Episode 215: Marburg Virus and Global EM

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Nov 1, 2025

Dr. Zayan Firou, an expert in emergency medicine from Rwanda, shares insights from the country's Marburg virus outbreak. He recounts how the initial cluster of cases highlighted the vulnerability of healthcare workers and led to tragic fatalities. Notably, rapid access to experimental therapies and vaccines significantly impacted the outbreak's outcome, reducing the fatality rate. Dr. Firou emphasizes the need for resilient healthcare systems, local production of vaccines, and the importance of equity in emergency care to prepare for future global threats.

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ANECDOTE

Index Case To ICU Transmission

A miner with mild symptoms preceded a chain that killed a mother and newborn and infected ICU staff.
Eight clinicians who coded a nurse all tested positive and four died, highlighting frontline risk.

INSIGHT

Rapid Therapeutics Changed The Curve

Early diagnosis plus rapid access to novel therapeutics shifted outcomes dramatically.
Coordinated diplomacy and testing helped cut the fatality rate from historically high levels to 23%.

ADVICE

Use EDs As Surveillance Sentinels

Empower emergency departments and communities as sentinel sites to close surveillance gaps.
Embed outbreak recognition and reporting into emergency training and hospital systems.

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Lessons from Rwanda’s Marburg Virus Outbreak and Building Resilient Systems in Global EM.

Hosts:
Tsion Firew, MD
Brian Gilberti, MD

Download Leave a Comment Tags: Global Health, Infectious Diseases

Show Notes

Context and the Rwanda Marburg Experience

The Threat: Marburg Virus Disease is from the same family as Ebola and has historically had a reported fatality rate as high as 90%.
The Outbreak (Sept. 2024): Rwanda declared an MVD outbreak. The initial cases involved a miner, his pregnant wife (who fell ill and died after having a baby), and the baby (who also died).
Healthcare Worker Impact: The wife was treated at an epicenter hospital. Eight HCWs were exposed to a nurse who was coding in the ICU; all eight developed symptoms, tested positive within a week, and four of them died.
The Turning Point: The outbreak happened in city referral hospitals where advanced medical interventions (dialysis, mechanical ventilation) were available.
- Rapid Therapeutics Access: Within 10 days of identifying Marburg, novel therapies (experimental drugs and monoclonal antibodies) and an experimental vaccine were made available through diplomacy with the US government/CDC and agencies like WHO, Africa CDC, CEPI and more.
The Outcome: This coordinated effort—combining therapeutics, widespread testing, and years of investment in a resilient healthcare system—helped curb the fatality rate down to 23%.

Barriers and Enablers in Outbreak Preparedness

Fragmented Systems: Emergency and surveillance functions often operate in silos, leading to delayed or missed outbreak identification (e.g., inconsistent travel screening at JFK during early COVID-19 vs. African countries).
- Solution: Empowering Emergency Departments and the community as the sentinel site can bridge this gap.
Limited Frontline Capacity and Protection: Clinicians are often undertrained and underprotected and are frequently not part of the decision-making for surveillance.
Weak Governance and Accountability: Unclear command structures and lack of feedback discourage early reporting.
- Enabler: Strong governance and accountability in Rwanda helped contain the virus.
Dependence on External Programs: Many low-income countries rely on outside sources for vaccines and therapeutics, slowing response.
- Solution: Invest in local production (e.g., Rwanda’s pre-outbreak investment in developing its own mRNA vaccines).
Lack of Resource-Smart Innovation: Gaps exist in things like integrating digital triage tools and surveillance systems.

Four Pillars of a Responsive and Equitable Emergency System

Workforce: Invest in pre-service and in-service training, mentorship, and fair compensation to ensure a skilled, protected, and motivated team.
Integration into the Health System: Emergency care (including pre-hospital services) must not operate in silos; it needs to be embedded in national health strategies and linked to surveillance, referral, and financing systems.
Equity in Design and Policy: The system must address the needs and protection of vulnerable groups and work closely with policymakers.
Data: Utilize real-time data and dashboards to provide a feedback loop between clinicians and policymakers, enabling tailored and innovative interventions.

Advice for Clinicians in Global Health Work

Start Small and Build Trust: Meaningful work requires humility and relationship over scale or visibility. Focus on local priorities and sustainable change through long-term partnership, not just presence. Avoid the “savior mindset”.
Be T-Shaped: Be deep in one specialty (e.g., EM) but fluent across other critical areas like policy, finance, and data, as these drive decision-making.
Focus on Knowledge Transfer: True impact means making yourself less essential over time. Prioritize mentorship, co-creation, and sharing leadership opportunities.

Looking Ahead: Global Threats Shaping the Next Decade

The future of EM will be shaped by the convergence of several complex challenges:

Climate and Environmental Crisis: Extreme heat, floods, and vector-borne illnesses will strain emergency systems.
- Preparation: Invest in climate-resilient infrastructure for both EDs and the community.
Outbreaks and Biosecurity: Future outbreaks will emerge faster than current systems can handle, coupled with challenges from anti-microbial resistance.
Conflict, Displacement, and Urbanization: Mass migration and overcrowded cities will require new models of emergency care that are mobile, scalable, and inclusive.
- Preparation: Building resilient healthcare systems ready for crisis mental health and cross-border coordination.
Digital Tools and AI: These can augment solutions, but investment is needed in data governance and ethical AI that preserves local control and adapts to local capacity.