N254 Renal Nursing Care Mary Moon, RNC, FNP Fall 2009 Renal Circulation Bowman’s Capsule.
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N254 Renal Nursing Care Mary Moon, RNC, FNP Fall 2009 Renal Circulation Bowman’s Capsule Diffusion Small molecules make easily movement by diffusion in a cell limited by the cell’s semi permeable membrane Coffee In liquid: Equally sweet Sugar In air: Equally smell Perfume Room Ex. RBC O.9% NaCl 99.1% H20 0.9% Plasma NaCl Isotonic=In Equilibrium 99.9% H20 Solutes: materials-- sugar, salt. Solvent: Liquid material that dissolve--water Solution: A mixture of two. Tonicity: A state of amount of dissolved material in them. Tonicity: By NaCl Osmosis: From: 0.9% NaCl 99.1% H20 To: 3% NaCl 97% H20 Osmosis: [H20] 99.1 H20 0.9 NaCl 0% NaCl 100% H20 [H20] Hyper tonic Hypo tonic So, H20 will move into RBC. So., RBC will rupture Osmosis A special type of diffusion between NACl & water. Water: Small, unchanged molecules NaCl: Changed molecules *** Changed molecules are hard to move--- H20 move freely from a weaker solution to a more concentrated one. NaCl: Electrolytes that regulate vascular osmotic pressure. Kidney Purify (Filter) and reabsorb 5 inches long, level with T12 and L1~L3 Urine: collected by the pelvis 20% to 25% of the resting cardiac output (approx. 1200 mL per Min.) passes through kidney. Liver: 27% 4% Brain: 14% Skeletal: 15% 6% Miscellaneous: 7% Skin: 6% Heart: Bone: Each region of the nephron: filtration, re absorption, and secretion. (Bowman’s Capsule) (Tubules and Collecting Duct) 180 liters of filtrate a day upper limit (transport maximum): glucose 225 mg/min (BS: 180 mg/dl) at higher concentration, glucose begins to be lost in urine. Right one more volunable Nephron: Functional unit of Kidney. 1/4 of nephron needed for living. Excretion of waste nitrogen (urea, uric acid, creatin) protein--> ammonia--> harmless urea--> kidney American food ( protein) Detoxification of ammonia --> ¤ Liver, Kidney failure H20 and electrolytes Hypothalamus (Osmoreceptor) Sense blood ¤[ ] = H20, lytes. A.R.F Is a clinical syndrome characterized by a renal shut down--> acute tubular necrosis, obstruction, acute tubular insufficiency--> Most occur in previously healthy individuals. Generally follows an identifiable trauma contact with a nephrotoxic agent. The most cause of ARF is related to surgical procedures. Pre Renal Causes---> Consists of factors outside the kidneys that impair renal blood flow and lead to decreased glomerular perfusion Problem corrected --> no ARF Prerenal 55-70% Intravascular volume depletion, decreased CO, vascular failure secondary to vasodilation or obstruction---HTN, MI, severe dehydration, & shock ( not enough volume circulating). Reversible—can be corrected by establishing renal perfusion & preventing necrotic renal damage by fluid challenge Irreversible ischemia Intra Renal Conditions of actual damage to the renal tissue leading to malfunctioning of nephrons---> APN may lead ARF Ex) acute tubular necrosisrenal ischemia Nephrotoxic drugs Glomerulonephritis Intrarenal 25-40% Kidney itself damaged to the kidney tissues and structures & includes tubular necrosis, nephrotoxicity & alterations in renal blood flow Injuries @kidney glomeruli or tubules—90% due to ATN--- glomerulonephrits, toxins, trauma, crushing injuries, surgery, sepsis, CV collapse, MOF, ABX like aminoglycosides, street drugs, chemo, nephrotoxic drugs Don’t get confused w/ prerenal caused by blood volume—dehydration & hypovolemia Post Renal Mechanical Obs. Of urinary outflow. As the flow of urine is blocked. Urine backs up into the renal pelvis. The most common causes are renal calculi, trauma, tumors.--> usually anuria rather than oliguria Ex) Calculi, bladder tumor. Stricture (Compression)--BPH Basement membrane is not destroyed. Trauma to back, pelvis, perineum strictures, spinal cord disease. Postrenal 5% Obstruction of urine between the kidney and the urethral meatus Calculi BPH Tumors strictures B/C the obstruction, urine backflows Prevention A. High Risk Hospital Pt. --> Massive trauma, major surgical procedure, extensive burns, sepsis. B. Industrial chemicals and nephrotoxic drugs. A.R.F Phases A. Onset phase begins with precipitating event-Hypovolemia, or nephrotoxin exposure Ends when the oliguric-anuric phase begins. Time Span: Up to two days urine output: 20% of normal. A. Onset Phase Initial injury to the kidney Reversible Preventable with early intervention UO:20% of normal Unable to regulate electrolytes B. Oliguric Phase Spans the period when urine is less than 400 cc/d Time Span: 8-14 days (1-2 wks) urine output: 5% of normal. Can not excrete fluid or waste products Oliguria--> caused by reduction in the GFR C. Diuretic Phase Gradual increase in urine output of 1-3L up to 4-5 L/day. The high vol. Is due to osmotic diuresis from high urea concentration urea H2 0 H2 0 H2 0 H2 0 H2 0 Capillary H 20 and the adequate concentrating ability of tubules. cells Lab. Value stop rising, decreased SG: Diluted urine and poss. Excessive diuresis when lab value stops dropping. Ends when they stabilize. Time span: 10 days U.O: Early 150% Late: 200% Diuretic Phase Electrolytes are lost—deficit in concentrating ability of tubules and osmotic diuretic effect of increased BUN, slowly increased excretion of metabolic wastes, hypovolemia, loss of Na, K, increased BUN initially then gradually return to baseline Diuretic Phase S/S: postural hypotension, tachycardia, improving mental alertness and activity, weight loss, thirsty, dry mucous membrane, decreased skin turgor K replacement may require D. Recovery Phase (convalescent phase) Begins when lab. Values stabilize, ends when renal function returns to normal. Time Span: 4-6 mo. Up to 12 mo. U.O: 100% Recovery Phase Increased GFR Increased concentrating ability. Urine SG -- 1.003-1.030 Urine osmolarity: Normal 300-1300 Mortality Rate: 30% to 60% Most common cause of death secondary to infection Prevention of ARF CHF, dehydration, shock. To minimize the risk. 1. Keep the patient hydrated (esp. before and after OR) 2. Continuously monitor the dosages and effects of ABX and other drugs (nephrotoxic) 3. Assess renal function regularly Treatment Goals 1. Correcting the underlying problem 2. Preventing infection 3. Treating fluid and electrolytes imbalance 4. Correcting metabolic acidosis 5. Treating clinically significant anemia. How does one differentiate acute from chronic renal failure? 1. History-medical records. 2. Hypo calcemia, hyper phosphatemia, anemia. --> has been associated more often with CRF. * Calcium, phosphorous, acid-base derangement are often seen in ARF as early as 48-72 hours after onset of illness. * Anemia: nonspecific indicator. 3. Reliable indicator of CRf Small kidney with a decreased or absence of renal cortex as assessed by UTZ (0.5 cm) Abnormal: Kidney length of less than 9 cm --> CRF or significant renal dz. > 1.5 cm in renal length: unilateral/asymmetric renal dz. CRF CRF Slow, progressive, irreversible damage 4 stages Diminished Renal Reserve ---50% of nephrones are lost, asymptomatic, no S/S Renal Insufficiency---75% nephrones lost, azotemia, anemia, polyuria, nocturia Renal Failure---pt needs temporary or permanent dialysis End Stage Renal Disease CRF An irreversible loss of nephrons. A symptomatic until 7090% of the nephron is destroyed. (Divided into four stages) 1. Diminished renal reserve: nephron loss without the loss of measured renal function. Normal BUN, CR, no sxs. 2. Renal insufficiency: a measurable decline in renal function. Loss of ability to concentrate urine --> nocturia, polyuria, often associated HTN fatigue, weak. Ha. 3. Renal failure /ESRD 4. Uremia: a clinical syndrome with severe decline in renal function, associated with dysfunction of multiple organ systems. Etiology of CRF 1. 30%: Diabetic nephropathy 2. 26%: Hypertension 3. 14%: other urological disease ( hydronephrosis, polycystic kidney.) 4. Congenital malformations 5. Nephropathy associated with the human immunodeficiency virus. 6. Myeloma Kidney Evaluation: To establish the degree of renal impairment. To identify reversible factors -infection, obstruction, volume deficit, nephrotic drugs, less than optimal cardiac output with, without HTN, uncontrolled HTN, hypercalcemia and hyperuricemia -orthostatic Bp. Pulse -U/A with microscope/dipstick, serum electrolyte, BUN, CR, CBC, evaluation of post void residual, UTZ U/A: the simplest, most cost effective evaluation Urine SG: 1.010 or less Urine pH: less than 7.0 8.0: the question of infection Dipstick: glucose in DM or CRF Proteinuria: the hall mark of intrinsic renal disease. Nephrotic-range of proteinuria is seen in glomerular lesions and 1-2 gm of protein excretion in interstitial dzs. RBC: active renal dz of a glomerular or vascular etiology. WBC: infection Medical Treatment A. Most hypervolemic--> kidney can’t eliminate amount of H20 and electrolytes. ** Hypovolemia (Increased HCT) B. Anemia/Bleeding The main cause of anemia--> Decreased production of erythropoietin by the kidney C. Nutritional deficiency Decreased RBC life increased hemolysis of RBC bleeding from G I tract dialyzer may contribute to the anemic state. Folic Acid: Essential for DNA Synthesis and normal maturation of RBC. D. Dialysis 1) Hemodialysis: within 1-2 Hr. bring K+ to normal 2) Peritoneal dialysis: 4-8 hrs. E. Phosphate binders (aluminum or magnesium containing antacids)--> CA-Phos. An inverse relationship to bind excessive CA in ECF-> Decreased serum Ca level phosphate binders--> urinary acidifier to help prevent calcium stones F. Diet the major goal of nutritional management is to decrease catabolism of the body’s protein. No more than 0.8-1 gm of protein/kg/day. F. Diet the major goal of nutritional management is to decrease catabolism of the body’s protein. No more than 0.8-1 gm of protein/kg/day. G. HTN 1. NA-fluid restriction 2. Diuretic--Lasix *3. Anti HTN drugs A. Ace inhibitors-- enalapril, captopril B. beta-adrenergic--inderal (decreased rennin released) C. Calcium channel blockers: diltiazem, verapamil H. Neurologic Function No. TX. Available without dialysis neuro Change--> renal failure progress * contraindicated amiloride AntiHTN: triamiterene spironolactone, * 10 unit regular insulin + D 50 ampule. NaHCO3 bolus or 75~ 100 cc/hr- hyperkalemia tx. * Albuterol: Potassium lowering effect Increased nitrogenous waste products, electrolytes imbalances --> demylination of nerve fiver, axonal atrophy. ** Safety: due to weak muscle general depression of CNS--> lethargy, fatigue, decreased concentration, dialysis dementia due to aluminum toxicity Complications: UGI bleeding a major Cx and 3-7% of deaths. Superficial mucosal abnormalities. Duodenitis and gastritis (10-60%) TX: Cimetidine (H2-receptor antagonist) Death is usually due to infection, G-I bleed, myocardiac infarction. Kidney can no longer remove toxic wastes and water from blood. Two means are mimicking the body’s lost capabilities. Uremia is a clinical situation in which azotemia progress to systematic state. Azotemia; an excess of urea or other nitrogenous compounds in the blood. Fetor: offensive odors halitosis: offensive odors of the breath. CV: CHF, HTN, pericarditis, arrythmia, hematopoietic anemia, peripheral/systemic edema. Neuro: Drowsy, confusion, tremor, coma, irritability, convulsion, twitching, peripheral neuropathy Integ: pallor, yellowish color, dryness, pruritis, ecchymosis Skeletal: Hypocalemia, soft tissue, calcification, alteration in coagulation, increased infection GI: Anorexia, N/V, gastrtitis, uremic halitosis, diarrhea, constipation Resp: Pul. Edema, Pneumonia, Kussmaul Resp. Asterixis: A motor disturbance by sustained contraction of muscles. Kussmaul Breathing--> Deep to rapid breathing to increase excretion of CO2 --> a compensatory mechanism of aacidosis Nutrition in Renal Disease Sodium: major ECF Caution, important in acidbase balance, fluid balance, cell permeability, and muscle action. High NA+ Foods: Table salt, processed foods, milk, fish, poultry, meat, eggs, carrots,k some canned soup, beets, spinach, meat sauce, soy sauce, salad dressings, potassium: major ICF, important in acid-base balance, neuromuscular activity, carbohydrate metabolism, and protein synthesis. High in K+ foods: meat, oranges, potatoes, whole grains, bananas, broccoli, beans, nuts, apricots, spinach, dried fruits, melons, peas, fruit juices, peaches, tomatoes, avocados, coffee, wine, salt substitute, antibiotics. Proteins: build, maintain, and repair body tissues Protein sources: eggs, milk, fish, poultry, grains, legumes (dry beans, lentils, split peas, soy beans) Calories (carbohydrates, fats): to meet body’s need for energy and to attain or maintain ideal body weight. Fats are also important in maintaining skin integrity and forming complex lipid compounds. Carbohydrate source: fruits, vegetables, cereals, sugar, hard candy, jelly beans, jams, jellies. Fat sources: butter, margarine, oil, cream, bacon, meat fat, salad dressing, egg yolk, olives, nuts, avocados. Vitamins and mineral supplements: Vitamin C, B Complex Vitamins, calcium, phosphorus, and vitamin D. Calcium sources: calcium carbonate (OScall, Tums), calcium acetate (Phos-Low), supplements given between meals. Phosphorous binding agents: Calcium acetate (Phos-Low), aluminum hydroxide gel (Amphogel), aluminum carbonate (Basalgel) binding agents given with meals. Vitamin D source; Calciferol (Hytakerol), Calcitrol (Rocaltrol). Iron sources: ferrous sulfate, parental iron products. Magnesium: not usually a problem unless there is intake of magnesium containing medicines such as laxatives and antacids. Geriatric Consideration A. Decreased RRF (Reserved Renal Factor) Decreased GFR Decreased Clearance B: Aging kidney is less able to withstand changes in hydration, solute, load, cardiac output. Aging itself is the primary risk factor. Mortality: 5-25% higher in older than younger. Hemodialysis An artificial Semi permeable membrane acts like the kidney-> diffusion and osmosis Excess fluid is removed by creating a pressure differential BTN the blood and the dialysate solution (=balanced solution of electrolytes and fluid) With a combination of positive pressure in the blood compartment and/or negative pressure in the dialysate compartment 2.5-4 hrs 3 times/week at home or dialysis center. Quinton Catheter; single, double, temporary vascular access, 2-3 days femoral, subclavian, internal jugular veins. AV Access AV Shunt: Temporary while internal graft is healing Machine Artery Vein Rinse Fistulas: Cephalic/radial Artery Basilic vein Thigh or forearm Grafts (looped graft) Bovin--> relatively resistant to infectious organism. Antecubital vein Looped graft Brachial artery NSG: 14-16 G needle A thrill/bruit can be felt by palpating ***** NO VENIPUNCTURE, BP ON THE AFFECTED ARM***** NSG Management 1. Hypovolemia/shock --due to rapid removal of vascular volume * trendelenberg to improve cerebral blood flow 2. Analgesia: muscle cramps associated with significant discomfort and pain : neuromuscular hypersensitivity Peritoneal dialysis Principle---sterile dialyzing fluid infused into peritoneal cavity through a catheter Surgically implanted in the pt’s peritoneal cavity. Inflow ---> dwell 15-30 min. ---> 4 hr/d 10 hr/n outflow 15-30 min. * continuous 24 times/day * at night 8 hrs cycler machine Transplantation A living or cadaveric donor the life expectancy for patients on dialysis is 67 years < 60 years. 2-3 years > 60 years or diabetic Survival years is 90% at 3 years with cadeveric transplant 95%: Living Ruptured AV Shunt Subcutaneous hemorrhage--hypovolemia--shock-- cardiac arrest Intervention 1. Control bleeding 2. Transfusion 3. Pain relief hematoma-arm, cold compression To Control Bleeding 1. Tie a tourniquet above the AV or BP cuff. Don’t release until OR. * pressure DSG, Arm. 2. IV fluid, O2 2L 3. Notify MD/surgical team 4. Type and cross match ---cont. monitor the pt for signs of shock. 5. Dopamin Drip --Pulmonary edema secondary to fluid overload 6. Strict I & O 7. H & H Q 4-6 H 8. Monitor circulatory, motor, neurofunction below hematoma. Definition Infection of the kidney and renal pelvis. Every PN is secondary APN Acute infection of the kidney, characterized by acute inflammation and focal abscess, usually unilateral, often accompanied by bacteremia. Characterized by bacteriuria (generally > 100,000 colonies/ml) and pyuria. In acute infections, a single infective pathogen usually is found. CPN The result of repeated episodes of APN leading to progressive renal scarring. Scars are usually asymmetric and irregular and involve the renal cortex and pelvocalyceal system. Negative urine cultures and no evidence of active infection. Pathogens Gram-neg Bacilli: Escheria coli, proteus, Pseudomonas, Enterobacter, kebsiella, Serratia, and Citrobacter species. Gram-pos cocci: Staphylo. S Strepto. A Ascending Infection The most common cause of GU tract infection Female- short urethra altered flora d/t antibiotics, birth control (spermicide and diaphragm) urethral massage. Direct extension from other organ. -Interaperitoneal abscess - Pelvic inflammatory disease - GU tract fistulas. Clinical Manifestations Rapidly over a few hrs. or a day Temp>39.4 C (103)F Shaking chills N/V diarrhea Sxs of cystitis may or may not Tachycardia Flank pain Generalized muscle tenderness Marked tenderness on deep pressure on CVA or on deep abd. Palpation Significant leukocytosis Pyuria with leukocyte casts Bacteria on gram stains of unspun urine Hematuria in acute phase of disease Elderly: no classic sxs., urinary incontinence (new onset), decreased appetite, confusion, lethargy Children: not clear, low grade fever, irritable, decreased appetite, n/v, diaper urine smells, no s/s of UTI Older Children: abd. Pain, frequency, flank pain, dysuria, difficulty controlling urine. Severe PN-fever subsides more slowly and may not disappear for several days. Even after appropriate antibiotic tx. Medical Management A. Relieve obstruction prn (may be contributing to the infection) B. C & S--> antibiotics/long term C. Check Creatinine, CBC Nursing Management may treat at home! A. patient teaching -continue antibiotics - 3 liters fluid/day - check urine output - prevent infections - call MD AGN Inflammatory reaction in the glomeruli Etiology: streptococcal infection (2-3 wks after) Pathophysiology Antigen-antibody reaction with glomerular tissue. Inflammatory response---> increased porosity & decreased filtration---> kidney congested, swollen Clinical Manifestations HA, malaise, edema, flank pain, HTN, CVA tenderness, SOB Diagnostic Evaluation Proteinuria, hematuria, increased SG, edema, HTN, decreased UO, increased BUN & Cr. Medical TX Protect kidney + treat CX promptly---ABX, BR, dec.protein diet & Na diet, anti-HTN, fluids, diuretics Nephrotic Syndrome Proteinuria, Hypoalbuminemia, edema, hypercholesterolemia Etiology Conditions that manage glomerular capillary membrane--- chronic GMN, DM, SLE, pericarditis, allergic reaction, CHF, pregnancy Pathophysiology Change in glom. Base membrane, inc. porosity & loss of proteins---> dec. albumin---> dec. serum osmotic pressure-->edema& dec. plasma Vol. ---aldosterone--NA & H2O retention--->! Clinical Manifestations Edema, proteinuria, dec. albumin, inc. lipidemia, UO inc/dec--> renal failure. Dec. appetite, fatigue Medical Management Dec. albuminemia, control edema, promote general health--Steroids, Diet---> protein normal or inc, inc. calories Edema---dec. NA, diuretics, check K+RUA, renal labs. Nursing Management Activity---bed rest--->ambulate! Fluid management->assess/overload , diet, bp Patient education--> avoid infection, fatigue, f/u medical care Sx renal fail---MD Nursing Management Nutrition Na & protein control. Small frequent feedings Medication--- steroids, diuretics Checks for SEs, resp. assess patient teaching---meds, nutrition, self assessment/fluids call MD-inc. edema, DOE, fatigue, HA, infection Kidney