Two diabetic emergencies. Both have sky-high glucose. One will kill with acid. The other with syrup.
Before we start — a patient just rolled in.
22-year-old with Type 1 diabetes. Found confused. Breathing deep and fast.
Glucose is 480. pH is 7.1. Serum osmolality is 310.
What are you treating?
Yes. Type 1 + acidotic pH (7.1) + Kussmaul breathing + glucose in the 400s. Classic DKA.
HHS would give you glucose >600, often >1000, with osmolality >320, and no significant acidosis.
The acid is the tell. If the pH is tanked, it's DKA until proven otherwise.
Good instinct to consider it, but this is DKA. The giveaways: Type 1 diabetes, pH of 7.1 (severe acidosis),
and Kussmaul breathing (the body blowing off CO2 to compensate for metabolic acidosis). HHS has glucose >600,
osmolality >320, and minimal or no acidosis. The acid is the dividing line.
The One Thing to Remember
Both DKA and HHS are hyperglycemic emergencies. Both can kill. But they kill in completely different ways:
DKA — Death by Acid
No insulin at all. Body can't use glucose, so it burns fat instead. Fat breakdown produces
ketone bodiesBeta-hydroxybutyrate, acetoacetate, and acetone. They're acids. Too many of them overwhelm the body's buffering capacity and tank the pH..
Ketones are acids. They accumulate. pH drops. The body is literally dissolving in its own acid.
Fruity breath = acetone being exhaled. Deep, fast breathing = Kussmaul respirations, desperately blowing off CO2.
HHS — Death by Syrup
Some insulin, but not enough. Enough to prevent ketosis (fat doesn't get burned), but not enough to
handle glucose. Glucose climbs and climbs — 600, 800, 1200. The blood becomes
thick as syrup.
DKA = no insulin = ketoacidosis. HHS = some insulin = no ketosis but extreme hyperglycemia.🔑
DKA Drops the pH. HHS Hikes the osmolality.
The amount of insulin determines which emergency you get.
The Full Comparison
Every row is a potential board question. The differences are consistent and testable.
Feature
DKA
HHS
Diabetes type
Usually Type 1
Usually Type 2
Onset
Hours (rapid)
Days to weeks (insidious)
Glucose
250-500 mg/dL
>600 mg/dL (often >1000)
pH
< 7.3 (acidotic)
> 7.3 (normal-ish)
Ketones
Elevated (positive)
Minimal or absent
Serum osmolality
Variable (~300-320)
>320 (often >350)
Anion gap
Elevated (AG metabolic acidosis)
Normal
Mental status
Usually alert (unless severe)
Altered — confusion, seizures, coma
Breathing
Kussmaul (deep, fast)
Normal or shallow
Breath
Fruity (acetone)
Normal
Dehydration
Moderate (3-5L deficit)
Severe (8-10L deficit)
Mortality
~1-5%
~10-20% (higher)
Board Trap: DKA CAN happen in Type 2 diabetes. It's called "ketosis-prone Type 2" or
"Flatbush diabetesOriginally described in African-American patients in Flatbush, Brooklyn. These patients present with DKA but are actually Type 2 — they can eventually come off insulin. The exam tests this to see if you automatically rule out DKA when you see "Type 2."."
If the vignette says Type 2 but gives you pH 7.1 and positive ketones — it's DKA. Don't let the diabetes type fool you.
Sort the Features
Drag each feature into the correct bucket. Some belong to both.
Sorted: 0 / 0
DKA
HHS
Both
Treatment — The Steps That Save Lives
The treatment order matters. Get it wrong and you kill the patient a different way.
Fluids FIRST
Normal saline (0.9% NaCl) — 1-1.5L in the first hour. Both DKA and HHS are profoundly dehydrated.
Fluids restore perfusion, improve renal function, and start lowering glucose before you even touch insulin.
HHS is worse — 8-10L deficit. DKA is 3-5L. Both need fluids before anything else.
🔑
Fluids First. Always. Before insulin. Before potassium. Before anything.
Check Potassium BEFORE Insulin
Insulin drives K+ into cells. If K+ is already low (<3.3), giving insulin will tank it further →
fatal arrhythmia. Always check K+ before starting insulin.
K+ < 3.3: Hold insulin. Replace K+ first.
K+ 3.3–5.3: Start insulin + give K+ simultaneously.
K+ > 5.3: Start insulin, hold K+ replacement.
Insulin Drip
Regular insulin IV — continuous infusion. Start at 0.1 units/kg/hr (after K+ is safe).
Goal: lower glucose by 50-70 mg/dL per hour. Not faster — dropping glucose too fast causes
cerebral edemaRapid glucose correction creates an osmotic gradient that pulls water into brain cells. Most dangerous in pediatric DKA. This is why we don't bolus insulin and rush the correction..
Switch to D5 + Insulin When Glucose Hits 200-250
In DKA, glucose will normalize before ketosis resolves. If you stop insulin when glucose normalizes,
ketosis comes right back. So: add dextrose (D5) to the fluids and keep the insulin running until the
anion gap closesThe anion gap reflects circulating ketoacids. When it normalizes (typically <12), the ketosis is resolved. That's when you can safely transition to subcutaneous insulin..
Monitor Everything
Glucose every hour. BMP every 2-4 hours (K+, bicarb, anion gap). Watch for complications:
hypokalemia (most common cause of death during treatment),
cerebral edema (especially peds DKA), hypoglycemia (overcorrection).
Board Trap: "The glucose is normal, stop the insulin!" — WRONG.
In DKA, you keep insulin running until the anion gap closes, even if glucose is 150. Add dextrose to prevent hypoglycemia.
Glucose normalizes before ketosis resolves. Stopping insulin early = rebound DKA.
Decision Tree — Hyperglycemic Emergency Workup
A patient arrives with glucose >250. Walk through the algorithm.
Step 1: The glucose is 450. You check a pH and it comes back 7.18. Is this more consistent with DKA or HHS?
Right. pH < 7.3 = acidotic. DKA produces an anion gap metabolic acidosis from ketoacids. HHS has a pH > 7.3 (or normal).
The acid is always the first branch point. Check pH, check ketones, check anion gap.
Not quite. pH of 7.18 is severely acidotic. HHS does NOT produce significant acidosis — there are enough
insulin traces to prevent ketone production. If the pH is tanked, it's DKA. That's the first fork in every algorithm.
Step 2: Different patient. Glucose is 1100. pH is 7.38. Osmolality is 380. Ketones are trace. What is this?
Yes. The triad: glucose >600, osmolality >320, pH >7.3. Trace ketones are a trap — HHS CAN have mild ketosis. But "trace"
is not the same as the significant ketosis of DKA. The pH is the tiebreaker. 7.38 is normal. This is HHS.
That's the trap. Yes, ketones are technically positive — but "trace" ketones can appear in HHS. The pH is
7.38 (normal), osmolality is 380 (massively elevated), and glucose is 1100. Every single number screams HHS.
Don't let trace ketones distract you from the full picture.
Step 3: You've confirmed DKA. Glucose is 380, pH is 7.15. The patient is severely dehydrated. What do you do FIRST?
Always. Fluids first. 1-1.5L normal saline in the first hour. The dehydration is killing them as fast as the acid.
Fluids restore perfusion, improve renal clearance, and start lowering glucose on their own. Insulin comes after K+ is checked.
Understandable impulse, but fluids first. Insulin without fluid resuscitation is dangerous — hypoperfused kidneys can't clear
the ketoacids, and insulin drives K+ into cells when you don't even know the K+ level yet. The order is: fluids → check K+ → insulin.
Step 4: You're treating DKA. Glucose has come down to 220, but the anion gap is still 22. What do you do?
Exactly. The anion gap is still elevated = ketosis is still active. Stopping insulin now means rebound DKA. The move:
add dextrose to the IV fluids (prevents hypoglycemia) and keep the insulin drip going until the gap closes (<12).
Glucose is a number. The gap is the disease.
This is the classic board trap. Glucose normalizes before ketosis resolves. If you stop insulin when glucose
hits 200, the ketones come right back. The anion gap is still 22 — the disease is still active.
Add D5 to prevent hypoglycemia, keep insulin running until the gap closes.
Step 5: You're about to start insulin in DKA. The potassium comes back at 2.9. What now?
Critical. K+ < 3.3 = hold insulin until you replace it. Insulin drives K+ into cells. Starting insulin on a K+ of 2.9
could drop it to <2.0 → fatal cardiac arrhythmia. The K+ rules: <3.3 hold insulin, 3.3-5.3 start both, >5.3 start insulin alone.
Close, but not when K+ is this low. Simultaneous is correct for K+ 3.3-5.3. But at 2.9, you MUST replace K+ first
before touching insulin. Insulin shifts K+ intracellularly — on an already depleted K+, that can be fatal.
The cutoff is 3.3. Below that: hold. Above that: go.
Elimination Game — 5 Patients, 5 Diagnoses
Each clue eliminates a diagnosis. When only one remains, that's your answer.
Tap "Next Clue" to begin.
Clinical Vignettes
Four patients just stumbled into the ED. Figure out what's killing them and how to stop it. Don't overthink it.