Na+ Balance

Question 1

Revised Henderson eqn

Answer 1

pH = 24 x (pCO2/HCO3)but this needs to be converted to [H+]

Question 2

What is the relationship between pH and [H+]?

Answer 2

at pH of 7.4, [H+]= 40change of pH of 0.3= 2x[H+]7.7=207.1=806.8=160

Question 3

There are no specific “normal” values for urinary concentrations. Why?

Answer 3

Plasma constituents of water and numerous solutes are maintained within a very narrow range by the homeostatic mechanisms performed by the kidney. This requires variation in the urinary excretion of water and solutes by the kidney.

Question 4

Normal plasma concentrations:

Answer 4

Arterial blood gas measurements:Sodium 140 meq/l pH 7.40 Potassium 4.0 – 5.0 meq/l CO2 40 mm HgChloride 104 meq/l Bicarbonate 24 meq/lBUN 10 mg/dlCreatinine 1.0 mg/dlCalcium 9.0-10.0 mg/dlPhosphorus 4.0–5.0 mg/dlAlbumin 4.0-4.5 g/dlOsmolality ~290 mosm/kg H2O

Question 5

TBW represents what percentage of BW?

Answer 5

60%2/3 of TBW is intracellular fluid volume (ICFV). ICFV = 0.4 BW1/3 of TBW is extracellular fluid volume (ECFV). ECFV = 0.2 BW3/4 of ECFV is interstitial fluid volume (ISFV). ISFV = 0.15 BW1/4 of ECFV is plasma volume (PV). PV = 0.05 BW

Question 6

T or F. ICFV osmolality always equals ECFV osmolality

Answer 6

T, due to passive movement of H20

Question 7

What is the major cation in ICFV? ECFV?

Answer 7

K+. Na+ is major cation of ECFV since it is virtually restricted to ECFV.

Question 8

What are the events that follow the ingestion of Na+?

Answer 8

-increased TBNa-increased osmolarity of ECFV since Na+ is restricted-leading to increased thirst and H2O intake and AVP secretion

Question 9

So what is the net result of ingestion of Na+?

Answer 9

The net result then is retention of isotonic NaCl and expansion of ECFV with little or no change in ICFV.

Question 10

How is isotonic volume depletion performed?

Answer 10

Isotonic volume depletion occurs when isotonic fluids are lost from the ECFV such is the case in vomiting of gastric contents or diarrhea

Question 11

What is the result on ICFV of isotonic volume depletion?

Answer 11

no change in ICFV since ECFV osmolality is unchanged because the volume lost is isotonic

Question 12

The composition of ions in gastric and intestinal fluid differ from plasma. How would vomiting (loss of gastric fluid) affect the body?

Answer 12

Gastric losses are rich in HCl and would, therefore, be associated with metabolic alkalosis in addition to the ECFV loss.

Question 13

How would diarrhea (loss of intestinal fluid) affect the body?

Answer 13

Intestinal fluid is relatively rich in HCO3- and would result in normal anion gap metabolic acidosis in addition to ECFV loss.

Question 14

NOTE: Changes in TBNa (up or down) are synonomous with changes in ECFV

Answer 14

increased TBNa lead to ECFV expansion and decreased TBNa leads to ECFV depletion

Question 15

Plasma Na+ concentration (mEq/L) per se tells you nothing about TBNa content or the size of the ECFV. Why?

Answer 15

Plasma Na+ concentration is always determined by the ratio of TBNa to TBW (more specifically to ratio of total body cations to total body water, K in ICFV and Na in ECFV)Low plasma Na+ concentration could be associated with low, normal, or expanded ECFV depending on the relative changes in TBNa, TBW, or both. The same would be true for increased Na+ concentration.

Question 16

A 65 yo women with a weight of 60kg has x L in the extracellular compartment. What is the value of x?

Answer 16

10L TBW= 0.5BW in a woman and = 0.6BW in a manand ECF is 1/3 of TBW

Question 17

A 28 yo women with no other medical problems comes to the ED with nausea and diarrhea. Her lying down BP is 100/70 and on standing drops to 80/60. She is tachycardia with cool extremities. Which set of urine electrolytes would you find in this patient? urine Na mEq/L Uosm A. 5 100B. 75 900C. 5 900 D. 75 100

Answer 17

C. Whenever there is extra-renal loss of sodium and the kidneys are normal, the kidneys will work to conserve Na and water

Question 18

What happens to water balance after ingestion of a water load?

Answer 18

Reduction in Posm with low ADH and a dilute urine

Question 19

Where is most of the plasma volume distributed?

Answer 19

80% venous and 20% arterial

Question 20

A. A 56 yo woman with type 2 diabetes mellitus, HTN. and CAD presents to the ED with chest pain and SOB. Her physical exam is significant for JVD, S3 gallop, bilateral rales (fluid in alveoli) and lower extremity edema. Na 130 mEq/l, K 4.2mEq/L, Cl 89mEq/L, HCO3- 24mEq/L, serum creatinine is 1.5mg/dl, glucose is 120mg/dLWhat will happen? (ECFV= extracellular fluid volume, ECV= effectives circulating volume)

Answer 20

Her ECFV is expanded, CO is low, and ECV is reduced Notice here that the total body Na+ is elevated even though serum Na+ is decreased (so this patient is hypoatremic)

Question 21

Total body Na+ is synonomous with ____.

Answer 21

ECFV. Is NOT the same as serum Na+. Can tell it’s elevated by a clinical exam that is similar to CHF (extended EJV, edema, bilateral rales etc.)

Question 22

What are the major constituents of ECF?

Answer 22

Na+, Cl-, and HCO3-

Question 23

What happens when the body feels that ECV is low?

Answer 23

Afferent sensors such as renin, catecholamine, thirst, and ADH are increased and ANP is decreased leading to Na+ and water retention

Question 24

What are the roles of angio II?

Answer 24

-Vasoconstriction-increases PT reabsorption of Na+ (Thus, urine Na+ decreases)

Question 25

What are the roles of aldosterone?

Answer 25

-increases distal reabsorption of Na+ Thus, urine Na+ decreases

Question 26

What does ADH result in?

Answer 26

distal collecting tube becomes permeable to water for increased reabsorption (making the urine more concentrated- i.e. Uosm will increase)

Question 27

What is ECV?

Answer 27

relates to the fullness and tension within the arterial tree Because only 15% of total blood volume is in the arterial compartment, arterial blood volume can be decreased in elation to the holding capacity of the tree.

Question 28

What are some situations where ECV is decreased in the presence of an elevated ECVF?

Answer 28

-CHF-liver disease-sepsis-nephrotic syndrome-pregnancy-anaphylaxis

Question 29

Why would liver disease be associated with a decrease in ECV in the presence of an elevated ECVF?

Answer 29

Because a lot of the blood is pooled into the splanchnic circulation

Question 30

When volume depletion occurs due to extra renal losses (e.g. diarrhea, burns) with normal renal function, how does the urine present?

Answer 30

urine becomes highly concentrated and salt poor

Question 31

When volume depletion occurs due to renal losses (e.g. diuretics), how does the urine present?

Answer 31

urine in inappropriate dilute and sometimes rich in salt

Question 32

What are some clinical features of volume depletion?

Answer 32

-hypotension-poor skin turgor-cool extremities

Question 33

How does the body react to balance water upon increase in ECF osmolality?

Answer 33

-CNS osmoreceptors are activated (after only 2% increase in osmolality) and release ADH release (this is called osmotic ADH release) causing water retention (as well as angio II)

Question 34

How does the body react to balance water upon decrease in effective circulating volume?

Answer 34

A decrease in 7-10% of effective circulating volume causes baroreceptor release of ADH (this is called non-osmotic ADH release) and angio II stimulating volume retention

Question 35

What is the eqn. for serum Na+ conc.?

Answer 35

Na(TBNa)/water volume (TBW)most causes of hypoatremia are caused by a relative increase in TB water

Question 36

What is hypoatremia defined as?

Answer 36

An abnormally low plasma Na+ conc. (less than 135mEq/L)diagnosis can be made from lab values

Question 37

If you see that the patient has hypoatremia, then what should you do next?

Answer 37

check osmolality (most will be hypo-osmolar due to the significance of [Na] in the plasma osmolality formula)

Question 38

What things can cause a hyperosmolar hypoatremia?

Answer 38

-mannitol is hyper-osmolar so it drags out water from the ICF to cause hypoatremia -hyperglycemia

Question 39

What should you do next once you know a patient has a hypo-osmolar hypoatremia?

Answer 39

is the ECVF elevated or lowered

Question 40

A 78yo man is brought into the ED fro decreased appetite and ‘altered mental statue’. On exam he is responsive to strong stimuli, has dry mucous membranes, flat neck veins, sacral decubitus ulcers and appears to be moving all extremities and facial muscles without deficits. Vital T=97.0, BP=80/50, HR=130, RR-14. Na=121, K=4.5, Cl=9.5, HCO3-=32, Glucose=140What are the changes in TBW and TBNa in this patient compared to baseline?

Answer 40

TBW and TBNa are both decreased but TBNa is lost more, but ADH has been activated Know TBNa is decreased from clinical signs This is hypovolemic hypoatremia- hypovolemic based on clinical signs and hypoatremic based on labs

Question 41

Describe hypovolemic hypoatremia

Answer 41

sodium depletion with reduction in ECF volume and secondary water retention due to non-osmotic stimulation of AVpPrelease Thus, TBW decreases and TBNa decreases even more translating to excess TB water relative to TBNa

Question 42

A 78yo women was brought to the hospital after a fall. Has Hx of HTN for which she took a CCB. A selective SSRI streamline has been prescribed 2 months prior for depression. She reported climbing a flight of stairs when she fell. Before the fall she experienced thirst for a number of days, but did not report other complaints. On exam, she had several cranial bruises, was disoriented to time and place. BP: 120/90, pulse of 80. No apparent sings of extracellular fluid volume contraction (so TBNa+ is normal)Na 125 (low), K 4.2, Creatinine 0.8mg/dL, serum osmolality 255mOsm/kg (low), Urine Na=44 mEq/L, urine Osml=523 mOsm/kg

Answer 42

she has hypo-osmolar euvolemic hypoatremiaSo her TBNa+ is normal and TBwater must be elevatedIn this, ADH should shut off and the Uosm should decrease (dilute-less than 100) but here her Uosm is way too high suggesting that she is retaining fluid because she has elevated ADH causing inappropriately concentrated urine

Question 43

Describe euvolemic hypoatremia.

Answer 43

water retention due to autonomous or altered regulation of vasopressin release (common cause- SIADH) causing increased TBwater and normal TBNa

Question 44

Causes of euvolemic hypoatremia?

Answer 44

-pulmonary disorders, CNS disorders, cancers-vasopressin analouges-hypothyroidism

Question 45

What are some vasopressin analouges?

Answer 45

chlorpropamide, clofibrate, narcotics, narcotics, carbemezepine, antipsychotics

Question 46

A 44yo patient with cirrhosis of the liver comes in with SOB. Exam revealed BP 100/70, elevated JVD, ascites, and marked pedal edema. Na-126 Meq/L, K 4.2 mEq/LCl 90, HCO3 28, BUN 20urine Na 10 and urine osmolality is 800mOsm/kgWhy is her serum Na so low?

Answer 46

hypo-osmolar hypervolemic hypoatremiaNon-osmotic stimulation of vasopressin release because of reduced ECV

Question 47

Causes of hypervolemic hypoatremia?

Answer 47

-CHF-Hepatic cirrhosis-Nephrotic syndrome-Renal disease

Question 48

A 75yo female NH resident is brought to the ED because of altered mental statue. She has stopped drinking after developing diarrhea due to trial gastroenteritis. She is found to communicate poorly. Brief physical exam reveals diminished skin turgor and flat neck veins. BP is 80/60. pulse 120, RR 20. Serum sodium 168, urine Na is 10, and Uosm is 600 mOsm/kgWhats going on?

Answer 48

She has external losses of sodium that are exceed by loss of free water Physical exam shows that TBNa is low, and thus the kidneys are conserving the Na and water via ADHThis hypovolemic hypernatremia

Question 49

Does the presence of ADH makes the urine dilute or concentrated?

Answer 49

concentrated

Question 50

T or F. Hypernatremia is usually caused by excess water loss rather than sodium gain

Answer 50

T. Usually develops in those who cant sense thirst properly or in ADH resistance

Question 51

45 yo WM comes after head injury. She has polyuria (U/O 10L/day). She is confused. BP is normal and she has no edema. Sr. Na is 165 Sr ism 330 Uosm is 70. She is treated with dDAVP nasal spray and within 24 hrs her Sr Osm drops to 295. and urine ism increased to 620. What’s going on here?

Answer 51

She has absence of AVPcentral is when you have no ADH, and nephrogenic is when you have ADH but its not working for some reason So this person must have central because treatment worked