Whatever Happened to the Artificial Heart?
Question by PT109: Whatever happened to the Artificial Heart?
[rewrite]Was it a failure and is it still in use?
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Best answer:
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Answer by mutantalbino
Quote from: htttp://en.wikipedia.org/wiki/Artificial_heart#Recent_developments
“On July 2, 2001, Robert Tools received the AbioCor Implantable Replacement Heart produced by the AbioMed company of Danvers, Massachusetts. It was the first completely self-contained artificial heart transplant. The surgery was done by University of Louisville doctors at Jewish Hospital in Louisville, Kentucky. Tom Christerson survived for 17 months after another AbioCor transplant. On September 6, 2006 the AbioCor device became the first fully implantable artificial heart to be approved under ‘Humanitarian Use Device’ rules.[1]
The ‘CardioWest’ temporary Total Artificial Heart (TAH?t) was developed from the Jarvik-7 by University of Arizona researchers and approved for use in 2004.[2] It is the first implantable artificial heart to be approved by the U.S. Food and Drug Administration, and has also been approved by the CE. The TAH-t is used only in patients with end stage biventricular failure as a way to improve life expectancy while they are waiting for a heart transplant. In a pivotal clinical study, these patients were successfully transplanted 79% of the time;[3], One-year and five-year survival rates after heart transplant among these patients were 86 and 64 percent. The longest TAH?t implantation so far went 602 days (20.4 months).[4] There are several medical centers where this device can be implanted:
United States: [5]
– University Medical Center (Tucson, AZ) [1]
– Cleveland Clinic (Cleveland, OH) [2]
– Virginia Commonwealth University Health System (Richmond, VA) [3]
– Aurora St. Luke’s (Milwaukee, WI) [4]
– University of Michigan Health System (Ann Arbor, MI) [5]
– Penn State Hershey Medical Center (Hershey, PA) [6]
– Ohio State University Medical Center (Columbus, OH) [7]
– Hospital of the University of Pennsylvania (Philadelphia, PA) [8]
– Barnes Jewish Hospital (St. Louis, MO) [9]
Canada:
– Montreal Heart Institute (Quebec, Canada) [10]
Europe:
– Groupe Hospitalier La Pitié-Salpêtrière (Paris, France) [11]
– Hôpital Guillaume et René Laennec (Nantes, France) [12]
– Deutsches Herzzentrum Berlin / German Heart Institute Berlin (Berlin, Germany) [13]
– Herz-und Diabeteszentrum Nordrhein Westfalen / Heart and Diabetes Center (Bad Oeynhausen, Germany) [14]
– Herzzentrum Leipzig GmbH Universitaetsklinik (Leipzig, Germany) [15]
– Universitäts Klinikum Freiburg (Freiburg, Germany) [16]
– Universitätsklinikum Münster (Munster, Germany) [17]
– Herzzentrum Köln (Cologne, Germany) [18]
– University Hospital Munich (Munich, Germany) [19]
– Friedrich-Alexander University Hospital (Nuremburg, Germany) [20]
With increased understanding of the heart and continuing improvements in prosthetics engineering, computer science, electronics, battery technology, and fuel cells, a practical artificial heart may be a reality in the 21st century.”
Answer by Wendy C
See below, very interesting article. It is a failure yes and no, in clinical trials, the device extended patients’ lives by only four and a half months, on average. One patient survived 17 months, another 10 months. Only one patient was able to go home. It prolongs life it seems, but not for long, read below for more interesting information.
Sept. 5, 2006 — The FDA has approved the AbioCor fully implantable artificial heart for dying heart failure patients too old or too sick for a heart transplant.
The “humanitarian” approval is not full approval. It applies only to what Bram Zuckerman, MD, director of the FDA’s heart device division, calls “the sickest of the sick.”
Patients who have only a month to live, suffer from failure of both chambers of the lower heart, and aren’t eligible for a heart transplant can now receive the AbioCor.
Yet the announcement represents a major milestone on the road to a fully functional artificial heart, says Daniel Schultz, MD, director of the FDA’s Center for Devices and Radiological Health.
“The reason this is such an exciting day is we are talking about an innovative device that will save lives,” Schultz said in a news conference. “This approval, under the humanitarian-use program, is part of our way to ensure this technology will become available to patients for whom waiting for full approval is not a possibility.”
So far, there’s only one size AbioCor heart — large. Patients to date have been 6-feet-tall men weighing more than 170 pounds. A large chest is needed to accommodate the current version of the device.
The Artificial Heart
The AbioCor system consists of:
A 2-pound mechanical heart implanted in the chest. The patient’s diseased heart is removed during implantation.
A power transfer coil across the skin that powers the system and recharges the internal battery from the outside.
A controller and battery implanted in the belly. The controller adjusts the artificial heart’s pumping rate. The internal battery allows the patient to be free from all external connections for up to 1 hour.
Two external batteries that allow free movement for up to 2 hours.
During sleep and while batteries are being recharged, the system can be plugged into a normal electrical outlet.
Abiomed, the manufacturer of the device, says five to 10 medical centers will be trained to implant the AbioCor devices.
This humanitarian approval is intended for treatment of conditions that affect fewer than 4,000 patients a year in the U.S., according to an FDA news release. As the short survival times suggest, the device remains experimental.
“It is important to recognize that right now the device is a niche device targeted to an extremely sick heart failureheart failure population,” Zuckerman says.
“The vast majority of these patients are bed bound, extremely short of breath, and hooked up to multiple intravenous medications.
“For many of these patients in the clinical trial, just the ability to ambulate, to clearly communicate with loved ones, to take excursions out of the hospital, and to celebrate important family events, were — in the eyes of the patients and family members — seen to be an improvement,” Zuckerman says.
People who receive the device will be enrolled in a post-approval study. The results of this study will be used to develop the next generation of artificial hearts.
Click this link for more info:
http://www.webmd.com/heart-disease/Heart-Failure/news/20060905/artificial-heart-approved
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It continues to get smaller and smaller. There is now a version that fits totally inside the chest.
To call it a failure demonstrates a lack of perspective.
For example, it took around 10,000 “failures” to invent a working light bulb, but also those iterations provided a valuable body of data which also led to the improvement of later designs.
The very first artificial heart was HUGE and was connected to an external device the size of a refrigerator. The person it was connected to died.
All people die.
Did it provide valuable information which led to the next design and the next?
It sure did.
So even the current versions aren’t perfect but if memory serves me, people with real hearts die too. Yep, the artificial heart is still radical research but if you look at the time line, it has progressed amazingly.