Complications of diabetes
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May 06, 2017
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About This Presentation
Complications of diabetes
Slide Content
Complications of Diabetes
What is Diabetes Mellitus?
Diabainein in greek refers - to pass through
Mel refers to- honey
Diabetes- “sweet urine”
Chronic metabolic disorder characterized-
persistent hyperglycemia, altered metabolism
of lipids, carbohydrates and proteins.
Diabainein in greek refers - to pass through
Mel refers to- honey
Diabetes- “sweet urine”
Chronic metabolic disorder characterized-
persistent hyperglycemia, altered metabolism
of lipids, carbohydrates and proteins.
Diagnostic Criteria
American Diabetes Association. Diabetes Care. 2004;27(suppl 1):S5-S10
FPG 2-h PPG (OGTT)
126
60
80
100
120
140
160
180
200
Plasma glucose
(mg/dL)
Normal
Diabetes
Mellitus
240
220
Diabetes
Mellitus
Normal
IGT
IGT
8
American Diabetes Association. Diabetes Care. 2004;27(suppl 1):S5-S10
FPG 2-h PPG (OGTT)
126
60
80
100
120
140
160
180
200
Plasma glucose
(mg/dL)
Normal
Diabetes
Mellitus
240
220
Diabetes
Mellitus
Normal
IGT
IGT
8
Etiological Classification
I.Type 1 diabetes - previously known as juvenile diabetes
insulin-dependent diabetes mellitus (IDDM)
II.Type 2 diabetes - previously known as adult-onset diabetes
non-insulin-dependent diabetes mellitus (NIDDM)
III.Gestational diabetes mellitus (GDM)
American Diabetes Association
I.Type 1 diabetes - previously known as juvenile diabetes
insulin-dependent diabetes mellitus (IDDM)
II.Type 2 diabetes - previously known as adult-onset diabetes
non-insulin-dependent diabetes mellitus (NIDDM)
III.Gestational diabetes mellitus (GDM)
American Diabetes Association
Type- I Diabetes Mellitus
T cell-mediated destruction of pancreatic ß-cells
Rapid onset, usually in childhood
Complete insulin deficiency
Absolute insulin requirement
T cell-mediated destruction of pancreatic ß-cells
Rapid onset, usually in childhood
Complete insulin deficiency
Absolute insulin requirement
Type- II Diabetes Mellitus
Pancreas doesn’t produce enough insulin or cells ignore it
(insulin resistance)
Most people with diabetes have type 2 (85%), occurs after 40
years of age
Associated with obesity & runs in families to some extent
Lifestyle issues prominent
Pancreas doesn’t produce enough insulin or cells ignore it
(insulin resistance)
Most people with diabetes have type 2 (85%), occurs after 40
years of age
Associated with obesity & runs in families to some extent
Lifestyle issues prominent
Gestational Diabetes Mellitus
(GDM)
Any degree of glucose intolerance with onset during
pregnancy
Return to normal glucose regulation after delivery is common
Increased perinatal morbidity and mortality if untreated
(GDM)
Any degree of glucose intolerance with onset during
pregnancy
Return to normal glucose regulation after delivery is common
Increased perinatal morbidity and mortality if untreated
Salient Clinical Symptoms
Disease of mainly three P’s
Polydipsia- Excessive Thirst
Polyphagia- Excessive Hunger
Polyurea- Excessive Urination
Hyperglycemia
Tiredness
Loss of weight
Disease of mainly three P’s
Polydipsia- Excessive Thirst
Polyphagia- Excessive Hunger
Polyurea- Excessive Urination
Hyperglycemia
Tiredness
Loss of weight
Diabetes Mellitus - Complications
Complications of diabetes mellitus
Acute (Metabolic) Chronic (Angiopathy)
Macro Vascular
Complications
Micro Vascular
Complications
Acute (Metabolic) Chronic (Angiopathy)
Macro Vascular
Complications
Micro Vascular
Complications
Risk factors and complications
Microvascular disease
Eyes
Kidneys
Nerves
Macrovascular disease
Ischaemic heart disease
Strokes
Peripheral vascular
disease
Feet
HypertensionHyperglycaemia
Dyslipidaemia
Coagulopathy
Smoking
Microvascular disease
Eyes
Kidneys
Nerves
Macrovascular disease
Ischaemic heart disease
Strokes
Peripheral vascular
disease
Feet
HypertensionHyperglycaemia
Dyslipidaemia
Coagulopathy
Smoking
Acute Complications
Diabetic Ketoacidosis
(DKA)
Hyperosmolar non-ketomic
Coma (HONK)
Hypoglycemia
Diabetic Ketoacidosis
(DKA)
Hyperosmolar non-ketomic
Coma (HONK)
Hypoglycemia
Metabolic injury to large vessels
Heart Brain
Extremities
Coronary artery
disease
– Coronary
syndrome
– MI
– CHF
Cerebrovascular
disease
Peripheral vascular
disease
– Ulceration
– Gangrene
– Amputation
Biology of Macrovascular Injury
Heart Brain
Extremities
Coronary artery
disease
– Coronary
syndrome
– MI
– CHF
Cerebrovascular
disease
Peripheral vascular
disease
– Ulceration
– Gangrene
– Amputation
Biology of Macrovascular Injury
Hyperglycemia
Neuropathy
–Peripheral
–Autonomic
Kidney Nerves
Retinopathy
- Cataract
- Glaucoma
Nephropathy
–Microalbuminuria
–Gross albuminuria
Blindness Kidney failure Amputation
Death and/or disability
Eye
Biology of Microvascular Injury
Neuropathy
–Peripheral
–Autonomic
Kidney Nerves
Retinopathy
- Cataract
- Glaucoma
Nephropathy
–Microalbuminuria
–Gross albuminuria
Blindness Kidney failure Amputation
Death and/or disability
Eye
Biology of Microvascular Injury
•Main Risk Factors
Microvascular Complications of Diabetes
Microvascular Complications of Diabetes
Microvascular Complications of Diabetes
Retinopathy: Damage to blood vessels in and around the
retina. It could occur with varying degrees of severity.
Normal ------------- Small hemorrhages --------- Large hemorrhage
Retinopathy: Damage to blood vessels in and around the
retina. It could occur with varying degrees of severity.
Normal ------------- Small hemorrhages --------- Large hemorrhage
Riabetic Retinopathy - Guideline
ACE/ARB and progression of diabetic
retinopathy
retinopathy
Nephropathy:
Glomeruli are damaged in the
kidneys.
Results in loss of protein
DIAGNOSTIC VALUE-Normal
microalbumin level is 30mg/24 hours.
May lead to kidney failure
Microvascular Complications of Diabetes
Glomeruli are damaged in the
kidneys.
Results in loss of protein
DIAGNOSTIC VALUE-Normal
microalbumin level is 30mg/24 hours.
May lead to kidney failure
Microvascular Complications of Diabetes
Microvascular Complications of Diabetes
Microvascular Complications of Diabetes
Neuropathy
Nerve fibres degenerate
Blood vessels supplying the nerves are ‘grossly diseased’
Classification:
•Symmetrical
• focal and multifocal (cranial, asymetrical lower limb, truncal,
limb mononeuropathy)
•Diabetic asymmetrical proximal motor neuropathy (hip, knee
back pain, loss of reflexes….)
Neuropathy
Nerve fibres degenerate
Blood vessels supplying the nerves are ‘grossly diseased’
Classification:
•Symmetrical
• focal and multifocal (cranial, asymetrical lower limb, truncal,
limb mononeuropathy)
•Diabetic asymmetrical proximal motor neuropathy (hip, knee
back pain, loss of reflexes….)
Mechanism of
Complications of Diabetes
Complications of Diabetes
Mechanisms causing diabetic complications-1
Accumulation of Sorbitol
Polyol (Polyhydroxy alcohols) Pathway
Sorbitol is formed from glucose catalyzed by aldose
reductase
This pathway is activated in hyperglycemia
Sorbitol does not cross cell membranes, accumulates
intracellularly and produces osmotic stress.
Sorbitol normally helps in osmoregulation
Accumulation of Sorbitol
Polyol (Polyhydroxy alcohols) Pathway
Sorbitol is formed from glucose catalyzed by aldose
reductase
This pathway is activated in hyperglycemia
Sorbitol does not cross cell membranes, accumulates
intracellularly and produces osmotic stress.
Sorbitol normally helps in osmoregulation
Oxydative stress
Consequences of high Sorbitol concentration
•Osmotic damage to cells: caused by impermeable Sorbitol
intracellularly
•Reduction in nerve myoinositol: causes decrease activity of
Na/K ATP Pump- causes decreased nerve conduction
velocity
•Inhibition of nitric oxide (NO) production: results in
vasoconstriction and hypertension
•Increased production of free radicals: which cause oxidative
damage to tissue
•Osmotic damage to cells: caused by impermeable Sorbitol
intracellularly
•Reduction in nerve myoinositol: causes decrease activity of
Na/K ATP Pump- causes decreased nerve conduction
velocity
•Inhibition of nitric oxide (NO) production: results in
vasoconstriction and hypertension
•Increased production of free radicals: which cause oxidative
damage to tissue
Mechanisms causing diabetic complications-2
Glycation of Proteins
Sugars in the blood and inside cells form chemical bonds to proteins and
to DNA by glycation or nonenzymatic glycosylation.
Over time, the glycated proteins are chemically modified to become
molecular structures called Advanced Glycation Endproducts (AGEs).
Glycation of Proteins
Sugars in the blood and inside cells form chemical bonds to proteins and
to DNA by glycation or nonenzymatic glycosylation.
Over time, the glycated proteins are chemically modified to become
molecular structures called Advanced Glycation Endproducts (AGEs).
Pathological Consequences
of Glycation of Proteins in Diabetics
Crosslinking reduces the flexibility, elasticity and functionality of the
proteins.
The chemical modifications of glycation and crosslinking can initiate
harmful inflammatory and autoimmune responses.
Glycation has been found in connective tissue collagen, arterial collagen,
kidney glomerular basement membrane, eye lens crystallins, nerve myelin
proteins and in the circulating low-density lipoprotein (LDL) of the blood.
of Glycation of Proteins in Diabetics
Crosslinking reduces the flexibility, elasticity and functionality of the
proteins.
The chemical modifications of glycation and crosslinking can initiate
harmful inflammatory and autoimmune responses.
Glycation has been found in connective tissue collagen, arterial collagen,
kidney glomerular basement membrane, eye lens crystallins, nerve myelin
proteins and in the circulating low-density lipoprotein (LDL) of the blood.
2 9
Diabetes is Managed,
But it Does Not Go Away.
GOAL:
To maintain target
blood glucose
Diabetes is Managed,
But it Does Not Go Away.
GOAL:
To maintain target
blood glucose
Management Of Diabetes Mellitus
The Fundamental Aim is - Glycemic Control
HbA1C < 7.0%
Pre-prandial PG 90 – 130 mg/dl
Postprandial PG < 180 mg/dl
Blood Pressure < 130/80 mmHg
Lipids - LDL < 100 mg/dl
Triglycerides< 150 mg/dl
HDL > 40 mg/dl
The Fundamental Aim is - Glycemic Control
HbA1C < 7.0%
Pre-prandial PG 90 – 130 mg/dl
Postprandial PG < 180 mg/dl
Blood Pressure < 130/80 mmHg
Lipids - LDL < 100 mg/dl
Triglycerides< 150 mg/dl
HDL > 40 mg/dl
Management Of DM
•Step 1: Diet and Exercise to achieve Euglycemia.
If Euglycemia not achieved; Follow Step 2.
•Step 2: Bigunide
•Monotherapy with:
–Sulfonylurea or Meglitinides
–SGLT2
–DDP4 or GLP1
–TZD
–Alpha-glucosidase
–Insulin
•Step 3: Addition of oral agent or Insulin.
Consider Insulin therapy in Type I DM always.
•Step 1: Diet and Exercise to achieve Euglycemia.
If Euglycemia not achieved; Follow Step 2.
•Step 2: Bigunide
•Monotherapy with:
–Sulfonylurea or Meglitinides
–SGLT2
–DDP4 or GLP1
–TZD
–Alpha-glucosidase
–Insulin
•Step 3: Addition of oral agent or Insulin.
Consider Insulin therapy in Type I DM always.
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