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Diabetes Complications. Dr. Mujeeb Ahmed Shaikh Assistant Professor AlMaarefa College. Learning Objectives . Describe the pathology, clinical manifestations , of diabetic ketoacidosis hyperosmolar hyperglycemic state, hypoglycemia (insulin reaction),
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Diabetes Complications Dr. Mujeeb Ahmed Shaikh Assistant Professor AlMaarefa College
Learning Objectives • Describe the pathology, clinical manifestations, of • diabetic ketoacidosis • hyperosmolar hyperglycemic state, • hypoglycemia (insulin reaction), • the Somogyi effect and the dawn phenomenon. • Identify chronic complications of diabetes, and explain their effect on body systems.
Acute Complications • The three major acute complications of impaired blood glucose regulation are • Diabetic ketoacidosis (DKA) • Hyperosmolar hyperglycemic state • Hypoglycemia. All are life-threatening conditions that demand immediate traetment
Diabetic Ketoacidosis (DKA) • Hyperglycemia • Ketosis, • Metabolic acidosis • DKA primarily affects persons with type 1 diabetes, but may also occur in persons with type 2 diabetes when severe stress such as sepsis or trauma is present.
Diagnosis • Metabolic acidosis is caused by the excess ketoacidsthat require buffering by bicarbonate ions; this leads to a marked decrease in serum bicarbonate levels. • Blood glucose levels >250 mg/dL [13.8 mmol/L]), • Low serum bicarbonate, • Low arterial pH, and positive urine and serum ketones.
Three types of DKA • Mild DKA(serum bicarbonate of 15 to 18 mEq/dL [15 to 18 mmol/L], pH 7.25 to 7.30); • Moderate DKA(serum bicarbonate 10 to <15 mEq/dL, pH 7.00 to 7.24) and • Severe DKA(serumbicarbonate<10 mEq/dL pH <7.00).
Hyperglycemia leads to osmotic diuresis, dehydration, and a critical loss of electrolytes. Hyperosmolalityof extracellular fuidsfrom hyperglycemia leads to a shift of water and potassium from the intracellular to the extracellular compartment. • Abdominal pain • Fruity smell breath • Hypotension and tachycardia • Rate and depth of respiration increase (i.e., Kussmaul respiration)
Hyperosmolar Hyperglycemic State • Characterized by hyperglycemia (blood glucose >600 mg/dL[33.3 mmol/L]), • Hyperosmolarity(plasma osmolarity>320 mOsm/L) and • Dehydration, the absence of ketoacidosis, and depression of the sensorium. • Manifestations are weakness, dehydration, polyuria, neurologic signs and symptoms, and excessive thirst.
HHS contd.. • The neurologic signs include hemiparesis, Babinski refexes, aphasia, muscle fasciculations, hyperthermia, hemianopia, nystagmus, visual hallucinations, seizures, and coma.
Hypoglycemia • Characterized by below normal blood glucose levels. • Most common in patient treated with insulin. C /F • Altered cerebral function and • Activation of the autonomic nervous system. • T/t: 15 to 20 g of glucose
The Somogyieffect and Dawn Phenomenon • The SomogyiEffect: • Hypoglycemia associated with alternate episodes of hyperglycemia. • The Dawn phenomenon is characterized by increased levels of fasting blood glucose or insulin requirements, or both, between 5 and 9 AM without antecedent hypoglycemia.
Theories of Pathogenesis • Polyol pathway: • Intracellular Glucose sorbitol fructose • Advanced glycation end products (AGEs): formation of glycoproteins in the basement membrane of microcirculation • Protein kinase C – vascular damage in vs of kidney, nerves, & retina.
Nephropathies • Diffuse glomerular sclerosis • Nodular glomerular sclerosis • Microalbuminuria • Hypoalbuminemia • Edema • Prevention: glycemic control & BP maintenance (<130/80 mm of Hg)
Retinopathies • Microanurysm • Neovascularization • Hemorrhage • Scaring • Retinal detachment
Macrovascula Complications • Atherosclerotic coronary artery disease, cerebrovascular disease, and peripheral vascular disease. • Risk factors • Obesity, • Hypertension, • Hyperglycemia, • Hyperinsulinemia, • Hyperlipidemia, • Altered platelet function, • Endothelial dysfunction, • Systemic infammation(as evidenced by increasedCRP), and elevated fbrinogenlevels
Diabetic Foot Ulcers • Effects of neuropathy and vascular insufficiency. • Distal symmetric neuropathy is a major risk factor for foot ulcers. People with sensory neuropathies have impaired pain sensation and often are unaware of the constant trauma to the feet caused by poorly fitting shoes, improper weight bearing, hard objects or pebbles in the shoes, or infections such as athlete’s foot.
Motor neuropathy with weakness of the intrinsic muscles of the foot may result in foot deformities, which lead to focal areas of high pressure. When the abnormal focus of pressure is coupled with loss of sensation, a foot ulcer can occur. Common sites of trauma are the back of the heel, the plantar metatarsal area, or the great toe, where weight is borne during walking.
Infections • Soft tissue infections of the extremities, osteomyelitis, urinary tract infections and pyelonephritis, candidal infections of the skin and mucous surfaces, dental caries and periodontal disease, and tuberculosis.
FUNGAL INFECTION BETWEEN TOES J Am PodiatrMed Assoc 98(5): 353–356, 2008
References • Essentials of Pathophysiology: Concepts of Altered Health States, Third EditionCarol Mattson Porth • Davidson's Principles and Practice of Medicine, 21st Edition