Diabetes Mellitus And Metabolic Syndrome PDF

Summary

This document provides an overview of diabetes mellitus and metabolic syndrome. It covers various aspects including the disorder of carbohydrate metabolism, high levels of blood glucose in the body, and the inability to produce or utilize insulin. It also details the categories of diabetes mellitus such as Type 1, Type 2, and gestational diabetes.

Full Transcript

DIABETES MELLITUS AND METABOLIC SYNDROME 9/23/2024 1 DIABETES MELLITUS (DM) Disorder of carbohydrate metabolism High levels of blood glucose Body’s inability to produce or utilize insulin Increased: Morbidity and mortality CVD, renal damage...

DIABETES MELLITUS AND METABOLIC SYNDROME 9/23/2024 1 DIABETES MELLITUS (DM) Disorder of carbohydrate metabolism High levels of blood glucose Body’s inability to produce or utilize insulin Increased: Morbidity and mortality CVD, renal damage Peripheral vascular disease Neurological disorders Blindness Amputation FOUR MAJOR CATEGORIES OF DM Type Abbreviation Characteristic Type 1 T1DM Lack of insulin production Beta cells of pancreas destroyed Insulin treatment required Type 2 T2DM 90% of those with DM Insulin resistance Gestational GDM Develops during pregnancy Hormone changes reduce insulin sensitivity Macrosomia Other N/A Pancreatitis, cystic fibrosis, neonatal EPIDEMIOLOGY In United States >30 million people Parallels obesity increase Sedentary lifestyle Prevalence increases with age Polygenic disorder- a mutation in multiple genes Environmental factors ETIOLOGY T1DM T2DM Autoimmune destruction of More gradual onset beta cells Insulin resistance Antibodies present Insulin still produced No insulin is being produced Sedentary behavior by the body Obesity 9/23/2024 5 INSULIN AND CARBOHYDRATE INGESTION Insulin Produced by beta cells Facilitate glucose movement blood to cells Carbohydrate ingestion: Synchronous rise and fall of glucose and insulin Glucose elevates, so does insulin INSULIN FACILITATES GLUCOSE UPTAKE 9/23/2024 7 CARBOHYDRATE METABOLISM: Process Result OVERVIEW Glucose Used for energy Stored as glycogen Converted to component of lipid molecules Glycogenesis- know Glycogen formation the process Primarily in liver and muscle Glycogenolysis Glycogen breakdown When blood glucose levels are low Gluconeogenesis Amino acids + glycerol of lipids (fats) converted to glucose Liver/kidneys 9/23/2024 8 KETONE FORMATION AND DIABETIC KETOACIDOSIS (DKA) DKA- mostly means type 1 9/23/2024 9 BLOOD GLUCOSE LEVELS Classification Values (BG = Blood Glucose) Normal blood glucose 70–100 mg/dL (fasting) Hypoglycemia BG 200 mg/dL Impaired glucose tolerance (IGT) = Fasting BG: 100-125 mg/dL “prediabetes” Diabetes Fasting BG: >126 mg/dL Postprandial BG Glucose after eating Greater than 200 mg/dL = diabetes Blood sugar is based on hospital policy ROLE OF INSULIN Muscle and liver: Glycogenesis Facilitate glucose uptake Adipose: Reduce lipolysis Anabolic hormone Increased insulin level Overcome insulin resistance- Hyperinsulinism so we have to give them more insulin Too much insulin Hyperinsulinism Resulting in low blood hypoglycemia glucose OTHER GLUCOSE-REGULATING HORMONES Hormone Tissue/Cells of Release Effect Glucagon Alpha cells of pancreas Released when BG levels are low Injectable form in severe hypoglycemia Somatostatin Delta cells of pancreas Diminishes secretion of insulin and glucagon Decreases GI activity, slow absorption Incretins GI tissues GI glucose-regulating hormones (stimulate insulin, slow GI motility) GLP-1 and GIP Cortisol Adrenal cortex Increases blood glucose -steroids- increased blood GLUCOSE-REGULATING SIGNALS FROM PANCREAS 9/23/2024 13 T1DM: PATHOLOGICAL MECHANISM Autoimmune- usually caused by obesity and t-cells attack body T-cell mediated attack of beta cells Genetic influence Presenting sign is often DKA Polyuria, polydipsia, polyphagia 9/23/2024 14 T2DM: PATHOLOGICAL MECHANISM Insulin resistance with increased insulin levels Molecular-level mechanisms: Oxidative stress, inflammation, insulin receptor mutation, mitochondrial dysfunction Metabolic syndrome HTN, dyslipidemia, hyperinsulinism, centralized obesity Hyperosmolar hyperglycemia syndrome (HHM) DKA does not normally occur in T2DM Presence of some insulin prevents ketone formation GESTATIONAL DIABETES MELLITUS Don’t need to know, focus on type 1 and 2 Hormones of Increase insulin resistance pregnancy Fetal defects, premature delivery, Complications: newborn hypoglycemia, macrosomia 2nd trimester OGTT (oral glucose Screening: tolerance test) GDM normally resolves after Can increase risk for T2DM pregnancy DIABETES TESTS Test Characteristic Blood glucose Fasting and random Oral glucose tolerance 75 g of glucose ingested, measure BG test (OGTT) Glycated hemoglobin Assess BG levels over the preceding 3 months (A1c)- lab draw If both fasting BG and A1c are in diabetic range, diagnosis of DM confirmed eAG Average BG over the last few months Islet cell Present in T1DM autoantibodies (ICAs) C-peptide test Indicator of endogenous insulin C-peptide released when pancreas releases insulin Differentiate between T1DM and T2DM DIABETES TESTS: URINALYSIS Finding Meaning Glucosuria Elevated BG- we see if we have elevated ones Results in increase filtration of glucose at glomerulus Renal glucose transport maximum exceeded Glucose appears in urine Ketonuria Ketones are produced when glucose cannot be utilized Ketones appear in urine when ketone formation and renal filtration of ketones is elevated More common in T1DM COMPLICATIONS OF DM Both acute and long-term Hypoglycemia and hyperglycemia DKA (T1DM) Acute HHS (T2DM) Blindness, kidney failure, neuropathy- nerve damage on feet, cardiovascular Long-term systemic disease, amputation- blood vessels starts to have issues, therefore, cause all of these HYPOGLYCEMIA Excessive exogenous (we gave it to the pt and is not from body) insulin BG less than 70 Inadequate food intake mg/dL Excessive physical activity Infection, illness, drug interaction Compensatory Epinephrine, glucagon, activation response to SNS raise BG HYPOGLYCEMIA (CONTINUED_2) Factor Meaning Signs and symptoms Activation of SNS: Sweating, hunger, dizziness, headache, heart palpitations, confusion Management (1) Fast-acting carbohydrates (15 g) Avoid fats (delay glucose absorption) Transient response: Provide meal or snack even if BG greater than 70 mg/dL Management (2) IV glucose Subcutaneous injection: Glucagon Response Repeated episodes of hypoglycemia can blunt compensatory response Autonomic neuropathy: May reduce warning signs Overall Hypoglycemia is a medical emergency SOMOGYI EFFECT AND DAWN PHENOMENON Somogyi Effect Dawn Phenomenon Morning hyperglycemia present Morning hyperglycemia present Hypoglycemia during sleep- what’s Hypoglycemia does NOT occur causing it so they can adjust it/maybe during sleep avoid exercising before going to bed Insulin therapy (excessive dosage) or Nocturnal elevation in growth insulin peak during sleep hormone raises BG Compensatory mechanisms raise BG Cells utilize less glucose at night Adjust insulin as needed Adjust medications, exercise, eating patterns CLASSIC SIGNS OF DIABETES MELLITUS Polydipsia- increased Polyphagia Polyuria thirst High BG increases Cells cannot utilize Increased thirst and plasma osmolarity glucose effectively drinking (polydipsia) Fluid shifts from ICF Lack of insulin Increased renal glucose into ECF Lack of response to filtration insulin Cellular dehydration Increase fat/muscle Osmotic diuresis breakdown Increased thirst Increased appetite Water follows glucose into urine FLUID SHIFTS Know this slide 9/23/2024 24 FLUID/GLUCOSE IN URINE It’s showing us at the kidney level what’s happening and how the fluid is being taken out of the body ADDITIONAL SIGNS OF DM Blurred vision Accumulation of glucose in aqueous fluid Changes light refraction Fluid/Electrolyte imbalance Fluid shifts ICF to ECF may cause dilutional hyponatremia Electrolyte shifts K+ shifts out of cells DIABETIC KETOACIDOSIS (DKA) Insulin lacking In presence of insulin DKA (in type 1) does not occur ▪ With insulin, cells utilize glucose for fuel Prevents lipolysis that leads to ketone formation Without insulin (or glucose to use for fuel) More common in T1DM than T2DM Ketone formation occurs Ketones ▪ Strong acids, alter blood pH, metabolic acidosis DIABETIC KETOACIDOSIS (DKA) Diagnostic criteria Presentation BG >250 mEq/L Nausea pH 7.3 HCO3− >18 mEq/L Blood osmolarity >20 mOsm/L HYPEROSMOLAR HYPERGLYCEMIC SYNDROME (HHS) (CONTINUED_2) Factor Characteristic Hyperglycemia Cannot adequately facilitate glucose uptake Gluconeogenesis and glycogenolysis further increase BG Hyperosmolarity Elevated BG Osmotic diuresis, polyuria Clinical progression Can develop insidiously over days to weeks Patient presentation Weakness, poor tissue turgor, tachycardia, thready pulse, confusion (25% of patients present in coma) Causes Infection, trauma, noncompliance DM management Treatment Fluids (first) then insulin Address plasma osmolarity issues first HYPEROSMOLAR HYPERGLYCEMIC SYNDROME (HHS) It puts more glucose into the blood stream LONG-TERM COMPLICATIONS OF DM Arteriosclerosis- damaging that glucose going through, damage to endothelial cells, foam cells upon macrophages Peripheral angiopathy (lack of circulation)- Diabetic retinopathy- damaged eye vessels Diabetic neuropathy- damaged kidneys b/c it’s not filtering right…it’s damaging the nephrons Autonomic neuropathy Diabetic nephropathy Poor wound healing- decrease blood flow/dammaged blood vessels and too much sugar- bacteria grows and things can’t heel well Immunosuppression LONG-TERM COMPLICATIONS OF DM Factor Effect Arteriosclerosis Myocardial infarction Peripheral angiopathy Limb ischemia- no oxygen to blood vessels=tissue damage/death Diabetic retinopathy Blindness Diabetic neuropathy Lack of sensation in lower limbs, burning, tingling- poor wound healing, ulcers, if they get injured they don’t know that they are and it gets worse, so always check Autonomic neuropathy Poor autonomic control Diabetic nephropathy Kidney failure Poor wound healing Gangrene- necrotic-dying tissue LONG-TERM COMPLICATIONS OF DM LONG-TERM COMPLICATIONS OF DM Complication risk Related to duration of chronic hyperglycemia Genetic susceptibility Chronic hyperglycemia: Damage to the small and large arterial vessels End-organ damage Poor wound healing Macrovascular damage DM AND ATHEROSCLEROSIS Acute cardiac events 2 to 4 times more likely DM patients Atherosclerosis Large and small arteries Vascular damage Several processes All resulting from hyperglycemia leading to oxidative stress DM AND PERIPHERAL NEUROPATHY Distal, symmetric polyneuropathy Neural arteries damaged Begins in feet, progresses superiorly Sensorimotor nerves Burning, tingling in their feet Pain sensation blunted Signs of injury or serious disease may be missed Silent MI Motor weakness Gait abnormality Mechanics of foot altered Charcot joint DM AND AUTONOMIC NEUROPATHY- should be able to make life style changes System Effect Cardiac Tachycardia, hypotension GI Gastroparesis, gastric emptying abnormality Anorexia, nausea Bowel dysfunction Urinary Increased UTI risk Reproductive Erectile dysfunction Temperature regulation Decreased sweating Hyperthermia, dry skin Glycemic control Hypoglycemia Signs and symptoms not as apparent DM AND SUSCEPTIBILITY TO INFECTION WBC function decreased Increased colonization: S. aureus Candida (yeast) High glucose changes the pH of vagina ▪ Allows Candida to proliferate ▪ Chronic Candida vaginitis may be a presenting feature of diabetes DM AND AMPUTATION Diabetic foot complications Most common cause of nontraumatic lower extremity amputation Peripheral neuropathy, poor circulation, suppressed immune response Increased infection susceptibility Can lead to gangrene and amputation Osteomyelitis (bone infection) DM AND POOR WOUND HEALING- could cause maggets if not taken care of infection due to lack of proper care when circulation lost here 9/23/2024 42 it could have been prevented DM AND FOOT CARE Examine foot sensation with light touch Testing of Achilles tendon reflex Sense of toe position Examine for injuries or wounds DM AND RETINOPATHY/BLINDNESS Leading cause of blindness in adults Retinal circulatory damage Signs: Microaneurysms, macular edema “Cotton wool spots” (infarcted regions of retina) Proliferative retinopathy New vessel growth, fragile and may rupture Retinal detachment Regular fundoscopic and ophthalmological exams critical DM AND NEPHROPATHY Renal failure Damage to glomerular capillary Microalbuminuria present-protein in urine Glomerular basement membrane Thicken due to glycosylation end-products Activation of RAAS Compounds problem as BP elevates DM AND DERMATOLOGICAL Prolonged wound healing and ulcer formations Diabetic skin spots Hyperpigmented areas Acanthosis nigricans Tiny, hyperpigmented, macular lesions Lipoatrophy can occur at insulin injection site DM AND PSYCHOLOGICAL RESISTANCE Depression 2× more common in those with DM Guilt, discouragement, self-blame reportedespecially with type 2 diabetes as there could have been preventive measures Anxiety related to disease management Denial and noncompliance Psychological insulin resistance Refusal to comply with insulin management DM AND EATING DISORDERS Young women with T1DM at risk for eating disorder Insulin purging Restrict or skip insulin usage Stimulate lipolysis and weight loss Suspect eating disorder Patients with recurrent DKA Chronically poor glycemic control DM TREATMENT OVERVIEW Factor Characteristic Blood glucose control Both hyper- AND hypoglycemia Glycemic control Primary goal Decrease risk for all complications Reduce CVD risk Lipid panels LDL 60 mg/dL; TGs

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