Dive into the intriguing world of methylene blue and its potential role in managing septic shock. The hosts unravel its mechanism, showing how it inhibits nitric oxide synthase to restore vascular tone. Discover the specific clinical scenarios where it shines, especially in vasodilatory shock. They discuss the evidence from meta-analyses, showing improved MAP and shorter vasopressor duration, though the mortality benefit remains murky. Plus, learn about practical dosing strategies and important safety considerations. It's a concise yet enlightening discussion!
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insights INSIGHT
Rescue For Refractory Vasoplegia
Methylene blue is considered for catecholamine-refractory vasoplegic septic shock when multiple vasopressors are failing.
It targets nitric oxide/cGMP–mediated vasodilation to restore vascular tone and catecholamine responsiveness.
insights INSIGHT
Mechanism Targets Nitric Oxide Pathway
Methylene blue inhibits inducible nitric oxide synthase and guanylate cyclase to blunt excess nitric oxide and cyclic GMP–mediated vasodilation.
That mechanism explains why it can acutely raise MAP in vasoplegic states.
question_answer ANECDOTE
Origin Story From Post-Bypass Vasoplegia
Dave Furfaro described first encountering methylene blue in post-cardiac surgery vasoplegia, especially after cardiopulmonary bypass.
This perioperative use helped methylene blue migrate into ICU practice for septic vasoplegia.
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Furf and Monty are back today with another Pulm PEEPs Pearls episode, and discussing the use of methylene blue for patients with septic shock. They review the clinical scenarios when this comes up, the mechanism, some key data, and some take aways, all in 15 minutes! Let us know any other topics you’d like covered on the show and make sure to like, give us 5 stars, and subscribe wherever you’re listening to this podcast.
This episode was prepared in conjunction with George Doumat MD. Goerge is an internal medicine resident at UT Southwestern and joined us for a Pulm PEEPs – BMJ Thorax journal club episode. He is now acting as a Pulm PEEPs Associate Editor for the Pulm PEEPs Pearls series.
Key Learning Points
Clinical context: when does methylene blue even come up?
This is not a first-line sepsis drug.
It’s considered in catecholamine-refractory vasoplegic septic shock, typically when:
Norepinephrine is at high dose
Vasopressin is on board
Often a 3rd or 4th vasopressor is being used (e.g., phenylephrine, angiotensin II)
The phenotype is strongly vasodilatory/vasoplegic (warm, distributive shock) rather than primarily cardiogenic.
Mechanism of action (why it might help)
Methylene blue:
Inhibits inducible nitric oxide synthase and guanylate cyclase.
Blunts excess nitric oxide and cyclic GMP–mediated vasodilation, which are key in vasoplegic sepsis.
Practical translation:
It restores vascular tone and can make the vasculature more responsive to catecholamines.
It’s also used in post-CPB vasoplegia (e.g., after cardiac surgery, especially in patients on ACE inhibitors) and has migrated from that world into ICU sepsis practice.
Typical dosing strategy (as described in the episode)
If there’s a response, consider a continuous infusion or repeat bolus.
Key nuance: unlike other pressors that start as drips, methylene blue is often trialed as a bolus first to see if it’s doing anything.
What does the evidence suggest?
Most data are from small, single-center, heterogeneous studies, so evidence quality is low. Meta-analyses and systematic reviews (through ~2024–25) suggest:
Hemodynamics
Can increase MAP (roughly 1–10 mmHg across studies).
May shorten total vasopressor duration (one meta-analysis ~30 hours less, though this is not definitive).
Secondary physiologic effects
Some small improvements in PaO₂/FiO₂ (P/F) ratio in certain studies.
Clinical outcomes
Possible reduction in hospital length of stay (≈ up to 2 days in some pooled analyses).
Some signal toward lower short-term mortality, but:
Studies are small
Heterogeneous
Evidence is very low certainty
Bottom line:
There’s a repeatable signal that methylene blue:
Raises MAP
Helps reduce catecholamine requirements
But hard clinical outcomes (mortality, LOS, ventilator days) remain uncertain.
Safety profile & important adverse effects
Things to watch for:
Methemoglobinemia
Serotonin syndrome
Especially in patients on SSRIs, though in life-threatening refractory shock the hosts still lean toward using it with caution.
Pulse oximeter artifact
Can distort SpO₂ readings.
Urine discoloration
Blue/green urine—benign but striking.
Notably:
Methylene blue is both a treatment for and a potential cause of methemoglobinemia, depending on context and dosing.
Guidelines & where it fits in practice
Surviving Sepsis Campaign 2021:
Does not recommend methylene blue for routine use in septic shock.
No major critical care society includes it in standard septic shock bundles or protocols.
The hosts frame methylene blue as:
A rescue therapy, not guideline therapy.
Something to consider only in refractory vasoplegic shock, ideally with:
PulmPEEPs