Loyola Report Details Techniques to Restore Blood Flow to the Brain
January 23, 2018Categories: Neurology & Neurosurgery
Tags: Neurology Neurosurgery
MAYWOOD, IL – Recent decades have seen an "explosive evolution" of techniques to restore blood flow to areas of the brain endangered by stroke or clogged arteries, according to a report by Loyola Medicine neurologists and neurosurgeons.
Historically, the introduction of operating microscopes enabled surgeons to perform delicate microsurgeries to clear clogged arteries and remove blood clots that cause strokes. More recently, physicians have begun using minimally invasive endovascular techniques.
"The last 50 to 60 years have witnessed an explosive evolution of techniques geared at restoring blood flow to compromised regions of the brain, senior author Camilo R. Gomez, MD, and colleagues wrote in the journal MedLink Neurology.
Endovascular techniques do not require invasive open surgery. The physician employs catheters (thin tubes) that are guided through blood vessels to the brain. From the tip of the catheter, the physician deploys stents or other devices to restore blood flow (endovascular means inside blood vessels). These endovascular techniques have "amplified the dimensions of care for many patients whose therapeutic options were previously limited," the Loyola authors wrote.
Cerebral vascular insufficiency (not enough blood flow to the brain) increases the risk of stroke and is a major cause of neurologic death and disability worldwide. It is typically caused by atherosclerosis (buildup of fats, cholesterol and other substances that clog arteries that supply blood to the brain).
Techniques and procedures used to improve blood flow to the brain are similar to those used in heart procedures. They include bypass surgery, balloon angioplasty and stenting. One of the latest devices is called a stent retriever (also known as a stentriever). The device is a self-expanding mesh tube attached to a wire. The device is guided through blood vessels to a clot that is blocking blood flow to a part of the brain. The device pushes the blood clot against the wall of the blood vessel, immediately restoring blood flow. The stent retriever then is used to grab the clot, which is pulled out when the physician removes the catheter.
Dr. Gomez began performing neuroendovascular procedures more than 20 years ago, when the field was in its infancy. During that time, he said, there has been a tremendous improvement in both devices and techniques. "The chances a stroke patient will have a good outcome are two to three times better now than they were 10 to 15 years ago," Dr. Gomez said.
Modern endovascular techniques can, in effect, stop a stroke in its tracks by removing blockages. Patients with the largest blockages and most devastating strokes are deriving the greatest benefits, said Loyola neurosurgeon Joseph C. Serrone, MD, one of the co-authors of the paper. "Seven clinical trials have shown that endovascular techniques restore significant function in these patients," Dr. Serrone said.
In the past two decades, there have been tremendous advancements in the way ischemic strokes are treated, said Loyola neurosurgeon Matthew R. Reynolds, MD, PhD, also a co-author of the paper. "With the advent of mechanical thrombectomy (blood clot removal) and minimally-invasive techniques, patients who otherwise would be permanently disabled from stroke can often lead normal, productive lives," Dr. Reynolds said. "It's truly an exciting time to be an endovascular neurosurgeon."
Dr. Gomez added that other surgical and endovascular procedures described in the paper can prevent strokes by restoring blood flow to chronically blocked vessels. Drs. Serrone and Reynolds, who have specialized training and expertise, were recently recruited to join Loyola's neuroendovascular surgery program.
Dr. Gomez is medical director of neuroendovascular surgery and a professor in the department of neurology of Loyola University Chicago Stritch School of Medicine. His paper is titled "Cerebral Revascularization: Surgical and Endovascular Approaches." In addition to Drs. Gomez, Reynolds and Serrone, other co-authors are neurosurgery resident Daniel M. Heiferman, MD (first author), and José Biller, MD, chair of the department of neurology.
About Loyola Medicine
Loyola Medicine, a member of Trinity Health, is a nationally ranked academic, quaternary care system based in Chicago's western suburbs. The three-hospital system includes Loyola University Medical Center (LUMC), Gottlieb Memorial Hospital, MacNeal Hospital, as well as convenient locations offering primary care, specialty care and immediate care services from nearly 2,000 physicians throughout Cook, Will and DuPage counties. LUMC is a 547-licensed-bed hospital in Maywood that includes the William G. and Mary A. Ryan Center for Heart & Vascular Medicine, the Cardinal Bernardin Cancer Center, the John L. Keeley, MD, Emergency Department, a Level 1 trauma center, Illinois's largest burn center, the Nancy W. Knowles Orthopaedic Institute, a certified comprehensive stroke center, transplant center and a children’s hospital. Having delivered compassionate care for over 50 years, Loyola also trains the next generation of caregivers through its academic affiliation with Loyola University Chicago’s Stritch School of Medicine and Marcella Niehoff School of Nursing.
For more information, visit loyolamedicine.org. You can also follow Loyola Medicine on LinkedIn, Facebook, Instagram or X (formerly known as Twitter).
About Trinity Health
Trinity Health is one of the largest not-for-profit, faith-based health care systems in the nation. It is a family of 127,000 colleagues and more than 38,300 physicians and clinicians caring for diverse communities across 26 states. Nationally recognized for care and experience, the Trinity Health system includes 93 hospitals, 107 continuing care locations, the second largest PACE program in the country, 142 urgent care locations and many other health and well-being services. In fiscal year 2024, the Livonia, Michigan-based health system invested $1.3 billion in its communities in the form of charity care and other community benefit programs. For more information, visit us at www.trinity-health.org, or follow us on LinkedIn, Facebook, and X (formerly known as Twitter).