This Penn heart patient is a 9-year-old boxer dog named Sophie – Penn: Office of University Communications

For Karen Cortellino, her 9-year-old dog Sophie is more than just a companion.

Theres this bumper sticker that says, Rescue dogs: Who rescued who? says Cortellino, a physician from New Jersey. Thats exactly how I feel. Eight years ago, she adopted Sophie, a boxer, two weeks after the death of the familys first boxer, and shes been Mommys baby ever since.

A few months ago, however, Sophies star rose even higher: She became the first dog with a particular type of heart diseasearrhythmogenic right ventricle cardiomyopathy (ARVC)to be treated with cardiac ablation.

Anna Gelzer, a cardiologist in Penns School of Veterinary Medicine, led Sophie through the procedure, together with cardiology resident Alexandra Crooks. But the equipment and expertise to perform an ablation, in which a high energy catheter tip burns tiny portions of damaged heart tissue to restore normal rhythms, wouldnt have been possible without collaborators from just down the street. At the Perelman School of Medicines Translational Cardiac Electrophysiology Laboratory, Director Cory Tschabrunn and members of his team worked hand-in-hand with their veterinary colleagues to plan out and provide Sophie a procedure that mirrors the best that human medicine has to offer.

This collaboration and this close distance between our hospitals allows us to be able to utilize the tremendous access to all this knowledge, says Gelzer. And from our experience with Sophie and other dogs to come, we may able to glean information that will be valuable to human medicine. Its the best of both worlds.

For Gelzer and Crooks, Sophie is a pilot case for a study now backed by two grants that will support cardiac mapping and ablation procedures for six additional dogs. Currently, cardiac ablation is only available for pet dogs in two other sites in the world, one in Italy and one in Ohio. Sophies case puts Penn Vet on the map. While the equipment necessary to perform ablations is costly, access to Penn Medicines translational electrophysiology lab has opened the possibility that Penn Vet may one day be able to provide committed dog owners a more durable alternative to medication for treating their pets arrhythmias.

ARVC is not an uncommon diagnosis in boxers. Some studies estimate as much as a quarter of the breed may have the inherited disease, which is also prevalent in American bulldogs. But Sophies heart was not top of mind in early July, when she had surgery to repair a torn ligament in her left knee. Two weeks later, Cortellino took her for a follow-up visit at their local veterinary hospital to have her stitches removed.

Everything was great and literally we were just about walking out the door when Sophie collapsed, Cortellino says.

Sophie received emergency care, was transferred to another veterinary facility with a cardiac department, and was soon diagnosed with ARVC. A strikingly similar condition affects roughly 1 in 1,000 humans. In both dogs and humans, the disease, which doesnt manifest until adulthood, causes a deterioration of the tissues in the heart muscle, leading to occasional episodes when the heart beats very fast.

The condition increases the risk of sudden death. While drugs like beta blockers and sodium channel blockers can mitigate this risk, arrhythmias can sometimes break through these medications.

It was kind of a somber picture when she was diagnosed, Cortellino says. She could have a fatal arrhythmia at any time: today, next month, next year, three years from now.

Cortellino, capitalizing on her medical training, began researching alternative treatment options. In humans with a diagnosis similar to Sophies, the treatment of choice is an implantable cardiac defibrillator (ICD). But, as Gelzer explained to Cortellino when she reached out about this possibility, that option is not yet tenable for dogs.

ICDs are designed to recognize human arrhythmias, Gelzer says. But theyre not able to distinguish the normal variation in heart rate that a dog is capable of from a life-threatening arrhythmia.

An affectionate dog awaiting its owners return home for work, for example, might get so excited upon hearing a key turn in the door that its heart rate could jump from 40 to 200 beats per minute within the space of a few heartbeats. If that dog was outfitted with an ICD, the device might interpret the rate change as an arrhythmia and misfire, triggering a painful and possibly traumatic shock.

But Gelzer did have an alternative proposal for Cortellino, one that could address the underlying cause of Sophies heart condition. The only catch was that it had never been done in a dog with ARVC before.

When Cortellino emailed Gelzer, the timing was good. Gelzer had been thinking about options for curing cases like Sophies for many years. And she had the right kind of expertise to be considering that possibility.

In 2000, when Gelzer was a junior faculty member at Penn Vet, she worked with David Callans, an expert on cardiac electrophysiology at the School of Medicine. At the time, they collaborated on basic cardiac research, using pig models. Gelzer remembers wishing they could apply the technique of ablations to dogs, which develop heart conditions similar to humans.

Fast forward 15 years, after time away from Penn Vet in positions at Cornell and University of Liverpool, Gelzer returned and reconnected with Callans. His old basic research lab was no longer operating, but Gelzer continued to reach out to him for consultations from time to time, or attended rounds for human patients in his group.

This collaboration and this close distance between our hospitals allows us to be able to utilize the tremendous access to all this knowledge. Veterinary cardiologist Anna Gelzer of the School of Veterinary Medicine

Roughly a year ago, when discussing one of Gelzers cases, Callans connected her with Tschabrunn, who had recently set up his lab in Penn Medicines Smilow Center for Translational Researchas part of the recently established Electrophysiology Translational Center of Excellence (EP-TCE) initiative, led by Francis Marchlinski, director of cardiac electrophysiology for Penn Medicine. Marchlinski and the Penn EP team have been pioneers in the evaluation and treatment of patients with inherited arrhythmia disorders like ARVC.

Tschabrunns primary research interests focus on the development of clinically relevant translational research models to elucidate the underlying pathophysiology and mechanisms of complex arrhythmias and the creation of new diagnostic and therapeutic technologies for treating cardiovascular diseases. He also performs, in close collaboration with Marchlinski and with support from the Winkelman Family Fund in Cardiovascular Innovation, clinical research in human patients with ARVC.

As such, Tschabrunn responded with enthusiasm upon hearing of Gelzers interest in pursuing ablations in dogs, particularly those with ARVC. The two struck up a collaboration that brought together the latest in technique and technology in cardiac electrophysiology with deep knowledge in veterinary cardiology.

This was an exciting opportunity not onlyin terms of a research collaboration, says Tschabrunn, but we also had the chance to help a patient by combining our expertise and resources that are really only available at just a few institutions in the world.

Ablations are routine care for many cases of arrhythmias in people. You approach the heart through the blood vessel, get in the right spot, andwith all the expertise and knowledge of the practitioneryou can find the damaged area and burn it, says Gelzer. And then maybe the patient doesnt need to be on medications that can have side effects and are in some cases not that effective.

Gelzer saw Sophie, a healthy dog aside from her heart condition, as an excellent candidate for an ablation. Cortellino, while a bit nervous about putting her beloved dog into uncharted medical territory, was comforted by Gelzers and Crookss clear expertise, their warm manner with Sophie, and their openness and honesty about the procedures upsidesand possible risks.

I was a little nervousa lot nervousbut we thought to ourselves, really, whats our alternative? Cortellino says. As my son said, Look Mom, at the very least, Sophie is contributing to the possible welfare of other dogs. So there was a small element of altruism in putting Sophie through this, in addition to hoping for a more definitive treatment for her condition.

Before the surgery, the veterinarians gathered data on the patterns of Sophies arrhythmias using a device called a Reveal LINQ, implanted just beneath her skin. The LINQwhich is also used in humansrecords a continuous electrocardiogram (ECG) as a loop recorder, storing abnormal rhythm strips for up to three years, giving clinicians a more complete picture of abnormal heart activity than a quick office visit ECG. That information was used during the procedure to zero in on the correct area of the heart to target with the ablation.

The morning of the procedure, Gelzer used her own car to drive Sophie the short distance from Penn Vets Ryan Hospital to the Smilow Center. When she brought the dog up to the lab, a full complement of experts awaited her: not only Crooks, Tschabrunn and his team, and Giacomo Gianotti, head of anesthesia at Ryan, but also two anesthesia residents, Penn Vets two other cardiologyfaculty, Marc Kraus and Mark Oyama, two other cardiology residents, a cardiologyresearch intern, experts on the machines that were used in the procedure, veterinary nurses, and interested observers.

The number of people we had in one room for one patient, it blows my mind, says Gianotti. Everyone had a specific role, and it took a lot of training and cooperation to get there.

The procedure was long and complex, taking place in different stages. First, to locate the areasof unhealthy heart tissue that had been indicated by the ECG, the clinicians used an advanced mapping system based on GPS technology called CARTO.

You put a patch on the bottom and top of the dog, Gelzer says. You then use those as your points of orientation as you advance the catheter and create a map of the inside of the heart. Its great because you dont have to use fluoroscopy, so nobody is exposed to X-rays.

The CARTO system maps the voltage of the heart tissue, a technique pioneered by Marchlinski and Callans nearly two decades ago and a continued area of Tschabrunn's research focus today in both the translational and clinical PE laboratories. Decreased voltage corresponds with diseased tissue. They confirmed these areas by artificially introducing extra heart beats into Sophies normal rhythm. But Sophies heart resisted these challenges, a sign that her disease was being kept in check by her medications.

The heart mapping and challenges did, however, allow the clinicians to reproduce the abnormal beats that they had seen on the ECG, giving them more evidence that they were targeting the right areas for ablation. Guided by that information, Tschabrunn used precisely directed radiofrequency to burn millimeter-sized portions of the tissue inside Sophies right ventricle, one of the lower chambers of the heart.

Throughout the several-hours-long procedure, Gelzer and Crooks sent texts with updates to Cortellino. While it was nerve-wracking, I really felt that Sophie was in good hands, she says.

And all went smoothly. Sophie did amazing, Gelzer says. After we were done, we pulled the catheter out, she rested, and then went home the next day.

Gelzer and Tschabrunn recently performed another ablation on a canine patient, and they are hopeful that the outcomes from the study will lay the groundwork for ablation to become a more routine option for dogs and their owners.

My long-term hope for Penn Vet is that any arrhythmia that is potentially ablatable, we will be able to offer ablation therapy, she says. Its not going to be the right option for every owner or dog, but with the right case, the right circumstance, its a very promising and rewarding treatment to be able to provide.

Members of the team on both the veterinary and medical sides share enthusiasm about the information that canine patients will be able to lend to human medicine as well. There is a lot we can learn about cardiac disease pathology from veterinary patients like Sophie, says Tschabrunn. It is extremely difficult or nearly impossible to model human-like inherited cardiac diseases and complex arrhythmias in the laboratory, but similar diseases can occur naturally in dogs. This provides us a unique opportunity to improve our understanding of these diseases and develop new treatments for human and veterinarian patients alike.

This type of mutually beneficial exchange highlights the value of a One Health approach to medicine, one that takes advantage of the remarkable similarities between humans and our companion animals, says Oliver Garden, who heads the Department of Clinical Sciences and Advanced Medicine at Penn Vet.

If ever there was a thrilling example of One Health in action, this is it, says Garden. Sophies case brings new heights to our departments ethos of advanced medicine. And the work of such a transdisciplinary team, in this case involving members of our own esteemed faculty collaborating with experts at the Perelman School of Medicine, is nothing short of breathtaking.

Tschabrunn concurs. I think the openness and enthusiasm for this type of multi-disciplinary collaboration is a major strength of this University, he says. It is only possible in places like Penn, which brings together the expertise from faculty across so many diverse schools coupled with extraordinary facilities and resources all on a single campus. Theres always something incredible going on that you can be a part of.

And Cortellino and her family are reaping the benefits: Sophie is back to her perky self.

Anna Gelzer is professor of cardiology at the University of Pennsylvania School of Veterinary Medicine.

Alexandra Crooks is a resident in cardiology at the University of Pennsylvania School of Veterinary Medicine.

Giacomo Gianotti is associate professor of clinical anesthesiology at the University of Pennsylvania School of Veterinary Medicine.

Oliver Garden is the Henry and Corinne R. Bower Professor of Medicine and chair of the Department of Clinical Sciences and Advanced Medicine at the University of Pennsylvania School of Veterinary Medicine.

Cory Tschabrunn is an instructor of medicine and director of the Translational Cardiac Electrophysiology Laboratory at the University of Pennsylvania Perelman School of Medicine.

David Callans is professor of medicine at the University of Pennsylvania Perelman School of Medicine.

Francis Marchlinksi is the Richard T. and Angela Clark Presidents Distinguished Professor in the Department of Medicine at the University of Pennsylvania Perelman School of Medicine.

Homepage photo: A grateful Sophie offers affection to cardiology resident Alexandra Crooks at a follow-up appointment after her ablation procedure. (Image: John Donges/Penn Vet)

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This Penn heart patient is a 9-year-old boxer dog named Sophie - Penn: Office of University Communications