Category Archives: Genetic Testing

Researchers Identify A New Breast & Ovarian Cancer Susceptibility Gene

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German researchers identify a new breast and ovarian cancer susceptibility gene known as “RAD51C.”  The risk for breast cancer in women with the RAD51C mutation is 60 to 80 percent, while the risk for ovarian cancer is 20 to 40 percent.

The discovery 15 years ago that the genes BRCA1 and BRCA2 confer high risks for breast and ovarian cancer was a breakthrough for cancer prediction and therapy, especially for familial cases.  Now the research group of Prof. Alfons Meindl (Klinikum rechts der Isar of the Technische Universitaet Muenchen), in collaboration with other groups from Germany, the U.K., and the U.S., can identify another gene that increases susceptibility to breast and ovarian cancer. Their results have been published online in Nature Genetics. The identification of such high risk-conferring genes is a prerequisite for offering women tailored early recognition programs and more individualized therapies.

The gene newly identified as causing breast and ovarian cancer in familial cases is designated RAD51C. It is, like BRCA1 and BRCA2, essential for DNA repair within cells. Mutations in the gene can therefore cause either breast or ovarian cancer. In index cases from 1,100 German families with gynecological malignancies, six mutations within the RAD51C gene were found exclusively in 480 pedigrees [i.e., family trees] with occurrence of breast and ovarian cancer. The six RAD51C mutations were not found in 620 pedigrees with breast cancer only, or in 2,912 healthy German controls.  The risk for breast cancer in women with mutation of RAD51C is 60 to 80 percent, while the risk for ovarian cancer is 20 to 40 percent. As the cancers in such families were diagnosed significantly earlier than in women who developed sporadic breast or ovarian cancer, experts might also call the newly identified gene BRCA3.

“These results reinforce our assumption that various rare gene mutations contribute to hereditary breast and ovarian cancer. The now known genes that predispose women to breast and/or ovarian cancer only explain 60 percent of the high-risk families,” says TUM Professor Alfons Meindl, Klinikum rechts der Isar, but novel technologies allow the rapid identification of other such rarely mutated disease-causing genes.

“We are also optimistic that in the future the individual breast cancer risks for the majority of women can be determined. These risk predictions will allow the offering of tailored prevention and small meshed early recognition programs. Risk-aligned prevention will become a new clinical area,” explains Prof. Dr. Rita Schmutzler of the University Hospital of Cologne, one of the other main authors of the article.

About Technische Universitaet Muenchen

Technische Universitaet Muenchen (TUM) is one of Germany’s leading universities. It has roughly 420 professors, 7,500 academic and non-academic staff (including those at the university hospital “Rechts der Isar”), and 24,000 students. It focuses on the engineering sciences, natural sciences, life sciences, medicine, and economic sciences. After winning numerous awards, it was selected as an “Elite University” in 2006 by the Science Council (Wissenschaftsrat) and the German Research Foundation (DFG). The university’s global network includes an outpost in Singapore. TUM is dedicated to the ideal of a top-level research based entrepreneurial university. http://www.tum.de

About Klinikum rechts der Isar, Munich, Germany

The Klinikum rechts der Isar (on the right hand side of the river Isar) serves its patients with a highly skilled team of dedicated doctors, nurses, research scientists, and technical assistants. The Klinikum rechts der Isar is a university hospital of the Technische Universitaet Muenchen.  With a workforce of over 4,000 personnel, the university hospital is a renowned center for the care of the sick, for medical research, and for the teaching of medicine. The Klinikum rechts der Isar is composed of more than 30 separate clinics and departments treating some 45,000 in-house patients and 170,000 out-patients yearly. With more than 1,000 beds, the hospital covers the entire spectrum of modern medicine with state-of-the-art efficiency. Through the close cooperation between health care and research, the latest advances in medical techniques can be quickly integrated into patient treatment procedures.

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Libby’s H*O*P*E* to Present At NOCC 6th Annual Women’s Health Expo (REJUVENATE Finding Balance)

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On March 20, 2010, the National Ovarian Cancer Coalition (Maryland Chapter) will hold its 6th Annual Women’s Health Expo entitled, REJUVENATE Finding Balance (NOCC Rejuvenate), at the Sheraton Annapolis Hotel. … On behalf of Libby’s H*O*P*E*™, I will conduct a seminar as part of Session II entitled, A Patient Advocate’s Perspective on the Importance of Ovarian Cancer Awareness and Related On-line Resources.

On March 20, 2010, the National Ovarian Cancer Coalition (Maryland Chapter) will hold its 6th Annual Women’s Health Expo entitled, REJUVENATE Finding Balance (NOCC Rejuvenate), at the Sheraton Annapolis Hotel. NOCC Rejuvenate is sponsored by the National Breast & Ovarian Cancer Connection and Cancer Treatment Centers of America.  Additional funding was also provided through a grant from the Maryland Attorney General Settlement.

NOCC Rejuvenate is designed to appeal to all women who want to rejuvenate their mind, body and spirit. The event is divided into three sessions. Each session offers seven to eight different seminars for attendees. The seminars address a variety of topics including make-up and skin care, going green, photography, plastic surgery, decorating, fashion, finance, retirement solutions, nutrition, fitness, and holistic approaches to wellness. A list of all event seminars is provided below.

Informative seminars about ovarian and breast cancer are offered as part of each session. Knowing the signs and symptoms of ovarian cancer, the screening guidelines for breast cancer, and the basics about hereditary breast and ovarian cancer, could save your life or the life of someone you love.  On behalf of Libby’s H*O*P*E*™, I will conduct a seminar as part of Session II entitled, A Patient Advocate’s Perspective on the Importance of Ovarian Cancer Awareness and Related On-line Resources.  My presentation will address the genesis of the Libby’s H*O*P*E*™ website; highlight critical ovarian cancer awareness information; summarize available online ovarian cancer and cancer-related resources; describe stories of hope involving ovarian cancer survivors and their families; and explain how each individual can make a difference in the fight against ovarian cancer.

NOCC Rejuvenate also targets cancer survivors. The devastating effects of these diseases can rob women of hope and peace. This event will offer an opportunity for survivors to reinvent their self-image and gain more knowledge, offering a sense of hope and a chance to connect with other survivors.

An exhibitor’s area will be offered at the event. This area will include informational tables as well as vendor tables that have been specifically chosen to meet the overarching vision of the event. At the completion of the three event sessions, a nutritious lunch will be served while information is provided on the signs and symptoms of ovarian and breast cancer.

NOCC 6th Annual Women's Health Expo

What:  National Ovarian Cancer Coalition 6th Annual Women’s Health Expo entitled, REJUVENTE Finding Balance (click here to view event brochure, including mail-in registration)

When: Saturday, March 20, 2010 (8:00 A.M. – 3:00 P.M.)

Where: Sheraton Annapolis Hotel, 173 Jennifer Road, Annapolis, Maryland 21401 (driving instructions).

Register: To register online click here.

Contact: Nancy Long (NOCC Maryland Chapter Co-President) at 443-433-2597, or email (click here).

Keynote Speaker:  Yarrow, The Energy Whisperer

Session I Presentations (9:30 A.M. – 10:30 A.M.)

  • Treating Cancer By Alternative Medicine
  • The Survivors’ Connection
  • The Skinny on Fat – Cancer Prevention Naturally
  • Interior Design in Difficult Times – Cost Saving Design Solutions
  • Relaxation & Healing
  • Identifying & Solving the Challenges of Baby Boomer Women
  • Cancer and The Healing Power of Forgiveness
  • Belly Dancing

Session II Presentations (10:45-11:45)

  • Dr. Zandra Cheng, Breast Surgeon at Anne Arundel Medical Center
  • Hereditary Syndromes That Include Ovarian and Breast Cancers
  • Facial & Body Rejuvenation
  • A Patient Advocate’s Perspective On the Importance of Ovarian Cancer Awareness & Related On-line Resources (Paul Cacciatore, Founder, Libby’s H*O*P*E*™)
  • Designing Green Interiors
  • Creating Better Images with the Camera You Own
  • Some Expert Fashion Tips
  • Yoga:  A Balanced Life
  • Relaxation & Healing

Session III Presentations (12:00 P.M. – 1:00 P.M.)

  • New Advances in Ovarian Cancer (William McGuire, M.D., Medical Director of The Harry & Jeanette Weinberg Cancer Institute at Franklin Square Hospital)
  • What is My Daughter’s Chance of Getting My Cancer?
  • Planning for your Retirement Lifestyle:  The New Retirement
  • Super Health Begins with Super-food Nutrition
  • Around the World to Your Backyard
  • Balancing Your Life Wheel
  • Get Fit & Healthy with the Simple Rules of the Big 3
  • Relaxation & Healing

About the National Ovarian Cancer Coalition

The mission of the NOCC is to raise awareness and increase education about ovarian cancer. NOCC is committed to improving the survival rate and quality of life for women with ovarian cancer. Through national programs and local Chapter initiatives, the NOCC’s goal is to make more people aware of the early symptoms of ovarian cancer. In addition, the NOCC provides information to assist the newly diagnosed patient, to provide hope to survivors, and to support caregivers. NOCC programs are possible only with the help of its volunteers; committed men and women dedicated to the mission of the NOCC in communities across the country.  For more information go to http://www.ovarian.org/.

About the National Breast & Ovarian Cancer Connection

The mission of the NBOCC is to raise awareness and educate the general public about the link between breast and ovarian cancer. The organization is dedicated to teaching all women about their inherent risks and how to improve their chances of survival through early detection and research developments.  For more information go to http://www.nbocc.org/.

Women Often Opt to Surgically Remove Their Breasts, Ovaries to Reduce Cancer Risk

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Many women at high risk for breast or ovarian cancer are choosing to undergo surgery as a precautionary measure to decrease their cancer risk, according to a report in Cancer Epidemiology, Biomarkers & Prevention, a journal of the American Association for Cancer Research.

PHILADELPHIA – Many women at high risk for breast or ovarian cancer are choosing to undergo surgery as a precautionary measure to decrease their cancer risk, according to a report in Cancer Epidemiology, Biomarkers & Prevention, a journal of the American Association for Cancer Research.

Gareth

Dr. Gareth Evans is an international authority on cancer genetics. Dr. Evans is the Chairman of the National Institute For Health & Clinical Excellence (NICE) familial breast cancer group; Chairman, Cancer Genetics Group & Council Member, British Society of Human Genetics; Consultant, Genesis Prevention Center, Univ. Hospital of South Manchester NHS Trust; Professor, Univ. of Manchester, UK

“Women have their breasts or ovaries removed based on their risk.

Claudine_2009_July_(photo_credit_Phil_Humnicky,_Georgetown)

Dr. Claudine Isaacs is an Associate Professor of Medicine, Director of the Familial Cancer Registry Shared Resource, Director of the Clinical Breast Cancer Program, and the Co-Medical Director of the Fisher Center for Familial Cancer Research at the Lombardi Comprehensive Cancer Center, Georgetown Univ., Washington, D.C. (photo credit: Phil Humnicky, Georgetown Univ.)

It does not always happen immediately after counseling or a genetic test result and can take more than seven years for patients to decide to go forward with surgery,” said lead researcher D. Gareth Evans, M.D. Evans is a consultant in clinical genetics at the Genesis Prevention Center, University Hospital of South Manchester NHS Trust and a professor at the University of Manchester, United Kingdom.

Evans and colleagues assessed the increase in risk-reduction surgery among women with breast cancer and evaluated the impact of cancer risk, timing and age.

Rate of increase was measured among 211 women with known unaffected BRCA1 or BRCA2 mutation carriers. BRCA1 and BRCA2 are hereditary gene mutations that indicate an increased risk for developing breast cancer. Additionally, more than 3,500 women at greater than 25 percent lifetime risk of breast cancer without mutations also had a documented increase in risk-reduction surgery.

Women who had a biopsy after undergoing risk evaluation were twice as likely to choose a risk-reducing mastectomy. Forty percent of the women who were mutation carriers underwent bilateral risk-reducing mastectomy; 45 percent had bilateral risk-reducing salpingo-oophorectomy (surgical removal of ovaries). These surgeries are widely used by carriers of BRCA1 and BRCA2 gene mutations to reduce the risk for breast and ovarian cancer.

Evaluated by gene type, bilateral risk-reducing salpingo-oophorectomy was more common in women who were BRCA1 gene carriers – 52 percent had the surgery compared with 28 percent of the women who were BRCA2 gene carriers.

“We found that older women were much less likely to have a mastectomy, but were more likely to have their ovaries removed,” said Evans.

Most of the women, specifically those aged 35 to 45 years, opted for surgery within the first two years after the genetic mutation test, but some did not make a decision until seven years later.

“This is a very interesting study. It fleshes out some of what we know about adoption of risk reduction strategies in high-risk women who have participated in a very comprehensive and well thought-out genetic counseling, testing and management program,” said Claudine Isaacs, M.D., an associate professor of medicine and co-director of the Fisher Center for Familial Cancer Research, Lombardi Comprehensive Cancer Center at Georgetown University.

BRCA1 and BRCA2 mutation carriers have a very high lifetime risk of cancer, and for BRCA1 carriers there are unfortunately no clearly proven non-surgical prevention strategies, according to Isaacs. These women face a 50 to 85 percent lifetime risk of breast cancer, and mastectomy is currently the most effective prevention method available.

The findings confirm the expectations that when a woman has a biopsy, even if benign, most are more likely to opt for risk-reduction surgery.

“Screening should be conducted at a place with expertise in an effort to minimize false-positive results, which often lead to biopsy. This will minimize the anxiety that comes along with such a diagnosis. Patients should consult with an expert in advance and stay in contact with them to see how the science may be changing over time,” she advised. “This is an ongoing conversation that needs to be addressed and individualized for each patient.”

Likewise, Evans suggested that additional studies are needed to help evaluate the communication efforts and methods between doctors and/or counselors and women at risk for breast cancer. Questions to be raised should include how is the communication method occurring, are the doctors sympathetic and is there an ongoing dialogue?

“Careful risk counseling does appear to influence women’s decision for surgery although the effect is not immediate,” the researchers wrote.

References:

Beyond BRCA1 & BRCA2: U.K. Researchers Identify Genetic Defect That Could Increase Risk of Ovarian Cancer Up To 40%

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Scientists have located a region of DNA which – when altered – can increase the risk of ovarian cancer according to research published in Nature Genetics today. An international research group led by scientists based at the Cancer Research UK Genetic Epidemiology Unit, at the University of Cambridge and UCL (University College London) searched through the genomes of 1,810 women with ovarian cancer and 2,535 women without the disease from across the UK. …The scientists estimate that there is a 40 per cent increase in lifetime risk for women carrying the DNA variation on both copies of chromosome nine compared with someone who doesn’t carry it on either chromosome. The risk for women carrying the variation on both chromosomes is 14 in 1000 – compared with [10] ten in 1000 [in the general population]. … The lifetime risk for a woman carrying the DNA variant on one copy of the chromosome is increased by 20 per cent from ten in 1000 to 12 in 1000. …

Genetic link to ovarian cancer found

Cancer Research UK

SUNDAY 2 AUGUST 2009

Cancer Research UK Press Release

Scientists have located a region of DNA which – when altered – can increase the risk of ovarian cancer according to research published in Nature Genetics today.

An international research group led by scientists based at the Cancer Research UK Genetic Epidemiology Unit, at the University of Cambridge and UCL (University College London) searched through the genomes of 1,810 women with ovarian cancer and 2,535 women without the disease from across the UK. They analysed 2.5 million variations in DNA base pairs – the letters which spell out the genetic code – to identify common spelling ‘errors’ linked to ovarian cancer risk.

The scientists identified the genetic ‘letters’- called single nucleotide polymorphisms (SNPs) – which when spelled slightly differently increase ovarian cancer risk in some women. This is the first time scientists have found a SNP linked uniquely to risk of ovarian cancer and is the result of eight years of investigations. With the help of the international Ovarian Cancer Association Consortium (OCAC), they then looked at more than 7,000 additional women with ovarian cancer and 10,000 women without disease from around the world to confirm this finding.

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The region of risk DNA is located on chromosome nine – there are 23 pairs of each chromosome in humans, one of each pair inherited from each parent. The scientists estimate that there is a 40 per cent increase in lifetime risk for women carrying the DNA variation on both copies of chromosome nine compared with someone who doesn’t carry it on either chromosome. The risk for women carrying the variation on both chromosomes is 14 in 1000 – compared with [10] ten in 1000 [in the general population].

Approximately 15 per cent of women in the UK population carry two copies of the variant DNA.

The lifetime risk for a woman carrying the DNA variant on one copy of the chromosome is increased by 20 per cent from ten in 1000 to 12 in 1000. Approximately 40 per cent of women in the UK carry one copy.

Senior author Dr. Simon Gayther, whose work is supported by Cancer Research UK and The Eve Appeal charity which fundraises for the gynaecological cancer research team based at UCL, said: “The human DNA blueprint contains more than 10 million genetic variants. These are part and parcel of our characteristics and make-up – but a handful will also increase the chances of some women getting ovarian cancer and we have found the first one of these.”

“There is now a genuine hope that as we find more, we can start to identify the women at greatest risk and this could help doctors to diagnose the disease earlier when treatment has a better chance of being successful.”

Dr. Andrew Berchuck, head of the international Ovarian Cancer Association Consortium steering committee, said: “This study confirms that ovarian cancer risk is partly determined by genetic variants present in a large number of women. This initial discovery and others that will likely follow in the future lay the groundwork for individualised early detection and prevention approaches to reduce deaths from ovarian cancer.”

Ovarian cancer is the fifth most common cancer in women in the UK with around 6,800 new cases diagnosed each year in the UK – 130 women every week. It is the fourth most common cause of cancer death in women in the UK with around 4,300 deaths from the disease in the UK each year.

BRCA1 and BRCA2 are high risk genes which cause breast cancer and are already known to significantly increase the risk of ovarian cancer- but faults in these genes are rare and probably cause less than five per cent of all cases of ovarian cancer.

Lead author, Professor Dr Paul Pharoah, a Cancer Research UK senior research fellow at the University of Cambridge, said: “We already know that people with mistakes in the BRCA1 and BRAC2 genes have a greater risk of ovarian cancer – but on their own they don’t account for all of the inherited risk of the disease. “It is likely that the remaining risk is due to a combination of several unidentified genes – which individually carry a low to moderate risk. Now we have ticked one off, the hunt is on to find the rest.”

Rose Lammy, the mother of David Lammy MP [Member of Parliament] for Tottenham and Minister for Higher Education and Intellectual Property, died of ovarian cancer in 2008. Rose Lammy’s DNA sample was included in the study, and she carried both risk alleles of the new genetic marker that researchers have identified.

David Lammy said: “I am pleased that Mum’s sample was included in this study as it is one step towards earlier diagnosis of ovarian cancer when treatment is more successful. We now know the fact that she had this altered DNA meant that her lifetime risk had risen from 10 in 1,000 to 14 in 1,000, an increase of 40 per cent compared to those women who don’t carry this DNA variation. Dr Lesley Walker, director of cancer information at Cancer Research UK, added: “This is an important discovery. Our researchers have worked as part of a huge collaboration to establish the regions of DNA that can increase someone’s risk of developing ovarian cancer. “This research paves the way for scientists to discover even more genes linked to ovarian cancer and could lead to new approaches to treat or prevent the disease – crucially it will help doctors manage women who are at increased risk.”

Source: Genetic link to ovarian cancer found, Cancer Research U.K. Press Release & Video, 02 Aug. 09.

Reference: Honglin Song et al. (2009). A genome-wide association study identifies a new ovarian cancer susceptibility locus on 9p22.2 Nature Genetics 10.1038/ng.424.

One In Three Billion Found: Single Mutation In FOXL2 Gene May Cause Granulosa Cell Ovarian Cancer

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“… Vancouver scientists from the Ovarian Cancer Research (OvCaRe) Program at BC Cancer Agency and Vancouver Coastal Health Research Institute have discovered that there appears to be a single spelling mistake in the genetic code of granulosa cell tumours, a rare and often untreatable form of ovarian cancer. This means that out of the three billion nucleotide pairs that make up the genetic code of the tumour, one – the same one in every tumour sample – is incorrect. The discovery, published online June 10th in the New England Journal of Medicine, marks the beginning of a new era of cancer genomics, where the complete genetic sequence of cancers can be unravelled and the mutations that cause them exposed. For women with granulosa cell tumours it represents the first specific diagnostic tool and clear path to develop much needed treatments for this cancer. …”

Found: One in Three Billion

The spelling mistake in the genetic code that causes a type of Ovarian Cancer

Eureka! Vancouver scientists from the Ovarian Cancer Research (OvCaRe) Program at BC Cancer Agency and Vancouver Coastal Health Research Institute have discovered that there appears to be a single spelling mistake in the genetic code of granulosa cell tumours, a rare and often untreatable form of ovarian cancer. This means that out of the three billion nucleotide pairs that make up the genetic code of the tumour, one – the same one in every tumour sample – is incorrect. The discovery, published online June 10th in the New England Journal of Medicine, marks the beginning of a new era of cancer genomics, where the complete genetic sequence of cancers can be unravelled and the mutations that cause them exposed. For women with granulosa cell tumours it represents the first specific diagnostic tool and clear path to develop much needed treatments for this cancer.

Dr. David Huntsman

David Huntsman, M.D. (Nfld.), Associate Professor, Department of Pathology & Laboratory Medicine, University of British Columbia; Genetic Pathologist, BC Cancer Agency

“This is really a two-fold discovery,” says Dr. David Huntsman, lead author and genetic pathologist at the BC Cancer Agency and Vancouver General Hospital and associate professor in the Department of Pathology and Laboratory Medicine at the University of British Columbia. “It clearly shows the power of the new generation of DNA sequencing technologies to impact clinical medicine, and for those of us in the area of ovarian cancer research and care, by identifying the singular mutation that causes granulosa cell tumours, we can now more easily identify them and develop news ways to treat them.”

In the past when scientists wanted to look at the sequence of a tumour, it was a laborious process, with each gene individually decoded into thousands of nucleotides and all data accumulated and sorted. Most studies could only look at one or at most a few of the 20,000 genes in the human genome whereas the new sequencing technologies allow scientists to look at everything at once. Through a collaboration between OvCaRe and the BC Cancer Agency’s Genome Sciences Centre, the research team used “next generation” sequencing machines that are able to decode billions of nucleotides at rapid speed and new computer techniques to quickly assemble the data. “This task would have been unfathomable in terms of both cost and complexity even two years ago,” says Dr. Marco Marra, Director of the BC Cancer Agency’s Genome Sciences Centre.

The OvCaRe team decoded four tumour samples of the relatively rare granulosa cell tumour, which affects five percent of ovarian cancer patients. Using the new sequencing technology and bioinformatics, they discovered a single nucleotide located in the FOXL2 gene was mutated in every sample. The research team further validated their work by examining a large number [95 samples] of additional tumour samples from across Canada and around the world, and are satisfied they have been able to validate that this mutation is present in almost all granulosa cell tumours and not in unrelated cancers. Most types of cancers, including ovarian cancers, have a broad range of genetic abnormalities. This finding shows that granulosa cell tumours have a characteristic single DNA spelling mistake that can serve as an easy to read identity tag for this cancer type.

“Although it has been suggested that hundreds of any cancer type would have to be sequenced at great depth to make clinically useful discoveries,” says Huntsman, “we had hypothesized that knowledge could be gained from much smaller studies if the cancers were carefully selected and represented clinically homogenous diseases. There are many rarer cancer types, like granulosa cell tumours that fit that bill and based upon our success in decoding granulosa cell tumours we are focusing on other rare tumours in what could be described as a guerrilla war on cancer. We hope that these studies will not only help future patients with rare tumours but will also teach us about more common ones as well.”

“This cancer is unique,” says Dr. Dianne Miller, gynecologic oncologist at BC Cancer Agency and Vancouver General Hospital. “For patients with this tumour type, it means they should all have the same response to the same treatment. And now that we have this pathway, we can look for existing cancer drugs that might work on this particular gene mutation to make the cancer disappear.”

The OvCaRe team was able to make this discovery because of the multidisciplinary nature of the group, which crosses two provincial health authorities and is made up of gynaecologists, pathologists, bioinformatics specialists, and oncologists. Further enhancing the team’s success is the centralization of patient treatment and record keeping.

“We are excited by this paper,” says Dr. Michael Birrer, professor, Department of Medicine, Harvard Medical School and director GYN/Medical Oncology, Medicine, Massachusetts General Hospital. “The ovarian cancer research and care community now has new biologic insights into this poorly understood tumour and a potential therapeutic target. More importantly, this tour de force study reveals the power of genomic approaches to cancer, particularly rare tumours.”

Ovarian cancer affects about one in 70 Canadian women. Approximately 2500 new cases are diagnosed each year and the five-year survival rate is only 30 per cent.

This study was supported by donors to VGH & UBC Hospital Foundation and the BC Cancer Foundation, and Genome BC for the development of Illumina sequencing at the BC Cancer Agency’s Genome Sciences Centre. OvCaRe and the BC Cancer Agency’s Genome Sciences Centre are also supported by the Michael Smith Foundation for Health Research.

Ovarian Cancer Research Program (OvCaRe) is a multidisciplinary research program involving clinicians and research scientists in gynaecology, pathology, and medical oncology. OvCaRe is a unique collaboration between the BC Cancer Agency, Vancouver Coastal Health Research Institute, and the University of British Columbia. Funding is provided through donations to VGH & UBC Hospital Foundation and the BC Cancer Foundation, who, in a joint partnership created a campaign to raise funds to make OvCaRe possible. The OvCaRe team is considered a leader in ovarian cancer research, breaking new ground in better identifying, understanding, and treating this disease. Earlier this year, the team discovered that ovarian cancer was not just one disease, but rather made up of several distinct subtypes.

Primary Sources:

Related N Engl J Med Editorial:  Shendure J, Stewart, CJ. Cancer Genomes on a Shoestring Budget. N Engl J Med 2009 0: NEJMe0903433 (Full Text).

Additional Reference:  Köbel M, Kalloger SE, Boyd N,et. al. Ovarian carcinoma subtypes are different diseases: implications for biomarker studies. PLoS Med. 2008 Dec 2;5(12):e232. PubMed PMID: 19053170; PubMed Central PMCID: PMC2592352.

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Genetic Testing For Hereditary Breast and Ovarian Cancers Greatly Underutilized By High-Risk Women

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A women’s lifetime breast cancer risk is approximately 13 percent, and her ovarian cancer risk is less than 2 percent.  But women with BRCA1 (BReast CAncer 1) or BRCA2 (BReast CAncer 2) gene mutations may be 3 to 7 times more likely to develop breast cancer, and 9 to 30 times more likely to develop ovarian cancer, respectively, than women who do not possess such mutations. A recent report, published online in the Journal of General Internal Medicine on May 20, 2009, states that genetic testing of high-risk women for hereditary breast and ovarian cancers is greatly underutilized.

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ACLU Challenges Patents On Genes Responsible For Hereditary Breast and Ovarian Cancers

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“The American Civil Liberties Union and the Public Patent Foundation at Benjamin N. Cardozo School of Law (PUBPAT) filed a lawsuit … charging that patents on two human genes associated with breast and ovarian cancer stifle research that could lead to cures and limit women’s options regarding their medical care. Mutations along the genes, known as BRCA1 and BRCA2, are responsible for most cases of hereditary breast and ovarian cancers. The lawsuit argues that the patents on these genes are unconstitutional and invalid. …”

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Women of Diverse Ethnic Ancestry Have Similar Risk of Carrying BRCA Mutations as Those With Western European Ancestry

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” …The study, performed by researchers at Philadelphia’s Fox Chase Cancer Center and Myriad Genetics, Inc., analyzed the prevalence of BRCA1/BRCA2 gene mutations in patients of different ethnicities at risk for hereditary breast and ovarian cancer. The study included test results of 46,276 women during the ten-year period from 1996 to 2006. Study subjects encompassed a broad, diverse ethnic group, including individuals of European, Latin American, African, Asian and Native American ancestries. … Results of the study showed that BRCA disease-causing mutations were identified in 5,780 women tested (12.5%) across all ethnic populations. Importantly, the study demonstrated that individuals of African and Latin American ancestry had as great a risk in having BRCA mutations as women with western European ancestry, when controlled for the level of personal and family history of breast and ovarian cancer. …”

“New Study Published in CANCER Supports Use of BRACAnalysis Testing Across Broad Ethnic Populations

Women of Asian, African and Latin American Ancestry Had Similar Risk of Carrying BRCA Mutations as Those With Western European Ancestry

SALT LAKE CITY, UT, Apr 30, 2009 (MARKET WIRE via COMTEX News Network) — Myriad Genetics, Inc. (NASDAQ: MYGN) announced today that an article entitled ‘BRCA1 and BRCA2 Mutations in Women of Different Ethnicities Undergoing Testing for Hereditary Breast-Ovarian Cancer‘ will appear in the May 15, 2009 issue of the journal CANCER.  The study demonstrates that BRACAnalysis(R) testing of at-risk women across diverse ethnicities helps identify individuals who may benefit from improved surveillance, medical and surgical strategies to reduce their hereditary cancer risks.

critchfield

Gregory C. Critchfield, M.D., M.S., President, Myriad Genetic Laboratories

‘This study, the largest of its kind, shows convincingly that strong family or personal history of breast or ovarian cancer is associated with a high prevalence of BRCA mutations — irrespective of one’s ethnic heritage,’ stated Gregory C. Critchfield, M.D., M.S., President of Myriad Genetic Laboratories.

The association between ethnicity and the risk of BRCA1 or BRCA2 mutations has not been well understood in women of non-European ancestry. This study provides important information for women of Asian, African, Latin American and Native American ancestry that may impact breast cancer [and ovarian cancer] prevention and treatment efforts among women in these populations. The study, performed by researchers at Philadelphia’s Fox Chase Cancer Center and Myriad Genetics, Inc., analyzed the prevalence of BRCA1/BRCA2 gene mutations in patients of different ethnicities at risk for hereditary breast and ovarian cancer. The study included test results of 46,276 women during the ten-year period from 1996 to 2006. Study subjects encompassed a broad, diverse ethnic group, including individuals of European, Latin American, African, Asian and Native American ancestries. To date, this work represents the largest group of patients tested for BRCA mutations reported in the literature. All testing was performed at Myriad Genetics, Inc.

Results of the study showed that BRCA disease-causing mutations were identified in 5,780 women tested (12.5%) across all ethnic populations. Importantly, the study demonstrated that individuals of African and Latin American ancestry had as great a risk in having BRCA mutations as women with western European ancestry, when controlled for the level of personal and family history of breast and ovarian cancer.

Professional medical society guidelines, such as the American Society of Clinical Oncologists (ASCO), the Society of Gynecologic Oncologists (SGO), and the American College of Obstetricians and Gynecologists (ACOG), articulate risk factors for BRCA gene mutations, which include, among others, breast cancer occurring before age 50, personal or family history of ovarian cancer at any age, personal or family history of male breast cancer, Ashkenazi Jewish ancestry with breast cancer at any age, or the presence of a known BRCA mutation in the family.

About BRACAnalysis(R)

BRACAnalysis(R) is a comprehensive analysis of the BRCA1 and BRCA2 genes for assessing a woman’s risk for breast and ovarian cancer. A woman who tests positive with the BRACAnalysis(R) test has, on average, an 82% lifetime risk of developing breast cancer during her lifetime and a 44% risk of developing ovarian cancer. BRACAnalysis(R) provides important information that the Company believes will help the patient and her physician make better informed lifestyle, surveillance, preventive medication and treatment decisions. As published in the Journal of the National Cancer Institute, researchers have shown that pre-symptomatic individuals who have a high risk of developing breast cancer can reduce their risk by approximately 50% with appropriate preventive therapies. Additionally, as published in the New England Journal of Medicine, researchers have shown that pre-symptomatic individuals who carry gene mutations can lower their risk of developing ovarian cancer by approximately 60% with appropriate preventive therapies.

For more information about BRACAnalysis(R), please call 1-800-4-MYRIAD, or visit www.myriadtests.com.

About Myriad Genetics

Myriad Genetics, Inc. is a leading healthcare company focused on the development and marketing of novel molecular diagnostic and therapeutic products. Myriad’s news and other information are available on the Company’s Web site at www.myriad.com.

Myriad, the Myriad logo, BRACAnalysis, Colaris, Colaris AP, Melaris, TheraGuide, Prezeon, OnDose, Azixa and Vivecon are trademarks or registered trademarks of Myriad Genetics, Inc. in the United States and foreign countries. MYGN-G”

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Related InformationCLICK HERE to review all Libby’s H*O*P*E*™ postings relating to BRCA gene mutations.