EMS In The News - When the Medical Aid in Dying Cocktail Gets into the Wrong Hands

The article appears to discuss the complex medical case where two men, one a terminally ill patient using Medical Aid-in-Dying (MAID) and another who accidentally consumed the same lethal cocktail, were treated by emergency responders.

It seems he older man intended to use the MAID medication under Colorado’s End-of-Life Options Act, which allows terminally ill patients to self-administer a prescribed lethal dose of medication. However, the younger man, uninformed of the medication’s potency, took some as well.

So when the EMS providers arrived on scene, they found both men unconscious. The older man had, in fact, a valid Medical Orders for Scope of Treatment (MOST) form, indicating no resuscitation should be performed, so treatment was withheld for him.

The younger man, not surprisingly, wasn't covered by these directives, and as such was treated and eventually transported to a hospital where he made a full recovery after intensive care.

The case highlights the need for EMS providers to be educated on MAID laws and how to handle unexpected situations like this. It emphasized that accidental ingestion of MAID medications, although rare, can have significant legal and medical implications.

Proper understanding of the drug components and advanced directives is crucial in managing such scenarios, however infrequently they may occur.

For more information, access the full article here.

EMS Mental Health & Wellness - Responder Support Organizations

ResponderStrong is an organization dedicated to supporting the mental health and overall wellbeing of emergency responders, healthcare workers, and their families. 

Founded in 2016, it offers resources such as mental health curriculums, self-help tools, and crisis support specifically tailored for those in high-stress emergency response roles. 

Its mission is to create a supportive environment by collaborating with researchers, clinicians, and other organizations to address mental health challenges within the responder community.

For more details, visit ResponderStrong.

Responder Alliance is focused on providing resilience training for first responders and outdoor professionals to prevent burnout and traumatic stress injuries. 

Their approach includes tools like the Stress Continuum and the Incident Support Framework, which help teams proactively manage stress and trauma exposure. By integrating scientific validation and practical training, the organization aims to reduce burnout and career turnover in high-risk professions. 

Their curriculum is designed for early stress recognition and support following traumatic events.

For more details, visit Responder Alliance.

EMS Mental Health & Wellness - Caring For Our Own

The article linked below by Dylan Shackelton, NRP, discusses the mental health struggles EMS Providers face due to the traumatic nature of their work and the pervasive culture of stoicism that discourages them from seeking help. 

Despite witnessing severe accidents, overdoses, and violence daily, EMS Providers often suppress their emotions to maintain a tough exterior. This reluctance to acknowledge personal struggles leads to high rates of burnout, depression, and even suicide.

To address these challenges, the author advocates for a shift in the EMS culture to normalize conversations around mental health and prioritize peer support. 

Establishing programs like regular debriefings, easy access to mental health professionals, and mandatory mental health training can help break the stigma and foster a supportive environment. 

Ultimately, taking care of each other’s well-being is crucial for ensuring that EMS professionals can continue providing high-quality care to the community.

For more information, access the complete article here.

EMS In The News - New York Adopts NREMT As Recognized Pathway For Certification

New York has adopted the National Registry of EMTs (NREMT) as an accepted pathway for EMS certification, making it the 50th state to do so. 

This change standardizes EMS certification processes in New York, aligning them with national standards and offering more career flexibility for EMS professionals. 

With over 6,200 Nationally Registered EMS clinicians in the state, the recognition aims to improve care consistency, streamline certification, and expand career opportunities for emergency medical professionals.

The NREMT is a non-profit organization that provides national certification for Emergency Medical Services (EMS) in the United States. 

The NREMT's certification and recertification exams are nationally vetted, and the certification is recognized in 49 other states

This change brings New York in line with national standards and offers several benefits, including: 

Streamlined Process: EMS professionals will benefit from a consistent and standardized certification process. 

Quality of Care: The change ensures a high level of care for patients. 

Career Opportunities: The certification opens up more career opportunities for EMS professionals. 

Flexibility: The certification offers more flexibility for EMS professionals because it's recognized in other states

For more information, access the full article here.

EMS In The News - New Laws Lift Restrictions On NY EMS Providers

The article linked below discusses two new laws in New York that expand the services EMS providers can offer. 

EMS providers can now bill Medicaid and insurance for treatments at a patient's home without requiring hospital transport, and they can also transport patients to non-hospital facilities like urgent care centers. 

Another law permits EMS to perform blood transfusions, enhancing emergency care. These changes aim to reduce ER strain, improve care access, and support EMS financial stability.

For more information, access the complete article here.

EMS Medical Terminology - Mallory-Weiss Syndrome

Mallory-Weiss Syndrome is a condition characterized by a tear in the mucous membrane of the lower esophagus or upper stomach, typically caused by severe vomiting or retching. It is an example of an eponymous medical term.

Mallory-Weiss Syndrome was first described in 1929 by George Kenneth Mallory and Soma Weiss, two American physicians at Boston City Hospital. They documented the condition in patients who had experienced upper GI bleeding following severe vomiting. 

Their work highlighted the mucosal tears at the gastroesophageal junction and led to the eponymous naming of the syndrome.

Unlike Boerhaave Syndrome, where the esophagus ruptures completely, Mallory-Weiss Syndrome involves only a partial tear of the mucosal layer. 

This condition is associated with upper gastrointestinal (GI) bleeding and is often self-limiting but can occasionally lead to significant hemorrhage.

Causes and Pathophysiology

Triggered by Severe Vomiting: The syndrome often occurs after repeated vomiting or retching episodes, usually related to alcohol intoxication, eating disorders, or acute gastroenteritis.

Other Causes: Coughing, lifting heavy objects, trauma, convulsions, or anything that increases intra-abdominal pressure.

Pathophysiology: The increased pressure from vomiting causes a longitudinal tear at the gastroesophageal junction, leading to bleeding.

Signs and Symptoms

Patients with Mallory-Weiss syndrome may present with:

• Hematemesis: Vomiting of bright red blood or "coffee-ground" emesis. A hallmark symptom.
• Melena: Black, tarry stools due to digested blood.
• Epigastric or Retrosternal Pain: Pain located in the upper abdomen or chest, which may be mistaken for other conditions like myocardial infarction.
• Signs of Hypovolemia: If bleeding is severe, look for signs such as dizziness, hypotension, pallor, and tachycardia.
• History of Severe Vomiting: Often after binge drinking or an illness causing repeated retching.

EMS Recognition and Prehospital Treatment

Patient Assessment Priorities:

• History Taking: Ask about recent vomiting, alcohol use, or illnesses that might have led to repeated retching.

Inquire about the color and amount of vomitus. Bright red blood is more suggestive of active bleeding, while coffee-ground emesis suggests older blood.

Determine any history of GI bleeding or relevant medical conditions (e.g., peptic ulcer disease, cirrhosis).

• Physical Examination: Assess for signs of hypovolemic shock: tachycardia, hypotension, altered mental status, and pallor.

Perform an abdominal exam to check for tenderness, guarding, or distension.

Check for melena, if possible.

• Differential Diagnosis: Always differentiate MWS from other causes of hematemesis or epigastric pain:

• Peptic Ulcer Disease
• Esophageal Varices (often linked to liver disease)
• Gastric Ulcers or Malignancies
• Boerhaave Syndrome

Patient Management Priorities:

• Airway Management: Ensure the airway is clear. Patients actively vomiting blood are at risk of aspiration.

Position the patient to prevent aspiration (e.g., left lateral recumbent position).

• Circulatory Support: Establish IV access and administer IV fluids (normal saline or lactated Ringer’s) if the patient shows signs of shock.

Monitor for worsening hemodynamic instability.

• Minimize Further Trauma: Advise the patient to avoid any further vomiting, coughing, or retching as it can exacerbate the tear.

Keep the patient NPO (nothing by mouth) to prevent further irritation.

Treat Nausea and Vomiting: If protocols allow, consider administering antiemetics (e.g., ondansetron) via IV to prevent further vomiting, which could worsen the tear.

• Oxygen Therapy: Administer oxygen if the patient has signs of hypoxemia or shock.

• Monitor: Continuously monitor vital signs, including heart rate, blood pressure, and mental status.

• Rapid Transport: Rapid transport to a hospital with endoscopy capabilities is crucial, as definitive diagnosis and management (e.g., endoscopic hemostasis) often require specialist care.

Key Considerations for EMS

• Monitor for Signs of Shock: Patients can quickly decompensate, especially if bleeding is significant.

• Avoid Overly Aggressive Fluid Resuscitation: While fluids are necessary to stabilize blood pressure, overloading can increase bleeding.

• Rapid Transport to Definitive Care: Most Mallory-Weiss tears are diagnosed and treated via endoscopy.

Further Reading:

Alexander, M. & Belle, R. (2017) Advanced EMT: A Clinical Reasoning Approach (2nd Ed). Hoboken, New Jersey: Pearson Education

Bledsoe, B. E., Cherry, R. A. & Porter, R. S (2023) Paramedic Care: Principles and Practice (6th Ed) Boston, Massachusetts: Pearson

Brown, C. A. (2022) Walls Manual of Emergency Airway Management (5th Ed). Philadelphia, Pennsylvania: Lippincott, Williams & Wilkins.

Mistovich, J. J. & Karren, K. J. (2014) Prehospital Emergency Care (11th Ed). Hoboken, New Jersey: Pearson Education

Peate, I. & Sawyer, S (2024) Fundamentals of Applied Pathophysiology for Paramedics. Hoboken, New Jersey:  Wiley Blackwell

Rawla, P., Devasahayam, J. (2023) Mallory-Weiss Syndrome. StatPearls  Treasure Island, Florida: StatPearls. Accessed September 20, 2024

Turner, A. R., Collier, S. A., & Turner, S. D. (2023) Boerhaave Syndrome. Treasure Island, Florida: StatPearls. Accessed September 14, 2024

EMS Medical Terminology - Boerhaave Syndrome

Boerhaave Syndrome is a spontaneous rupture of the esophagus, typically caused by a sudden increase in intraesophageal pressure.

Boerhaave Syndrome is named after the Dutch physician Herman Boerhaave (1668–1738), who first described the condition in 1724. He documented it after performing an autopsy on Baron Jan van Wassenaer, a Dutch admiral who died suddenly after forcefully vomiting following a large meal.

It is a life-threatening condition that often results from severe retching or vomiting, but it can also be triggered by activities like heavy lifting, coughing, or convulsions. 

Boerhaave observed that the rupture of the esophagus was due to a sudden increase in intraesophageal pressure caused by violent vomiting. His detailed documentation of the case provided the first description of spontaneous esophageal rupture, making it a significant discovery in medical history. 

As a result, the syndrome bears his name to honor his contribution to understanding this rare but deadly condition. It is an example of an eponymous medical term.

Rapid identification, using  a clinical diagnostic tool such as Mackler’s Triad, and treatment are crucial, as this condition carries a high mortality rate if left untreated. 

Causes and Pathophysiology

Commonly Triggered by Severe Vomiting: Often occurs after a bout of forceful vomiting or retching.

Other Causes: Can occur due to trauma, childbirth, seizures, or endoscopic procedures.

Pathophysiology: The abrupt increase in pressure within the esophagus causes a tear, leading to the leakage of gastric contents into the mediastinum, which can cause mediastinitis, sepsis, and shock.

Signs and Symptoms to Recognize

Mackler’s Triad of symptoms is a strong diagnostic indicator of Boerhaave Syndrome:

• Vomiting: Often described as severe and forceful, preceding the rupture.

• Sudden Onset Chest Pain: May radiate to the back, neck, or shoulders, and can be mistaken for myocardial infarction (MI) or other thoracic emergencies.

• Subcutaneous Emphysema: A crackling sensation felt under the skin, typically around the neck or upper chest, due to air escaping from the ruptured esophagus.

This can also present as a crunching sound (Hamman's Sign) on auscultation of the chest, especially with each heartbeat.

Other Symptoms Can Include:

• Dysphagia - Difficulty Swallowing
• Dyspnea - Shortness of Breath
• Tachypnea - Rapid breathing
• Cyanosis
• Hypotension
• Signs of Shock in Severe Cases

EMS Assessment and Management

When evaluating a patient with suspected Boerhaave Syndrome, EMS providers are advised to:

- Assess the History of Events Leading Up to the Pain: 

• Determine if there was a history of severe vomiting or retching.
• Ask about recent alcohol consumption, as it’s a common predisposing factor.

- Focused Physical Examination:

• Palpate the neck and upper chest for subcutaneous emphysema.
• Auscultate for Hamman’s Sign (e.g., a crunching sound synchronous with the heartbeat).
• Assess for signs of shock (e.g., hypotension, altered mental status, pallor, diaphoresis).

- Differential Diagnosis Considerations:

Boerhaave Syndrome can be mistaken for other critical conditions, such as acute myocardial infarction, aortic dissection, pulmonary embolism, or peptic ulcer perforation. 

Always consider Boerhaave Syndrome in a patient with recent vomiting and acute chest pain.

Patient Management Priorities:

• ABC Assessment: Ensure the airway is secure, provide oxygen as needed, and monitor for respiratory distress.
• Positioning: Place the patient in a position of comfort to minimize pain.
• Pain Control: Use opioids with caution as they can cause vomiting. Consider antiemetic medications, if protocols allow.
• Establish IV Access: For fluid resuscitation if signs of shock are present.
• NPO (Nothing by Mouth): Avoid giving the patient anything by mouth to prevent further esophageal damage.
• Rapid Transport: Esophageal rupture requires surgical repair, so immediate transport to a facility capable of managing thoracic emergencies is critical.

Key Takeaways for EMS Providers

• Recognize the Signs: Remember Mackler’s Triad—vomiting, chest pain, and subcutaneous emphysema.

• Differentiate from Other Thoracic Emergencies: The presentation can mimic more common conditions like MI, but the history of vomiting and presence of subcutaneous emphysema should raise suspicion for Boerhaave syndrome.

• Act Fast: Time is critical. The sooner the patient is evaluated and treated, the better the outcome.

• Minimize Esophageal Trauma: Avoid oral intubation if possible and keep the patient NPO to prevent aggravating the tear.

Early recognition and transport to definitive care are the most critical roles EMS can play in the management of Boerhaave Syndrome.

Further Reading:

Alexander, M. & Belle, R. (2017) Advanced EMT: A Clinical Reasoning Approach (2nd Ed). Hoboken, New Jersey: Pearson Education

Bledsoe, B. E., Cherry, R. A. & Porter, R. S (2023) Paramedic Care: Principles and Practice (6th Ed) Boston, Massachusetts: Pearson

Brown, C. A. (2022) Walls Manual of Emergency Airway Management (5th Ed). Philadelphia, Pennsylvania: Lippincott, Williams & Wilkins.

Loftus, I. A., Umana, E. E., Scholtz, I. P., & McElwee D. (2023) Mackler's Triad: An Evolving Case of Boerhaave Syndrome in the Emergency Department. Cureus 15 (4): e37978. Accessed September 16, 2024

Mistovich, J. J. & Karren, K. J. (2014) Prehospital Emergency Care (11th Ed). Hoboken, New Jersey: Pearson Education

Peate, I. & Sawyer, S (2024) Fundamentals of Applied Pathophysiology for Paramedics. Hoboken, New Jersey:  Wiley Blackwell

Turner, A. R., Collier, S. A., & Turner, S. D. (2023) Boerhaave Syndrome. Treasure Island, Florida: StatPearls. Accessed September 14, 2024

EMS Medical Terminology - Mackler’s Triad

Mackler’s Triad is a clinical diagnostic tool associated with spontaneous esophageal rupture, also known as Boerhaave Syndrome. It is an example of an eponymous medical term.

It includes three key symptoms:

• Vomiting: Usually forceful and occurs before the rupture.

• Sudden Onset Chest Pain: Sudden onset after vomiting.

• Subcutaneous Emphysema: Air trapped under the skin, often detected around the neck or chest, creating a crackling sensation upon palpation (due to air leaking from the esophagus).

EMS providers should be aware that Boerhaave Syndrome is a life-threatening condition that requires immediate medical intervention. 

Early recognition of the symptoms in Mackler’s Triad is critical, as delayed diagnosis and treatment significantly increase the risk of morbidity and mortality.

Key Points for EMS Providers:

High Suspicion Following Forceful Vomiting: If a patient presents with intense chest pain after vomiting, suspect an esophageal rupture.

Subcutaneous Emphysema: Feel for air under the skin, especially in the neck and chest areas.

Need For Rapid Transport: Esophageal ruptures require surgical intervention and antibiotics to prevent fatal infections such as mediastinitis (infection in the chest cavity).

Stabilization: Manage the airway, ensure the patient is NPO (nothing by mouth), administer IV fluids if necessary, and provide pain control.

Who Discovered This?

Dr. Sydney S. Mackler was an American physician and surgeon who first described the triad in 1952. He made significant contributions to understanding and diagnosing Boerhaave Syndrome. 

The triad is named after him due to his work linking these three symptoms to spontaneous esophageal rupture, helping to guide clinicians in making this often elusive diagnosis.

Further Reading:

Alexander, M. & Belle, R. (2017) Advanced EMT: A Clinical Reasoning Approach (2nd Ed). Hoboken, New Jersey: Pearson Education

Bledsoe, B. E., Cherry, R. A. & Porter, R. S (2023) Paramedic Care: Principles and Practice (6th Ed) Boston, Massachusetts: Pearson

Loftus, I. A., Umana, E. E., Scholtz, I. P., & McElwee D. (2023) Mackler's Triad: An Evolving Case of Boerhaave Syndrome in the Emergency Department. Cureus 15 (4): e37978. Accessed September 16, 2024

Mistovich, J. J. & Karren, K. J. (2014) Prehospital Emergency Care (11th Ed). Hoboken, New Jersey: Pearson Education

Peate, I. & Sawyer, S (2024) Fundamentals of Applied Pathophysiology for Paramedics. Hoboken, New Jersey:  Wiley Blackwell

Turner, A. R., Collier, S. A., & Turner, S. D. (2023) Boerhaave Syndrome. Treasure Island, Florida: StatPearls. Accessed September 14, 2024

EMS Essentials - Effective Leadership Skills

EMS providers are critical in prehospital care, and strong leadership skills are essential for delivering high-quality, efficient service. 

Here’s a breakdown of key leadership principles:

1. Communication

Clear and Concise Communication: This is vital in ensuring effective teamwork, especially in high-pressure situations. EMS providers must develop the ability to deliver clear instructions and ensure information flows seamlessly between team members and other healthcare professionals.

Active Listening: Effective leaders listen attentively to their team and patients, ensuring concerns are addressed and relevant information is gathered.

Nonverbal Communication: Body language, eye contact, and tone of voice also play a big role, particularly when team members are dealing with chaotic environments or emotional patients.

2. Decision-Making

Critical Decisions Under Pressure: EMS providers often face time-sensitive situations where quick, sound judgment is required. Leadership involves the ability to gather information swiftly, analyze it, and make informed decisions that prioritize patient safety and care.

Calm Under Stress: Remaining calm in high-stress environments helps to foster trust and confidence within the team, promoting clear-headed decision-making.

Risk Assessment: Leaders must weigh risks and benefits in real-time, making adjustments as new information becomes available or as a patient's condition changes.

3. Adaptability

Flexibility: Emergency situations are dynamic, and leadership means being ready to adjust your approach based on changing circumstances. This can include reevaluating a treatment plan, reassessing team assignments, or modifying transport strategies as new challenges arise.

Problem-Solving: Leaders must think on their feet and be resourceful, often working with limited information or resources. Being adaptable also involves having contingency plans and being ready to pivot quickly.

Emotional Adaptability: EMS providers often deal with patients in distress, and leaders must remain emotionally adaptable, balancing compassion with professionalism.

4. Team Management

Fostering Collaboration: As leaders, EMS providers must create an environment where all team members work together effectively. This means encouraging input, maintaining open lines of communication, and resolving conflicts quickly.

Delegation: Effective leadership involves delegating tasks based on each team member’s strengths and capabilities. Trusting others to handle their responsibilities allows for a more coordinated and efficient response.

Motivating & Supporting The Team: A good leader promotes a positive, inclusive work environment by recognizing the contributions of others, providing constructive feedback, and encouraging team members to grow professionally.

5. Continuous Learning

Staying Updated: The medical field is always evolving, and leaders must stay informed about the latest treatments, protocols, and technology. Regularly attending training sessions, workshops, and conferences is key.

Reflective Practice: Taking time to reflect on past experiences allows EMS providers to identify areas for improvement. Leadership involves recognizing mistakes, learning from them, and sharing those lessons with the team.

Professional Development: Leaders encourage both their own growth and that of their team members. They mentor less experienced personnel, fostering a culture of continuous improvement.

Key Leadership Takeaway:

EMS leadership is about more than just making decisions. It’s about ensuring patient safety, fostering a strong, cohesive team, and continuously adapting to both the unpredictable nature of emergencies and the evolving healthcare landscape. 

By focusing on communication, decision-making, adaptability, team management, and lifelong learning, EMS providers can enhance their leadership skills and, in turn, improve patient care outcomes.

Further Reading:

Alexander, M. & Belle, R. (2017) Advanced EMT: A Clinical Reasoning Approach (2nd Ed). Hoboken, New Jersey: Pearson Education

Bledsoe, B. E., Cherry, R. A. & Porter, R. S (2023) Paramedic Care: Principles and Practice (6th Ed) Boston, Massachusetts: Pearson

Crowe, R. P., Wagoner, R. L., Rodriguez, S. A., Bentley, M. A., & Page, D. (2017) Defining Components of Team Leadership and Membership in Prehospital Emergency Medical Services. Prehospital Emergency Care, 21(5), 645–651 Accessed September 14, 2024

Fernandez, W. G., Benzer, J. K., Charns, M. P., & Burgess, J. F. (2020). Applying a Model of Teamwork Processes to Emergency Medical Services. Western Journal of Emergency Medicine 21(6): 264-271 Accessed September 12, 2024

Fitch & Associates (2019) 6 Common Competencies of Highly Effective EMS Leaders. EMS1. Accessed September 14, 2024

Foster, D. T., Goertzen, B. J., Nollette, C., & Nollette, F, P. (2013) Emergency Services Leadership - A Contemporary Approach. Burlington, Massachusetts: Jones & Bartlett Learning

Knox, A. G. S. (2018) Conflict Resolution & The Importance of Teamwork in EMS. EMS1. Accessed September 12, 2024

Lundy, D (2014) Preparing for Leadership in EMS. NAEMT News: 4 & 9 Accessed September 14, 2024

Mistovich, J. J. & Karren, K. J. (2014) Prehospital Emergency Care (11th Ed). Hoboken, New Jersey: Pearson Education

EMS Essentials - Effective Teamwork Skills

In the prehospital setting, effective teamwork is critical for the success of emergency medical services (EMS) operations. 

EMS Providers must be able to work seamlessly together under high-pressure, time-sensitive conditions. 

Here are some key elements of effective teamwork:

1. Clear Communication

Closed-Loop Communication: When one team member gives a direction or request, the recipient should repeat it back to confirm understanding, and the sender should confirm that the message was understood correctly.

Concise & Timely: Communication should be clear, concise, and delivered in a timely manner, especially when sharing critical patient information (e.g., vital signs, treatment decisions).

Non-Verbal Cues: Body language and other nonverbal signals are essential, especially in noisy or chaotic environments where verbal communication might be difficult.

2. Role Clarity and Task Delegation

Defined Roles: Each team member should know their role and responsibilities. This reduces confusion and redundancy during an emergency situation.

Task Delegation: Leaders should effectively delegate tasks based on team members’ skills and experience to maximize efficiency and reduce errors.

Leadership In Critical Moments: During high-stress situations, a clear leader should emerge or be designated to direct operations and make final decisions.

3. Interdisciplinary Collaboration

Coordination With Other Responders: EMS providers often work alongside law enforcement, firefighters, or other healthcare professionals, and it’s important to understand their roles to ensure smooth collaboration.

Unified Command Structure: Especially in large incidents, integrating into a unified command or Incident Command System (ICS) ensures all responders are working toward a common goal with shared information.

4. Trust and Mutual Respect

Trust: Team members must trust each other’s skills, decisions, and judgment. This fosters a supportive environment and allows quicker execution of tasks.

Respect: Mutual respect is key to maintaining a positive team dynamic, even during disagreements or high-pressure moments. Every member should value the contribution of others.

5. Situational Awareness

Shared Mental Model: Every team member should maintain an awareness of the overall situation, patient condition, and potential risks. This allows for quick decision-making and adaptability.

Continuous Reassessment: Teams must continually reassess the situation, making adjustments to treatment plans as needed based on new information.

6. Conflict Management

Quick Resolution: Conflicts should be addressed quickly and professionally to maintain the focus on patient care.

De-Escalation: Leaders and team members should know how to manage and de-escalate interpersonal tensions, as conflict can reduce team effectiveness.

7. Debriefing and Feedback

Post-Call Debriefs: After every major incident, teams should debrief to discuss what went well and what could be improved, allowing for continuous learning and improvement.

Constructive Feedback: Providing and receiving constructive feedback helps team members grow and better prepare for future emergencies.

8. Adaptability and Flexibility

Adapt To Changing Conditions: EMS teams must remain flexible to changing circumstances, such as evolving patient conditions or unexpected challenges at the scene.

Resourcefulness: Team members should be prepared to adapt their approaches, including improvising when resources are limited or when things don’t go as planned.

9. Physical and Emotional Support

Physical Support: Team members should assist each other with physically demanding tasks, such as patient lifting or moving equipment, to prevent injuries.

Emotional Support: High-stress situations can take an emotional toll, so it’s important for team members to support one another mentally, recognizing signs of stress or burnout and offering encouragement or a break when needed.

10. Preparedness and Training

Ongoing Training: Regular team training, including scenario-based exercises, helps build trust, coordination, and familiarity with each other’s strengths and weaknesses.

Cross-Training: Team members should be cross-trained in multiple roles so they can step into different positions as needed in the field.

By understanding and applying these elements of teamwork, EMS providers can improve patient care, operational efficiency, and overall team morale in the prehospital environment.

Further Reading:

Alexander, M. & Belle, R. (2017) Advanced EMT: A Clinical Reasoning Approach (2nd Ed). Hoboken, New Jersey: Pearson Education

Bledsoe, B. E., Cherry, R. A. & Porter, R. S (2023) Paramedic Care: Principles and Practice (6th Ed) Boston, Massachusetts: Pearson

Fernandez, W. G., Benzer, J. K., Charns, M. P., & Burgess, J. F. (2020). Applying a Model of Teamwork Processes to Emergency Medical Services. Western Journal of Emergency Medicine 21(6): 264-271 Accessed September 12, 2024

Foster, D. T., Goertzen, B. J., Nollette, C., & Nollette, F, P. (2013) Emergency Services Leadership - A Contemporary Approach. Burlington, Massachusetts: Jones & Bartlett Learning

Knox, A. G. S. (2018) Conflict Resolution & The Importance of Teamwork in EMS. EMS1. Accessed September 12, 2024

Mistovich, J. J. & Karren, K. J. (2014) Prehospital Emergency Care (11th Ed). Hoboken, New Jersey: Pearson Education

EMS Celebration - Honoring the Heroes of 9/11

On September 11, 2001, the world witnessed unparalleled courage and sacrifice as hundreds of brave EMS providers, first responders, and firefighters raced into the heart of danger to save lives. 

These selfless individuals ran toward the very chaos that others fled, driven by a call to serve, protect, and heal. In doing so, many paid the ultimate price.

In Memory of the Fallen:

To the firefighters who climbed the burning towers, the EMS providers who rendered aid in the dust and debris, and the first responders who secured the perimeter in the face of unknown terror — you are more than names on memorials; you are the essence of heroism.

Your final acts of bravery live on as a testament to your character, courage, and unwavering commitment to your fellow human beings. You laid down your lives so that others might live, and the depth of that sacrifice echoes eternally.

For Those Left Behind:

To the families, friends, and colleagues who carry the weight of that day, know that you, too, are remembered in this tribute. Your loved ones’ courage was not theirs alone, but shared with you through a lifetime of dedication and service. Your grief and loss are borne by a grateful nation, and we honor your strength in carrying on their legacy. The pain of their absence is woven into the fabric of our shared memory, and we stand beside you as you navigate the long journey of healing.

We acknowledge the quiet toll it has taken — the children who have grown up without parents, the spouses who have had to rebuild lives, and the colleagues who continue to serve, carrying the memories of those who were lost. Your perseverance and resilience are as much a part of the legacy as the heroism we witnessed on that fateful day.

We Will Never Forget:

In the years since, our world has changed, but the memory of that day remains vivid, and the loss of our heroes is felt in every firehouse, ambulance bay, and police station across the country. As we gather in remembrance, we do so not just in mourning, but in gratitude. We hold close the lessons of that day: the reminder that in our darkest hours, there are those who will step forward to bring light.

To all EMS providers, first responders, and firefighters, those who were taken too soon, and those who continue to serve in their honor: we offer our deepest thanks. Your courage is etched into history, and your sacrifice will be remembered for generations to come.

A Lasting Legacy of Hope and Strength:

While the events of September 11th will forever be a wound in the hearts of many, the resilience, dedication, and unity shown by first responders is an enduring source of inspiration. In your memory, we strive to live lives of service, courage, and kindness.

May we honor your sacrifice not just with words, but through our actions, lifting each other up, and continuing to serve in the spirit of the bravery you showed on that unforgettable day.

Let Us Never Forget.

EMS Equipment - Murphy's Endotracheal Tube

For EMS providers, understanding the Murphy Endotracheal Tube and its key feature, the “Murphy Eye,” is essential for ensuring patient safety during airway management. 

The Murphy eye serves as a critical safety mechanism that prevents complete airway obstruction if the main distal opening of the tube becomes blocked. It is also an example of an eponymous medical term.

Recognizing this feature and the overall design of the endotracheal tube can help prevent complications during intubation and ensure the continued delivery of oxygen to patients in emergency situations.

The “Murphy Eye” Explained

The Murphy Eye is the eponymous term for a small hole on the side of most endotracheal tubes (ETTs). It functions as a vent, preventing complete obstruction of the patient’s airway if the primary distal opening of the ETT becomes occluded.

Dr. Francis J. Murphy (1900–1972) was a strong advocate for the continuous supply of oxygen during anesthesia. In 1941, he outlined the nine characteristics of the "ideal" endotracheal tube (ETT). In the same article, he introduced two tubes with innovative features. 

One tube was straight with two side holes, while the other was curved with one side hole. Both lacked cuffs and were made from high-quality red rubber that balanced flexibility with resistance to compression or kinking, even after multiple uses and heat sterilizations.

Although most ETTs today are made from disposable plastic, they still require a similar balance of flexibility and resistance to compression. Most continue to incorporate the crucial safety feature that bears Dr. Murphy's name: the "Murphy eye."

The featured image show the orginal tube, owned by Dr. Murphy himself, and bears his initials. It features an inflatable cuff located above the "eye," which is inflated via a small side tube attached to the ETT. 

Further Reading:

Bledsoe, B. E., Cherry, R. A. & Porter, R. S (2023) Paramedic Care: Principles and Practice (6th Ed) Boston, Massachusetts: Pearson

Brown, C. A. (2022) Walls Manual of Emergency Airway Management (5th Ed). Philadelphia, Pennsylvania: Lippincott, Williams & Wilkins.

EMS Medical Terminology - Sellick's Maneuver

EMS providers should be familiar with the Sellick Maneuver, also known as cricoid pressure, as a technique designed to reduce the risk of regurgitation and aspiration during endotracheal intubation, particularly in patients who are not fasting or at high risk of vomiting. It is an example of an eponymous medical term.

It was first described by Dr. Brian Sellick in 1961 and has been used in emergency and anesthetic situations ever since. 

However, it’s essential for EMS providers to apply the right amount of pressure and know that this technique is sometimes debated due to concerns that it may obstruct the airway or complicate intubation in some cases.

Here's what they should know:

Key Concepts

Anatomy Involved:

The cricoid cartilage is a ring-shaped structure located just below the thyroid cartilage in the neck.

When performing the Sellick Maneuver, downward pressure is applied to the cricoid cartilage, which in turn compresses the esophagus against the vertebral column, theoretically reducing the chance of regurgitation by preventing stomach contents from moving into the pharynx.

When to Use It:

Primarily used during rapid sequence intubation (RSI) to protect the airway in emergency situations, especially when there's a high risk of vomiting (e.g., trauma patients, those who have recently eaten, or have decreased consciousness).

It may also be employed during bag-valve-mask (BVM) ventilation to prevent gastric insufflation, although this use is somewhat controversial.

How to Perform It:

The provider places firm, continuous pressure using the thumb and forefinger on the cricoid cartilage (located below the Adam’s apple).

The recommended pressure is about 10 Newtons (≈1 kg of force) initially, increasing to 30-40 Newtons (≈3-4 kg of force) once the patient loses consciousness, as the risk of vomiting increases at that point.

Controversies & Limitations:

Questionable Efficacy: Studies over the years have raised doubts about the effectiveness of the Sellick Maneuver in completely preventing regurgitation or aspiration. In some cases, it may even impair ventilation or visualization of the airway during intubation, particularly in difficult airway scenarios.

Potential Complications: Incorrect application of the maneuver (too much force or misplacement of pressure) can result in airway obstruction or displacement of the esophagus laterally rather than compressing it.

Many modern airway protocols have deemphasized its routine use and instead focus on optimal intubation techniques and preparation for managing airway complications.

Training & Clinical Judgment:

EMS providers should be well-trained in applying the maneuver correctly, but also be aware that if it interferes with ventilation or intubation, it should be discontinued.

It’s essential to assess the specific patient scenario (e.g., suspected difficult airway) and weigh the benefits and risks of applying cricoid pressure.

Summary

The Sellick Maneuver was historically considered a key technique for preventing aspiration during emergency intubation, but its effectiveness is now debated. 

EMS providers should understand the anatomy, application method, and potential complications, and apply it judiciously based on the clinical situation.

Further Reading:

Alexander, M. & Belle, R. (2017) Advanced EMT: A Clinical Reasoning Approach (2nd Ed). Hoboken, New Jersey: Pearson Education

Bledsoe, B. E., Cherry, R. A. & Porter, R. S (2023) Paramedic Care: Principles and Practice (6th Ed) Boston, Massachusetts: Pearson

Brown, C. A. (2022) Walls Manual of Emergency Airway Management (5th Ed). Philadelphia, Pennsylvania: Lippincott, Williams & Wilkins.

Ebright, C. (2024) Unique Patient Signs: A Case Study. EMS1. Accessed May 1, 2024

Mistovich, J. J. & Karren, K. J. (2014) Prehospital Emergency Care (11th Ed). Hoboken, New Jersey: Pearson Education

Peate, I. & Sawyer, S (2024) Fundamentals of Applied Pathophysiology for Paramedics. Hoboken, New Jersey:  Wiley Blackwell

EMS Airway Emergencies - Esophageal Varices

Esophageal Varices are abnormally dilated veins in the lower part of the esophagus that develop as a result of portal hypertension, commonly due to liver cirrhosis. 

These varices pose a high risk of massive upper gastrointestinal (GI) bleeding, which can be life-threatening. 

When esophageal varices rupture, they can cause severe hematemesis (vomiting of blood), shock, and potentially death if not managed promptly.

Causes and Pathophysiology

- Portal Hypertension: The most common cause of esophageal varices is liver cirrhosis (often due to chronic alcohol use, hepatitis B or C, or fatty liver disease).

Portal hypertension occurs when the liver becomes scarred and obstructs blood flow, leading to increased pressure in the portal venous system.

- Collateral Circulation Formation: To relieve this increased pressure, the body forms collateral blood vessels (varices) in the esophagus and stomach. These varices are thin-walled and prone to rupture.

- Rupture and Hemorrhage: When pressure becomes too high or if the varices are mechanically disrupted (e.g., vomiting, coughing), they can rupture, leading to severe bleeding.

Signs and Symptoms of Esophageal Variceal Bleeding

EMS providers should be alert for the following symptoms in patients with a known history of liver disease or portal hypertension:

- Profuse Hematemesis: Patients often present with large volumes of bright red blood in vomit, which is the hallmark sign of a ruptured varix.

- Melena or Hematochezia: Blood may pass through the GI tract and present as black, tarry stools (melena) or bright red rectal bleeding (hematochezia), depending on the speed and severity of the bleed.

- Hypovolemic Shock: Tachycardia and hypotension are common signs. Cool, clammy skin, altered mental status, and pallor indicate worsening shock.

- Signs of Liver Disease: 

• Jaundice (e.g., yellowing of the skin and eyes)
• Ascites (e.g., swollen abdomen due to fluid accumulation)
• Spider Angiomata (e.g., visible, web-like blood vessels on the skin)
• Hepatic Encephalopathy (e.g., confusion, altered consciousness)

Prehospital Assessment

- Scene Size-Up and Initial Impression: Evaluate the scene for large amounts of blood, which can indicate massive hemorrhage.

Assess for a patient history of liver disease, alcoholism, or known cirrhosis.

- Airway & Breathing: Monitor for airway obstruction due to blood in the mouth or pharynx.

Be prepared to suction the airway frequently to prevent aspiration.

Assess respiratory status and provide high-flow oxygen if needed.

- Circulatory Assessment: Check for signs of shock (e.g., tachycardia, hypotension).

Establish large-bore IV access (18 gauge or larger) for potential fluid and medication administration.

Monitor mental status and skin condition (pallor, coolness).

- Focused History & Physical Exam: Ask about the patient’s history of liver disease, alcohol use, hepatitis, or prior variceal bleeding.

Inquire about recent triggers (e.g., vomiting, straining, recent alcohol binge) that may have precipitated bleeding.

Prehospital Treatment and Management

Managing esophageal varices in the prehospital setting is challenging and requires prompt, aggressive intervention to control bleeding and prevent shock.

1. Airway Management

- Suctioning: Keep a suction device readily available for continuous use to clear the airway of blood.

- Airway Positioning: Consider placing the patient in the left lateral recumbent position if unconscious to reduce the risk of aspiration.

- Definitive Airway: If the patient is at risk of losing their airway (e.g., massive hematemesis or altered mental status), consider early endotracheal intubation, if within your scope and if protocols allow.

2. Hemodynamic Support

- IV Fluid Resuscitation: Establish two large-bore IVs and begin fluid resuscitation with isotonic crystalloids (e.g., normal saline) if the patient shows signs of hypovolemic shock.

Avoid aggressive fluid overload, as it can increase portal hypertension and worsen bleeding.

- Blood Products: If available (e.g., in critical care transport), consider initiating blood transfusion early in patients with significant bleeding or hemorrhagic shock.

3. Medications

- Vasoactive Agents (for ALS Providers): If within your scope and protocol, consider octreotide or vasopressin, which can reduce portal pressure and control variceal bleeding (requires medical control consultation).

- Anti-Emetics: Administer antiemetics (e.g., ondansetron) to prevent retching and reduce the risk of worsening the variceal tear.

4. Rapid Transport and Early Notification

- Transport Priority: All patients with suspected variceal bleeding should be considered critical and require rapid transport to the nearest facility with endoscopic capabilities and surgical backup.

- Early Notification: Notify the receiving hospital as early as possible about the suspected diagnosis, so the facility can mobilize appropriate resources.

Differentiating from Other GI Bleeds

- Peptic Ulcer Disease: Often presents with coffee-ground emesis and less profuse bleeding.

- Mallory-Weiss Syndrome: Similar to varices but generally involves small, non-life-threatening mucosal tears with moderate bleeding.

- Gastric Cancer or Erosive Gastritis: May have chronic, low-volume bleeding rather than acute hemorrhage.

Who Discovered Esophageal Varices?

Esophageal Varices themselves are not attributed to a specific individual. They were gradually recognized as a consequence of portal hypertension in patients with liver disease, a concept that evolved over centuries of clinical observation. 

The condition was first described in detail in the early 20th century, as the understanding of cirrhosis and portal hypertension advanced. 

The development of endoscopy in the mid-20th century allowed for more precise diagnosis and management of this life-threatening condition.

Key Considerations for EMS Providers

- Early Recognition: Suspect esophageal varices in any patient with massive hematemesis and a history of liver disease or alcohol abuse.

- Airway Safety: Suctioning and airway management are critical to prevent aspiration.

- Shock Management: Focus on maintaining perfusion with controlled fluid resuscitation.

- Definitive Treatment is Hospital-Based: EMS management is primarily supportive, with rapid transport to a facility that can perform endoscopy and possible surgical interventions.

Further Reading:

Alexander, M. & Belle, R. (2017) Advanced EMT: A Clinical Reasoning Approach (2nd Ed). Hoboken, New Jersey: Pearson Education

Brown, C. A. (2022) Walls Manual of Emergency Airway Management (5th Ed). Philadelphia, Pennsylvania: Lippincott, Williams & Wilkins

Bledsoe, B. E., Cherry, R. A. & Porter, R. S (2023) Paramedic Care: Principles and Practice (6th Ed) Boston, Massachusetts: Pearson

Meseeha, M., & Attia, M. (2023) Esophageal Varices. StatPearls. Treasure Island, Florida: StatPearls. Accessed September 28, 2024

Mistovich, J. J. & Karren, K. J. (2014) Prehospital Emergency Care (11th Ed). Hoboken, New Jersey: Pearson Education

Peate, I. & Sawyer, S (2024) Fundamentals of Applied Pathophysiology for Paramedics. Hoboken, New Jersey:  Wiley Blackwell