Potassium Disorder

Question 1

What are the physiological functions of potassium

Answer 1

Cell metabolism, glycogen and protien synthesis, electrical action potential

Question 2

What is the distribution of total body K+, how much intracellular, how is it distributed intracellularly, extracellular

Answer 2

50 mEq/kg, 98% (150 mEq/L), 75% skeletal muscle/25% liver and blood cells, 2% (4mEq/L) extracellular

Question 3

What are mechanisms that cause hypokalemia

Answer 3

Stimulation of NA/K ATPase pump, intracellular shift of K+, metabolic alkalosis

Question 4

What are mechanisms that cause hyperkalemia

Answer 4

inhibition of Na/K ATPase pump, release of K+ from cells, metabolic acidosis

Question 5

What are conditions that would cause stimulation of Na/K ATPase pump (drive K+ in)

Answer 5

Excess insulin, Beta 2 adrenergic agonist, alpha 1 antagonist, aldosterone

Question 6

What are conditions that would inhibit Na/K ATPase pump (slow K+ in)

Answer 6

Lack of insulin, Beta 2 adrenergic antagonist, alpha 1 agonist, digoxin toxicity

Question 7

What are conditions that would cause a release of K+ from cells

Answer 7

injury/trauma, exercise, catabolism, hyperosmolarity

Question 8

T/F: Anabolism causes an intracellular shift of potassium

Answer 8

True

Question 9

What are determing factors for the degree of how much potassium leaves the body

Answer 9

a very high potassium concentration, presence of aldosterone, delivery of sodium water into the kidney

Question 10

Why does metabolic acidosis cause hyperkalemia

Answer 10

In order to compensate for high H+ the hydrogen ions are pushed in and K+ is pushed out in order to keep the electrostatic balance

Question 11

Why does metabolic alkalosis cause hypokalemia

Answer 11

In order to compensate for low H+ the hydrogen ions are pushed out and K+ is pushed in in order to keep the electrostatic balance

Question 12

What is the inverse relationship between ph and K+

Answer 12

every increase in ph of .1 leads to a decrease of 0.6 mEq/L

Question 13

What is the normal range for K+

Answer 13

3.5-4 mEq/L

Question 14

What range is considered hypokalemia

Answer 14

less than 3.5 mEq/L

Question 15

Which patients are more likely to suffer complications from hypokalemia

Answer 15

congestive heart failure, left ventricualr hypertrophy, cardiac ischemia

Question 16

What are outcomes of uncorrected hypokalemia

Answer 16

Essential hypertension, ischemic and hemorrhagic stroke, arrhythmias, death

Question 17

What are the causes of hypoalkemia

Answer 17

insufficient dietary intake, metabolic alkalosis, periodic paralysis, hyperaldosteronism, diuretics/osmotic diuersis,hypomagnesia

Question 18

What are medications that may cause intracellular shift of K+ causing hypokalemia

Answer 18

Beta 2 adrenergic agonists (albuterol), phosphodiesterace inhibitors (theophylline, caffeine), insulin, barium or verapamil overdose

Question 19

How do diuretics cause hypoalkemia

Answer 19

Na+ reabsorption is hindered causing a large amount to be in the kidney, the body will then activate the Na/K ATPase in the collecting duct causing K+ to be secreted out into the urine

Question 20

What are the signs of hypoalkemia

Answer 20

muscle weaknes (more lower than upper), constipation. EKG changes, arrhythmias, ascending paralysis

Question 21

In EKG readings what wave changes due to hypokalemia and how is it changed

Answer 21

T wave, inversion

Question 22

How does hypoalkemia increase the risk for hypertension

Answer 22

low release of sodium in the urine, low direct vasodilation, high sensitivity to norepinephrine or angiotensin 2

Question 23

How does hypoalkemia increase the risk for stroke

Answer 23

higher blood pressure, higher free O2 free radicals and higher arterial thrombosis

Question 24

T/F: An increase in K+ intake can cause a lower stroke rate in pateints and decrease blood pressure

Answer 24

True

Question 25

What is the goal range for patients who have hypokalemia

Answer 25

greater than or equal to 4 mEq/L

Question 26

What are the primary ways to treat hypoalkemia

Answer 26

treat the underlying cause, treat hypomagnesia, avoid drugs that drop K+

Question 27

Around what range should the patient have a moderate to sever symptoms of hypoalkemia

Answer 27

3.0- 2.7 mEq/L, less than 2.7 mEq/L

Question 28

In patients who have hypokalemia what is the method to estimate the potassium defecit

Answer 28

If the K+ is greater than or equal to 3.0 mEq/L; each 0.1 mEq/L lower in the K+ level represents a 10 mEq deficit, If the K+ is less than 3.0 mEq/L, each 0.1 mEq/L represents a 20 mEq deficit

Question 29

Which food has the highest potassium content

Answer 29

dried figs molasses, nuts avocados ban cereals lima beans

Question 30

T/F: Dietary changes cause an immediate change in K+

Answer 30

False: these changes happen over days

Question 31

What is the oral potassium supplement dosing that aides in hypokalemia

Answer 31

divide the dose into no more than 40mEq doses at a time every 3-4 hours to avoid Gi ADR

Question 32

What potassium oral supplement is used most often for hypoalkemia, What is the dosage strength,why

Answer 32

KCl controlled release, 10 mEq, less likely to cause GI irritation

Question 33

What are the parenteral main routes for Potassium supplements

Answer 33

IVPB or continuous infusion, must be at a rate and mixed

Question 34

T/F: Potassium can be administered IM, IVP or SC

Answer 34

False: Potassium can NEVER be administered IM, IVP, or SC

Question 35

What is the rate of administration for potassium supplementation through peripheral access or non cardiac monitoring, maximum concentration for continuous flowing IV fluids and IV piggyback

Answer 35

10 mEq/hr, 40-60mEq/1000ml and 40meq/250 ml

Question 36

What is the rate of administration for potassium supplementation through central access with cardiac monitoring, what is the maximum concentration

Answer 36

20 mEq/hr but up to 40-100 mEq/hr in rare life threatening cases 40mEq/100ml

Question 37

What is the range that diagnosis as hyeralkemia, what is susceptible population of patients

Answer 37

greater than 5 mEq/L, acute and chronic renal disease

Question 38

Causes of pseduo-hyperalkemia

Answer 38

hemolysis, thrombocytosis, leukocytosis, erythrocytosis

Question 39

What are the causes of hyperkalemia

Answer 39

dietary source, medications (penicillin), extracellular shift of K+

Question 40

T/F: Hyperosmolarity from hyperglycemia can cause hyperkalemia

Answer 40

True

Question 41

Which medications cause impaired K+ excretion leading to hyperkalemia

Answer 41

spironolactone, eplerenone, trimethoprim, NSAIDS, tacrolimus cyclosporine, amiloride

Question 42

What are symptoms of cardiac hyperkalemia

Answer 42

slower ventricular conduction, decreased duration of action potential, depolarizes the cell membrane, EKG changes, arrhythmia (AV block,cardiac arrest)

Question 43

In EKG readings what wave changes due to hyperkalemia and how is it changed

Answer 43

T- wave, Tall peaked

Question 44

What are the primary treatments for hyperkalemia

Answer 44

treat the underlying cause, asses for pseudohyperkalemia

Question 45

In severe hyperkalemia what are the objectives to reach for a patient

Answer 45

membrane stabilization (restore the normal gradient with the resting membrane potential), intracellular shifting ( stimulate Na/K ATPase, increase serum pH), elimination (increase delivery of Na+ and urine flow rate)

Question 46

What drug will stabilize the membrane, what is checked after treatment

Answer 46

Calcium IV for 30-60 mins, EKG

Question 47

What are the neuromuscular symptoms of hyperkalemia

Answer 47

muscle twitching, cramping, flaccid paralysis, paraesthesias

Question 48

What is the prophylactic dose for potassium if diuretics are needed

Answer 48

10-20 mEq per day and titrate as needed

Question 49

Around what range should a patient have moderate to severe hyperkalemia symptoms

Answer 49

6.5-8, greater than 8

Question 50

What drug will be used to stabilize the intracellular shift of hyperkalemia, what is the dose, what is a risk

Answer 50

insulin 10 units IV +/- 50 ml of D5W, hypoglycemia

Question 51

In order to treat hyperkalemia when is insulin given with D5W

Answer 51

When the patients glucose is less than 200

Question 52

T/F: Insulin given for hyperkalemia should be taken from 1 to 2 hours

Answer 52

False: Insulin should be IV for 4-6 hours

Question 53

What drug will be used for hyperkalemia caused by metabolic acidosis

Answer 53

NaHCO3

Question 54

What are the 3 medications/methods used for elimination in hyperkalemia

Answer 54

sodium polystyrene sulfonate, furosemide, dialysis

Question 55

What are the two distribution routes for sodium polystyrene sulfonate, what are the doses for each

Answer 55

PO: 15-30 grams in 70% sorbitol every 4-6 hours, Rectal: 30-60 grams per rectum every 4 to 6 hours

Question 56

T/F: Sodium polystyrene must be eliminated from the body no matter what the route is

Answer 56

True