Hyperkalemia
sujayiyer
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Feb 13, 2017
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About This Presentation
A description of management of hyperkalemia in CKD patients
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Management of hyperkalemia in ckd Dr.Satchi A.Surendran Post Graduate General Medicine 13/02/2017
Hyperkalemia -Numbers of Interest Potassium >5.5mEq/L 10% of Hospitalised patients 1% with severe hyperkalemia – High Mortality In CKD/ESRD patients* 40 -50 % prevalence 1.9 – 5% of deaths in ESRD *Arch Intern Med. 2009;169(12):1156-1162
Mortality Risk The study concludes, The risk of hyperkalemia increases with CKD. Further more, the Odds Ratio for Mortality at 1 day of the event is also higher with hyperkalemic events in CKD. Hence, this signifies the importance of Hyperkalemia as a concern to patient safety in CKD.
Causes Pseudohyperkalemia Increased Intra to extra cellular shift Decreased Excretion
Pseudohyperkalemia – to be ruled out
Cellular Shift
Inadequate Excretion Inhibition of RAAS ACE Inhb /ARBs/ ENaC Inhb /Aldo Inhb . Hyoreninemic Hypoaldosteronism Diabetic Nephropathy, Tubulo Interstitial Diseases Primary Adrenal Insufficiency Autoimmune, Drugs (Heparin), Infections, Infiltrative,Congenital
Advanced Renal Disease Preservation of normokalemia results from Upto 15ml/min GFR: An adaptive increase in K + excretion by remnant nephrons Below 15 ml/min GFR: Increased colonic excretion. Three times more colonic excretion of K+ is documented in CKD patients Vs Normal Individuals
Role of Diet in CKD An impaired GFR combined with a frequently high dietary K + intake relative to residual renal function If potassium intake is normal, CKD does not produce significant hyperkalemia until the GFR is < 5 ml/min* Electrolyte & Blood Pressure 2005; 3:71-78.
CKD Sub Groups with High Risk of Hyperkalemia DM Kidney Transplant Recipients On RAAS Inhibitor Therapy * Metabolic Acidosis Anemia requiring Blood transfusion Acute kindney Injury CardioVascular Co-morbidity * *Drug Induced Hyperkalemia
Drug induced Hyperkalemia In an observational retrospective study of nondialyzed patients with serum potassium of 6.5 mmol /L or greater on admission or during hospital stay, more than 60% were taking at least one drug known to cause or worsen hyperkalemia .
CKD + ACE Inhibitors – Patient Profile at risk Advanced Age > 80 Years Diabetes Heartfailure Increased starting dose of ACE I (>10mg//day) Concomitant use of K+ Supplements Current use of ARBs/Potassium Sparing Diuretics Higher Base line Potassium – Higher the risk
Management Principles Clinical management for hyperkalemia in patients with CKD requires Exclusion of pseudohyperkalemia Assessment of the urgency for treatment, and Appropriate acute and chronic therapy
PseudoHyperkalemia Important to avoid unnecessary treatment The most common cause of pseudohyperkalemia is hemolysis , which is usually Easily noted due to a pink tinge to the plasma resulting from release of hemoglobin from damaged red blood cells Alternatively, an excessively tight tourniquet surrounding an exercising extremity (e.g., opening and closing a hand) can increase plasma K + by > 2 mEq /L ) Excessive numbers of either leukocytes > 70,000/cm 3 , or platelets > 1,000,000/cm 3 also can lead to pseudohyperkalemia
Pseudohyperkalemia When the serum K + is >0.3 mEq /L as compared with a simultaneous plasma K + , Pseudohyperkalemia should be diagnosed Plasma K + can be measured by obtaining a heparinized blood specimen If pseudohyperkalemia exists, All further K + levels should be measured using plasma
ECG Manifestations of True Hyperkalemia ECGs Considered to be sensitive indicators of the presence of hyperkalemia ECG abnormalities consistent with hyperkalemia in the hospitalized hyperkalemia patients were observed in only 14% of episodes Serum K + levels > 8 mEq /L are almost invariably associated with ECG abnormalities
ECG Correlation
Clinical Manifestations Minor ECG abnormalities (tall-peaked T waves) may be the first indication of hyperkalemia but By the time serious changes occur, the patient usually complains of muscle weakness, paresthesia , and lethargy Severe hyperkalemia Can cause bilateral flaccid paralysis of extremities, and weakness of respiratory muscles However unlike hypokalemia , complete paralysis is uncommon.
Acute Vs Chronic Hyperkalemia ACUTE CHRONIC Singular Event; Requires no Ongoing Management >1 event /year; requires ongoing management Caused by abnormal net release of K+ from cells (metabolic acidosis/trauma/ hemolytic states) Caused by impairment of K+ excretory process
Acute Management Acute reduction of serum K + is required at levels exceeding 7.0 mEq /L, because of the risk of cardiac arrest For acute therapy of hyperkalemia in an urgent situation, regardless of the underlying cause, following treatments have been recommended
Calcium Gluconate IV Emergency treatment should be started by the administration of calcium (10-30 mL of 10% calcium gluconate over 10 min intravenously) Intravenous infusion of calcium is the most rapid and effective way to antagonize the myocardial toxic effects of hyperkalemia
Dextrose Insulin Infusion Furthermore, intravenous glucose (50 mL dextrose 50 %, preferably by central venous infusion) should be given followed by or combined with 10 units of short-acting regular insulin, because Combined administration of glucose and insulin results in a greater decline in serum K + levels Intravenous insulin rapidly stimulates uptake of K + into cells, primarily the muscle and liver
Beta Agonists β2-adrenergic agonists, which also induce cellular K + uptake, are useful for the acute therapy of hyperkalemia A direct comparison between Intravenous (0.5 mg) and nebulized (10 mg) albuterol ( salbutamol ) in ESRD patients revealed a similar potassium-lowering
Beta Agonists However, 20-40% of ESRD patients are refractory to the K + -lowering effect of albuterol and Not possible to predict non-responders Combined use of β2-adrenergic agonists with glucose and insulin will maximize the reduction in serum K +
Dialysis for Refractory/ Severe Hyperkalemia Hemodialysis is the most rapid method of K + removal Removal rates of K + can approximate 35 mEq /hr with a dialysate bath potassium concentration of 1-2 mEq /L A glucose free dialysate is preferable to minimize a glucose-induced shift of K + into cell, lessening the removal of K +
Dialysis Peritoneal dialysis and chronic hemodiafiltration are effective in chronic hyperkalemia , but Do not remove K + fast enough to be recommended for use in acute, severe hyperkalemia Although dialysis is the most rapid method available to treat most cases of hyperkalemia , other modes of treatment should not be delayed while waiting to institute dialysis
Chronic Hyperkalemia To find modifiable causes of hyperkalemia in CKD patients Common modifiable causes are Concomitant medications and Excessive dietary intake A careful history on the dietary habit and the medication is necessary
Treatment Strategies (1)to avoid or replace drugs that cause hyperkalemia ; (2) to prescribe a low-potassium diet and avoid constipation, and (3) to enhance potassium excretion by residual functioning nephrons or to remove it more efficiently by dialysis and/or by the gastrointestinal tract
Diuretic Therapy Chronic treatment of hyperkalemia in CKD Promoting diuresis with a loop diuretic can control chronic, mild hyperkalemia
Diuretic Therapy Thiazide and loop diuretics increase the delivery of sodium to the distal tubule, thereby increasing urinary potassium excretion This may be useful in CKD, especially in patients treated with an ACE inhibitor or ARB Thiazides effective in GFR >30ml/ mt ;Loop diuretics instituted for lower levels.
Cation Exchange Resins Either after acute hyperkalemia has been corrected or in chronic management of less severe hyperkalemia in CKD patients, the more slowly acting Cation exchange resin may be given orally or rectally (e.g. sodium/calcium polystyrene sulfonate 15-30 g, with an equal amount of sorbitol to prevent fecal impaction) Cation exchange resin may be given in order to prevent a further increase in serum K +
Potassium binding resins in hyperkalemia In hyperkalemic patients, oral SPS mixed in water significantly decreases serum potassium within 24 hours CJASN ePress . Published on August 26, 2010
Potassium binding resins in hyperkalemia SPS/ sorbitol -associated colonic necrosis is most commonly seen in patients who have received enemas in the setting of recent abdominal surgery, bowel injury, or intestinal dysfunction It is a rare event, on the order of 0.2 to 0.3%, almost exclusively present in patients at risk CJASN ePress . Published on August 26, 2010
Potassium binding resins in hyperkalemia SPS ion-exchange resins are the only agents, other than dialysis and diuretics, Available to increase K + excretion in hyperkalemia , and when used appropriately, they appear to be Clinically effective and reasonably safe
Chronic Hyperkalemia Summary Either asymptomatic and mild hyperkalemia or chronic hyperkalemia in CKD patients is common
Conclusions Hyperkalemia is common and life threatening complication of CKD The effective and rapid diagnosis and management of acute and chronic hyperkalemia is clinically relevant and can be life-saving
Conclusions In treatment of moderate to severe hyperkalemia , the combination of medications with different therapeutic approaches is usually effective, and often methods of blood purification can be avoided. In patients with severe hyperkalemia and major ECG abnormalities, conservative efforts should be initiated immediately to stabilize the patient, but management should include rapid facilitation of renal replacement treatment
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