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Hypokalemia

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Hypokalemia Surgical Care Surgical intervention is required only after determining that the etiology requires it. Etiologies that may require surgery include the ... – PowerPoint PPT presentation

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Title: Hypokalemia


1
Hypokalemia
2
INTRODUCTION
  • Potassium is one of the body's major ions.
  • Nearly 98 of the bodys potassium is
    intracellular.
  • The ratio of intracellular to extracellular
    potassium is important in determining the
    cellular membrane potential.
  • Small changes in the extracellular potassium
    level can have profound effects on the function
    of the cardiovascular and neuromuscular systems.
  • The kidney determines potassium homeostasis, and
    excess potassium is excreted in the urine.

3
INTRODUCTION
  • potassium is necessary for the maintenance of
    normal charge difference between intracellular
    and extracellular environments.
  • potassium homeostasis is tightly regulated by
    specific ion-exchange pumps (primarily by a
    cellular, membrane-bound, sodium-potassium
    ATP-ase).
  • Derangements of potassium regulation often lead
    to neuromuscular, gastrointestinal, and cardiac
    conduction abnormalities.

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Definition
  • Hypokalemia is defined as a potassium level less
    than 3.5 mEq/L.
  • Moderate hypokalemia is a serum level of 2.5-3
    mEq/L.
  • Severe hypokalemia is defined as a level less
    than 2.5 mEq/L.
  • The reference range for serum potassium level is
    3.5-5 mEq/L

6
PATHOPHYSIOLOGY
chronic inadequate intake, long-term diuretic or
laxative use, chronic diarrhea, hypomagnesemia
hyperhidrosis
Total body deficit of potassium
diabetic ketoacidosis, severe GI losses
vomiting / diarrhea, dialysis, and diuretic
therapy
Acute potassium depletion
potassium shifts from the EC to IC space
Alkalosis hypothermia insulin, catecholamines
Distal RTA Bartter syndrome, Periodic
hypokalemic paralysis, Hyperaldosteronism
hyperthyroid.
Other causes
7
Abnormalities of serum potassium are associated
with well described clinical features

S. K level Clinical features
lt3.5 mmol/l Lassitude
 lt 2.5 mmol/l Possible muscle necrosis
lt2 mmol/l Flaccid paralysis with respiratory compromise
Gennari FJ. Hypokalemia. N Engl J Med 1998 339
451-458
8
Effects of hypokalemia
  • Atrial/ventricular Arrhythmias are more common in
    patients with underlying heart disease
    (especially CAD) and in patients taking digoxin.
  • life-threatening Cardiac Arrhythmias can occur
    when the serum potassium is very low (lt 2 meq/L),
    or when the serum potassium is relatively low (2
    - 3 meq/L) in patients with underlying heart
    disease, or when the patient is digoxin-toxic.

9
Effects of hypokalemia
  • severe (or rapidly occurring) hypokalemia can
    cause muscle weakness and paralysis the paralysis
    mainly affects the proximal lower extremities gt
    progressing to affect the upper extremities
    dysphagia and dysarthria are uncommon and cranial
    nerve palsies are exceedingly rare)
  • Rhabdomyolysis can occur in severely
    potassium-depleted patients - especially
    following vigorous exercise - and muscle necrosis
    can rarely occur

10
Effects of hypokalemia
  • hypokalemia produces a carbohydrate-intolerance
    (? due to impaired insulin release and ? impaired
    insulin resistance) gt worsening hyperglycemia in
    diabetics.
  • hypokalemia also produces a metabolic alkalosis
    (by ? stimulation of bicarb absorption by the
    proximal tubule and ? renal ammoniagenesis)
  • hypokalemia can contribute to the development, or
    worsen the symptoms, of hepatic encephalopthy (?
    due to renal ammoniagenesis)

11
Investigations
  • Although ECG changes may be helpful if present,
    their absence should not be taken as reassurance
    of normal cardiac conduction. The ECG in
    hypokalemia may appear normal or may have only
    subtle findings immediately prior to clinically
    significant dysrhythmias.
  • During therapy, monitor for changes associated
    with over-correction and hyperkalemia including
    prolonged QRS, peaked T waves, bradyarrhythmia,
    sinus node dysfunction, and asystole.

12
The ECG findings in hypokalemia Ventricular
dysrhythmia, Prolongation of QT interval, ST
segment depression, T wave flattening U waves.
13
Investigations
  • Drug screen (serum or urine)
  • Amphetamines and other sympathomimetic stimulants
    can cause hypokalemia.
  • Other drugs include
  • verapamil overdose.
  • Theophylline.
  • amphotericin B.
  • Aminoglycosides.
  • cisplatin.
  • Hormonal assay
  • Serum ACTH,
  • Cortisol,
  • Renin activity,
  • Aldosterone

14
left adrenal adenoma


Conn syndrome
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17
2. Replenishing potassium stores
  • There is no direct correlation between the serum
    potassium and the total body potassium deficit,
    but a rough estimate is to assume a total body
    deficit of 200 - 400 meq of potassium for every
    1 meq/L the serum potassium is below 4 meq/L
  • consider the possibility of associated magnesium
    deficiency

18
Replenishing potassium stores
  • cardiac monitoring is necessary in patients with
  • profound hypokalemia (lt 2.5 meq/L), or
  • if cardiac arrhythmias are present, or
  • if IV potassium is going to be rapidly
    administered.
  • IV potassium should normally be diluted in
    saline solution so that the maximum concentration
    is 40 meq/L (peripheral lines) or 60 meq/L
    (central lines) and IV potassium.

19
IV infusion rate for severe or symptomatic
hypokalemia
Standard IV replacement rate 10 - 20 meq/h
Serum potassium lt 2.5 meq/L, or Moderate-severe symptoms 20 - 40 meq/h
Serum potassium lt 2.0 Meq/L, or Life-threatening symptoms gt 40 meq/h
If heart block, or Renal insufficiency exists 5 - 10 meq/h
  • .

20
Medical Decision-Making and Treatment
  • Transient, asymptomatic, or mild hypokalemia may
    resolve spontaneously or may be treated with
    enteral potassium supplements.
  • Potassium replacement therapy is immediately
    indicated for
  • Severe hypokalemia (lt 2.5 meq/L), or
  • If the hypokalemia is causing muscle paralysis,
    or
  • Malignant cardiac arrhythmias .

21
Medical Decision-Making and Treatment
  • Outpatient therapy and follow-up in 48 - 72 hours
    may be acceptable for mild hypokalemia patients
    with no underlying heart disease.

22
Medical Decision-Making and Treatment
  • The patient should be transferred to ICU for
    severe or symptomatic hypokalemia for
  • IV potassium supplementation.
  • Continuous cardiac monitoring.

23
Magnesium Replacement Therapy
  • Magnesium replacement therapy is often necessary
    in malnourished alcoholics with hypokalemia.
  • Hypomagnesemia should be suspected if the serum
    potassium does not increase within 96 hours of
    the commencement of potassium supplementation
    therapy.
  • Magnesium can be given orally (3g x 4 doses).

24
what is the next step?
The cause of hypokalemia
25
Certain simple combinations of clinical features
and abnormal laboratory values could suggest a
particular diagnosis
26
Q.1. Hypertension High Serum Renin High Serum
Aldosterone.
  • Renin secreting tumor or
  • Bilateral renal artery stenosis or
  • Malignant hypertension

27
Q.2. Hypertension Low Serum Renin High Serum
Aldosterone.
Primary Hyperaldosteronism
28
Q.3. Hypertension Low Serum Renin  Low Serum
Aldosterone.
  • Liddle syndrome or
  • congenital adrenal hyperplasia or
  • chronic ingestion of licorice-compounds
    containing glycyrrhizin or
  • ingestion of other exogenous mineralocorticoids

29
Q.4.Hypertension Normal/high Serum Renin
Normal Serum Aldosterone
Cushings Syndrome
30
Q.5. Hypotension/normotension High Serum Renin
High Serum Aldosterone.
Secondary Hyperaldosteronism
31
Q.6. Normotension metabolic acidosis
hyperchloremia urine ph gt 6.
Distal RTA
32
Bartter's syndrome
  • Q.7.
  • Normotension/hypotension
  • Increased serum renin
  • Metabolic aklalosis
  • Hypomagnesemia
  • Hypercalciuria
  • Increased urinary chloride (gt 100 meq/l)

33
Q.8. Normotension/hypotension metabolic
alkalosis low urinary chloride
  • Surreptitious vomiting or
  • Prolonged naso-gastric suction and excessive
    gastric fluid loss

34
Surgical Care
  • Surgical intervention is required only after
    determining that the etiology requires it.
  • Etiologies that may require surgery include the
    following
  • Renal artery stenosis.
  • Adrenal adenoma.
  • Intestinal obstruction producing massive
    vomiting.
  • Villous adenoma.

35
Consultations
  • The following consultations may be appropriate,
    depending on the clinical findings
  • Nephrologist for evaluation of unexplained
    urinary potassium losses suggested to be
    secondary to a tubular disorder.
  • Endocrinologist if Cushing syndrome, primary
    hyperaldosteronism, glucocorticoid-remediable
    hypertension, or congenital adrenal hyperplasia
    is suggested.
  • Psychiatrist for alcoholism or eating disorders
  • Surgeon.

36
Diet ?low-sodium and high-potassium
  • The low-sodium diet limits the amount of sodium
    reabsorbed at the cortical collecting tubule,
    thus limiting the amount of potassium secreted.

37
Further Inpatient Care
  • Matching potassium intake to losses.
  • Monitoring for Hypokalemia or Hyperkalemia Due to
    Therapy By
  • periodic testing of serum potassium levels
  • EKG.
  • Alleviation of aggravating conditions.

38
Further Outpatient Care
  • Patients should receive follow-up medical care
    for home management if the condition is expected
    to persist beyond inpatient care.
  • Additional medical follow-up must be obtained for
    associated medical conditions.

39
Patient Education
  • Patients should be educated in terms of
    predisposing conditions.
  • The importance and risks involved with potassium
    supplementation and
  • The warning signs of hypokalemia or
    over-treatment must be emphasized in discharge
    teaching.
  • Knowledge of cardiopulmonary resuscitation and
    education on timely access to emergency medical
    services may prevent morbidity or mortality.
  • Ongoing communication is essential in reducing
    the risks and therapy, especially in patients
    with chronic conditions associated with
    hypokalemia.

40
Medical/Legal Pitfalls
  • Failure to adequately communicate the risks of
    treatment
  • Failure to appropriately monitor patients
    receiving potassium supplementation for
    complications,
  • Failure to follow serum potassium and other
    electrolyte concentrations during or after
    therapy
  • Treating a patient based on a falsely low serum
    potassium value due to sampling or lab error
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