Patients who are unable to walk after a spinal injury have a poorer quality of life and a shortened lifespan than their non-paralysed counterparts. Sitting passively in a chair makes people susceptible to weight and digestion problems, lower bone density, diabetes – and last but not least, heart and circulation problems.
READY FOR INTERVAL TRAINING: Terje Roel is paralysed as a result of a spinal injury. Here Berit Brurok is readying him for a demonstration of the arm and leg cycle. Photo: Vegard Eggen/Gemini
“It’s the circulation problems that are the most difficult for them, and it’s circulation problems that kill them”, says Jan Hoff, a professor of medicine at NTNU. But it doesn’t have to be that way. A new type of exercise equipment, partly developed at NTNU, combined with a new training plan, makes it possible for spinal patients to exercise themselves back to health – at least as far as the heart is concerned.
In an exercise study completed last year, patients who were paralysed from the chest or waist down experienced an average increase in their oxygen uptake by 25 per cent and in their heart pumping volume by fully 37 per cent – after just eight weeks of training.
Never before has so much improvement or such impressive results been documented in this patient group.
Not just a stationary bike
This clever training equipment is called Ergys 2, and was originally designed in the United States. It was Christopher Reeve – who himself played Superman in films, but who became a quadrapelgic after a riding accident – who financed the development of the rehab equipment, in the hopes of improving his own health. But that didn’t quite happen, and the actor died of heart failure when he was just 52 years old. Nevertheless, his efforts gave the world’s spinal injury patients a useful piece of rehabilitation equipment.
The Ergys 2 is a stationary training bicycle, where the patient’s legs and feet are strapped to a leg holder and pedals. Electrodes are then fastened to the patient’s thigh and seat muscles, and electrical impulses trigger the muscles to contract and relax. The impulses are computer controlled to guarantee the best possible effect.
Even though it may seem like artificial training, it is real enough – it’s the patient’s own muscles that are working. And it is movement that demands energy: the blood flow increases, and the pulse goes up. The exercise has an effect on muscle mass, muscle strength, oxygen uptake and the heart’s pumping volume.
Hard workouts, few repetitions
But it’s not enough to focus on the legs and buttocks, if this kind of training is going to make a real difference. The more muscle groups that are involved, the greater the blood flow, and the greater the benefits for the heart. That’s where NTNU researchers come into the picture. They’ve found a way to supplement the Ergsys 2 with an arm cycle, intended for patients who can use their arms without help.
The patients who participated in the training study were also able to simultaneously exercise their shoulders, arms, rump and legs, in a high intensity interval 4 x 4 pattern. That translates to four minutes of hard exercise followed by three to four minutes of easier training – with the entire procedure repeated four times per session, three days a week.
NTNU’s Professor Jan Hoff developed this interval approach several years ago, along with his colleague Jan Helgerud. He uses this interval technique for most types of physical training.
“Hard workouts, few repetitions. There is no other training approach that gives better results in improving oxygen uptake or muscle strength than that”, he says.
A preventative approach
Never before has research documented such a significant effect on the heart and circulation in patients with spinal injuries, as the study has shown. There has been relatively little research overall on spinal patients and exercise, in terms of what kinds and how much exercise actually give beneficial results.
The patients in this study were so out of shape when they started that they were unlikely to reach a normal level. But Hoff doesn’t think it’s an impossible goal.
“We really don’t know, but there’s no reason to believe that the improvements will stop where they are now”, he says.
Hoff doesn’t want to speculate on the implications of his research on the treatment of Norwegian patients paralysed from spinal injuries.
“We’re researchers, not therapists” he says. “But it’s clear that what we’re doing has consequences, both for Norway and for the world. And that gives us a great opportunity to prevent lifestyle related illnesses”.
Under Hoff’s guidance, Berit Brurok conducted the study for her master’s thesis in exercise physiology. Brurok is continuing her work in this area as a part of her PhD research, in cooperation with Dr. Tom Tørhaug at St. Olavs Hospital in Trondheim.
Because the Ergys 2 is expensive, and because it also requires assistance to use, the researchers are looking to see if the results from the study can be transferred to other activities. Would it be possible to do something similar in a wheelchair? Could it be done without electricity?
If they succeed, it could mean a better quality of life and a longer life for many people. In Norway alone there are 5000 spinal injury patients, while in the USA that number may be closer to 500,000.
Professor Jan Hoff | alfa
A shampoo bottle that empties completely -- every last drop
27.06.2016 | Ohio State University
New Video Camera Released Featuring Ultra-High-Speed CMOS Image Sensor Developed At Tohoku University
11.08.2015 | Tohoku University
The Fraunhofer Institute for Organic Electronics, Electron Beam and Plasma Technology FEP has been developing various applications for OLED microdisplays based on organic semiconductors. By integrating the capabilities of an image sensor directly into the microdisplay, eye movements can be recorded by the smart glasses and utilized for guidance and control functions, as one example. The new design will be debuted at Augmented World Expo Europe (AWE) in Berlin at Booth B25, October 18th – 19th.
“Augmented-reality” and “wearables” have become terms we encounter almost daily. Both can make daily life a little simpler and provide valuable assistance for...
With the help of artificial intelligence, chemists from the University of Basel in Switzerland have computed the characteristics of about two million crystals made up of four chemical elements. The researchers were able to identify 90 previously unknown thermodynamically stable crystals that can be regarded as new materials. They report on their findings in the scientific journal Physical Review Letters.
Elpasolite is a glassy, transparent, shiny and soft mineral with a cubic crystal structure. First discovered in El Paso County (Colorado, USA), it can also be...
For the first time, Fraunhofer IKTS shows additively manufactured hardmetal tools at WorldPM 2016 in Hamburg. Mechanical, chemical as well as a high heat resistance and extreme hardness are required from tools that are used in mechanical and automotive engineering or in plastics and building materials industry. Researchers at the Fraunhofer Institute for Ceramic Technologies and Systems IKTS in Dresden managed the production of complex hardmetal tools via 3D printing in a quality that are in no way inferior to conventionally produced high-performance tools.
Fraunhofer IKTS counts decades of proven expertise in the development of hardmetals. To date, reliable cutting, drilling, pressing and stamping tools made of...
At AKL’16, the International Laser Technology Congress held in May this year, interest in the topic of process control was greater than expected. Appropriately, the event was also used to launch the Industry Working Group for Process Control in Laser Material Processing. The group provides a forum for representatives from industry and research to initiate pre-competitive projects and discuss issues such as standards, potential cost savings and feasibility.
In the age of industry 4.0, laser technology is firmly established within manufacturing. A wide variety of laser techniques – from USP ablation and additive...
Every three years, the plastics industry gathers at K, the international trade fair for plastics and rubber in Düsseldorf. The Fraunhofer Institute for Laser Technology ILT will also be attending again and presenting many innovative technologies, such as for joining plastics and metals using ultrashort pulse lasers. From October 19 to 26, you can find the Fraunhofer ILT at the joint Fraunhofer booth SC01 in Hall 7.
K is the world’s largest trade fair for the plastics and rubber industry. As in previous years, the organizers are expecting 3,000 exhibitors and more than...
23.09.2016 | Event News
20.09.2016 | Event News
16.09.2016 | Event News
23.09.2016 | Life Sciences
23.09.2016 | Health and Medicine
23.09.2016 | Life Sciences