One of the top universities in Canada, has a long history of discovery and innovation that has shaped our knowledge and helped to address some of the world鈥檚 deepest mysteries and most pressing questions, including issues of environmental protection, health care, and the development of advanced technologies. For more than 175 years, 蚕耻别别苍鈥檚 has brought together and built synergies among leading researchers, scholars, and innovators making a real and measured impact.
The Queen's Partnerships and Innovation (QPI) team develops and facilitates partnerships with industry, governments, not-for-profit organizations, and other academic institutions to advance the research enterprise at 蚕耻别别苍鈥檚 and the commercialization and protection of inventions, and to strengthen the regional innovation ecosystem in Kingston and Eastern Ontario.
This story demonstrates the long-lasting, social, economic, and international impact of 蚕耻别别苍鈥檚 research and collaborations with industry.
Wearing a seatbelt has become second nature to drivers and vehicle passengers. You get in, click in your belt, often before the car is turned on. But the history of seatbelts in cars is quite young, with the legislation of wearing a seatbelt coming into effect in January 1976 in Ontario. The history of seatbelts in accessible transportation is even younger. Wheelchair users posed a significant transportation safety problem 鈥 how could the physically disabled be kept as safe and secure in public transportation vehicles as much as those in personal passenger vehicles?
Enter Professor Henk Wevers (now retired) and the Clinical Mechanics Group at 蚕耻别别苍鈥檚 University who successfully developed a retractable, adjustable four-point securement system for wheelchairs and their passengers. 蚕耻别别苍鈥檚 was approached in 1978 by Jack Colley, Manager of the then named Kingston Bus for the Handicapped. Mr. Colley was a quadriplegic and understood the importance of ensuring that wheelchair-using passengers in accessible buses needed support and protection in the event of an accident.
鈥淎t the time that Mr. Colley approached us at 蚕耻别别苍鈥檚 University, the three-point system for passenger vehicles was already in use but there was a major gap for wheelchair users in accessible transportation vehicles,鈥 says Professor Wevers. 鈥淲e needed a system that would keep wheelchair users safe in the event of a collision.鈥
In addition to the mechanical engineers, the original group was comprised of Dr. J. P. Durance, MD, in the Department of Rehabilitation Medicine at the Kingston General Hospital and 蚕耻别别苍鈥檚 University, David Siu, Research Assistant and Civil Engineer, and Gerry Saunders, Technical Assistant. By 1984, the group became part of a multi-disciplinary group of engineers and medical doctors called 鈥淭he Clinical Mechanics Group鈥 which then became the Human Mobility Research Centre (HMRC), which provided shared research space and services for clinicians, orthopedic surgeons, university faculty, students, and industry. More recently the HMRC expanded its focus and mandate and is now the Centre for Health Innovation.
Prior to working with the 蚕耻别别苍鈥檚 team, Jack Colley and his team of accessible bus drivers had been using a primitive stopper system with wood blocks placed before and after the wheels of the chair. The early version also included a belt that came across the lap of the wheelchair user; however, the lap belt left the upper body without restraint, which could result in severe injury to the torso and head of the wheelchair user in the event of an accident.
With this issue in mind, the Clinical Mechanics Group got to work and by April 1980, they had developed a promising design that could address the issue. Using this newly developed design, the group applied for a $12,000 grant, which was awarded by the Ministry of Transportation and Communication. The grant enabled the hiring of a student and continued static strength testing of the restraint system. The new system involved a retractable, adjustable four-point securement system for wheelchairs and their passengers. In the event of a collision or sudden stop, the novel system isolated the forward force of the occupant from that of the chair by directing the chair鈥檚 forces to the floor of the vehicle through a common tether.
鈥淥nce we knew we were correct in the design, we started the commercialization process,鈥 says Henk. 鈥淲e did some initial crash testing at the Ministry of Transportation in Ottawa. Our design was accepted by most transit officials for the physically disabled. In fact, the drivers, and assistants of each access bus in Kingston were the first to employ the systems, and later, it was implemented by transit authorities in Toronto and other larger cities.鈥
By 1983, a company based on the 蚕耻别别苍鈥檚-developed technology was formed 鈥 . Around this time, 蚕耻别别苍鈥檚 University was in the process of forming a Technology Transfer Office that would establish contacts with industry and businesses to license inventions and new ideas, and to provide revenue for the university.
The timing was serendipitous.
In 1984 Jean-Marc Girardin contacted the 蚕耻别别苍鈥檚 team. Jean-Marc was from a family that owned a large school-bus company in Quebec. He saw and understood the opportunity to provide safe accessible transportation with the Q鈥橲traint technology. Through the 蚕耻别别苍鈥檚 Technology Transfer Office, Jean-Marc started a dialogue aimed at the commercialization of the technology. The first commercial Q鈥橲traint system was installed into his custom-made vehicles for physically disabled persons and their families. Jean-Marc鈥檚 company of the same name as the system was set up in Cambridge, Ontario.
With assistance from Dr. Lawrence Schneider at the in the mid-80s, Jean-Marc started to commission crash testing at the , with access to a dynamic testing laboratory that mimicked actual crash tests, which furthered the development of the technology. In 1987, the Technology Transfer Office of 蚕耻别别苍鈥檚 University became Parteq Innovations and a formal patent licensing agreement between Girardin and Parteq governed the relationship between the research team and Jean-Marc鈥檚 licensing of the Q鈥橲traint technology.
And the collaboration didn鈥檛 stop there. In the 1990s, the 鈥淐AN/CSAZ605-03 (R2012) - Mobility Aid Securement and Occupant Restraint (MASOR) Systems for Motor Vehicles鈥 became the Canadian standard to address the design and performance of aftermarket wheelchair securement and occupant restraint systems, which was heavily informed by the work of the 蚕耻别别苍鈥檚 research team and Q鈥橲traint. Professor Henk Wevers and Jean-Marc Girardin were members of the CSA standard writing committee. Q鈥橲traint is still a family-owned and operated company, now based in Florida and England, with Jean-Marc鈥檚 two children continuing to provide safe transportation equipment for people with physical disabilities. Transport companies in North and South America, Europe, Great Britain, Australia, Japan, and China all depend on Q鈥橲traint technology for keeping their wheelchair-using passengers safe.
Currently, Q鈥橲traint has 150 employees. It has its own state of the art dynamic and static test facility, the located in the UK. The company has developed sophisticated products such as the , a self-docking system that enables people in wheelchair to drive their private van.
The Q鈥橲traint basic wheelchair and occupant restraint system developed from the 蚕耻别别苍鈥檚 University prototype is currently selling at the rate of 150,000 and over the life of the company about three million kits have been sold.
鈥淲hat began as a research project at the university evolved into a major commercial employment and established safety standards for wheelchair users,鈥 says Jim Banting, Assistant Vice-Principal, Partnerships and Innovation, at 蚕耻别别苍鈥檚. 鈥淭his is a great testament to how collaborative efforts with academia can bring about big changes in an industry.鈥