Stop giving oxygen.

You heard me.

Sometimes it seems like every patient in the emergency room is wearing a nasal cannula. Sometimes they're wearing it like a headband, or a necklace, or sometimes it's just spewing gas next to the stretcher. (Pause for laughter.)

But oxygen, for those who do not *need* it, may be harmful.

ACS

• The folks at UpToDate suggest only giving oxygen if O2 is <90% on room air.

• AHA also says only if room air sat <90%.

• In the UK, oxygen is only recommended if the room air saturation is < 94%.

• This amazing post from Dr. Salim Rezaie shows there is no convincing data that oxygen helps patients who aren't hypoxic, and there is some signal of harm with increased troponin/CK in patients given O2! Are we worsening their MIs?

STROKE

• AHA says no oxygen unless saturation < 94%.

• Journal Feed talked about this RCT of 8,000 patients, those getting supplemental O2 had no benefit.

ACUTE & CRITICAL CARE

• REBEL podcast talking all about the IOTA trial, which showed increased mortality with unnecessary oxygen in acutely ill patients. INCREASED. MORTALITY. FROM OXYGEN.

  • (Systematic review, meta-analysis including only RCTs)

  • (Or read the JournalFeed on it.)

• The title of this article speaks for itself.

• Are you not convinced? Turn down the friggen oxygen.

So what's the ideal saturation?

In our critically ill patients, it's reasonable to aim for a sat of 94-98% based on a huge retrospective study in Chest.

Chapter 1: What dafuq is in an amp of bicarb?

Take a look!

• 50mL

• 8.4% NaHCO3 -> 50mEq

• The osmolarity of this solution is 2,000mOsm/L - twice that of 3% saline. < (click for emcrit)

Chapter 2: Sodium bicarbonate doesn't just magically raise pH...

Remember this thing?

CO2 + H20 <=> H2CO3 <=> HCO3 + H

It's complicated. Bicarb binds to acid. Then it turns to CO2 and water, so you can breathe it out.

Basically if you're giving bicarb, you can only raise your pH as long as you can breathe off your CO2, increasing your RATE or VOLUME.

**This is particularly a problem in patients who are not in control of their breathing (vented), aren't breathing (arrest), or who have maximized the efficiency of their breathing (Kussmal breathing in DKA).**

That's right - you need to increase your minute ventilation to have a change in pH.

Here's Weingart's take.

Chapter 3: Sodium bicarb amps can cause harm!

FIRST:

One amp of bicarb is like giving 100cc of 3% hypertonic saline!! But as Josh Farkas points out, we typically have no hesitation giving "a couple of amps of bicarb."
This is a huge osmotic load which can lead to huge fluid shifts - prepare for that amp to increase intravascular fluid by 1/4 liter with every push. (Is this what you want to give to your renal failure pt? Your heart failure pt?)

SECOND:

You are worsening acidosis.
What? Huh? But I thought...
No. Stop. Shush. You're worsening acidosis.

Remember, you're increasing CO2 - whether you can breathe it off or not, this CO2 rises in but blood BUT ALSO rises in the tissues and may worsen acidosis in these tissues. < (click for litfl.com article)

THIRD:

Be ready to cause hypernatremia - expect a rise of 1mEq Na per amp of bicarb.

FOURTH:

Extravasation can cause tissue necrosis.

FIFTH:

CSF acidosis, hypocalcemia. Increased lactate. (Some may argue that's not a bad thing.)

If you do manage to fix the acidosis, you can overshoot and create an alkalosis and even screw up the oxygen dissociation curve (in a bad way).

Chapter 4: It just doesn't f&$%ing work
Cardiac arrest: it doesn't do anything. No increased survival. and AHA says it should not be given routinely.

Lactic acidosis: There's a whole section on UpToDate - there's minimal research for pH < 7.1 so you can consider it at that point... but otherwise, nah.

DKA: Take it from a nephrologist: In ketoacidosis, it is almost never necessary to give bicarbonate even though the patient is bicarbonate deficient unless renal function is permanently impaired. Therapy with fluids and electrolytes restores extracellular volume and renal blood flow, thus enhancing the renal excretion of acid and regenerating bicarbonate.

Hyperkalemia: Amps of bicarb, even in hyperK emergencies, have not been shown to lower potassium. Click that UpToDate link or listen to Scott Weingart talk about it on EMRAP.
Patients with hyperK should be started on isotonic bicarbonate drips for 4-6hours, a treatment that works better in acidotic patients.

CHAPTER 5: Soooo who gets bicarb?
AMPS:

• Bicarb ampules in sodium channel blockade (like TCAs) are, as Dr. Bogoch said yesterday, the cornerstone of therapy

• Bicarb ampules may be appropriate to alkalinize urine in certain toxicities

• Seizing hyponatremic patients

DRIPS:

• Appropriate in hyperK patients who can handle fluid

• Appropriate in patients with AKI and pH < 7.2 (BICAR-ICU Trial)

• May be appropriate for pH < 7.0 or 7.1, depending on who you talk to...

**If the pH is < 7.1 and you wanna give an amp of bicarb, there isn't enough data to say you're wrong. If it's a last-ditch effort, you might as well.

https://www.uptodate.com/contents/bicarbonate-therapy-in-lactic-acidosis?search=sodium%20bicarbonate&source=search_result&selectedTitle=3~148&usage_type=default&display_rank=2

Other references embedded in text.

Protocol 504 – Suspected Myocardial Infarction is supplemented by two sub-protocols: 504-A – Drug Therapy of Myocardial Ischemia and 504-B – Cardiogenic Shock, and they’re each fairly straightforward, so let’s breeze through.

504 – Suspected Myocardial Infarction: ALS suspects an MI, they start cardiac monitoring, manage unstable dysrhythmias, check a 12-lead, start transport, and monitor vital signs. If the EKG is concerning for a STEMI (either because of the machine’s read or their own), they’ll run it past OLMC (generally FDNY’s OLMC, specifically) for assistance in determining whether the patient is having a slam-dunk, textbook STEMI, and should therefore go directly to a STEMI center, versus being able to be appropriately managed at a hospital that isn’t a STEMI center but might be closer.

504-A – Drug Therapy of Myocardial Ischemia: So, you’ve got a patient concerning for ACS. How are you gonna treat them to start? ALS Standing Orders for this protocol allow for 162mg of aspirin, as well as nitroglycerin every 5 minutes to help with pain. Note that the protocol includes caveats for patients who have recently used erectile dysfunction meds or who are hypotensive. And speaking of hypotension…

504-B – Cardiogenic Shock: Uh-oh, somebody’s hypotensive! ALS is instructed to give a small fluid bolus to these patients to help with preload, but if there’s no improvement in blood pressure at that point, guess what? Peripheral pressors to the rescue! Historically, crews generally had access to dopamine, but as times have changed, so have the protocols, expanding to include norepinephrine and even push-dose epinephrine! Dopamine has stayed in the protocols, however, to allow for services that still carry and are trained in its use. Tough administrative-level decisions often arise in EMS and other health systems when you have to reconcile best medical practices with logistical challenges. Norepinephrine might be the better med, but when you have thousands of providers that would need new training in its use, and a stockpile of dopamine that you’ve already paid for, it’s not hard to see why the change might be a slow one.

That’s it! All of these protocols are Standing Order, so there won’t be much to know for OLMC calls, although occasionally crews may call to ask about switching between pressors (eg, starting on push-dose epi and moving to a norepi drip). Otherwise, bask in your knowledge of EMS care, ever-expanding from these emails, www.nycremsco.org and the protocol binder!

Courtesy of Dr. David Eng, Assistant Medical Director of Emergency Medical Services at Maimonides