What did you learn? AKI

A client who suffered hypovolemic shock during a cardiac incident has developed acute renal failure. Which is the best nursing rationale for this complication? Decrease in the blood flow through the kidneys Obstruction of urine flow from the kidneys Blood clot formed in the kidneys interfered with the flow Structural damage occurred in the nephrons of the kidneys

Acute renal failure can be caused by poor perfusion and/or decrease in circulating volume results from hypovolemic shock. Obstruction of urine flow from the kidneys through blood clot formation and structural damage can result in postrenal disorders but not indicated in this client.

Which of the following causes should the nurse suspect in a client diagnosed with intrarenal failure? Glomerulonephritis Hypovolemia Ureteral calculus Dysrhythmia

Intrarenal causes of renal failure include prolonged renal ischemia, nephrotoxic agents, and infectious processes such as acute glomerulonephritis.

The nurse is caring for a patient in the oliguric phase of acute kidney injury (AKI). What does the nurse know would be the daily urine output? Less than 400 mL 1.5 L Less than 50 mL 1.0 L

Less than 400 mL The oliguria period is accompanied by an increase in the serum concentration of substances usually excreted by the kidneys (urea, creatinine, uric acid, organic acids, and the intracellular cations [potassium and magnesium]). The minimum amount of urine needed to rid the body of normal metabolic waste products is 400 mL. In this phase, uremic symptoms first appear and life-threatening conditions such as hyperkalemia develop.

A client is to receive a radiocontrast media as part of a diagnostic scan. Which intervention is intended to reduce the nephrotoxic effects of the radiocontrast media? Having the client take nothing by mouth Increasing the normal saline intravenous infusion rate prior to the exam Administering one unit of packed red blood cells Administering ibuprofen 600 mg prior to the procedure

Some drugs such as high-molecular-weight radiocontrast media, the immunosuppressive drugs cyclosporine and tacrolimus, and nonsteroidal anti-inflammatory drugs can cause acute prerenal failure by decreasing renal blood flow. Administering intravenous saline can improve hydration and renal perfusion to decrease the toxic effects of the radiocontrast media.

The nurse caring for four male clients recognizes which client is at highest risk for developing postrenal kidney failure? Client with prostatic hyperplasia Client with intratubular obstruction Client with severe hypovolemia Client with acute pyelonephritis

The most common cause of postrenal kidney failure is prostatic hyperplasia. Postrenal failure results from conditions that obstruct urine outflow. The obstruction can occur in the ureter, bladder, or urethra. Intratubular obstruction and acute pyelonephritis are intrarenal causes of kidney failure, and severe hypovolemia is a prerenal cause.

A patient has acute kidney injury (AKI) with a negative nitrogen balance. How much weight does the nurse expect the patient to lose? 0.5 kg/day 1.0 kg/day 1.5 kg/day 2.0 kg/day

0.5 kg/day AKI causes severe nutritional imbalances (because nausea and vomiting contribute to inadequate dietary intake), impaired glucose use and protein synthesis, and increased tissue catabolism. The patient is weighed daily and loses 0.2 to 0.5 kg (0.5 to 1 lb) daily if the nitrogen balance is negative (i.e., caloric intake falls below caloric requirements).

A patient is having a problem with retention of urine in the bladder. Which of the following diagnostic tests measures the amount of residual urine in the bladder? Nuclear scan IV urography Bladder ultrasonography Cystography

A bladder ultrasonography is a noninvasive method of measuring urine volume in the bladder; automatic calculations display the urine volume. A nuclear scan provides information about kidney perfusion and function. It is used to evaluate acute and chronic renal failure. Cystography aids in evaluating vesicourethral reflux and in assessing bladder injury. IV urography provides an approximate estimate of renal function and may be used as the initial assessment of many urologic problems.

A geriatric nurse is caring for several clients. Which alterations in health should the nurse attribute to age-related physiologic changes? An 81-year-old man's serum creatinine level has increased sharply since his last blood work. A 78-year-old woman's GFR has been steadily declining over several years. A 90-year-old woman's blood urea nitrogen (BUN) is rising. A dipstick of an 80-year-old man's urine reveals protein is present.

A gradual decrease in GFR is considered a normal age-related change. Increased creatinine or BUN would warrant follow up, as would the presence of protein in a client's urine.

A client admitted with a gunshot wound to the abdomen is transferred to the intensive care unit after an exploratory laparotomy. IV fluid is being infused at 150 mL/hour. Which assessment finding suggests that the client is experiencing acute renal failure (ARF)? Blood urea nitrogen (BUN) level of 22 mg/dl Serum creatinine level of 1.2 mg/dl Temperature of 100.2° F (37.8° C) Urine output of 250 ml/24 hours

ARF, characterized by abrupt loss of kidney function, commonly causes oliguria, which is characterized by a urine output of 250 ml/24 hours. A serum creatinine level of 1.2 mg/dl isn't diagnostic of ARF. A BUN level of 22 mg/dl or a temperature of 100.2° F (37.8° C) wouldn't result from this disorder.

A client is admitted to the hospital with a prerenal disorder, a nonurologic condition that disrupts renal blood flow to the nephrons, affecting their filtering ability. One cause of prerenal acute kidney injury is: anaphylaxis myoglobinuria secondary to burns polycystic disease ureteral stricture

Anaphylaxis is a cause of prerenal acute renal failure. Myoglobinuria secondary to burns is a cause of intrarenal acute renal failure. Polycystic disease is a cause of intrarenal acute renal failure. Ureteral stricture is a cause of postrenal acute renal failure.

An 86-year-old female client has been admitted to the hospital for the treatment of dehydration and hyponatremia after she curtailed her fluid intake to minimize urinary incontinence. The client's admitting laboratory results are suggestive of prerenal failure. The nurse should be assessing this client for which early sign of prerenal injury? Sharp decrease in urine output Excessive voiding of clear urine Acute hypertensive crisis Intermittent periods of confusion

Dehydration and its consequent hypovolemia can result in acute renal failure that is prerenal in etiology. The kidney normally responds to a decrease in GFR with a decrease in urine output. Thus, an early sign of prerenal injury is a sharp decrease in urine output. Post-renal failure is obstructive in etiology, and intrinsic (or intrarenal) renal failure is reflective of deficits in the function of the kidneys themselves.

A client with decreased urine output refractory to fluid challenges is evaluated for renal failure. Which condition may cause the intrinsic (intrarenal) form of acute renal failure? Poor perfusion to the kidneys Damage to cells in the adrenal cortex Obstruction of the urinary collecting system Nephrotoxic injury secondary to use of contrast media

Intrinsic renal failure results from damage to the kidney, such as from nephrotoxic injury caused by contrast media, antibiotics, corticosteroids, or bacterial toxins. Poor perfusion to the kidneys may result in prerenal failure. Damage to the epithelial cells of the renal tubules results from nephrotoxic injury, not damage to the adrenal cortex. Obstruction of the urinary collecting system may cause postrenal failure.

A client comes to the clinic with back pain that has been unrelieved by continuous ibuprofen use over the past several days. Current prescription medications include captopril and hydrochlorothiazide. Which laboratory value should the nurse address? blood urea nitrogen (BUN) of 26 mg/dL and serum creatinine of 2.35 mg/dL sodium (Na+) of 145 mEq/L and potassium (K+) of 5.0 mEq/L creatine phosphokinase (CPK) of 21 U/L white blood cell count (WBC) 9,000 cells/mm3

Nonsteroidal anti-inflammatory drugs (NSAIDs) can decrease the antihypertensive effect of ACE inhibitors and predispose clients to the development of acute renal failure. Common lab tests used to evaluate how well the kidneys are working are BUN, creatinine, and creatinine clearance. Labs such as sodium, potassium, CPK, and WBC levels will not provide information on renal function.

A client in renal failure has marked decrease in renal blood flow caused by hypovolemia, the result of gastrointestinal bleeding. The nurse is aware that this form of renal failure can be reversed if the bleeding is under control. Which form of acute renal injury does this client have? Prerenal failure Intrarenal failure Postrenal failure Chronic renal failure

Prerenal failure, the most common form of acute renal failure, is characterized by a marked decrease in renal blood flow. It is reversible if the cause of the decreased renal blood flow can be identified and corrected before kidney damage occurs.

The nurse is reviewing the laboratory data for a young client in acute kidney failure and notes an elevated serum potassium level. What is the priority assessment action for the nurse based on the laboratory data? Monitor urine output every 4 hours. Frequently assess breath sounds. Monitor for changes in motor reflexes. Institute telemetry monitoring.

Slow, weak, irregular pulse; lethal arrhythmias; and sudden cardiac collapse are serious complications of an elevated potassium level. The elevated value will have less impact on renal, respiratory, and neurologic function.

A client diagnosed with acute kidney injury (AKI) has a serum potassium level of 6.5 mEq/L. The nurse anticipates administering: sodium polystyrene sulfonate (Kayexalate) Sorbitol IV dextrose 50% Calcium supplements

The elevated potassium levels may be reduced by administering cation-exchange resins (sodium polystyrene sulfonate [Kayexalate]) orally or by retention enema. Kayexalate works by exchanging sodium ions for potassium ions in the intestinal tract. Sorbitol may be administered in combination with Kayexalate to induce a diarrhea-type effect (it induces water loss in the GI tract). If the client is hemodynamically unstable (low blood pressure, changes in mental status, dysrhythmia), IV dextrose 50%, insulin, and calcium replacement may be administered to shift potassium back into the cells.

The nurse is providing supportive care to a client receiving hemodialysis in the management of acute renal failure. Which statement from the nurse best reflects the ability of the kidneys to recover from acute renal failure? The kidneys can improve over a period of months. Once on dialysis, the need will be permanent. Kidney function will improve with transplant. Acute renal failure tends to turn to end-stage failure.

The kidneys have a remarkable ability to recover from serious insult. Recovery may take 3 to 12 months. As long as recovery is continuing, there is no need to consider transplant or permanent hemodialysis. Acute renal failure can progress to chronic renal failure.

The nurse cares for a client with acute kidney injury (AKI). The client is experiencing an increase in the serum concentration of urea and creatinine. The nurse determines the client is experiencing which phase of AKI? Recovery Diuresis Initiation Oliguria

The oliguria period is accompanied by an increase in the serum concentration of substances usually excreted by the kidneys (urea, creatinine, uric acid, organic acids, and the intracellular cations [potassium and magnesium]). The initiation periods begins with the initial insult and ends when oliguria develops. The diuresis period is marked by a gradual increase in urine output. The recovery period signals the improvement of renal function and may take 6 to 12 months.

The nurse writes a nursing diagnosis of "Fluid Volume: Excess." for a client. What risk factor would the nurse assess in this client? excessive use of laxatives renal failure increased cardiac output diaphoresis

renal failure Excess fluid volume may result from increased fluid intake or from decreased excretion, such as occurs with progressive renal disease. Excessive use of laxatives, diaphoresis, and increased cardiac output may lead to a fluid volume deficit.

Hyperkalemia is a serious side effect of acute renal failure. Identify the electrocardiogram (ECG) tracing that is diagnostic for hyperkalemia. Tall, peaked T waves Shortened QRS complex Multiple spiked P waves Prolonged ST segment

Characteristic ECG signs of hyperkalemia are tall, tented, or peaked T waves, absent P waves, and a widened QRS complex.

The GFR is considered to be the best measure of renal function. What is used to estimate the GFR? BUN Serum creatinine Albumin level Serum protein

In clinical practice, GFR is usually estimated using the serum creatinine concentration. The other answers are not used to estimate the GFR.

The client is admitted for a scheduled cardiac catheterization. On the morning of the procedure, while assessing the client's morning laboratory values, the nurse notes a blood urea nitrogen (BUN) of 34 mg/dL and a creatinine of 4.2 mg/dL. What priority reason will the nurse notify the healthcare provider? The client is at risk for bleeding. The client is overhydrated, which puts him at risk for heart failure during the procedure. These values show a risk for dysrhythmias. The client is at risk for renal failure due to the contrast agent that will be given during the procedure.

The contrast medium must be excreted by the kidneys. If there is already a degree of renal impairment, indicated by the increased BUN and creatinine, the risk for contrast agent-induced nephropathy and renal failure is high. Renal impairment is not usually associated with dysrhythmias. The increased BUN and creatinine do not indicate overhydration, but decreased kidney function. The BUN and creatinine levels do not interfere with coagulability or bleeding.

A client who suffered hypovolemic shock during a cardiac incident has developed acute renal failure. Which is the best nursing rationale for this complication? Decrease in the blood flow through the kidneys Obstruction of urine flow from the kidneys Blood clot formed in the kidneys interfered with the flow Structural damage occurred in the nephrons of the kidneys

Decrease in the blood flow through the kidneys Acute renal failure can be caused by poor perfusion and/or decrease in circulating volume results from hypovolemic shock. Obstruction of urine flow from the kidneys through blood clot formation and structural damage can result in postrenal disorders but not indicated in this client.

During the diuresis period of acute kidney injury (AKI), the nurse should observe the client closely for what complication?\ Dehydration Hypokalemia Oliguria Renal calculi

Dehydration is a complication during the diuresis phase related to elevated urine output and continued symptoms of uremia. The concern with acute kidney injury (AKI) is hyperkalemia. The diuresis phase of AKI is marked by normal or elevated urine output. Oliguria is urine output less than 400 mL in 24 hours and is seen in the oliguria phase. Renal calculi are a possible cause but not a complication of AKI.

A client has experienced severe hemorrhage and is in prerenal failure. The nurse anticipates the client's blood urea nitrogen (BUN) and serum creatinine laboratory results will be in which range? The BUN-to-creatinine ratio is 20:1. Creatinine level increase to 5 mg/dL (442 µmol/L) and BUN decreases to 4 mg/dL (1.4 mmol/L). BUN elevates above 60 mg/dL (21.4 mmol/L) and creatinine decreases to <0.3 mg/dL (<27 µmol/L). The BUN-to-creatinine ratio is 10:1.

Prerenal injury is manifested by a sharp decrease in urine output and a disproportionate elevation of blood urea nitrogen (BUN) in relation to serum creatinine levels. The kidney normally responds to a decrease in the glomerular filtration rate (GFR) with a decrease in urine output. An early sign of prerenal injury is a sharp decrease in urine output. A low GFR allows more time for small particles such as urea to be reabsorbed into the blood. Creatinine, which is larger and nondiffusible, remains in the tubular fluid, and the total amount of creatinine that is filtered, although small, is excreted in the urine. Consequently, there also is a disproportionate elevation in the ratio of BUN to serum creatinine, from a normal value of 10:1 to a ratio greater than 20:1.

What is a characteristic of the intrarenal category of acute kidney injury (AKI)? Increased BUN High specific gravity Decreased urine sodium Decreased creatinine

The intrarenal category of acute kidney injury (AKI) encompasses an increased BUN, increased creatinine, a low-normal specific gravity of urine, and increased urine sodium. Intrarenal AKI is the result of actual parenchymal damage to the glomeruli or kidney tubules. Acute tubular necrosis (ATN), AKI in which there is damage to the kidney tubules, is the most common type of intrinsic AKI. Characteristics of ATN are intratubular obstruction, tubular back leak (abnormal reabsorption of filtrate and decreased urine flow through the tubule), vasoconstriction, and changes in glomerular permeability. These processes result in a decrease of GFR, progressive azotemia, and fluid and electrolyte imbalances.

A client with chronic kidney disease reports having extreme fatigue, chest pressure when walking and trouble breathing when lying supine in bed. The client's current hemoglobin level is 8.3 g/dL (83 g/L). Which intervention(s) will likely be prescribed for this client during this visit? Select all that apply. Increase in iron intake via food and supplementation Dietary consult to focus on low phosphate foods and high fiber options Injection of an erythropoietin-stimulating agent Educational handout on foods to help increase the blood platelet count Type and crossmatch for an immediate blood transfusion

Increase in iron intake via food and supplementation Injection of an erythropoietin-stimulating agent Iron and erythropoietin-stimulating agents (ESA) are used to treat anemia and decrease red blood cell (RBC) transfusions and their associated risks. Clients with renal problems do need to watch their phosphate levels; however, it will not help to increase RBC counts. The newest guidelines recommend that restrictive RBC transfusion threshold, in which the transfusion is not indicated until the hemoglobin level is 7 g/dL (70 g/L). It is recommended for hospitalized adult clients who are hemodynamically stable. Lean meats such as fish, chicken and turkey are rich in protein, zinc and vitamin B12; all help increase the blood platelet count, but there is no indication in the laboratory values that this client has a low platelet count.

A client in acute renal failure has been prescribed 2 units of packed red blood cells (PRBCs). The nurse explains to the client that the blood transfusion is most likely needed for which reason? Preparation for likely nephrectomy Increases the effectiveness of dialysis Hypervolemia Lack of erythropoietin

The kidneys produce erythropoietin, a hormone that stimulates red blood cell production. A lack of this hormone is the most likely reason for blood transfusion due to the acute kidney failure. There is no indication for a nephrectomy in this question. A blood transfusion will not necessarily increase the effectiveness of dialysis. Transfusing a client with hypervolemia could lead to circulatory overload.