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Showing posts from September, 2023

Summary Reader's Response Draft 1

BiVACOR’s Total Artificial Heart (TAH), introduced on the website “Replacing Hearts. Restoring Lives.” (BiVACOR, n.d.), offers a groundbreaking long-term therapy for individuals facing severe biventricular heart failure. This solution caters to those in the late stages of heart failure, offering critical support while awaiting a heart transplant or in cases where transplantation is not feasible. The BiVACOR system comprises a rotor suspended using advanced magnetic levitation (MAGLEV), positioned between opposing pump enclosures. Its primary function is to assist both the left and right sides of the heart, made possible by impeller blades for each side attached to the revolving core. Activation of the core occurs through an electromagnetic motor and bearing configuration situated atop the pump enclosures, allowing precise control over circulation adjustment through a differential fluid discharge. With its revolutionary design and features, the introduction of BiVACOR’s Total Artificial...

Summary Draft 1

The article “Replacing Hearts. Restoring Lives.” from BiVACOR [n.d.] introduces the first long-term therapy for people with severe biventricular heart failure. BiVACOR’s Total Artificial Heart is a treatment option for individuals in the final stages of heart failure who require assistance while awaiting a heart transplant or are ineligible for transplantation. The BiVACOR system consists of a rotor suspended using magnetic levitation, positioned between opposing pump enclosures. Its central capability is to assist both the left and right sides of the heart, facilitated by impeller blades for each side, attached to the revolving core. The core is elevated and set in motion through an electromagnetic motor and bearing configuration situated atop the pump enclosures. The impellers are specifically engineered hydraulically and, when coupled with advanced magnetic levitation (MAGLEV) technology, allow precise control over circulation adjustment through a differential fluid discharge.  ...

Initial Research Pathway

  Kristine gained an interest in Artificial Hearts (AH) in her early days of Mechanical Engineering studies back in Polytechnic, having past experiences with Biology and the interest to pursue that industry, she explored the path of Bio-Engineering, hence gaining an interest with Bio-Mechanical Devices. Kristine previously read an article about a man transplanted with a genetically-modified pig’s heart and was curious as to HOW was that even possible, or why was it chosen when ‘AH’ was already implemented as a choice of sustaining the human’s life whilst waiting for a potential human heart transplant.  Through that, she had known about the existence of AH but never had the chance to really explore in depth of it, hence her curiosity has never been addressed. With the help of ChatGPT and Google Search, the team explored the topic of ‘Artificial Hearts’ and were introduced to the different kinds of hearts. ~So far 3-4 different types Since it was a relatively new topic to us, th...

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