AssessmentsSyndrome of inappropriate antidiuretic hormone secretion (SIADH)
Syndrome of inappropriate antidiuretic hormone secretion (SIADH)
USMLE® Step 1 style questions USMLE
A 56-year-old man comes to the emergency department because of a seizure he suffered 30 minutes ago. The patient is accompanied by his brother, who states he has never seen the patient have a seizure before. The brother also states that the patient has a 25 pack-year smoking history and was diagnosed with small cell carcinoma (SCC) of the lung one year ago. The patient’s temperature is 36.9°C (98.4°F), pulse is 98/min, respirations are 18/min, and blood pressure is 112/78 mm Hg. He is confused and unable to answer questions or follow commands. A comprehensive metabolic panel shows a sodium level of 99 mEq/L. A computed tomography (CT) scan of the head shows narrowing of the third ventricles. A lumbar puncture shows an elevated opening pressure but no other abnormalities. Which of the following is the most appropriate diagnosis?
Content Reviewers:Rishi Desai, MD, MPH
How does your body know when to retain fluids and when to get rid of them?
It’s not like you just think to yourself “I’ve had too much water, better get rid of some.” (If you do, and it works, call us).
It also constricts blood vessels, and incidentally the vasoconstrictor drug called vasopressin is just ADH. Cool! But that’s not what we’re talking about right now.
Anyways, the more ADH floating around in your blood, the more fluid you retain.
The less ADH in your blood, the more fluid you excrete.
Nephrons are mostly a series of tubes attached end-to-end that type fluids and wastes towards the bladder.
These tubes though also allow fluids and electrolytes to move through the tube walls and back into the blood if needed.
ADH affects the last two-thirds of these tubes, called the distal convoluted tubule and the collecting ducts.
These tubes focus almost exclusively on reabsorbing water back into the blood.
The wall of these tubes are unsurprisingly made up of cells, a common trait of living things, but these cells have proteins called aquaporins.
Aquaporins allow water to move quickly in and out of the cells.
The more ADH floating around in the blood, the more aquaporins are available to... ahem...facilitate water movement through the cell (yo, wata, come over here for a sec).
So when ADH is low, most of the water flows through the distal convoluted tubule and the collecting duct, giving us diluted urine.
When ADH is high, aquaporins grab much of the water passing through the these tubes and throws them back into the blood.
When I drink a glass of water and that water is absorbed into my blood, my plasma osmolality drops, which means I’m diluting my blood with the water.
That means there’s more fluid for all those blood cells to bounce around in (wooo parrttayy).
Low ADH leads to lots of diluted urine (urine with low osmolality), which brings our plasma osmolality back to normal. What a nifty feedback loop.
Now suppose ADH continues to be released even though my plasma osmolality has dropped (stop it! STOP IT! pituitary gland whistling).
We’re going to continue retaining water, and as we drink more and more water, we might expect our plasma osmolality to continue dropping. However this isn’t exactly the case.
As more water is retained, it dilutes the other solutes floating around in our blood, like sodium.
The extra fluid also takes up more space in our blood vessels.
This taking up more space issue triggers another mechanism in our body that causes the hormone aldosterone to stop being released.
Less aldosterone floating around in the blood causes the body to start dumping sodium from the blood into the urine.
Concentration gradients cause water to follow sodium, so we end up with the excess water being excreted in the urine with the sodium, normalizing the fluid volume in the blood.
So now our body is removing sodium from blood that already has a lower concentration of sodium. Uh oh!
This means the plasma sodium osmolarity is dropping significantly.
This whole fiasco we’ve just talked about is called syndrome of inappropriate antidiuretic hormone, often abbreviated as SIADH.