Episode 110. The use of Methylene Blue for Refractory Hypotension with Rosa Malloy-Post, MD

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Guest For the podcast

Rosa Malloy-Post

Hometown: Brooklyn, NY

College: Fort Lewis College Durango, CO

Medical school: University of Colorado

What you love about living in/moving to Charlotte: The food and the trees. Coming from Denver it’s nice to have some greenery. The variety and concentration of good food is impressive, I haven’t had a bad meal yet.

What you see yourself doing in 10 years: Who knows? I’m opened to exploring fellowship opportunities in toxicology or palliative care. I enjoy teaching so I see an academic career in my future. I’ll most likely be somewhere in the mountain west.

Methylene blue

History and Background

First synthesized in 1876 by Heinrich Caro at BASF as a blue textile dye, originally named “methyl blue”
In 1891, Paul Ehrlich discovered it could stain certain microorganisms and used it to differentiate bacterial species
Used as antiseptic/antibacterial in late 1800s, including treating tropical diseases like malaria
Approved by FDA in 1959 as a treatment for methemoglobinemia, a condition where hemoglobin is oxidized to the ferric (Fe3+) form, making it unable to carry oxygen. Doses of 1-2 mg/kg IV can reduce methoglobin levels by acting as an electron donor.
Studied as potential treatment for hypotension starting in 1980s. Case reports showed benefit in refractory septic shock. Proposed as nitric oxide scavenger and vasopressor.
Multiple human studies in 1990s looked at methylene blue for sepsis. Showed transient improvements in blood pressure but no mortality benefit.

CLASS

heterocyclic aromatic molecule

MECHANISM OF ACTION

two opposite actions on Hb

(1) low concentrations: methylene blue -> NADPH-dependent reduction to leucomethylene blue (due to action of methaemoglobin reductase) -> reduces methaemoglobin -> Hb

(2) high concentrations: methylene blue -> converts ferrous iron of reduced Hb to ferric ion -> forms methaemoglobin

inhibits guanylate cyclase (which is stimulated by NO and other mediators), thus decreasing C-GMP and vascular smooth muscle relaxation
MAO inhibition
Dose
Methaemoglobinaemia
- 1-2mg/kg IV over 5 minutes followed by saline flush; repeat at 30-60 min if MetHb levels not falling
- repeat dose every 6-8h when MetHb continues for days, e.g. dapsone toxicity
Vasoplegia
- 1.5-2 mg/kg IV over 30-60min
- INDICATIONS
  - methaemoglobinemia
    - — symptomatic
    - — asymptomatic with >20% MetHb, or >10% if risk factors such as anaemia or ischemic heart disease
  - vasoplegic shock post cardiopulmonary bypass
  - other possible roles in critical illness: hepatopulmonary syndrome, septic shock
  - other uses have included use as an antimalarial agent, anti-cancer treatment, treatment of ifosfamide neurotoxicity, as a dye/stain (e.g. test for aspiration), priapism
CONTRA-INDICATIONS
- G6PD deficiency (lack of NADPH prevents methylene blue from working and may lead to haemolysis)
- renal impairment
- methaemoglobin reductase deficiency
- nitrite-induced methaemoglobinaemia due to cyanide poisoning
- hypersensitivity

ADVERSE EVENTS
- inability to monitor oxygen saturation by SpO2 or continuous central venous saturation monitoring
- non-specific symptoms: dizziness, headache, confusion, chest pain, shortness of breath, nausea and vomitng
- local pain and irritation
- blue staining of mucous membrane may mimic cyanosis
- paradoxical methaemoglobinaemia due to direct oxidative effect on Hb (typically at very high doses > 7 mg/kg)
- acute haemolytic anemia in G6PD deficiency (typically doses >15mg/kg)
- anaphylaxis
- MAO inhibiton may contribute to serotonin toxicity or hypertensive crisis

Key Clinical Studies
- Levin et al. 2004 RCT in post-CABG vasoplegic shock
  - 28 patients, MB 2 mg/kg vs placebo
  - Marked improvement in hemodynamics
  - Mortality benefit – 0% vs 21% in placebo group (p=0.01)
- Kirov et al. 2001 RCT in established septic shock
  - 20 patients, MB vs placebo
  - Increased MAP, decreased vasopressor needs
- Porizka et al. 2020 retrospective study
  - Looked at MAP increase ≥10% to define “responders”
  - Improved survival in responders
- Franz et al. 2021 case series
  - 11 patients with post-cardiotomy shock
  - 82% rate of MB response based on 20% MAP increase
  - Survival benefit in responders (92% vs 50%)

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