Test quickly detects early heart attack signs

The heart of the blood test, chip with a groundbreaking nanostructured surface o
The heart of the blood test, chip with a groundbreaking nanostructured surface on which blood is tested.
New blood test quickly detects earliest signs of heart attack

With heart attacks, every second counts. A Johns Hopkins team has developed a fast, accurate diagnostic tool that could speed results to physicians or first responders.

With heart attacks, every second counts. A new blood test diagnoses them in minutes rather than hours and could be adapted as a tool for first responders and people at home.

"Heart attacks require immediate medical intervention in order to improve patient outcomes, but while early diagnosis is critical, it can also be very challenging-and near impossible outside of a clinical setting," said lead author Peng Zheng , an assistant research scientist at Johns Hopkins University. "We were able to invent a new technology that can quickly and accurately establish if someone is having a heart attack."

The proof-of-concept work, which can be modified to detect infectious diseases and cancer biomarkers, is newly published in Advanced Science .

"We’re talking about speed, we’re talking about accuracy, and we’re talking of the ability to perform measurements outside of a hospital."

Ishan Barman Zheng and senior author Ishan Barman develop diagnostic tools through biophotonics, using laser light to detect biomarkers, which are bodily responses to conditions including disease. Here they used the technology to find the earliest signs in the blood that someone was having a heart attack. Though an estimated 800,000-plus people have heart attacks every year just in the United States, heart attacks remain one of the trickiest conditions to diagnose, with symptoms that vary widely and biological signals that can be subtle and easy to miss in the early stages of an attack, when medical intervention can do the most good.

People suspected of having heart attacks typically are given a combination of tests to confirm the diagnosis-usually starting with electrocardiograms to measure the electrical activity of the heart, a procedure that takes about five minutes, and blood tests to detect the hallmarks of a heart attack, where lab work can take at least an hour and often has to be repeated.

The stand-alone blood test the team created provides results in five to seven minutes. It’s also more accurate and more affordable than current methods, the researchers say.

Though created for speedy diagnostic work in a clinical setting, the test could be adapted as a hand-held tool that first responders could use in the field, or that people might even be able to use themselves at home.

"We’re talking about speed, we’re talking about accuracy, and we’re talking of the ability to perform measurements outside of a hospital," said Barman, a bioengineer in JHU’s Department of Mechanical Engineering. "In the future we hope this could be made into a hand-held instrument like a Star Trek tricorder, where you have a drop of blood and then, voilą, in a few seconds you have detection."

The heart of the invention is a tiny chip with a groundbreaking nanostructured surface on which blood is tested. The chip’s "metasurface" enhances electric and magnetic signals during Raman spectroscopy analysis, making heart attack biomarkers visible in seconds, even in ultra-low concentrations. The tool is sensitive enough to flag heart attack biomarkers that might not be detected at all with current tests, or not detected until much later in an attack.

Though designed to diagnose heart attacks, the tool could be adapted to detect cancer and infectious diseases, the researchers say.

"There is enormous commercial potential," Barman said. "There’s nothing that limits this platform technology."

Next the team plans to refine the blood test and explore larger clinical trials.

Authors included Lintong Wu, Piyush Raj, Jeong Hee Kim, Santosh Paidi, all’of Johns Hopkins, and Steve Semancik, of the National Institute of Standards and Technology.