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First in Canada cancer radiation machine in Kelowna

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Canada cancer radiation machine

Cancer radiation treatments are becoming faster thanks to a new machine in Kelowna that’s the first of it’s kind in Canada.

BC Cancer Kelowna has the first Ethos adaptive radiation therapy unit in Canada, making the process and the planning of treatments easier and faster.

With both older machines and the new Ethos machine, radiation treatments only take anywhere from 30 seconds to two minutes but the new machine quickens the planning process exponentially.

With the older machines, radiation treatment is the same everyday, and when, for example, someone’s tumor gets smaller, the team of doctors has to create a new plan that could take days to make and put in place.

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With the new Ethos machines, a new plan, customized to each patient, is built in 15-20 minutes and the computer instantly starts creating the next plan once the radiation treatment for that day is complete.

“12 years ago, you wouldn’t imagine making a treatment plan everyday,” said Senior Physical Therapist Nathan Becker.

Bachard added that the machine does around 80 per cent of the work while they complete the other 20 per cent.

While radiation machines have been around for a long time now, this is the first that is brand new to the industry.

“The older [machines] are 60’s, 70’s 80’s technology and they’ve done a lot of add-ons over time,” said Becker. “This machine is built from the ground up, it’s been built to be as streamlined as possible.”

It’s been a long process not just for BC Cancer Kelowna, but for cancer centres around the world to use this new technology. This machine got FDA approved in 2020 and approved by Health Canada around a year ago. Before it was even approved, the Kelowna centre was looking at purchasing one. When the technology got approved by Health Canada, Kelowna was in line to purchase the machine.

Kelowna’s centre started training on the machine on Dec. 12 and have been treating patients on it for three weeks now. While this is currently the only clinical machine in Canada, meaning its the only one in use, Newfoundland also has one they will be launching soon and Vancouver is expected at get two machines either late in 2023 or early in 2024. There are also a few hundred machines in use in the United States and because the technology is still so new, the Kelowna Cancer Centre is in constant communication with the research groups in America talking around stragedy and techniques with the machine and side effects from patient to patient. A clinic in Europe also has five of the machines.

On top of being able to plan quicker and make the actually treatment a little faster, the hope is patients will experience less side affects with this machine as well. Because of the technology, the machine is able to be more precise, therefore affecting less organs in the process.

“For the patient experience in general should be improved,” said Bachard. “Because you can identify the structures that you’re trying to protect everyday, we hope the patients will experience less side effects and recover faster. We don’t really know for sure that that will make a certain difference. It would make sense but we’ll see that in the coming years because it does takes a while before you can really look back and see how patients did. It doesn’t take long to see how patients do on treatment but how they recover and if there’s any side effects six or 12 months later.”

Whether the machine is old or new, the centre is able to treat 30 patients a day but are hoping they are able to treat more in a day with the nech machine. Because its still so new, it’s too early to tell.

Each year, the Kelowna centre has 2,700 new cancer patients that require radiation.

And while this machine is the lately and greatest, the older machine are still effective in eliminated one’s cancer as some machines are tailored to different types of cancer.

“This is a tool in our arsenal,” said Becker “You don’t necessarily five Ferraris in your garage. This is the Ferrari of our treatment machines.”

One someone comes in to receive their treatment, it’s a complex process with a lot of moving parts.

“There’s a lot of people involved,” said Yendley.

In each treatment, there is at the minimum, two radiation therapists, radiation oncologist, and medical physicist.

With the new machine, patients can go inside and get themselves into the machine to make sure their information is correct, then the team of doctors begins the set up for radiation. With the radiation goes on, the team is outside controlling the machine, making sure everything is in place, and is able to see and talk to the patient.

Before the machine arrived, the cancer centre renovated the place, including adding a back room that’s specifically for training purposes with the new machine. Because each treatment is time sensitive, the team running the operation stays in there positions while doctors and students who are learning sit in the back room and can also see the process through the camera that doctors are watching through.

“I think the learning curve is pretty quick at the moment,” said Bachard. “I feel strongly that we’ll be able to contribute to these other centres as well with introducing new techniques, it’s going really well.”

 

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ER closure for Seaforth’s emergency department due to COVID-19 outbreak

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Starting on Feb. 1, Seaforth’s emergency department will be closed in the overnight hours.

The Huron Perth Healthcare Alliance said due to “sudden health human resource shortages related to COVID-19,” the Seaforth Community Hospital’s emergency department will be closed from 5 p.m. to 7 a.m., from Feb. 1st to Feb. 6, when regular hours are expected to resume.

On Jan. 28, a COVID-19 outbreak was declared in Seaforth’s inpatient unit, closing all admissions to the unit. On Tuesday, a COVID-19 outbreak was declared at the Clinton General Hospital’s inpatient unit, also closing it to admissions.

In total, 10 people are in Huron-Perth hospitals dealing with COVID-19.

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Two long-term care homes in the region are also dealing with COVID-19 outbreaks at the moment. Since Jan. 1, eight Huron-Perth residents, most of them over the age of 75, have died due to COVID-19, according to the Huron Perth Health Unit.

“I extend my condolences to the loved ones of these individuals,” said Dr. Miriam Klassen, medical officer of health for the Huron Perth Health Unit.

She added, “COVID-19 remains a serious illness for some people, especially those who are older. While we are seeing signs of improvement, it is important to keep taking actions to protect those who are most vulnerable to severe outcomes from this virus.”

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GLP-1 Agonists Protected Kidneys in T2D With Advanced DKD

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Researchers published the study covered in this summary on Research Square as a preprint that has not yet been peer reviewed.

Key Takeaways

  • In patients with advanced diabetic kidney disease (DKD; estimated glomerular filtration rate [eGFR] < 30 mL/min/1.73m2), treatment with a glucagon-like peptide-1 (GLP-1) agonist had a neutral effect on cardiovascular outcomes but significantly linked with preservation of kidney function and improved survival in a propensity-score matched, retrospective analysis of observational data from more than 2000 people with type 2 diabetes in Taiwan.

Why This Matters

  • Cardiovascular disease is a leading cause of mortality in people with type 2 diabetes and among those with chronic kidney disease.
  • GLP-1 agonists reduce all-cause mortality and cardiovascular death in people with type 2 diabetes, but their role in patients with advanced DKD is controversial.
  • Research on the effect of GLP-1 agonists on cardiovascular outcomes in patients with advanced DKD is limited. Trials that have assessed GLP-1 agonists in people with type 2 diabetes have generally excluded those with advanced DKD and completely excluded those with end-stage kidney disease (eGFR < 30 mL/min/1.73m2).
  • Treatment with GLP-1 agonists has been associated with a significant reduction in composite cardiovascular outcomes in people with type 2 diabetes and relatively fair kidney function (eGFR > 30 mL/min/1.73m2), but among people with type 2 diabetes and lower levels of kidney function, research has shown neutral composite cardiovascular outcomes levels. However, limitations of previous studies include being mainly based on subgroup analysis or including a limited sample of patients.

Study Design

  • Retrospective analysis of observational data from nearly 9000 people in Taiwan with type 2 diabetes and an eGFR < 30 mL/min/1.73m2 who received a first prescription for a GLP-1 agonist or dipeptidyl peptidase 4 (DPP-4) inhibitor in 2012-2021 and had the data necessary for this analysis in their records.
  • The data came from the largest multi-institutional electronic medical record database in Taiwan, which includes two medical centers and five general hospitals and information on more than 11 million patients, from 2001 to 2019.
  • Researchers used propensity scoring to match 602 people treated with a GLP-1 agonist with 1479 people treated with a DPP-4 inhibitor.

Key Results

  • During a mean follow-up of 2.1 years, the rate of the composite cardiovascular outcome (cardiovascular death, myocardial infarction, and ischemic stroke) did not significantly differ between the GLP-1 agonist and DPP-4 inhibitor groups, with incidence rates of 13.0% and 13.8%, respectively, and a nonsignificant hazard ratio of 0.88. Rates of each of the three components of the composite endpoint also did not significantly differ between the two groups.
  • Progression to end-stage kidney disease with dialysis was significantly lower in those treated with a GLP-1 agonist compared with a DPP-4 inhibitor, with incidence rates of 23.4% and 27.5%, respectively, and a significant hazard ratio of 0.72.
  • The incidence of a greater than 50% drop in eGFR from baseline was 32.2% with GLP-1 agonist treatment compared to 35.9% with a DPP-4 inhibitor, with a significant hazard ratio of 0.74.
  • Median time until patients needed new-onset dialysis was 1.9 years with GLP-1 agonist treatment and 1.3 years with DPP-4 inhibitor treatment, which was a significant difference.
  • The rate of all-cause death was 18.4% with GLP-1 agonist treatment compared with 25.1% with DPP-4 inhibitor treatment, a hazard ratio of 0.71 that was significant.

Limitations

  • Because the study was a retrospective analysis of observational data it cannot prove causality.
  • The study could be subject to residual confounding despite propensity-score matching.
  • The data came from health records that could have included coding errors.
  • Treatment compliance was unknown.

Disclosures

This is a summary of a preprint research study, “The cardiovascular and renal effects of glucagon-like peptide 1 receptor agonists in patients with advanced diabetic kidney disease,” by researchers in Taiwan on Research Square and provided to you by Medscape. This study has not yet been peer reviewed. The full text of the study can be found on researchsquare.com.

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Research by UBC professor lays groundwork for life-saving breast cancer treatment

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A drug originally designed to prevent osteoporosis is now expected to save and improve the lives of millions of people with breast cancer, thanks in part to decades of foundational research by Dr. Josef Penninger, a professor in UBC’s Faculty of Medicine and director of the Life Sciences Institute.

The achievement highlights how UBC scientists are developing effective new treatments — and unlocking the full potential of existing drugs – through research into the fundamental biological principles behind disease. By advancing scientific discoveries from the lab to the clinic, UBC researchers are bringing life-changing treatments to patients everywhere.

The drug, called Denosumab, was recently shown in a long-term Phase 3 clinical trial to improve survival among postmenopausal women with hormone receptor-positive early breast cancer receiving aromatase inhibitor treatment. Moreover, the drug markedly improved patients’ quality of life by reducing broken bones by 50 per cent, a common side effect of breast cancer treatment. The results of the trial were recently reported in The New England Journal of Medicine.

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Denosumab is a monoclonal antibody developed by American biopharmaceutical company Amgen to prevent bone loss. In the early 2000s, research by Dr. Penninger and his team revealed the therapeutic potential of Denosumab, as well as the drug’s surprising connections with breast cancer.

“More than two decades ago we started the experimental groundwork that revealed Donosumab’s potential as a treatment for breast cancer patients,” says Dr. Penninger. “These results are incredibly exciting and will help improve the lives of millions of patients. I am very proud of all the people in my lab over the years who did that work and helped pave the way for this achievement.”

Discovering the link between osteoporosis and breast cancer

Denosumab works by binding to and inhibiting the activity of a protein called RANKL, which plays a key role in bone-resorbing cells called osteoclasts. By blocking RANKL, denosumab reduces the activity of osteoclasts and slows down bone resorption, helping to increase bone density and preventing osteoporosis.

Dr. Josef Penninger

Dr. Josef Penninger

Dr. Penninger and his team began to draw the connection between osteoporosis and HR-positive breast cancer when they generated the first RANKL “knock-out” mice in the late 1990s.

A knockout mouse is a laboratory mouse that has been genetically engineered to have certain genes deactivated, or “knocked-out”. Dr. Penninger’s team engineered mice that lacked the genes necessary to produce the RANKL protein in an effort to study the protein’s essential function in bone metabolism.

However, to the researchers’ surprise, they discovered that the RANKL-deficient mice failed to develop a lactating mammary gland in pregnancy – a process that depends on sex hormones.

“This proved an evolutionary link: showing how bone loss is regulated by sex hormones, and how pregnant mammals activate RANKL to form breast tissue for lactation among other functions,” says Dr. Penninger.

Based on this initial finding, Dr. Penninger’s team went on to show that RANKL played a key role in progestin-driven breast cancer, as well as breast cancer driven by BRCA1 mutations.

“Further researcher revealed how RANKL controls the stem cells in the breast that respond to sex hormones and thereby drives growth of the breast tissue at every menstruation cycle and in particular in pregnancy and lactation,” adds Dr. Penninger.

In the case of breast cancer, RANKL spurs mammary epithelial cells to divide, and helps to maintain the stem cells that give rise to breast tumours.

A dual benefit drug

One in eight Canadian women will be diagnosed with breast cancer in their lifetime according to the Canadian Breast Cancer Network. An estimated 70 to 80 per cent of these breast cancers are hormone receptor-positive (HR-positive), making it the most prevalent breast cancer subtype.

The current standard treatment for HR-positive breast cancer involves surgery and radiation, followed by treatment with aromatase inhibitors for 5 to 7 years. While aromatase inhibitors diminish sex hormones that drive new cancer growth, they can have serious adverse effects on bone health, including increased risk of osteoporosis and fractures.

The now-published clinical trial, led by the Austrian Breast and Colorectal Cancer Study Group, was conducted to see if Denosumab could help in two ways: by reducing these negative effects on bone health, while also improving breast cancer survival outcomes.

“These results are incredibly exciting and will help improve the lives of millions of patients.”
Dr. Josef Penninger

The results reveal that 6 mg of Denosumab every six months — the recommended treatment level for osteoporosis — improved disease-free survival, bone metastasis-free survival, and overall survival among participants. It also effectively reduced bone fractures over the long term.

“Blocking RANKL in breast cancer patients reduces broken bones by 50 per cent, massively improving their quality of life, and even at a very low treatment dose,” says Dr. Penninger. “We now know that RANKL drives breast cancer cell growth, is the critical mechanism behind bone loss, and has also an effect on anti-cancer immunity and immunological rewiring in pregnancy. These clinical results in patients show how blocking RANKL could save the lives of 50,000 women among one million women with the diagnosis of breast cancer.”

Based on the data, the researchers behind the trials are recommending that Denosumab be considered for routine clinical use in postmenopausal breast cancer patients receiving aromatase inhibitor therapy.

These trials were largely based on the foundational research published by the Penninger laboratory, including Kong et al. Nature 1999, Fata et al. Cell 2000, Jones Nature 2006, Schramek et al. Nature 2010, Sigl et al. Cell Research 2016, and Paolino et al. Nature 2021.

Dr. Penninger is now part of a large international prevention trial evaluating Denosumab in young women who carry BRCA1 mutations.

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