick, waxy plaque.
This plaque can limit, or completely obstruct, blood flow to the brain, causing a stroke, transient ischemic attacks, or dementia, which may lead to a variety of other health complications.
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Hyperglycemia
↓
Non-enzymatic glycosylation of collagen and others
protein in interstitial tissue and blood vessel wall
↓
Formation of irreversible advanced glycosylation end
products (AGES)
↓
Cause cross link between polypeptides + interstitial
proteins, including low-density lipoprotein (LDL)
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↓Promote the deposition of the cholesterol in the
blood vessel intima↓
Accelerates atherogenesis↓
Atherosclerosis↓
Compromised the blood supply to the tissue
↓To brains vessels
↓Coma and stroke
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Atherosclerosis
compromised the blood supply
Coronary artery lower extremities vessel brain vessel
MI, angina, IHD coma, strokecoagulative necrosis + infections
gangrene
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In the walls of the large blood vessels, AGE-modified collagen accumulates, thickening the vessel wall and narrowing the lumen.
AGE-modified arterial collagen immobilizes circulating LDL, contributing to atheroma formation.
The cumulative effect of these changes is a progressive narrowing of the vessel lumen and decreased perfusion of affected tissues.
The binding of AGEs to specific cellular receptors that have been identified on the surface of smooth-muscle cells, endothelial cells, neurons, monocytes, and macrophages results in increased vascular permeability and thrombus formation, proliferation of smooth muscle in vessel walls, and phenotypic alteration in monocytes and macrophages
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This last result causes hyper-responsiveness of monocytes and macrophages upon stimulation, with resultant increases in the production of proinflammatory cytokines and certain growth factors.
These cytokines and growth factors contribute to the chronic inflammatory process in the formation of atherosclerotic lesions.
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Another condition related to heart disease and common in people with diabetes.
The blood vessels in the legs are narrowed or blocked by fatty deposits, decreasing blood flow to the legs and feet.
Increases the chances of a heart attack or stroke occurring. Poor circulation in the legs and feet also raises the risk of amputation.
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Intermittent claudication - pain, weakness, numbness, or cramping in muscles due to decreased blood flow
Rest pain - occurs when the artery occlusion is so critical that there is not enough blood and oxygen supply to the lower extremities even at rest and represents a more serious form of the condition.
Numbness of the extremities Weakness and atrophy (diminished size and strength) of the
calf muscle A feeling of coldness in the legs or feet Changes in color of the feet; feet turn pale when they are
elevated, and turn dusky red in dependent position Hair loss over the dorsum of the feet and thickening of the
toenails on affected limbs and digits Painful ulcers and/or gangrene in tissue where there is critical
ischemia; typically in the toes ( heals slowly or not all )
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In normal endothelial cells, biologically active substances are synthesized and released to maintain vascular homeostasis, ensuring adequate blood flow and nutrient delivery while preventing thrombosis and leukocyte diapedesis.( Diapedesis - The movement or passage of blood cells, especially white blood cells, through intact capillary walls into surrounding body tissue)Among the important molecules synthesized by the endothelial cell is nitric oxide (NO), which is constitutively produced by endothelial NO synthase (eNOS) through a 5-electron oxidation of the guanidine-nitrogen terminal of L-arginine.The bioavailability of NO represents a key marker in vascular health. NO causes vasodilation by activating guanylyl cyclase on subjacent vascular smooth muscle cells.In addition, NO protects the blood vessel from endogenous injury—ie, atherosclerosis—by mediating molecular signals that prevent platelet and leukocyte interaction with the vascular wall and inhibit vascular smooth muscle cell proliferation and migration.
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Conversely, the loss of endothelium-derived NO permits increased activity of the proinflammatorytranscription factor nuclear factor kappa B (NF-κΒ), resulting in expression of leukocyte adhesion molecules and production of chemokines and cytokines.These actions promote monocyte and vascular smooth muscle cell migration into the intima and formation of macrophage foam cells, characterizing the initial morphological changes of atherosclerosis.Thus, decreased levels of NO in diabetes may underlie its atherogenic predisposition.The bioavailability of NO reflects a balance between its production via NOS and its degradation, particularly by oxygen-derived free radicals.Many of the metabolic derangements known to occur in diabetes, including hyperglycemia, excess free fatty acid liberation, and insulin resistance, mediate abnormalities in endothelial cell function by affecting the synthesis or degradation of NO.
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To reduce the risk of progression and of cardiovascular disease by Improved control of blood glucose
▪ Reduced intake of blood glucose
▪ Control diet!!!
Aggressive reduction of blood pressure
▪ For DM 1, ACE inhibitor provide greater benefit
▪ For DM 2, angiotensin 2 receptor blocker has better effect
Aggressive cardiovascular risk factor reduction
▪ Eg; reduced in cholesterol intake
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Treatment
Antihypertensive (ACEi, ARB)
To prevent hypertension
Statin
To prevent lipid abnormalities
ACE inhibitor / ARB
To prevent cardiovascular risk
Low-dose aspirin (antiplatelet)
To reduce arteriolar thrombosis & macrovascular risk
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DIABETIC RETINOPATHY DIABETIC NEUROPATHY DIABETIC NEPHROPATHY
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Diabetic retinopathy is a complication of diabetes and a leading cause of blindness.
Is the result of damage to the tiny blood vessels that nourish the retina
They leak blood and other fluids that cause swelling of retinal tissue and clouding of vision
Usually affects both eyes The longer the person has diabetes, the more
likely they will develop diabetic retinopathy
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Hyperglycemia will increase retinal blood flow and metabolism and has direct effects on retinal endothelial cells and pericyte loss
which will impair vascular autoregulation The uncontrolled blood flow will dilates capillaries and
increase production of vasoactive substances and endothelial proliferation, resulting in capillary closure
This causes chronic retinal hypoxia and stimulates growth factors (VEGF) production
VEGF – will stimulate changes of endothelial cell growth (new vessel formation) and increase vascular permeability (causing retinal leakage and exudation)
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There are 4 types of diabetic retinopathy1. Non-proliferative without maculopathy No immediate threat to vision It includes venous dilatation, peripheral
(microaneurysms, exudates and blot haemorrhages)2. Maculopathy Is a sight threatening Presence of exudation, haemorrhage, ischemia and
oedema3. Pre-proliferative Is a sight threatening Presence of venous loops and beading, microaneurysms,
haemorrhages, intra-retinal microvascular abnormalities, multiple cotton wool spots, macular oedema with reduced visual acuity and exudation
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Proliferative Is a sight threatening
Involves pre-retinal haemorrhage, neovascularisation, fibrosis and exudativemaculopathy
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• Microaneurysmstiny, discrete, circular, dark red spots near the retinal vessels. most cases, this is the earliest clinical abnormalities.
• Retinal haemorrhagesoccur in deeper layer of retinaround, regular in shape- `blot’ haemorrhage.
• Exudatescharacteristics of dibetic retinopathyoccur in perimacular area.
• Cotton wool spotsfeatures of pre-proliferative diabetic retinopathy.
• Venous changes• Neovascularisation• Pre-retinal haemorrhage• Vitreous haemorrhage• Fibrosis
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microaneurysm
(soft exudates)
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Increase intracellular glucoseActivation of polyol pathway
Osmotic effect(intracellular overhydration)
Reduce in Na/K ATPase activity
Non enzymatic glycosylation of terminal end amino groups
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Intermediate glycosylated compund
Advanced glycosylation end products. ( AGEs)
Changes in cellular function
Imbedded lens
Swelling and opacity
Blurring of vision (retinopathy)
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Prevention Rapid reduction in blood glucose
Blood pressure lowering
Annual screening for retinopathy (in those with risk factor) Retinal photocoagulation (laser treatment) Focal laser to treat leaking microaneurysm, retinal
thickening, reduced macular edema
To destroys area of retinal ischemia, thus reduce the intra-ocular levels of VEGF (important for neovascularisation)
Reduced risk of recurrent haemorrhage (by inducing fibrosis of the new vessel)
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Opacification of the lens Due to sorbitol infiltration Senile cataract develops 10-15 years earlier in
diabetic patients Clinical features Gradual painless deterioration of vision
Reduced visual acuity Treatment Cataract extraction
Insertion of an intraocular lens
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Increased intraocular pressure damaging optic nerve and results in visual field defects
Leaky new vessel formation reduced outflow of aqueous humour through trabecular meshwork increased intraocular pressure glaucoma
Diagnosis is made after IOP is measured Treatment Beta-blocker Prostaglandin analogue Carbonic anhydrase inhibitors
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Diabetic Neuropathy
•Neurological disorder associated with diabetes mellitus
•Affects all peripheral nerves including pain fibers, motor neurons
and autonomic nervous system
•Symptoms vary according to the nerves affected
•Common symptoms includes:
•Numbness & tingling of extremities (‘Gloves & stockings
distribution’)
•Dysesthesia (abnormal sensation to a body part)
•Dizziness
•Urinary incontinence
•Muscle weakness
•Difficulty swallowing
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Pathogenesis
The pathogenesis is not clearly understood but these 4 factors are
thought to be involved:
1. Microvascular disease
a. Diabetes causes narrowing of blood vessels, abnormal
vasoconstriction, capillary membrane thickening and
endothelial hyperplasia which contributes to tissue (nerve)
hypoxia
b. Nerve hypoxia can lead to neuronal ischemia which impairs
nerve functions
2. Advanced glycated end products (AGE)
a. Elevated intracellular levels of glucose can cause a non-
enzymatic covalent bonding with proteins which alters their
structure and inhibit their function.
b. Seen in cells that unable to reduce glucose intake due to
hyperglycemia (e.g. endothelial cells).
c. A complex pathway involving oxidative stress or reactive
oxygen species.
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3. Protein Kinase C (PKC)
a. Increased levels of glucose cause an increase in intracellular
diacylglycerol which activates PKC
b. PKC inhibitors will be activated to compensate the abnormal
activation of PKC
c. PKC inhibitors increase nerve conduction velocity by
increasing neuronal blood flow, causing abnormal sensation.
4. Polyol pathway
a. Aka sorbitol/aldose reductase pathway.
b. Increase glucose level will activate this alternative
biochemical pathway.
c. This pathway decreases glutathione and increase reactive
oxygen species & is dependent on enzyme aldose reductase.
d. Cells of retina, kidney & nervous tissues are not insulin
dependent.
e. Any glucose not used will enter the polyol pathway and be
converted to sorbitol
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4. Polyol pathway
f. Under normal condition, this interchange will cause no
problem as aldose reductase has low affinity for glucose at
normal concentration.
g. In hyperglycemic state, sorbitol accumulates.
h. Sorbitol can’t cross cell membrane, when it accumulates, it
produces osmotic stress by drawing water into cell.
i. Fructose which is also made further on in this chemical
pathway has the same effect.
j. The deposition of sorbitol and fructose can damage the
Schwann cell membrane and causes abnormalities or decrease
nerve conductions.
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hyperglycemia
Accumulation of sorbitol and fructose in the cell and also depletion of NADPH needed for GSH production
Osmotic stress of Schwan cell and also production ROS
Activation of sorbitol/aldose pathway
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Abnormality or delayed nerve conduction
Diabetic neuropathy
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DEFINITION :
Any deleterious effect on kidney structure and/or function
caused by diabetes mellitus.
Chacterized by albuminuria, hypertension, and progressive renal insufficiency
Approx. 20-30% of patients with diabetes (type 1 and type 2) develop nephropathy
The earliest clinical manifestation is the presence of small but abnormal levels of albumin in the urine (microalbuminuria) generally precedsovert proteinuria by 5-10 years.
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Once proteinuria is detected, renal function gradually
deteriorates over 10-15 years
Diabetic nephropathy may result in end-stage renal
disease (ESRD) requiring dialysis or kidney
transplantation.
Considerably fewer people with type 2 diabetes
progress to ESRD
Microalbuminuria is a risk factor for premature
coronary artery disease in diabetics
Coexisting hypertension accelerates the
development of renal failure.
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Diabetic KidneyThe kidney may be damaged by diabetes inthree main ways :1) Glomerular damage diabetic
nephropathy2) Ischaemia resulting from hypertrophy
and hyalinization of afferent and efferent arterioles ischaemic damage to kidneys.
3) Ascending infection UTI due to bladder stasis resulting from autonomic neuropathy and infections.
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STAGE CHARACTERISTICS
STAGE 1 Hypertrophy and hyperfunction- Increase in size of kidney- Higher blood flow and rate of filtration
STAGE 2 Thickening of basal membrane
STAGE 3 Onset of Nephropathy - Microalbuminuria- Rise in blood pressure
STAGE 4 Clinical nephropathy-Macroalbuminuria-High blood pressure
Microalbuminuria
testing:
Normal range :
<20mg/l
Microalbuminuria:
20 – 200mg/l
Macroalbuminuria
: >200mg/l
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=> Renal hypertrophy and increase in glomerularfiltration rate
High levels of blood sugar
Kidney filter too much blood stress on basal membranes
More vasolidation of afferent arteriole than efferentglomerular arteriole
Increases intraglomerular furtherfiltration pressure damage glomerular
capillary
PATHOPHYSIOLOGY
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intraglomerularfiltration pressure
Further damage glomerularcapillary
Local shearing forces (mesangial cell hypertrophy) and
secretion of extracellular mesangial matrix material
Glomerular sclerosis
Thickening of BM
Disruptions of protein cross lingkages that makes an effective filter
Progressive leak of large molecules(proteins) into urine
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Small amount of protein appears in urine; microalbuminuria 30-300mg/day
Overt nephropathy with macroalbuminemia>300mg/day + HPT
May develop end stage renal failure Requiring dialysis or renal transplant
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Screening for microalbuminuria 30-300mg/day
Microalbuminuria is the earliest evidence of the diabetic nephropathy
The amount is so small to be detected.
Have to be tested by using special dipstick or radioimmunoassay
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DM↓
Defective insulin action↓
Hyperglycaemia↓
Impairs immune good medium for glycosylation ofsystem bacterial growth polymorphnuclear cells
↓ ↓
prone to get infection impaired effectiveness& function
bacterial invasion & proliferation↓
INFLAMMATION↓
Capillary dilatation, fluid exudation, neutrophils exudation↓
Liquefactive tissue necrosis↓
ULCER (red, warm, swollen, tender skin lesion)
minor trauma
tissue injury
Gangrene
AMPUTATION
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ischaemia neuropathy
symptoms ClaudicationRest pain
Usually painlessSometimes painful neuropathy
inspection Dependent ruborTrophic changes
High archClawing of toesNo trophic changes
palpation Coldpulseless
WarmBounding pulses
ulceration PainfulHeels and toes
painlessPlantar (pressure point)
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Dorsum of 2nd toe shows ischaemic lesion. Whitish color on the tip d/t ischaemia
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Ulcer on the 1st metatarsal head. Health granulation tissue on its bed. Callus formation on its surrounding ulcer lesion.
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Death of tissue Generally d/t loss of vascular supply&
followed by bacterial infection
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Laboratory testFBC – presence & severity of infectionblood sugar – hyperglycemia
X-raysign of damage to bones or arthritisgas in soft tissue-indicate gangrene
Ultrasounddoppler ultrasound-blood flow through the arteries & veins in lower extremities
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Resolve infection-antibiotics
Wound care- surgical debridement- improvement of circulation- special dressing- maggot therapy Follow up
-compliance to antibiotic-sign of improvement-less pain, swelling, redness, shrinkage
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Poorly controlled diabetes entails increased susceptibility of infections Skin infection
GIT infection
Urinary tract infection
Pyelonephritis
Pneumonia
Pulmonary tuberculosis
Pathophysiology
Hyperglycemia impaired neutrophil superoxide generation chemotaxis & phagocytosis of neutrophil are impaired infections
Infection also leads to loss of glycemic control and ketoacidosis
Increase insulin dose for DM patient complicated with infections