Tag Archives: nuclear medicine

Guest Blog Nuclear Medicine

The Medical Isotopes Supply Chain

March 28, 2013 – 09:00

Today’s post comes from guest contributor at Nordion.

Nuclear medicine is one of the most powerful analytical tools available to physicians and patients today because of its ability to provide dynamic views of organ structure and function. Medical isotopes are used to diagnose potentially life-threatening conditions such as heart disease and to treat serious diseases such as cancer.

About one million nuclear medicine procedures are performed in Canada annually. In the U.S., there are some 18 million nuclear medicine procedures per year among 311 million people, and in Europe about 10 million among 500 million people. Canada has been one of the global leaders in the supply of medical isotopes to the world’s medical community. Tc-99m is used in about 80% of all diagnostic nuclear imaging procedures.

Medical isotopes have a short shelf life and therefore cannot be inventoried. Before they can be used in patient procedures, the materials used in nuclear medicine are developed through a multi-step supply chain process.

This graphic summarizes the process.

supply-chain-nordion_graphic-600

Watch this video to understand how medical isotopes make their complex (but necessarily quick) journey, from reactor to patient:

 

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Sharing the nuclear story with the Distinctive Women of Ottawa

June 1, 2012 – 04:27

Denise Carpenter, CNA President and CEO, is featured in the premier Ottawa edition of Distinctive Women, a publication from Profiles of Distinction which exists to showcase excellence in its many forms.

At the Distinctive Women photo shoot.

Denise was chosen for profiling based on her strong career and leadership in the energy sector. Coming to the CNA from EPCOR Utilities in Alberta where she transformed the company’s reputation and strategy, Denise has been recognized by Global TV as a Woman of Vision; by the YWCA with a Woman of Distinction Award; and has twice been named one of Alberta’s 50 most influential people by Alberta Venture magazine.

But for Denise, it isn’t about personal accolades. “I look for any opportunity to talk about the many benefits and the daily contributions of nuclear technology in Canada,” says Carpenter. “Too few Canadians are aware of the positive impact this industry has had on our health and quality of life by way of nuclear medicine, reducing carbon emissions from the air we breathe, improving the safety of materials used in our cars, city infrastructure, and even the food we consume. I’m proud to be able to share this with as many people as will listen.”

Check out Denise’s profile in Distinctive Women.

At the photo shoot for Distinctive Women, scouting the perfect location.

Denise is one of many impressive women working in nuclear in Canada. You can meet some of them on the Women-in-Nuclear Canada website.

Who would you like to see profiled?

Distinctive Women – Ottawa Launch

The Profiles of Distinction family of publications is proud to announce the launch of its newest publication and online community, Distinctive Women, into the Ottawa area. Designed to showcase excellence in many forms, Distinctive Women celebrates the accomplishments of top female entrepreneurs, business leaders, healthcare professionals and non-profit organizers. Originally launched in Naples, FL just three years ago, Distinctive Women has now taken on a life of its own and can be found in Toronto and Ottawa, ON. This fall, the inaugural issue for Calgary, AB will be launched.

The Ottawa launch of Distinctive Women will be hosted by Ashley Robson of Profiles of Distinction and will be celebrated by upwards of 50 women on Tuesday, May 29th at Events in Style in the trendy ByWard Market. The publication will be distributed to affluent households on Wednesday, May 30th as an insertion in The Ottawa Citizen.

www.distinctivewomenmagazine.com

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Happy Earth Day!

April 22, 2012 – 09:51

According to Earth Day Canada, Earth Day was first launched as an environmental awareness event in the U.S. in 1970. That’s still the purpose today as millions of Canadians join 1 billion people from countries all over the globe in holding events and supporting projects that raise awareness of local and global environmental issues.

One of the greatest environmental challenges the world is facing today is climate change. As Canada and the global community work to address the challenges of climate change, nuclear energy is an important part of Canada’s clean energy portfolio. Nuclear power generation doesn’t contribute to climate change or smog because there are virtually no greenhouse gas emissions from our nuclear power facilities. And because nuclear power facilities produce large amounts of continuous power (base load), they enable the use of complementary renewable energy sources, like wind and solar. Currently nuclear energy provides 15% of Canada’s electricity. If this 15% was replaced by fossil fuels, it would increase Canada’s greenhouse gas emissions by 12%, or about 90 million tonnes.

It’s an interesting time for nuclear as countries are starting up and expanding their nuclear energy programs (China, India, Vietnam), and others are shying away for the time being (Germany, Japan). We believe nuclear is a key part of a clean energy future, for Canada and the world. So this Earth Day, why not learn more about the contributions of nuclear technology – not only in power generation but also in medicine, food safety, new technologies, innovation, etc. Visiting NUnuclear.ca is a good place to start.

Happy Earth Day!

Check out what one of our members is doing to celebrate Earth Day – or rather, Earth Week, in their case!
Bruce Power supports Earth Week by assisting environmental programs along the shoreline

“Although we do an excellent job of protecting the environment through our day-to-day operations, we understand the importance of educating the greater community and youth of Bruce and Grey counties on the importance of being good environmental stewards. By supporting these important community initiatives, we are helping to foster an appreciation and understanding of the environment at a very young age.” — Duncan Hawthorne, Bruce Power President and CEO

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The Evolution of Nuclear Power

April 20, 2012 – 16:10

In 1962, the NPD (Nuclear Power Demonstration) reactor came online and demonstrated the CANDU (CANada Deuterium Uranium) design. The NPD was Canada’s first electricity-producing reactor, and the world’s first heavy-water power reactor. Canada’s CANDU reactor is a Generation II commercial reactor. It’s considered one of the world’s safest and most successful nuclear reactors.

Nuclear reactor designs have continued to evolve from the Gen II designs to make them even safer, more efficient, and in some cases, smaller (i.e. small modular reactors) – but still powerful enough to power a small city.

We've come a long way, baby!

GENERATIONS III AND III+
Generation III designs, now in use, reflect design improvements that have made these systems safer and more efficient and given them longer operating lives (typically 60 years) than earlier systems.

Generation III+ designs, which are now being built outside Canada, extend these improvements.  (The “Generation” standards for nuclear technologies originated with the U.S. Department of Energy – www.energy.gov).

WHAT IS GENERATION IV?
Canada is part of an international collaboration to set the following goals for advanced nuclear energy systems, and to work toward them:

  • Sustainability
  • Minimum waste
  • Life cycle cost advantage
  • Competitive in financial risk
  • Excellent safety and reliability in operation
  • Secure

Technologies that meet these international standards will be called Generation IV (www.gen-4.org).

WHAT ARE SMALL MODULAR REACTORS?
Small modular reactors (SMRs) have existed for decades.  As opposed to full-sized, built-on-site reactors, these units are mostly built in a factory environment and then shipped and installed.   In past uses they have proven to be low-maintenance, reliable, and versatile.

SMRs can be designed to have low staffing needs, and long cycles between refuellings (four to ten years or longer).   Like all reactor designs, they have made substantial advances in safety and efficiency.

In Canada and elsewhere, there is considerable interest in applying newer SMR designs:

  • For electricity generation — replacing aging fossil-fuel units of similar size and power.
  • For electricity in small, remote communities where diesel is currently in use.
  • For process heat applications – in heat-intensive resource extraction industries (smelting ore, extracting bitumen from oilsands, cooking wood pulp).
  • For local heat applications in arctic communities.

Why Go Nuke?
Nuclear energy provides a clean and reliable source of power and is an important part of Canada’s clean energy portfolio. Because there are virtually no greenhouse gas emissions from our power generating plants, it does not contribute to global climate change or smog.

Not only important in energy production, the application of nuclear science improves the health and well-being of Canadians through nuclear medicine and food safety technologies as well. Innovation in nuclear science is also being applied to address a number of societal challenges such as public health and transportation.

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Ahmed’s Mother Prayed for a Miracle – Canada’s Nuclear Industry Answered

April 1, 2012 – 09:24

Our nuclear medicine ad is featured on page 8 of the Canadian Cancer Society's special feature in the Toronto Star (March 29)

Today, April 1, kicks off the Canadian Cancer Society’s Daffodil Month. The daffodil is a symbol of support for Canadians living with cancer.

Last Thursday, the Toronto Star ran a feature on the Cancer Society, which we were very proud to support with the ad you see pictured above. The feature is about the fight with cancer that many Canadians and their loved ones are facing. Stories in the feature ranged from accounts of individual battles with cancer, to tips for teens on the dangers of tanning beds and tobacco, and info about diagnosing, testing and treating the disease, which is where Canada’s nuclear industry is so important.

Did you know: Every day, Canadian medical isotopes are used in tens of thousands of nuclear medicine procedures worldwide, and in Canada

The two most important applications of nuclear technology in health and medicine are medical imaging for research and diagnosis, and radiotherapy for cancer. In fact, radiotherapy was pioneered in Canada when, in 1951, Harold E. Johns and Roy Errington led teams to build the world’s first radiation treatment machine using colbalt-60.

For more information about how medical isotopes are used, please visit NUnuclear.ca

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CNA Visits AECL’s Chalk River Laboratories

August 9, 2011 – 07:24

Last month, the CNA was invited to tour the Atomic Energy of Canada Limited (AECL)’s Chalk River Laboratories (CRL). If you thought Chalk River was all about the National Research Universal (NRU) reactor, you are mistaken. There is so much going on at Chalk River, it’s really quite incredible.

We began our tour by signing in with security at the CRL outer gate. “Safety first” in the nuclear industry extends to security, which at CRL is impressive to say the least. After checking in and receiving our visitor badges, we were off with our tour facilitators, Pat and Philip from AECL Site and Community Affairs.

First stop on the tour was the Waste Analysis Facility (WAF). Completed in 2008, the WAF is where waste that is believed to be clean (known as “Likely Clean”) is checked before being sent for recycling or disposal. It’s the final safety test before clean waste leaves the AECL site. If contamination is found (less than half of a percent of total material) the item is sent for decontamination or storage on-site. Materials verified as clean are taken off-site by trucks, which also pass through sensitive vehicle monitors to make sure no contamination leaves the site. EVER.  This is also a big advantage as it has allowed AECL to implement new programs to recycle more material, and, in many cases reduces the cost of storage. AECL does waste storage for materials generated on-site but it also serves to safely store and secure radioactive waste from hospital, schools and lab facilities from across the country.

Here we are in front of the Brockhouse Building at AECL's Chalk River Labs

Next we arrived at the Brockhouse Building for a presentation by Bill Kupferschmidt, the Vice-President of Research and Development, at AECL’s Nuclear Labs. But first, a safety brief: alarms will sound if there is an emergency, you go to the predetermined meeting spot, and there is an easy number to call to report an emergency, any questions? No? Then we’ll begin.

The presentation took us through the history of CRL. It’s the birthplace of Canada’s nuclear technology and has a 60-year nuclear legacy. Today CRL is the “knowledge base” of the Canadian industry. It’s a major producer of medical isotopes and a leader in nuclear environmental stewardship. The nuclear labs are applying science and technology for the benefit of Canadians and the world by way of specialized expertise, facilities and the unique ability to work with radioactive materials. It is truly impressive stuff! The Chalk River Laboratories are home to many facilities that can be found nowhere else in Canada.  These facilities, along with the people that work within them, play a big role in the scientific and industrial communities in Canada.

Our next stop on the tour was the Surface Sciences Lab. This is where expertise in a variety of disciplines – metallurgy, chemistry, physics, microscopy – all comes into play to solve any number of industrial materials challenges, and help make the industry safer and more efficient

AECL’s key areas of expertise include: material identification, characterization and qualification; mechanical failure analysis; corrosion analysis; non-destructive testing and analysis; sample preparation for metallographic and surface analysis; metallographic examination; characterization of radioactive specimens; and process qualifications including decontamination and cleaning.

Surface Sciences Lab

Complementary to the surface analysis capabilities are the remote-handling facilities for examining and testing irradiated materials and equipment. The Shielded Facilities include a reactor bay for receiving and initial processing of materials, shielded flasks for transferring highly radioactive materials, and hot cells!

The hot cells contain state-of-the-art equipment used to conduct post-irradiation examination (PIE) experiments and testing of radioactive materials. Mechanical arms behind shielded walls and windows allow the work to be done safely. The hot cells were this blogger’s favourite part of the tour.

Shielded Facilities

But then, we hadn’t yet arrived at the NRU. National Research Universal (NRU); a landmark achievement in Canadian science and technology. Completed in 1957, the NRU provides a unique facility for scientists across Canada through the National Research Council (NRC) and many others. Professor Bertram Brockhouse won a Nobel Prize in physics for his work at NRX (National Research Experimental, NRU’s predecessor) and NRU on neutron scattering. The technique he pioneered enables scientists today at the NRC Canadian Neutron Beam Centre at NRU to investigate materials with neutrons. In fact, each year over 200 professors, students and industrial researchers use this unique and powerful national resource. We are just “beaming” with pride!

NRU is also where the fundamental knowledge required to produce and evolve Canada’s CANDU fleet emerged AND where much of the world’s life-saving medical isotopes are produced.

National Research Universal (NRU)

Waste analysis, a history of CRL, surface sciences, hot cells, NRU — and all before lunch! In the second half of the tour we visit Zed-2, tritium and hydrogen research technologies, inspection technologies, and end with the Biological Research Facility. Read part two of CNA Visits AECL 2011 tomorrow on the TalkNuclear blog.

 

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