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Ch.32 Anesthesia for Patients with Renal Disease

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Ch.32 Anesthesia for Patients with Renal Disease R1 Diseases affecting the kidneys Nephrotic syndrome Acute renal failure Chronic renal failure Nephritis ... – PowerPoint PPT presentation

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Title: Ch.32 Anesthesia for Patients with Renal Disease


1
Ch.32 Anesthesia for Patients with Renal Disease
  • R1 ???

2
  • Diseases affecting the kidneys
  • Nephrotic syndrome
  • Acute renal failure
  • Chronic renal failure
  • Nephritis
  • Nephrolithiasis
  • Urinary tract obstruction
  • Infection
  • ????? ???? syndrome ??? preoperative renal
    function? ?? ????? ?

3
EVALUATING RENAL FUNCTION
4
BLOOD UREA NITROGEN(BUN)
  • Primary source of urea liver
  • Protein catabolism ???? ammonia ??
  • Hepatic conversion? ?? ammnia? urea? ??? toxic
    ammonia level? ??
  • BUN? protein catabolism? ???? ????? GFR? reliable
    indicator ?? ??
  • ???? 40-50? renal tubule?? passively reabsorbed
    ? (hypovolemia? ??)
  • NL BUN concentration 10-20mg/dL
  • Lower values starvation, liver disease
  • Elevations decreases in GFR, increases in
    protein catabolism (high catabolic state trauma
    or sepsis)
  • 50mg/dL ??? ?? ?? renal impairment ??

5
SERUM CREATININE
  • Creatine product of muscle metabolism
  • Nonenzymatically converted to CREATININE
  • Creatinine production? ??? ???? muscle mass? ???
  • ?? 20-25mg/kg in men, 15-20mg/kg in women
  • Not reabsorbed in kidneys
  • NL serum creatinine concentration
  • 0.8-1.3mg/dL in men, 0.6-1mg/dL in women
  • Large meat meals, cimetidine therapy, increases
    in acetoacetate (ketoacidosis)?? GFR? ?? ???
    serum creatinine ??
  • GFR? ??? ?? ?? (5 per decade after age 20)
  • Muscle mass ?? ????? serum creatinine? ??? ?? ??
  • Acute changes in GFR ? 48-72? ??? ??? level? ?? ??

6
BUN CREATININE RATIO
  • Low renal tubular flow rates? urea reabsorption?
    ????? creatinine handling?? ??? ??
  • BUN to serum creatinine ratio? 101 ???? ??
  • BUN creatinine ratio gt 15 1
  • Volume depletion, edematous disorders (heart
    failure, cirrhosis, nephrotic syndrome),
    obstructive uropathies

7
CREATININE CLEARANCE
  • Creatinine clearance measurements
  • ? most accurate method available for clinically
    assessing overall renal function
  • 40-60mL/min Mild renal impairment
  • 25-40mL/min moderate renal dysfunction
  • Nearly always cause symptoms
  • Less than 25mL/min renal failure
  • Progressive renal disease ??? proximal tubule???
    creatinine secretion? ???
  • ?? GFR? overestimation ?? ?

8
URINALYSIS
  • Routine urinalysis
  • pH
  • Systemic acidosis with urinary pH gt 7.0 renal
    tubular acidosis
  • Specific gravity
  • 1.010 corresponds to urinary osmolality 290
    mOsm/kg
  • Overnight fast ? 1.018 ?? indication of
    adequate renal concentrating ability
  • Glucose, protein, bilirubin? detection
    quantification
  • Proteinuria 24-h urine collection ??
  • Urinary protein gt 150mg/d ? significant
  • Elevated levels of bilirubin biliary
    obstruction
  • Urinary sediment? ?? microscopic examination
  • Red cells, white cells, bacteria
  • Tubular casts disease processes at the level of
    the nephron

9
ALTERED RENAL FUNCTION THE EFFECTS OF
ANESTHETIC AGENTS
10
INTRAVENOUS AGENTS
  • Propofol etomidate
  • Not significantly affected by impaired renal
    function
  • Hypoalbuminemia ? etomidate? protein binding ????
    effects ??
  • Barbiturates
  • Induction? sensitivity ??
  • Protein binding? ???? free circulating agent ??
  • Acidosis? nonionized fraction? ???? brain?? ??
    ??? ???
  • Ketamine
  • ?? active hepatic metabolites? renal excretion
  • Potentially accumulate in renal failure
  • Secondary hypertensive effect ?? ??
  • Benzodiazepines
  • Hypoalbuminemia? sensitivity ??
  • Opioids
  • Morphine meperidine significant accumulation
    of active metabolites
  • Prolong respiratory depression
  • Normeperidine (meperidine metabolite) ???
    seizures? ??

11
INTRAVENOUS AGENTS (2)
  • Anticholinergic agents
  • Atropine glycopyrrolate? predemication dose?
    ???? ?? ??
  • ??? ??? 50??? active metabolites? urine?? ?? ?
    repeated dose? potential for accumulation
  • Scopolamine renal excretion? ? ???
  • Azotemia? CNS effect ???
  • Phenothiazines, H2 blockers, related agents
  • Phenothiazines
  • azotemia? potentiation of central depressant
    effects can occur
  • Antiemetic action? ?? ? ?? ??
  • Droperidol partly dependent on kidneys for
    excretion
  • H2 blockers very dependent on renal excretion
  • Metoclopramide partly excreted unchanged in
    urine

12
INHALATION AGENTS
  • Volatile agents
  • Enflurane and sevoflurane (with lt 2L/min gas
    flows) undergoing long procedures
  • ? potential for fluoride accumulation
  • Nitrous oxide
  • Renal failure? 50? ??
  • Anemia? arterial oxygen content ????? ??
    (hemoglobin lt 7g/dL)

13
MUSCLE RELAXANTS
  • Succinylcholine
  • Induction? serum potassium ??? 5mEg/L ??? ??
    renal failure??? ???? ?? ??
  • Cisatracurium, atracurium, mivacurium
  • Cisatracurium atracurium
  • Enzymatic ester hydrolysis nonenzymatic Hofmann
    elimination
  • Renal failure? drugs of choice
  • Vecuronium rocuronium
  • Vecuronium 20? eliminated in urine
  • Rocuronium hepatic elimination
  • Severe renal disease? prolongation ? ? ??
  • Curare 40-60? urine?? excretion
  • Pancuronium, pipecuronium, alcuronium,
    doxacurium
  • Primarily dependent on renal excretion (60-90)
  • Metocurine, gallamine, decamethonium
  • Entirely dependent on renal excretion
  • Should be avoided in impaired renal function
  • Reversal agents
  • Edrophonium, neostigmine, pyridostigmine renal
    excretion is the principal route

14
ANESTHESIA FOR PATIENTS WITH RENAL FAILURE
15
PREOPERATIVE CONSIDERATIONS
  • Acute renal failure
  • Rapid deterioarion in renal function
  • ? retention of nitrogenous waste products
    (azotemia)
  • Prerenal acute decrease in renal perfusion
  • Renal intrinsic renal dis., renal ischemia,
    nephrotoxins
  • Postrenal urinary tract obx. Or disruption
  • ? prerenal postrenal reversible in initial
    stages
  • ???? oliguria ??
  • Nonoliguric Pts. (urinary outputs gt 400mL/d)
  • Tend to have greater preservation of GFR
  • Course
  • Oliguria lasts for 2 wks, followed by a diuretic
    phase

16
PREOPERATIVE CONSIDERATIONS (2)
  • Chronic renal failure
  • ??? 3-6 ??? ?? progressive irreversible decline
    in renal function
  • m/c cause hypertensive nephrosclerosis,
    diabetic nephropathy, chronic glomerulonephritis,
    polycystic renal disease
  • Uremia GFR decreases below 25mL/min
  • Clearnaces below 10mL/min (ESRD) dependent on
    dialysis
  • On daily dialysis generally feel entirely normal
  • ??? 1?? 3? ??
  • Cx
  • hypotension, neutropenia, hypoxemia,
    disequilibrium syndrome
  • ? generally transient
  • Disequilibrium syndrome transient neurological
    Sx? ???
  • ? rapid lowering of extracellular osmolality than
    intracellular osmolality

17
PREOPERATIVE CONSIDERATIONS (3)Manifestations of
renal failure
  • Metabolic
  • Hyperkalemia, hyperphosphatemia, hypocalcemia,
    hypermagnesemia, hyperuricemia, hypoalbuminemia ?
  • Water sodium retention
  • High anion gap metabolic acidosis
  • Hyperkalemia most lethal
  • ?? creatinine clearances lt 5mL/min? ? ??
  • Large potassium load ???? ?? ??
  • Trauma, hemolysis, infections, potassium
    administration
  • Hematological
  • Anemia creatinine clearance lt 30mL/min? ?
  • Hb 6-8g/dL
  • Edcreased erythropoietin production, decreased
    red cell production, decreased cell survival
  • 2,3-diphosphoglycerate (2,3-DPG)
  • Hb??? oxygen ???? ?? ??
  • Metabolic acidosis ?? Hb-O2 dissociation curve?
    right shift ??
  • Symptomatic heart dis. ?? ?? ?? well tolerate the
    anemia
  • PLT, WBC function are impaired
  • Prolonged bleeding time, increased susceptibility
    to infections
  • ??? hemodialysis ?? ??? ?? residual anticoagulant
    effects from heparin ??

18
PREOPERATIVE CONSIDERATIONS (4)Manifestations of
renal failure
  • Cardiovascular
  • Renal failure ? oxygen delivery ?? ?? cardiac
    output ????? ?
  • LVH common finding
  • Congestive heart failure, pulm. Edema? ??
  • Sodium retention? ?? extracellular fluid overload
  • Arrhythmias, uremic pericarditis
  • ARF? diuretic phase??? intravascular volume
    depletion ????? ?
  • Pulmonary
  • Metabolic acidosis? compensation?? minute
    ventilation ???
  • Alveolar-capillary memb.? permeability ??? ??
    pulm. edema ?? ? ??
  • butterfly wings on chest film

19
PREOPERATIVE CONSIDERATIONS (5)Manifestations of
renal failure
  • Endocrine
  • Abnormal glucose tolerance
  • Pph. Resistance to insulin ??
  • Secondary hyperparathyroidism
  • Metabolic bone disease ?? ? ??
  • Hypertriglyceridemia
  • Gastrointestinal
  • Anorexia, nausea, vomiting, adynamic ileus
  • Peptic ulceration G-I hemorrhage
  • Delayed gastric emptying predispose to
    aspiration
  • High incidence of viral hepatitis (B C)
  • Neurological
  • Uremic encephalopathy? menifestations
  • Asterixis, lethargy, confusion, seizures, coma
  • Sx? ?? azotemia ??? ??
  • Autonomic peripheral neuropathies
  • Pph. Neuropathies typically sensory, involve
    distal lower extremities

20
PREOPERATIVE CONSIDERATIONS (6)
  • Preoperative evaluation
  • ????? ???? complete evaluation ??
  • All reversible menifestation of uremia should be
    controlled
  • Preoperative dialysis ?? ?? or ??
  • Evaluation
  • Signs of fluid overload or hypovolemia
  • Pts current weight
  • Hemodynamic data, chest film
  • Arterial blood gas analysis dyspnea ??? ????
  • Detecting hypoxemia, evaluating acid-base status
  • ECG signs of hyperkalemia, hypocalcemia
  • Echocardiography
  • Preop RBC transfusion
  • Only to severely anemic Pts. (Hb lt 6-7g/dL)
  • Significant intraop. Blood loss is expected

21
PREOPERATIVE CONSIDERATIONS (7)
  • Premedication
  • Reduced doses of opioid or benzodiazepine
  • Promethazine, 12.5-25mg IM
  • Additional sedation, antiemetic properties
  • Aspiration prophylaxis
  • H2 blocker
  • Metoclopramide, 10mg orally or slowly IV

22
INTRAOPERATIVE CONSIDERATION
  • Monitoring
  • A-V fistula ?? ??? cuff? ?? ?? ??
  • Intraarterial, central venous, pulm. A.
    monitoring
  • Major surgery ??? advanced renal dis. ?? DM ??
  • ? aggressive invasive monitoring
  • Induction
  • Rapid-sequence induction with cricoid pressure
  • Nausea, vomiting, G-I bleeding ?? ?
  • Thiopental, 2-3mg/kg, or propofol, 1-2mg/kg
  • Etomidate, 0.2-0.4mg/kg hemodynamically
    unstable Pts.
  • Opioid, ß-blocker (esmolol), lidocaine
  • To blunt hypertensive response to intubation
  • Succinyulcholine, 1.5mg/kg
  • Serum potassium lt 5mEq/L ??? ??
  • Laryngeal mask airway
  • ? avoids excessive sympathetic (hypertensive)
    response

23
INTRAOPERATIVE CONSIDERATION (2)
  • Maintenance
  • Ideally control HTN with minimal effects on
    cardiac output
  • Volatile agents isoflurane, desflurane
  • Nitrous oxide
  • Very low Hb (lt7g/dL)? 100 oxygen ?? ?? nitrous
    oxide ?? ??
  • Controlled ventilation
  • Inadequate spontaneous ventilation
  • ? respiratory acidosis
  • Preexisting acidemia ??
  • Potentially severe circulatory depression
  • Dangerously increase serum potassium concentraion
  • Fluid therapy
  • Supf. Op. only insensible fluid losses with 5
    dextrose in water
  • Major fluid losses or shifts isotonic
    crystalloids, colloids
  • Lactated Ringers injection hyperkalemic Pt??
    ??
  • Glucose-free solutions

24
ANESTHESIA FOR PATIENTS WITHMILD TO MODERATE
RENAL IMPAIRMENT
25
PREOPERATIVE CONSIDERATIONS
  • Large reserve in function
  • GFR, creatinine clearance? 120?? 60mL/min?? ????
    ??? clinically perceptible change ?? ? ??
  • ?? maintaining normovolemia
  • Creatinine clearance? 25-40 mL/min? ??? renal
    impairment? moderate ? renal insufficiency
  • Significant azotemia? ?? ??? HTN, anemia ??
  • Relatively high incidence of postop. Renal
    failure
  • Cardiac and aortic reconstructive surgery
  • Intravascular volume depletion, sepsis, obx.
    jaundice, crush injuries, recent contrast dye
    injections
  • Aminoglycoside, ACEi, NSAIDs
  • Prophylaxis against renal failure
  • Generous hydration together with solute diuresis
  • In high-risk pts., cardiac, major aortic
    reconstructive surgery
  • Mannitol (0.5g/kg) should be started prior to
    or at the time of induction
  • intravascular volume depletion ???? iv fluid? ???
    ??
  • Fenoldopam or low-dose dopamine increase renal
    blood flow
  • Small dose of loop diuretics
  • Acetylcysteine prior to radiocontrast dyes

26
INTRAOPERATIVE CONSIDERATIONS
  • Monitoring
  • Hourly urinary output, intravascular volume
  • Urine gt 0.5mL/kg/h
  • Intraarterial pressure monitoring
  • Induction
  • Induction ?? adequate intravascular volume ??? ?
    preop. hydration
  • ?? ?? ? hypotension? ?? intubation?? surgical
    stimulation?? ???

27
INTRAOPERATIVE CONSIDERATIONS (2)
  • Maintenance
  • Exception of sevoflurane with low gas
    flows(lt2L/min)
  • Deterioration in renal function ??
  • Surgery hemorrhage
  • Anesthesia cardiac depression or hypotension
  • Indirect hormonal effects sympathoadrenal
    activation or antidiuretic hormone secretion
  • Positive pressure ventilation impeded venous
    return
  • ? ??? ??? ??? Iv fluid ??? completely reversible
  • Large doses of predominantly a-adrenergic
    vasopressors (phenylephrine, norepinephrine) ?? ?
  • Renal blood flow ????? small intermittent doses
    or brief infusio? ???
  • Fluid therapy
  • Judicious fluid administration
  • ?? excessive fluid overload (pulm. Congestion or
    edema)? ARF?? ???? ??
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