Monday, December 31, 2012

The Total Artificial Heart





      Dr. Robert Jarvik is a common name used when referring to the complete circulatory support that is known as the Total Artificial Heart (TAH). There is more to the story. The path of the TAH actually started in 1964 when Domino Liotta and Denton Cooley implanted the first TAH at the Texas Heart Institute. In 1982, a patient by the name of Barney Clark was implanted with the Jarvik-7 TAH. He survived 112 days. In 2010, the CardioWest TAH was officially renamed the SynCardia temporary TAH. The SynCardia temporary TAH is the device currently in use today. 
Despite its less than favorable beginnings, there have been several success stories. CBS news did a story on Charles Okeke. The first person in the world to be discharged from the hospital with a TAH implanted. See and enjoy Mr. Okeke's story here.


You are probably asking what is the total artificial heart (TAH)? As the reader will see in all of the hyperlinks provided how intense of a surgery it is. This is the final option before heart transplant or as a type of destination therapy. The patient receiving a TAH is likely to be in end stage congestive heart failure. As in Mr Okeke's case, he was already transplanted once. A second transplant was not an option, so the only option for survival is the TAH.

A handful of patients at Strong Memorial Hospital have been implanted with the TAH. I have spoken with several nurses that have cared for these patients. Similar to the patients with other types of circulatory support, the care is basically the same. Nurses need to monitor filling pressures of the pump, monitor the patient's telemetry, and daily dressing changes at the entry point. The potential risks are exactly the same as well. These patients are at risk for clotting which puts them at risk for a stroke. The other major risks include drive line and pocket infection, and most especially device failure. 


I hope this blog was helpful to those researching mechanical circulatory support for the treatment of congestive heart failure. Please note personal experience is different for everyone. This blog is meant to be an assitive research tool. I hope that the links will give the reader a fuller answers to their research.











Saturday, December 22, 2012

Now for the BiVAD

     When I first started working on the Heart Transplant Unit at Strong Memorial Hospital, I had no idea how much I was going to learn in an incredibly short time. I remember the day like it happened just last week. I was told to get report from the ICU nurse about a patient that was awaiting transplant after his heart took what I was told was a "morbid blow" from his cocaine use. I got report and was told he was on Biventricular support. At this point I knew what left ventricular support was and so did my unit, but we had no idea what BiVentricular support was going to look like. We all agreed that we were about to find out very soon.


      We found out sooner than we anticipated. Our new patient was arriving on our patient ten minutes from the time that I had hung up with the ICU. He had two nurses, the nurse practitioner, and the Nurse Manager of the ICU with him, not to mention his wife and his toddler son. He walked most of the way from unit to unit, but he was immediately ready to be in bed. Once he was in bed, I did my complete assessment on him. At that time, I couldn't believe what I saw. There was no way this was going to work, I thought. He had on an abdominal binder that kept the two pumps in place. Each one of the pumps (one on his left, one on his right) was supported by a pouch that was usually used to carry our portable patient telemetry. Where each pump entered his upper abdominal wall there was a dressing setup covered by two large abdominal dressings. Each one of the pumps was red and made a large clicking sound around an average of 80 times per minute, representing his heartbeat. Each one of his pumps were hooked up to a computer that showed his pulse and stroke volume continuously. With the click of a button, the computer also showed several pressure readings that were taken every few minutes. These pressure readings basically showed how well the pump vacuumed in the blood and how well the pump evacuated the blood. This patient also had to be on continuous telemetry, so we were able to monitor his heart's electrical activity since all this equipment was helping us monitor his heart's pumping effectiveness.

     This gentleman stayed with us for a long time before he got his heart. He became a fixture on the unit. After a while, he was able to ambulate around the unit using a portable computer in what looked like an airline luggage carrier. Early on, he required frequent dosing of pain medication. As time went on, he needed it less and less. He gradually began to smile more often (as compared to never smiling early on). During the time that he was implanted with this device, he required high doses of Coumadin (a anti-coagulant) to slow his clotting time to quite extended (INR needed to be around 3-4). He was eventually able to get his heart transplanted. Even though rehabilitation after transplant can be extensive, he seemed to handle it quite well. At first it seemed like we were going to go back down that long road of pain and depression with him again, but he bounced back quickly. He even gave me a hug when he left.

     While this was a great success story, at the time of his implantation, there were still complications and disadvantages. One complication that I noticed early on was that the outer casing of one of his pumps had cracked. This was highly concerning to me at the time because I was afraid we were either going to develop a vacuum leak, or an integrity of the pump problem. Luckily, we only developed a very small vacuum leak, and there was an inner casing that was still completely intact. The fact that his clotting time was so extended was also very concerning. I spent extra care ensuring that he did not shave using a regular razor and when he was ambulating, someone was always next to him, to be sure he didn't fall. All those lies coming from him made a great trip hazard. As with the LVAD, the same potential complications also exist: risk for stroke, device failure and line infection are the major considerations. During this time, the patient was not allowed to be discharged to home with a BiVAD in place. Some changes in the devices are now allowing for patients to be discharged from the hospital as they await transplant.

     After the holiday break we can discuss the total artificial heart. 

Sunday, December 9, 2012

What does it all mean?


     I started this blog as a part of my studies at Roberts Wesleyan College in Rochester, NY. I am studying for my Masters in Nursing Education. In this blog, I wanted to show followers of this blog some of the latest treatment options available for sufferers of Congestive Heart Failure (CHF or otherwise known as HF). CHF has many causes, as you can see from the above link. This week's posting is menat to be a way of understanding the disease and disorder known as CHF or HF. I have incorporated diagrams of the heart to better help the reader understand the anatomy and physiology of the heart. The videos below should help a little more.