VentrAssist implantable blood pump

Made by Ventracor Ltd in Chatswood, New South Wales, Australia, 2006.

The VentrAssist is an implantable blood pump designed as a permanent alternative to heart transplantation for people suffering congestive heart failure. It can also provide temporary therapy while patients wait for a transplant. The device addresses the growing health problem of heart failure, for which the only cure is a heart transplant. According to Ventracor there are an estimated 11.2 million sufferers of congestive heart failure worldwide, a total that is increasing by 10 per cent each yea...

Summary

2008/136/1
Implantable blood pump, 'VentrAssist left ventricular assist device (LVAD)', with control box, metal / plastic, designed by Faculty of Engineering, University of Technology, Sydney and Ventracor Ltd, 1997-1999, made by Ventracor Ltd, Chatswood, New South Wales, Australia, 2006

Titanium heart-shaped pump attached to a rectangular-shaped externally-worn blue control box via a metal and plastic lead. The control box has a liquid crystal display screen at centre top and four points of connection down the centre back for 'pc', 'reserve', 'primary' and 'pump'.

Production

This device was manufactured by Ventracor Ltd in Chatswood, Sydney, New South Wales, Australia in 2006.

The VentrAssist was developed by the Faculty of Engineering at University of Technology, Sydney and MicroMedical Industries (later known as Ventracor) over the period 1997-1999. A large team of biomedical experts developed the device based on an original invention by John Woodard (MicroMedical), Peter Watterson (UTS) and Geoffrey Tansley (UTS/MicroMedical). Initial funding for the VentrAssist was received from AusIndustry as an R&D Start Grant. Animal trials were undertaken from 2000 to 2002, and the first human implant was made in June 2003 at The Alfred Hospital in Melbourne. Extensive clinical trials were undertaken, initially in Australia and later in Europe and the USA. Market approval was received in Europe in 2006 and Australia in 2007, and trials continued in the US in 2008. A successful major US clinical trial was completed in early 2009. But despite the world-leading technology and the efforts of shareholders, global financial turmoil at the time meant the company could not find the funds to continue and Ventracor folded in mid-2009. Ventracor's intellectual property was sold to Thoratec Corporation in 2010.

The VentrAssist is a blood pump that connects to the left ventricle of the heart to help its pumping function. The procedure does not require the removal of the patient's heart, and the pump allows it to rest and possibly recover. The pump has only one moving part, a hydrodynamically suspended impeller, that is designed never to wear out or damage blood cells. The device is made of titanium and the inside surfaces are diamond (carbon) coated. It weighs 298 grams and is less than 6cm in diameter, making it suitable for implant in adults and children. When implanted, the pump is connected through the abdomen by the lead to the external controller which contains the battery. The VentrAssist can be used as either a 'bridge to transplant' (BTT) therapy or 'destination therapy' (DT) device.

The key innovation embodied in this device is the suspended rotor or impeller. At the time it was developed this feature was unique in the marketplace. In addition the pump had an unconventional shape and look for this type of device. The biggest challenges in the design and development process were making the device reliable and easy to manufacture.

John Woodard, co-inventor of the device, describes the process of inventing the VentrAssist:

'We conven[ed] a group of experts from Australia and also from the United States here in Sydney and locked them up in a room for three days and told them they couldn't come out until they had a new design. We brainstormed around the table at UTS for 3 days here in Sydney and the three principal contributors to that were Dr Geoffrey Tansley, Dr Peter Watterson and myself. We then wrote up a patent and used that as a basis for getting a government grant from the Federal Government to start this project. We started effectively with a sheet of blank paper and tried to come up with a different way of doing things.'

'Suprisingly the original concept was pretty good ... the first one we built we put into an animal and it worked pretty well... So we didn't change the concept at all - we did refine the shape of the blades and the impeller to make it a bit more efficient and to damage the blood a bit less, but the first one wasn't bad.'

'The inventive step was comparatively easy - making it manufacturable and reliable is the hard thing.'

Dr John Woodard, interview with Powerhouse Museum, 9 June 2004.
Ventracor Ltd 2006
Faculty of Engineering, University of Technology, Sydney 1997-1999

Source

Gift of Ventracor Ltd, 2008
30 June, 2008

Cite this Object

VentrAssist implantable blood pump 2016, Museum of Applied Arts & Sciences, accessed 28 June 2017, <https://ma.as/383167>
{{cite web |url=https://ma.as/383167 |title=VentrAssist implantable blood pump |author=Museum of Applied Arts & Sciences |access-date=28 June 2017 |publisher=Museum of Applied Arts & Sciences, Australia}}
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