ACUTE RENAL

Question 1

Are the kidneys normally palpable? Which sits lower?

Answer 1

No (if palpable, could indicate enlargement)

Right –> therefore easier to detect

Question 2

Where would tenderness be seen with renal dysfunction?

Answer 2

Possibly over the costovertebral angle (angle formed by lower border of 12th [bottom] rib and spine

Question 3

Renal failure results when …

What occurs generally ?

Answer 3

kidneys cannot remove body’s metabolic wastes or perf regulatory fx
• Substances accumulate, affect endocrine + metb fx, fluid, electrolyte, acid-base balance

Question 4

What is ARF?
What is the widely accepted criterion for ARF? (characteristic changes)
Other changes that occur?

Answer 4

Rapid loss of kidney function (less than 48 hours) - Secondary to damage of the kidneys

Criterion = Dec GFR
Accum of BUN + creatinine
….other changes in ARF = azotemia, fluid + electrolyte imbalance (such as hyperkalemia), a/b imbalance (metb acidosis)

Question 5

Possibly reversible causes of ARF

Answer 5

hypovolemia, hoTN, dec CO + HF, obstruction of kidney or lower urinary tract (tumour, blood clot, kidney stone), or bilateral obstruction of renal arteries or veins

o These reduce blood flow + reduce kidney fx

Question 6

Functions of the kidneys?

Answer 6

1) Excretion of wastes
2) Reabsorption of vital nutrients
3) Acid-base homeostasis
4) Osmolality regulation
5) Blood pressure regulation
6) Hormone secretion

Question 7

Define:

1) Oliguria

2) Anuria

Answer 7

urine output

Question 8

What term describes accum of nitrogenous wastes in the blood?

Answer 8

Azotemia

Question 9

What is uremia?

Answer 9

Azotemia with toxic symptoms

Question 10

Are acute and chronic kidney disease reversible?

Answer 10

acute = possible reversible

Chronic = irreversible

Question 11

3 categories of acute renal injury based on cause?

Answer 11

Prerenal
Intrarenal
Postrenal

Question 12

Prerenal ARF?
How common?
Causes?

Answer 12

= Hypoperfusion
– 70% of cases
Causes: volume depletion (hemorrhage, renal loses, GI losses), impaired cardiac efficiency (d/t MI, HF, cardiogenic shock), vasodilation (d/t sepsis, anaphylaxis, antihypertensive meds)

Question 13

Intrarenal ARF?

Answer 13

parenchymal damage to glomeruli or kidney tubules)
Causes: prolonged renal ischemia, nephrotoxic agents (d/t nephroxic drugs (such as NSAIDS, vancomycin, contrast dyes for CT, chemo drugs), infectious processes

Question 14

What is the most common type of intrarenal ARF? What is it? Causes?

Answer 14

Acute tubular necrosis = intratubular obstruction, tubular back leak (abnormal reabsorption of filtrate + dec urine flow through tubule), vasoconstriction + changes in glomerular perm → result in dec GFR, azotemia, fluid + electrolyte imbalance

Causes of ATN are CKD, diabetes, HF, HTN, cirrhosis

Question 15

What hormones are produced by the kidneys?

Answer 15

Erythropoeitin
Calcitriol = active vit D3
(Calcitriol stimulates release of calcium from bone by its action on osteoblasts)

The hormones parathyroid hormone (PTH) and calcitonin help regulate blood calcium levels.

Question 16

What enzyme is produced by the kidneys

Answer 16

Renin

Question 17

Outline the RAA system

Answer 17

When renal blood flow is reduced, juxtaglomerular cells in the kidneys convert the prorenin already present in the blood into renin and secrete it directly into the circulation –> this then carries out the conversion of angiotensinogen released by the liver to angiotensin I. Angiotensin I is subsequently converted to angiotensin II by ACE found in the lungs. Angiotensin II is a potent vasoconstrictor, + stimulates the secretion of the hormone aldosterone from the adrenal cortex. Aldosterone causes the tubules of the kidneys to increase the reabsorption of sodium and water into the blood, while at the same time causing the excretion of potassium (to maintain electrochemical balance). This increases the volume of extracellular fluid in the body, which also increases blood pressure.

Question 18

What is a normal eGFR value?

Answer 18

Teacher said 90-120…different from VIHA.

Question 19

What protective measure is used for kidneys when going in for CT?

Answer 19

B/c of possible damage from contrast dye…

Will always take kidney fx tests before any CT procedure…if see to be low, acetylcysteine used as protective measure for CT (given before + after procedure)

Question 20

Postrenal ARF?
What is it
Causes
How is it treated

Answer 20

Sudden obstruction to urine flow

Causes: tumour, BPH (benign prostatic hypertrophy), kidney stones, strictures, clots

**Note: For acute renal failure to occur, will be having bilateral damage!

From class:
• Will put in nephrostomy tube to bypass obstruction + drain kidney; lithrotripsy (break up large stones surgically), or will put in stent
• Flomax commonly given → dilates ureters so can allow obstruction to pass; tell patient will cause inc in urine stream

Question 21

What is the normal ration of BUN to creatinine?

Answer 21

20:1
BUN:creatinine

Question 22

Comparing Clinical Characteristics of Acute Renal Failure (Table 45-12, p. 1413)

Answer 22

Not sure if we’re expected to know this detail?

Question 23

What are the phases of renal failure?

Answer 23

1) Initiation
2) Oliguria
3) Diuresis
4) Recovery

Question 24

Initiation phase

Answer 24

initial insult until when oliguria develops

Question 25

Oligura phase

Answer 25

Output

Question 26

What is an important consideration regarding the oliguria phase in kidney failure? Is this phase always seen?

Answer 26

Some forms of kidney failure are “non-oliguric” meaning have accum of N wastes but still producing normal amounts of urine (2L or more)

mainly in people exposed to nephrotoxic drugs + burns

Question 27

Diuresis period in kidney failure:
What occurs?
What is an important role of the nurse during this phase?

Answer 27

• gradual inc in urine output
• signs that filtration has begun to recover
• lab values stabilize + dec
• output increases but still may be sig kidney abnormalities
• nurse to watch carefully for signs of dehydration (will inc uremic symptoms)

Question 28

How long does the recovery period take?

What occurs?

Answer 28

may take 3-12 months

improvement in renal fx; lab values return to normal

Question 29

Manifestations of ARF?

Including complications

Answer 29

• Almost every system affected
• Critically ill, lethargic
• Skin + mucous membranes dry d/t dehydration
• CNS: Drowsiness, muscle weakness, twitching

Complications:
Hypertension & Fluid Overload
Azotemia --> Uremia 
Hyperkalemia
Anemia 
Hyperphosphatemia & Hypocalcemia
Metabolic Acidosis

Question 30

WHat kind of assessments for ARF?

Answer 30

All systems!!
History 
Vital Signs 
Weight
CNS
CVS
Respiratory 
GI
Fluid balance
     -FVE 
     -FVD 
Integumentary

Question 31

How would urine characteristics change in ARF?

Answer 31

Urine output varies from scanty to normal, possible hematuria, urine w low specific gravity

Question 32

What kind of diagnostic measure is essential for detecting changes?

Answer 32

U/S critical – renal sonogram, CT, MRI show changes

Question 33

What does anemia result in ARF?

Answer 33

result of dec erythropoietin production, uremic GI lesions, reduced RBC life span, blood loss

Question 34

Why do you see hyperkalemia in ARF?

Answer 34

•High risk of hyperkalemia w dec GFR, oliguria, anuria; protein metb results in release of K+

Question 35

Why inc phosphate + dec Ca2+ levels with ARF?

Answer 35

• Possible inc in phosphate levels
- dec in Ca levels d/t dec absorption in GI tract, and as compensatory mech for inc P in blood; Ca2+ also excreted when acidosis occurs

From class: HyperP can affect thyroid, also factor in metb acidosis

Question 36

Outline the lab values that would be seen in ARF

Answer 36

Elevated BUN
Elevated Serum Creatinine
GFR

Question 37

WHat is a complication of ARF r/t heart (not dysrhythmias)

Answer 37

Pericarditis

Protein bound uremic toxins

Question 38

Prevention of ARF?

Answer 38

• Careful hx to detect nephrotoxic agents + meds
• Those taking nephrotoxic meds (gentamicin, aminoglycosides, vancomycin, etc) monitored carefully for change in renal fx – BUN + creatinine baseline, 24hrs after inititiating tx and twice weekly after

Question 39

What is RIN?

What is the best prevention method for this?

Answer 39

• Radiocontrast-introduced nephropathy (RIN) major cause of hospital-acquired ARF

hydration most effective prevention of this

Question 40

Why are elderly at particular risk of ARF?

Answer 40

• ½ of those with ARF during hospitalization >50yrs
• Etiology of ARF in elderly incl dehydration, nephrotoxic agents (meds, contrast agents), complications of major sx
• Further dehydration d/t lack of thirst, confusion, enforced bed rest, lack of access to drinking H2O

Question 41

Do kidneys recover from damage well?

Answer 41

Yes, remarkably well!

Question 42

What are the objective of managing kidney failure?

Answer 42

restore normal chemical balance, prevent complications until repair of renal tissue and restoration of renal fx can occur
• Eliminate cause, maintain fluid balance (avoid excess), provide renal replacement tx
• Shock + infection treated prompty if present

Question 43

Which type of ARF will most likely recieve fluids + blood products?

Answer 43

Prerenal (hypoperfusion)

Question 44

Nursing priorities for ARF?

Answer 44

1) Understand and ensure Cause treated
2) Monitor Fluid/electrolyte: Daily weights, Ins/outs, Strict care with fluid restrictions, possible dialysis/CRRT
3) Vital signs: know FVE and FVD
4) Lab values: K+,BUN, Cr, GFR
5) Dec metb rate:bed rest, tx fever + infection promptyl
6) Promote pulm fx – assist to turn, take deep breaths, cough
7) Skin Care
8) Nutrition
9) Support: Psychological and hemodynamic
10) Catheter Care
11) Short term dialysis if treatment unsuccessful?
12) Education to prevent CKD

Question 45

What is the most life threatening fluid + electrolyte changes in kidney failure? What might you see?

Answer 45

Hyperkalemia
- pt monitored for serum K, ECG changes, changes in clinical status.

May see irritability, cramping, diarrhea, paresthesia, generalized muscle weakness (slurred speech, difficulty breathing, etc.)

Question 46

What does dialysis do for the patient?

Answer 46

will correct biochemical abn, allow liberalization of fluid, protein and sodium intake, diminishes bleeding tendencies + promotes healing

Question 47

What are CRRT’s

Answer 47

Continuous Replacement Therapies

= used to replace normal kidney fx by circulating blood through hemofilter

Question 48

How is hyperkalemia treated?

Answer 48

o Treated w cation-exchange resins orally or retention enema: Kayexalate (works by exchanging sodium for potassium ions in GI tract
o Colon is major site of K+ exchange (why use enema)
o Sorbitol in combo with this to induce diarrhea
o If hemodynamically unstable, may give IV dextrose 50%, insulin + calcium replacement to shift K+ back into cells
o Salbuamol sulfate (Ventolin HFA) by neb can lower plasma K+
o Temporary changes, so need dialysis on emergent basis

Question 49

What other pharm interventions are seen in ARF besides tx of hyperkalemia?

Answer 49

• Must adjust drugs as hard on kidneys, esp aminoglycosides, digoxin, ACE inhibitors, etc
• Diuretics often used for fluid balance but not shown to improve recovery from ARF
• ABGs and serum bicarbonate monitored for severe acidosis – might need sodium bicarbonate tx or dialysis
• Resp support measures if necessary
• Phosphate-binding agents to control serum phosphate levels

Question 50

Why do dietary imbalances occur in kidney failure?

Answer 50

nausea + vomiting, impaired glucose use + protein synthesis, inc tissue catabolism

Question 51

nutritional tx in acute renal failure

Answer 51

• Exact therapy depends on cause, comorbidities, nutritional status, etc
• Replacement of dietary proteins individualized to min uremic symptoms
• High calories to promote protein sparing
• Foods + fluids containing K+ and P minimized
• Following diuretic phase, pt placed on high calorie, high protein diet to resume activities gradually

Question 52

What hesitation might you see in family of pt and how should this be responded to? (to promote psychological support)

Answer 52

family may be hesitant to touch + talk to pt during dialysis, PD, CRRT but should be encouraged to do so

Question 53

Why skin care for ARF?

Strategies?

Answer 53

may be dry d/t edema, itchy + excoriation d/t deposit of irritating toxins in tissues → can bath in cool water, turn frequent, keep skin clean + moisturized, fingernails traimmed to avoid excoriation

Question 54

Psychological Considerations for pt receiving urologic testing?

Answer 54

• Pt’s undergoing urologic testing are often apprehensive – can be embarrassing
• Voiding in presence of others causes guarding = natural reflex that inhibits voiding with situational anxiety
• Nurse can help by providing privacy + thorough explanation of procedure

Question 55

WHy is urinalysis used in ARF?

Answer 55

• Provides info on kidney function and helps diagnose conditions like DM
• Determines bacteria, strains, and concentration – can determine what antibiotics to follow with

Question 56

What is looked at in urinalysis?

Answer 56

o	Colour
o	Clarity and odour
o	Urine pH and specific gravity
o	Proteins 
o	Glucose
o	Ketone bodies
o	Microscopic exam for: hematuria, pyuria (WBC’s in urine), cylinduria (casts), crystals (crystalluria), and bacteria (bacteriuria)

Question 57

Why would hematuria possibly be seen in urinalysis?

Answer 57

Hematuria d/t acute infection (cystitis, urethritis, prostatitis), renal calculi and neoplasm, bleeding disorders, malignant lesions, meds such as warfarin + heparin

Question 58

Urine specific gravity
What is it?
Normal range?
How is affected by hydration level?
How do changes in this occur in renal disease/injury?

Answer 58

• Measures density of solution compared with density of water, which is 1.000
• Altered by presence of blood, proteins, casts
• Normal range = 1.010 to 1.025
• Dehydration will raise specific gravity
• Those with kidney disease have “fixed” sg = sg doesn’t change with fluid intake
• Disorders causing decreased: diabetes insipidous, glomerulonephritis, sever renal damge
• Disorders causing inc: DM, nephritis, fluid deficit

Question 59

Osmolality
What does this measure?
How is this assessed?
Normal values?

Answer 59

• Most accurate measure of kidney’s ability to dilute + concentrate urine
• = # of solute particles in kg of H2O
• Serum + urine osmolality measured simultaneously to assess fluid status
• Normal serum = ~300 mmol/L
• Normal urine = ~300-1100 mmol/kg

Question 60

What is creatinine?

Answer 60

end product of muscle energy metabolism. In normal, level of creatinine which is regulated by kidneys, will remain relatively constant

Question 61

BUN?

What affects this?

Answer 61

urea is nitrogenous end product of protein metabolism. Test values affected by protein intake, tissue breakdown, and fluid volume changes

Question 62

What ratio can be used to assess hydration status?

Answer 62

BUN to creatinine ratio

Question 63

Creatinine clearance?

Answer 63

detects and evals progression of renal disease. Test measures volume of blood cleared of endogenous creatinine in 1 min, which provides approx of GFR. Sensitive indicator of renal diseae used to follow progression of renal disease

Question 64

What diagnostic imaging is used

Answer 64

1) Kidney, Ureter, and Bladder Studies (KUB)
• X ray of abdomen or kidneys, ureter + bladder (KUB) may be performed to delineate size, shape, position
2) General Ultrasonography
• Sound waves used to detect abnormalities: fluid accum, masses, congenital malformations, changes in organ size, obstructions
• Requires full bladder
• Is sensitive test – has replaced many others as initial diagnostic procedure
3) Bladder U/S
• Used to measure urine vol
4) CT + MRI
And many more….

Question 65

What is hemodialysis?
Short or long term tx?
What is the contraption called that’s used?

Answer 65

• Most common method of dialysis
• Used as short-term, long-term or permanent form of therapy
• Dialyzer = artificial kidney
• Serves as a synthetic semi-permeable membrane

Question 66

What is peritoneal dialysis?

Answer 66

x

Question 67

What sort of issues are you assessing for in ARF with regard to:

1) CNS
2) CVS
3) Resp
4) GI

Answer 67

1) seizures, confusion
2) Shock, arrhythmias
3) compensation (for acidosis). fluid overload/pulmonary edema? JVD?
4) Cost-vertebral angle (CVA) tenderness

Question 68

WHat are casts?

Answer 68

Particles found during routine U+A (urinalysis) or R+M (routine + microscopic), whole bunch of different types; muddy brown casts are indication of ATN

Question 69

What will we do for someone with pulm edema (as complicaiton of ARF)?
2 meds included in this tx?

Answer 69

Want to treat underlying cause but first want to: inc head of bed, put on O2, give meds
o Mannitol. Is osmotic diuretic – inhibits reabsorption of sodium and water; works by expanding plasma volume and inc blood flow to kidney
• Is safer because less of effect on electrolytes (confirm this?) – will use this if very worried about electrolytes
o Lasix is loop diuretic, acts on ascending loop of henle; can inc BUN + creatinine levels + cause potassium shifts so more risky for lyte imbalances (but generally used more than mannitol)

Question 70

What will we see with pulm edema?

Answer 70

Inc resp rate, dec sats, cyanosis, anxiety, crackles, venous distension

Question 71

What are 3 main drugs used to manage hyperkalemia?

Answer 71

1) Kayexalate
2) Dextrose/Insulin/Calcium
3) Ventolin

Question 72

Kayexalate

Answer 72

gets rid of potassium; causes diarrhea for days; not first line defense for those who are really sick

Question 73

How does dextrose, insulin + calcium help hyperkalemia?

Answer 73

can use CaCl or Ca gluconate to inc threshold potential…restores normal threshold potential, onset 3-5min, lasts 30-60min, given IV
o 50ml D50 first (to prevent hypoglycemia)
o Then insulin, which will lead to shift of K+ ions into the cells; takes a few hours so may need to be repeated

Question 74

Why ventolin for pt with hyperkalemia?

Possible side effect?

Answer 74

lowers blood levels of K+ in serum my promoting uptake into cells; can cause side effect of inc HR, which is concen for pt with hyperkalemia!