Anesthesia Management—Minor Procedures

Children almost always require general anesthesia for minor procedures, such as cystoscopy, retrograde pyelography, circumcision, or hypospadias repair. Healthy children undergoing brief investigative procedures or operations are almost all treated as outpatients.

Anesthesia Management—Major Genitourinary

Special Anesthesia Problems

• 1.
  

  Anemia (usually normochromic, normocytic) may be present but with standard care under the supervision of a renal unit, this should not be severe, the objective of pretransplant care is to avoid significant anemia.

  
  

  Anemia in renal failure is caused by:

  
  
  
  
  • a.
    

    Decreased erythropoietin production. If erythropoietin is reduced, the hemoglobin concentration (Hb) will not exceed 7 to 9 g/dl. Recombinant human erythropoietin therapy may not be effective if severe uremia is present

    
    
  • b.
    

    Decreased erythrocyte survival and increased hemolysis

    
    
  • c.
    

    Increased bruising and bleeding from increased capillary fragility

    
    
  • d.
    

    Iron and/or folic acid deficiency

    
    
  • e.
    

    Bone marrow depression due to increased blood urea nitrogen (BUN)

  
  
  
  

  The presence of anemia leads to compensatory changes; that is, increased cardiac output and increased red blood cell (RBC) 2,3-diphosphoglycerate (2,3-DPG), although the latter is minimal. The P ₅₀ values are similar to those of children with normal renal function.

  
  

  Treatment with erythropoietin and supplemental iron will increase the hemoglobin concentration to near 10 gm/dl, which is the target level. After successful renal transplantation, the Hb increases further.

  
  

  Blood transfusions, once contraindicated pre-transplant, are now recognized to improve post-transplantation graft survival.

  
  
• 2.
  

  Coagulopathy may be present, caused by:

  
  
  
  
  • a.
    

    Increased capillary fragility

    
    
  • b.
    

    Functional platelet defect (decreased adhesiveness), possibly due to increased guanidinosuccinic acid

    
    
  • c.
    

    Thrombocytopenia due to bone marrow depression

    
    
  • d.
    

    Drugs (e.g., heparin, acetylsalicylic acid)

  
  
  
  

  Coagulopathy if present is usually of minor significance and does not usually represent a contraindication to epidural catheter placement.

  
  
• 3.
  

  Acid-base imbalance:

  
  
  
  
  • a.
    

    Children produce even more acid than adults; when urinary ammonia production decreases, a metabolic acidosis predominates and plasma bicarbonate falls to 12 to 15 mEq/L. This is compensated to a variable degree by respiratory alkalosis.

    
    
  • b.
    

    In long-standing stable renal failure, H ⁺ displaces Ca ⁺⁺ from bone and K ⁺ from intracellular fluid.

  
  
  
  
• 4.
  

  Fluid and electrolyte changes. Children undergoing dialysis (particularly hemodialysis) are likely to be slightly hypovolemic. The timing of the last dialysis is critical as hypovolemia may result in precipitous hypotension in response to inhalation agents or intravenous drugs. More information regarding the volume status may be obtained from the nephrology team (e.g., the number of liters of fluid that were removed during the most recent dialysis).

  
  
  
  
  • a.
    

    “Sodium losers” are those children with polycystic kidneys or severe pyelonephritis (tubular damage is disproportionately greater than glomerular injury):

    
    
    
    
    • i.
      

      Normotension or slight hypotension is present.

      
      
    • ii.
      

      Edema is present uncommonly.

      
      
    • iii.
      

      Hypokalemia is present in some.

      
      
    • iv.
      

      Renal function is improved by increasing intake of sodium and water; sodium restriction may rapidly lead to severe hyponatremia.

    
    
    
    
  • b.
    

    “Sodium retainers” are often children with glomerulonephritis; salt retention, hypertension, and edema predispose them to cardiac failure.

    
    
  • c.
    

    Potassium shifts due to displacement of K ⁺ from the cells by H ⁺ :

    
    
    
    
    • i.
      

      High serum K ⁺ levels

      
      
    • ii.
      

      Depressed excitability of muscles and nerves. This is particularly significant if the cardiac muscle is affected—further sudden rises in K ⁺ (e.g., with succinylcholine or increased acidosis) may precipitate cardiac arrest.

    
    
    
    
  • d.
    

    Calcium shifts:

    
    
    
    
    • i.
      

      If displacement of Ca ⁺⁺ by H ⁺ is prolonged, osteoporosis may develop.

    
    
    
    
  • e.
    

    Anion changes:

    
    
    
    
    • i.
      

      Plasma bicarbonate (HCO ₃ ⁻ ) is decreased.

      
      
    • ii.
      

      Plasma (SO ₄ ⁻ ), (HPO ₄ ⁻ ) and (Cl ⁻ ) are increased.

    
    

  
  
  
  
• 5.
  

  Cardiovascular problems:

  
  
  
  
  • a.
    

    Hypertension may result from abnormalities of extracellular fluid regulation, fluid overload, and derangement of the renin-angiotensin-aldosterone system:

    
    
    
    
    • i.
      

      In many children (those with hypertension secondary to sodium and water retention), this can be controlled conservatively (i.e., by careful moderate salt restriction).

      
      
    • ii.
      

      In some children, the BP can be titrated against sodium and water content during dialysis.

      
      
    • iii.
      

      In others, drug therapy with diuretics and vasodilators is necessary.

      
      
    • iv.
      

      In a few, even large doses of antihypertensive agents fail to control the hypertension (which is probably caused by overproduction of renin). Retinopathy and/or encephalopathy may develop, and bilateral nephrectomy may become necessary.

      
      
    • v.
      

      Hypertensive crisis may occur, occasionally in the perioperative period. Diazoxide (5 mg/kg) has commonly been used for this indication, but a labetalol infusion is now the therapy of choice.

    
    
    
    
  • b.
    

    Congestive heart failure may occur with advanced renal failure, as a result of hypertension, volume overload, anemia, electrolyte imbalance, and the effects of an arteriovenous (AV) fistula:

    
    
    
    
    • i.
      

      Digitalis therapy is difficult to control.

      
      
    • ii.
      

      Pericardial effusion and tamponade may occur.

    
    
    
    
  • c.
    

    Fatty degeneration of the myocardium may occur secondary to chronic renal failure.

  
  
  
  
• 6.
  

  Pulmonary congestion:

  
  
  
  
  • a.
    

    The alveolar-arterial partial oxygen pressure difference (A-aDO ₂ ) may be large.

    
    
  • b.
    

    Sodium and water retention, left ventricular failure, and hypoproteinemia contribute to the development of “uremic lung.”

    
    
  • c.
    

    Pleural effusions may develop.

  
  
  
  
• 7.
  

  Gastrointestinal disturbances:

  
  
  
  
  • a.
    

    Anorexia, nausea, and vomiting (due to bacterial breakdown of urea to ammonia in the gastrointestinal tract) may aggravate the water, electrolyte, and acid-base imbalance. Gastric emptying may be delayed.

  
  
  
  
• 8.
  

  Multiple medications:

  
  
  
  
  • a.
    

    Many of these children are receiving long-term steroid therapy with resultant osteodystrophy, Cushingoid state, and glycosuria.

    
    
    
    
    • 
      

      Continue steroid therapy perioperatively.

    
    
    
    
  • b.
    

    Antihypertensive polypharmacy: potential cardiovascular instability under anesthesia must be anticipated. (Do not discontinue these drugs before surgery.)

    
    
  • c.
    

    Digitalis and diuretic therapy may lead to K ⁺ depletion and thus to increased susceptibility to cardiac arrhythmias.

    
    
  • d.
    

    Antibiotics (e.g., gentamicin) may prolong the effect of nondepolarizing muscle relaxants.

    
    
  • e.
    

    Antimetabolites (e.g., azathioprine) that are highly protein-bound may increase the bioavailability of other protein-bound drugs by displacing them from the protein molecule.

  
  
  
  
• 9.
  

  Reduced immunity (risk of infection): it is vital to practice very careful asepsis.

  
  
• 10.
  

  Poor quality of life and potentially major psychological disturbances:

  
  
  
  
  • a.
    

    Resulting from chronic debilitating disease

    
    
  • b.
    

    Heightened by the uremic state and knowledge of a life-threatening condition

  
  

In summary, these children may have:

• 1.
  

  Reduced O ₂ carrying capacity, which is dependent on a stressed cardiovascular system

  
  
• 2.
  

  Incipient or apparent cardiac failure:

  
  
  
  
  • a.
    

    Left ventricular failure if hypertensive, hypervolemic, and anemic

    
    
  • b.
    

    Right ventricular failure (late)

  
  
  
  
• 3.
  

  Greater risk of cardiac arrest (e.g., due to increased K ⁺ and acidosis)

  
  
• 4.
  

  Intolerance of inaccurate administration of blood, other fluids, and electrolytes

  
  
• 5.
  

  Cardiovascular instability due to long-term administration of antihypertensive drugs

  
  
• 6.
  

  Coagulopathy

  
  
• 7.
  

  Low resistance to infection

  
  
• 8.
  

  Very low tolerance to further discomfort, however minor (e.g., finger prick, movement from one bed to another)

Many of the problems of chronic renal failure may be significantly reduced when the child is on a renal dialysis program and under close medical supervision. However, some children are underweight, some are hypertensive, and other disease processes may be present. Every child should be very carefully assessed preoperatively.

N.B. Many children with impaired renal function are undergoing hemodialysis regularly and therefore have an AV shunt or fistula usually in the arm. Special care must be taken to ensure that this shunt is well protected and kept functioning throughout the perioperative period. The child must not be allowed to lie on that limb at any time, and it should not be used for blood pressure determinations. The function of the AV fistula should be monitored perioperatively (Doppler flowmeter).