From left, WaveCheck campaign co-director Elizabeth Monier-Williams contributing artist Janet F. Potter, WaveCheck supporter Carmen Tellez O’Mahony, contributing artist Deniz Ergun Seker, WAAC President Dale Butterill and contributing artist Lila Miller.WaveCheck’s appreciation event was held at The Louise Temerty Breast Cancer Centre, Sunnybrook Health Sciences Centre.
Present were several members of the Women’s Art Association of Canada (WAAC) who donated 11 of the 15 artworks to the campaign. Also present was Dale Butterill, president of WAAC, who expressed support during her opening remarks. Together with members of WAAC, contributing artists donated over $15,000 worth of art to the campaign.
“Breast Cancer Awareness Month’s positivity makes it easy to overlook the fact that 60 to 70 per cent of chemotherapy treatments fail,” says Dr. Gregory Czarnota, chief of Radiation Oncology at Sunnybrook Health Sciences Centre and co-inventor of WaveCheck with Professor Michael C. Kolios of Ryerson University. “WaveCheck’s technology can tell people with breast cancer and their doctors if a particular chemotherapy is working in as little as four weeks.”
Indiegogo campaign to raise funds for North American clinical study during Breast Cancer Awareness Month; 12 artists donate 13 original works worth over $15,000 to support campaign
Toronto, Canada (October 9, 2013) — WaveCheck— a painless, non-surgical clinical technique developed by a Sunnybrook Health Sciences Centre oncologist and a Ryerson University physicist and supported by MaRS Innovation — is poised to transform chemotherapy response monitoring for women with breast cancer.
Dr. Gregory Czarnota of Sunnybrook Health Sciences (left) and Professor Michael Kolios of Ryerson University, WaveCheck’s inventors.
WaveCheck combines traditional ultrasound with new software to detect responses to chemotherapy in breast cancer tissues. By making better, more accurate information available about a woman’s response to her chemotherapy treatment in weeks rather than months, WaveCheck creates greater transparency through dialogue between a women and her doctors, empowering her to participate in discussions about whether a given chemotherapy treatment is effective.
Contribute to WaveCheck‘s Indiegogo campaign and help make this technology available to all women with breast cancer faster.
Developed by Dr. Gregory Czarnota, chief of Radiation Oncology at Sunnybrook’s Odette Cancer Centre, and Michael C. Kolios, professor of Physics and Canada Research Chair in Biomedical Applications of Ultrasound at Ryerson, WaveCheck has been used in clinical studies with nearly 100 women receiving upfront, neoadjuvant chemotherapy to treat locally-advanced breast cancer. These results are published in two leading journals, Clinical Cancer Research and Translational Oncology.
In the Indiegogo campaign video, Czarnota, Kolios and three of the 100 women who participated in the first Sunnybrook study explain WaveCheck’s impact.
“The hard truth for women with breast cancer is that 60 to 70 per cent of chemotherapy treatments fail,” said Czarnota, who is also a senior scientist and director of cancer research at Sunnybrook Research Institute and assistant professor in the University of Toronto’s Departments of Radiation Oncology and Medical Biophysics within the Faculty of Medicine. “The 1.5 million women worldwide who will be diagnosed with breast cancer this year need to know that their chemotherapy is working as soon as possible. But this kind of treatment monitoring doesn’t currently exist in standard clinical practice. Instead, a woman’s tumour response is evaluated after she completes her chemotherapy treatment, which is typically a four- to six-month process.
Every six weeks, MaRS Innovation’s marketing and communications manager writes a guest post for the MaRS Discovery District blog profiling MI’s activities or one of our start-up companies. You can read the original post on the MaRS blog.
Nearly 14,000 delegates—representing over 1,100 biotechnology companies, academic institutions, state biotechnology centres and related organizations across the United States and more than 60 countries—attended the 2013 BIO International Convention from April 22 to 26, 2013.
The event drew biotechnologists, pharmaceutical industry executives and life sciences researchers, along with sector-based organizations and associations, to Chicago.
According to a press release issued by the conference organizers, BIO 2013 offered “a record number of partnering meetings and panel sessions on the latest science, policy issues and business opportunities and challenges facing the biotechnology industry.”
What if you could use a cancer tumour’s proteomic profile to make it easier to target and destroy?
Targeting specific proteins on the surface of individual tumours—or, more precisely, targeting a cell receptor that naturally allows substances to pass into a cell—would allow clinicians to more effectively deliver drugs designed to deactivate cancer-promoting genes within the tumour, while minimizing the addition of toxins to the patient’s body.
This is personalized medicine’s promise for cancer treatment: targeted therapies that stand a better chance of success, with reduced side effects, based on the unique profile of a patient’s tumour, either administered on their own or in combination with traditional chemotherapy.
Dr. John Rowlands’ X-ray Light Valve technology among the first TBRRI patents that MaRS Innovation will bring to market January 26, 2011 (Thunder Bay, ON) – Today, MaRS Innovation welcomes…
