Handheld Ultrasound Trends |Vscan Connections

Handheld Ultrasound Trends

Handheld Ultrasound Trends.

Prehospital Ultrasound in Emergency Medicine: Think Outside the 4 Walls

In cardiac care, mere minutes matter. That's why some medical specialists today may be turning to prehospital ultrasound to accelerate treatment, ensuring patients receive life-saving therapies faster.

In the hands of paramedics and other emergency services providers, handheld ultrasound devices, such as GE's Vscan Extend™, may obtain cardiac images sufficient enough for interpretation even before patients arrive in the emergency department. With proper training, prehospital clinicians can not only use ultrasound to identify a problem, but also to help triage patients.

Benefits of Prehospital Use
Point-of-care ultrasound (PoCUS) has already been shown to potentially help diagnose a plethora of life-threatening conditions, such as hemoperitoneum, pericardial effusion, cardiac tamponade, pneumothorax and abdominal aortic aneurysm. Prehospital ultrasound can also identify situations where resuscitative efforts could be beneficial and should be continued. Putting those diagnostic capabilities to use en route to a hospital may save more lives.

For example, according to investigators in a World Journal of Emergency Medicine study, PoCUS education for paramedics can be helpful to patients: "Our pilot study suggests that with minimal training, paramedics can use [ultrasound] to obtain cardiac images that are adequate for interpretation and diagnose cardiac standstill."

An American Journal of Emergency Medicine editorial also discussed the importance of using prehospital ultrasound in situations with critical patients.

"Streamlined [focused assessment with sonography for trauma] may increase triage accuracy of blunt torso trauma patients in mass casualty incidents with limited medical resources," the authors noted. "We recommend the use of [streamlined focused assessment with sonography for trauma] to decrease patient triage to treatment time in any unfortunate future disasters."

In many instances, prehospital clinicians are the first to interact with critically ill patients. Consequently, having PoCUS available to provide real-time internal images may provide significant benefits to both cardiac life support and advance trauma support. Not only may it assist with any prehospital decision-making, but it may also help inform how physicians proceed once patients arrive in the emergency department.

Real-World Implementation
Prehospital ultrasound offers a real-world option in helping to provide immediate care to patients in acute situations. Using GE Vscan Extend™, a helicopter paramedic unit in New Zealand screened airlifted patients for potential cardiac problems prior to landing at Dunedin Hospital, which is located in an area where road travel can be precarious.

In these and other frenetic conditions, PoCUS is helpful because paramedics may clearly see heart function. With ultrasound, New Zealand's paramedics assessed cardiac activity and checked for internal bleeding, thoracic injuries and pulmonary embolisms. They also used handheld ultrasound to side-step unnecessary procedures. For example, PoCUS use determined a suspected pneumothorax in one patient did not exist, so paramedics opted not to decompress the chest.

Prehospital ultrasound may also be used to triage patients who should be taken immediately to the operating room. Doing so saves valuable time otherwise spent running further diagnostic tests in the emergency department.

PoCUS Training
Handheld ultrasound can be a valuable tool for nearly any healthcare provider who receives proper training. Paramedics and other prehospital clinicians may achieve the same level of skill as physician sonographers if they undergo comparable instruction.

This level of accuracy may alter and positively impact the care a patient receives upon arriving at the hospital by giving physicians insight into a patient's condition.

While research into the use of prehospital ultrasound is in the early phases, study results and real-world implementation have already shown it may play a vital role in time-sensitive, critical conditions. All in all, proper use may decrease both mortality and morbidity, improving overall patient outcomes.
 

The device has been verified for limited use outside of professional healthcare facilities including during transport. Use is restricted to environmental properties described in the user manual , please contact your GE Healthcare sales representative for detailed information

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Handheld Ultrasound Trends. Technology and Innovation.

Move over Batman, Bat-students are coming: Using ultrasound to “see with sound”

When Dr. Phelan stood in front of the freshman class at a high school in Little Rock, Arkansas and asked how many students had seen an ultrasound system, many hands shot up. However, when he asked if they knew how an ultrasound worked, the room went silent.

Dr. Kevin Phelan, a professor in the Division of Clinical Anatomy at the University of Arkansas for Medical Sciences (UAMS), has a passion for STEM in local schools – and that means getting students excited about imaging technologies, specifically ultrasound. With the help of a five-year grant called the Science Education Partnership Award (SEPA) from the National Institute of General Medical Sciences, Dr. Phelan and his colleagues created the ArkanSONO program in collaboration with the Little Rock School District in central Arkansas to do just that.

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Improving Patient Care. Handheld Ultrasound Trends. Technology and Innovation.

Inside Africa’s Floating Hospital

Dr. Leo Cheng, a maxillofacial reconstructive surgeon with the UK National Health Service, spends two to three weeks of his leave each year volunteering on board the Africa Mercy, the world’s largest charitable floating hospital run by international charity Mercy Ships. His patients suffer from large benign tumours on the face and neck. Many of them have never received any kind of healthcare before they meet him.

Earlier this year, Dr. Cheng joined the Africa Mercy to travel to Tamatave in Madagascar, where more than 90% of the population live on less than a dollar a day. For every 10,000 residents, there are only two physicians and three hospital beds available.

The Africa Mercy has five state-of-the-art operating rooms and advanced equipment to help make fast and accurate diagnoses. Dr. Cheng and the ship’s team are always on the lookout for new methods and technologies that can improve the work they do while aboard.

 
“Ahead of this latest journey, I initially inquired about a laptop-style ultrasound machine. Once I found out about the Vscan with Dual Probe, I immediately felt that I must introduce this to the ship clinicians,” Dr. Cheng said.

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Improving Patient Care. Handheld Ultrasound Trends. Technology and Innovation.

Massive Storm, Small Technology

On September 9, Jeff Hersh, a doctor, watched the northbound lanes of Interstate 75 in Florida fill with carloads of people fleeing the path of Hurricane Irma.

Jeff was on the other side of the highway, driving south and intentionally heading into the oncoming storm.

Irma struck northern Caribbean islands as well as the U.S. mainland and is blamed for dozens of deaths as well as power outages to millions of homes and businesses.

Jeff is among the 36 members of the Boston Strong MA1 Disaster Medical Assist Team (DMAT), which was activated as part of the United States Health and Human Service’s National Disaster Medical System (NDMS) response to Hurricane Irma.

In its 30-year history, NDMS has participated in more than 300 deployments to disasters domestically. It’s is made up of civilian, disaster-response trained people who become intermittent federal employees, serving as boots on the ground when and where they’re needed.

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