Anesthetic considerations for urologic surgery

Question 1

How much cardiac output does the kidney receive?

Answer 1

20-25%

Question 2

The nephron is made up of

Answer 2

outer cortex & inner medulla

Question 3

Homeostasis is maintained in the kidney through

Answer 3

filtration
reabsorption &
tubular excretion

Question 4

Normal GFR is

Answer 4

125 mL/min

Question 5

Up to ____ of the filtrate is reabsorbed

Answer 5

99%

Question 6

Things that should not be seen in the urine include

Answer 6

glucose, protein, bilirubin

Question 7

The renal vasculature is innervated by

Answer 7

SNS

Question 8

Renal hormones include

Answer 8

aldosterone, antidiuretic hormone, angiotensin, atrial naturetic factor, vitamin D, prostaglandins

Question 9

Catecholamines result in a

Answer 9

decrease in urine output

Question 10

Anesthetic drugs affect the kidneys by

Answer 10

depress normal renal function
impairment of autoregulation
renal blood flow may decrease by 30-40%

Question 11

General anesthesia is associated with a decrease in

Answer 11

renal blood flow
GFR
urinary flow
electrolyte secretion 
-similar changes occur after spinal & epidural anesthesia- magnitude of change parallels degree of sympathetic block & BP depression

Question 12

All ______ cause mild increase in renal vascular resistance

Answer 12

volatile anesthetics

-compensatory mechanism in response to decreases in CO & SVR

Question 13

Historically________ caused high fluoride ion concentrations & _________ characterized by polyuria

Answer 13

methoxyflurane; nephrotoxicity

Question 14

These factors attenuate reductions in renal blood flow & GFR

Answer 14

preoperative hydration, decreased concentrations of volatile anesthetics, & maintenance of blood pressure

Question 15

Sevoflurane has not

Answer 15

been associated with nephrotoxicity even though it has been associated with high fluoride levels

Question 16

Sevoflurane produces

Answer 16

Compound A which can potentially cause nephrotoxicity

Question 17

In an effort to decrease risk of compound A with sevoflurane,

Answer 17

use high gas flows (1L/min FGF for 2 MAC-hours max)
decrease gas concentration
use of carbon dioxide absorbents

Question 18

Isoflurane & desflurane are

Answer 18

not associated with nephrotoxicity

Question 19

Signs and symptoms of fluoride nephrotoxicity include

Answer 19

polyuria
hypernatremia
serum hyperosmolality
elevated BUN & creatinine
decreased creatinine clearance

Question 20

Nephrotoxicity with volatile anesthetics is related to

Answer 20

dosage, duration, & peak fluoride concentrations

Question 21

Fluoride ion toxicity

Answer 21

fluoride interferes with active transport of sodium & chloride in the loop of Henle
POTENT VASOCONSTRICTOR
potent inhibitor of many enzyme systems (ADH

Question 22

Nephrotoxicity results in

Answer 22

proximal tubular swelling & necrosis

Question 23

An acute kidney injury is defined as

Answer 23

a renal functional or structural abnormality that occurs within 48 hours- increase in creatinine 0.3 mg/dL or 50% increase; UO <0.5 mL/kg/hr x 6 hours

Question 24

Risk for acute kidney injury is increased by

Answer 24

hypovolemia, electrolyte imbalance, & contrast dye

Question 25

Types of AKI include

Answer 25

prerenal, intrinsic, & post renal

Question 26

Describe the cause of prerenal AKI

Answer 26

hypoperfusion of the kidneys without parenchymal damage

Question 27

Describe the cause of intrinsic AKI

Answer 27

result of damage to renal tissue

Question 28

Describe the cause of postrenal AKI

Answer 28

due to urinary tract obstruction

Question 29

Provide examples of prerenal AKI

Answer 29

hemorrhage, vomiting, diarrhea, diuretics, sepsis, shock, CHF, norepinephrine, NSAIDs, ACE-I

Question 30

Provide examples of intrinsic AKI

Answer 30

tubular injury due to hypoperfusion, myoglobin, chemotherapy, infections, lymphoma, toxemia of pregnancy, vasculitis

Question 31

Provide examples of postrenal AKI

Answer 31

renal calculi, peritoneal mass, prostrate/bladder urethra tumor, fibrosis, hematoma, & strictures

Question 32

Risk factors for AKI include

Answer 32

aging- >50 years of age, preoperative renal dysfunction
comorbidities- cardiac failure & hepatic failure
surgical procedures- cardiac bypass, aortic cross-clamp, arteriograpy, intra-aortic balloon pump
emergency or high risk procedures- ruptured AAA, ischemic time, large volume of blood transfusion

Question 33

Describe how to mitigate risks of AKI

Answer 33

hydration, limit contrast dye, diuretics

Question 34

Anuric is defined as

Answer 34

UO <100 mL/day

Question 35

Polyuric is defined as

Answer 35

UO >2.5L/day

Question 36

Oliguric is defined as

Answer 36

UO <400 mL/day

Question 37

AKI preoperative treatment includes

Answer 37

fluid deficits- BALANCED SALT SOLUTION ( NS) to minimize ADH & RAAS release
attenuation of surgical stress
patient monitoring considerations- arterial line, transesophageal echocardiogram, CVP, foley catheter

Question 38

Fluid replacement for perioperative AKI treatment includes

Answer 38

500-1L bolus for hourly UO below acceptable levels
colloids may not be superior to crystalloids
high risk patients 0.5-1.0 mL/kg/hr

Question 39

AKI perioperative treatment includes

Answer 39

fluid replacement
improve cardiac output
normalize SVR
diuretic use to prevent oliguria is not recommended

Question 40

Early treatment of prerenal causes has

Answer 40

best outcomes

Question 41

Postrenal has good prognosis with

Answer 41

early identification

Question 42

The most difficult AKI type to treat is

Answer 42

intrarenal

Question 43

Most common cause of AKI is

Answer 43

prolonged hypoperfusion

Question 44

_______ reduces mortality in AKI more than dialysis

Answer 44

prophylaxis

Question 45

Duration & magnitude of initial insult determine

Answer 45

severity of AKI

Question 46

Key strategy for perioperative management of AKI is to

Answer 46

limit magnitude & duration of renal ischemia

Question 47

Treatment for AKI inclues

Answer 47

administering volume (NS) to euvolemia
improving CO by afterload reduction
normalizing SVR

Question 48

Renal function decreases

Answer 48

10% per decade

Question 49

CKD is present when

Answer 49

GFR is less than 60 mL/min/1.73 m2 for three months

Question 50

Signs & abnormal labs do not appear until

Answer 50

less than 40% of normal functioning of nephrons remain

Question 51

When 95% loss of renal function occurs, symptoms include

Answer 51

uremia, volume overload, CHF

Question 52

The respiratory effects of CKD includes

Answer 52

respiratory depression secondary to delayed clearance

Question 53

The neurologic effects of CKD include

Answer 53

fatigue & weakness are early complaints
autonomic neuropathy–> b/c electrolytes mess w/ nerve functioning–> causes airway & aspiration risk
disequilibrium syndrome- severe neurologic effects

Question 54

The cardiovascular effects of CKD include

Answer 54

hypertension & CHF- 90%volume dependent; 10% secondary to increased renin; pericardial effusion
pericarditis seen in patients with severe anemia
ischemic heart disease is most common cause of death- outcomes better in CABG with angioplasty

Question 55

Gastrointestinal effects of CKD include

Answer 55

dialysis patients are at greater risk for GI bleeding

Question 56

Hematologic effects of CKD include

Answer 56

normochromic, normocytic anemia- decrease in erythropoietin production, reduction in erythrocyte life secondary to dialysis, blood loss from frequent sampling
prolonged bleeding- decrease in platelet function, dialysis within 24 hours will correct, desmopressin increases levels of Factor VIII

Question 57

Infectious effects of CKD include

Answer 57

protein malnutrition

neutrophil, monocyte, & macrophage changes

Question 58

Endocrine effects of CKD include

Answer 58

hyperparathyroidism

adrenal insufficiency

Question 59

The leading cause of death in dialysis patients is

Answer 59

infection

Question 60

Describe electrolyte effects of CKD

Answer 60

sodium wasting
hypocalcemia
hyperkalemia

Question 61

Hyperkalemia is a

Answer 61

serious disturbance in patients with renal disease

-fatal dysrhythmias or cardiac standstill can occur when K+ levels reach 7-8 mEq/L

Question 62

Treatment of hyperkalemia includes

Answer 62

25-50 g dextrose
10-20 unites of insulin
50-100 mEq of sodium bicarb 
calcium chloride
albuterol

Question 63

Preoperative lab levels of potassium should be

Answer 63

checked even if dialysis is performed within 6-8 hours of surgery

Question 64

Physiologic effects of dialysis include:

Answer 64

hypotension, muscle cramping, anemia, & nutritional depletion

Question 65

EKG changes for the patient with hyperkalemia include

Answer 65

peaked T waves
progresses to widen QRS, peaked T waves
sinusoidal waves next- very bad

Question 66

Preoperative anesthetic considerations for the CKD patient includes

Answer 66

pertinent lab & diagnostic tests

continue antihypertensive medications

Question 67

Intraoperative anesthetic considerations for the CKD patient includes

Answer 67

monitoring, regional anesthesia, general anesthesia, fluid management

Question 68

Postoperative anesthetic considerations for the CKD patient includes

Answer 68

dialysis within 24 hours

Question 69

In anuric patients, it is contraindicated to give

Answer 69

potassium containing solutions (LR)

Question 70

Blood products are reserved for

Answer 70

patients who need increased oxygen-carrying capacity

Question 71

Fluid management for the prevention of AKI includes

Answer 71

UO 0.5-1.0 mL/kg/hr recommended

mildly compromised function- balanced salt solution at 3-5 mL/kg/hr. with 500 mL bolus as needed

Question 72

Intraoperative monitoring is based on

Answer 72

patient’s physiologic status & surgical procedure & includes ECG, pulse oximetry, arterial catheter, & echo

Question 73

Pharmacologic considerations for the patient on dialysis include

Answer 73

morphine is not removed by dialysis
meperidine cannot be removed by dialysis
H2 blockers are highly dependent on renal excretion
hydromorphone has active metabolite that can accumulate

Question 74

Describe fluid management for the dialysis patient

Answer 74

insensible losses- replace with 5-10 mL/kg of D5W

if urine is produced- replace with 0.45% saline

Question 75

Fluid management for the renal insufficiency/ESRD patient icnldues

Answer 75

replace volume deficit preoperatively
intraoperative losses greater than 15% should be replaced with colloid 1:1
crystalloid without potassium at 2-3 mL/kg/hr

Question 76

The most reliable test for renal function is

Answer 76

creatinine clearance

Question 77

Normal creatinine clearance is

Answer 77

95-150 mL/min.

Question 78

Creatinine clearance measures

Answer 78

glomerular ability to excrete creatinine in urine
mild dysfunction 50-80 mL/min.
moderate dysfunction <25 mL/min
<10 mL/min requires dialysis

Question 79

Blood urea nitrogen is

Answer 79

10-20 mg/dL

BUN: creatinine ratio is 10:1

Question 80

Serum creatinine normal is

Answer 80

0.7-1.5 mg/Dl

for every 50% reduction in GFR, serum creatinine doubles

Question 81

Regional anesthesia for patients with kidney disease is

Answer 81

generally well tolerated

Question 82

Major concerns for regional anesthesia for the patient with kidney disease include

Answer 82

intolerance, coagulopathy, peripheral neuropathy, risk of infection

Question 83

Block duration is _____ by renal failure

Answer 83

not affected

Question 84

Spinal & epidural considerations for the patient with renal failure includes

Answer 84

platelet count, PT/PTT, ASRA coags

Question 85

In general anesthesia for the renal failure patient, IV drugs are affected by

Answer 85

volume of distribution is increased
decreased protein binding
low pH
renal excretion

Question 86

Describe the effects of renal failure on ketamine, benzodiazepines, propofol, dexmedetomidine, & remifentanil.

Answer 86

ketamine & benzodiazepines are less protein bound
propofol appears to be safe
dexmedetomidine cleared by liver
remifentanil- reduced clearance in patients with ESRD
fentanyl has prolonged half-life

Question 87

Patients with ESRD generally require dialysis

Answer 87

24-36 hours after major surgery

Question 88

Uremic patients may require fluid replacement with

Answer 88

red blood cells
FFP
colloid solutions

Question 89

In patients with renal insufficiency, give

Answer 89

preoperative volume replacement

Question 90

Describe the use of succinylcholine in renal failure patients.

Answer 90

increases serum potassium 0.5 mEq/L
succinylmonocholine (precursor to products of metabolism)
cholinesterase deficiency in uremic patients

Question 91

Describe the use of pancuronium in renal failure.

Answer 91

80% excreted in urine

Question 92

Describe the use of atricurium, cisatricurium, and mivacurium in renal failure patients.

Answer 92

duration not increased in renal failure

slower onset with cisatricurium and mivacurium

Question 93

Describe the use of vecuronium in renal failure patients.

Answer 93

approximately 30% excreted via renal system

effects rapidly reversed with dialysis

Question 94

Describe the use of rocuronium in renal failure patients

Answer 94

renal failure reduces clearance by almost 40%

& has longer DOA