01 Apr

Wanted Win Bonus: Upgrade Your Balance with Timely Promotions

Marcom (2)

 

In the world of online gambling, promotions and bonuses play a significant role in attracting and retaining players. One of the most sought-after promotions is the Win Bonus, which gives players the chance to boost their balance with extra cash or prizes. In this article, we will explore the importance of Win Bonuses, how they work, and how players can take advantage of them to maximize their winnings.

What is a Win Bonus?

A Win Bonus is a promotion offered by online casinos and sportsbooks to reward players for achieving a certain level of success. This could be winning a specific amount of money, hitting a jackpot, or reaching a certain number of wins. The bonus may come in the form of cash, free spins, or other prizes, and is typically added to the player's account as a reward for their achievements.

How Do Win Bonuses Work?

Win Bonuses typically have specific terms  and conditions that players must meet in order to qualify for the bonus. These may include wagering requirements, minimum deposit amounts, or specific games that must be played in order to claim the bonus. Players should always read the terms and conditions carefully before participating in any promotion to ensure they understand what is required of them.

Benefits of Win Bonuses

Win Bonuses offer a number of benefits for players, including:

1. Boosted Balance: Win Bonuses give players the opportunity to increase their balance and play more games without having to deposit additional funds.

2. Increased Winnings: By taking advantage of a Win Bonus, players can potentially increase their winnings and cash out more money.

3. Enhanced Gameplay: Win Bonuses can add an extra element of excitement to gameplay, motivating players to aim for bigger wins.

4. Reward for Success: Win Bonuses serve as a reward for players who have achieved a certain level of success, whether through luck or skill.

How to Take Advantage of Win Bonuses

In order to maximize the benefits of Win Bonuses, players should follow these tips:

1. Read the Terms and Conditions: Always read the terms and conditions of a Win Bonus before participating to ensure you understand what is required to qualify for the bonus.

2. Play Smart: To increase your chances of winning and qualifying for a Win Bonus, play strategically and manage your bankroll effectively.

3. Stay Informed: Keep an eye out for new Win Bonuses and promotions from online casinos and sportsbooks, as they may change regularly.

4. Utilize Promotions: Take advantage of any bonuses, promotions, or loyalty programs offered by online casinos to maximize your winnings.

Conclusion

Win Bonuses are a popular promotion offered by online casinos and sportsbooks to reward players for their achievements and give them the chance to boost their balance. By understanding how Win Bonuses work and following the tips outlined in this article, players can take advantage of these promotions to upgrade their balance and increase their winnings. Remember to always read the terms and conditions of any promotion before participating, and play responsibly to ensure an enjoyable gaming experience.

27 Mar

Menos es más: cómo centrarte en unos pocos mercados en 1win para no dispersarte

Marcom 1win

En el mundo de las apuestas deportivas, a menudo se escucha el dicho “menos es más”. Esta frase cobra especial relevancia cuando se trata de elegir en qué mercados centrarse al apostar en 1win. La dispersión de las apuestas puede llevar a una falta de enfoque y a pérdidas significativas, por lo que es crucial seleccionar cuidadosamente algunos mercados en los que concentrarse.

En este artículo, exploraremos la importancia de centrarse en unos pocos mercados en 1win y cómo esta estrategia puede llevar a un mayor éxito en las apuestas deportivas.

1. Conocimiento profundo

Centrarse en unos pocos mercados en 1win te permite desarrollar un conocimiento profundo de esos mercados en particular. Al conocer en detalle las reglas, tendencias y estadísticas de un mercado específico, estarás en una posición más ventajosa para tomar decisiones informadas al realizar apuestas.

2. Mayor control

Al centrarte en unos pocos mercados en 1win, tendrás un mayor control sobre tus apuestas. En lugar de dispersar tu dinero en una amplia variedad de opciones, podrás monitorear de cerca los mercados seleccionados y ajustar tu estrategia según sea necesario. Esto te permitirá minimizar el riesgo y maximizar las posibilidades de obtener ganancias.

3. Reducción de la dispersión

Al centrarte en unos pocos mercados en 1win, reducirás la dispersión de tus apuestas. Apostar en demasiados mercados diferentes puede llevar a decisiones apresuradas y a una falta de coherencia en tu estrategia de apuestas. Al limitar tus opciones, podrás concentrar tus recursos y esfuerzos en unas pocas áreas específicas, lo que aumentará tus probabilidades de éxito a largo plazo.

4. Enfoque en calidad sobre cantidad

Al centrarte en unos pocos mercados en 1win, podrás enfocarte en la calidad de tus apuestas en lugar de la cantidad. Apostar en múltiples mercados puede llevar a una mayor exposición al riesgo y a una menor rentabilidad. Al elegir cuidadosamente los mercados en los que deseas apostar, podrás invertir de manera más estratégica y maximizar tus posibilidades de ganancias.

En conclusión, centrarte en unos pocos mercados en 1win puede ser una estrategia inteligente para mejorar tus posibilidades de éxito en las apuestas deportivas. Al desarrollar un conocimiento profundo, tener mayor control, reducir la dispersión y enfocarte en la calidad de tus apuestas, estarás en una posición más sólida para alcanzar tus objetivos de apuestas. Recuerda, menos es más cuando se trata de apostar en 1win.

10 Dec

Unlock the Secrets to Strong Bones: A Comprehensive Guide

Marcom Blogs & News

As women age, maintaining bone health becomes essential, particularly after the age of 50. One of the most effective ways to assess bone health and detect osteoporosis early is through a bone density scan (DEXA). However, DEXA is just one piece of the puzzle when it comes to managing bone health.

This blog post will delve deeper into the importance of DEXA scans for women over 50 and explore some complementary lab tests offered by us at Alfa Labs that can provide a more comprehensive picture of your bone health.

 

Why Women Over 50 Need a Bone Density Scan

As women reach menopause, they experience a significant decline in estrogen levels, leading to accelerated bone loss. This makes them more susceptible to osteoporosis and other bone-related conditions. Women over 50 are particularly at risk, as osteoporosis becomes more common with age. A bone density scan is a key tool in detecting osteoporosis early, allowing for preventive measures to avoid fractures and maintain bone health

Additionally, a bone density scan can help identify osteopenia, a condition that indicates early stages of bone loss, which can often be managed through lifestyle changes and medications to prevent further deterioration. 

What is a Bone Density Scan? 

A bone density scan, also known as DEXA (Dual-Energy X-ray Absorptiometry), is a diagnostic test that measures the mineral content and strength of your bones. It uses low levels of X-ray radiation to create detailed images of the bones, primarily in the hip and spine, areas that are most vulnerable to fractures in people with osteoporosis.

 

The Science Behind DEXA: Advantages and Limitations

  • DEXA is the gold standard: Compared to other screening tools, DEXA is the most accurate and cost-effective way to measure bone mineral density (BMD).
  • Limitations for early detection: While DEXA excels in detecting established bone loss, it may not be as sensitive for early changes in trabecular bone (the spongy bone inside larger bones).

Complementary Lab Tests for a More Complete Picture

In conjunction with your DEXA scan, Alfa Labs offers several laboratory tests that can provide valuable insights into your bone health:

  • Baseline Tests:
    • Complete Blood Count (CBC): Checks for underlying conditions that affect bone health.
    • Serum Chemistry Panel: Measures levels of calcium, phosphate, alkaline phosphatase, and other minerals crucial for bone health.
    • Thyroid-Stimulating Hormone (TSH) Level: Evaluates thyroid function, which can impact bone density.
    • Vitamin D Level: Assesses for vitamin D deficiency, a major risk factor for osteoporosis.
  • Tests for Secondary Causes of Osteoporosis:
    • 24-Hour Urine Calcium Level: Identifies abnormal calcium levels in the urine.
    • Parathyroid Hormone (PTH) Level: Helps rule out hyperparathyroidism, a condition that can lead to bone loss.

These tests, along with your DEXA scan, can help your doctor create a personalized plan to optimize your bone health and reduce the risk of fractures.

Taking Control of Your Bone Health

 

If you are a woman over 50, schedule a consultation with your doctor to discuss whether a bone density scan and complementary lab tests are right for you. Early detection and intervention are key to maintaining strong bones and preventing osteoporosis.

At Alfa, we offer a comprehensive range of bone health services, including DEXA scans at Alfa Scan, the lab tests mentioned above at Alfa Labs and much more.

Our experienced team is dedicated to helping you understand your bone health and develop a personalized plan to keep your bones strong as you age.

 

Call us today to schedule an appointment!

 

Please note: This blog post is for informational purposes only and does not constitute medical advice. Always consult with a qualified healthcare professional for personalized guidance on your bone health.

10 Dec

Stay Healthy This Winter: A Comprehensive Guide to Navigating the Cold and Flu Season

Marcom Blogs & News

The common cold is a familiar enemy, affecting millions worldwide each year. While often mild, its symptoms can be disruptive and uncomfortable. Understanding the causes, symptoms, and prevention strategies can help you navigate the winter season with fewer sniffles.

What Causes the Common Cold?

The common cold is primarily caused by viral infections, with rhinoviruses being the most common culprit. However, other viruses like coronaviruses and respiratory syncytial virus (RSV) can also contribute to cold-like symptoms. These viruses spread through respiratory droplets, such as those produced when an infected person coughs or sneezes.

Common Cold Symptoms

The symptoms of a common cold typically appear within a few days of exposure and may include:

  • Runny or stuffy nose
  • Sore throat
  • Cough
  • Sneezing
  • Fatigue
  • Mild body aches
  • Low-grade fever

While most people recover within a week or two, individuals with weakened immune systems may experience more prolonged symptoms.

Preventing the Common Cold

While there’s no definitive cure for the common cold, preventive measures can significantly reduce your risk of infection:

  • Frequent Handwashing: Washing your hands frequently with soap and water, especially before eating and after using public facilities, can help eliminate viruses.
  • Avoid Close Contact: Minimize contact with people who are sick.
  • Cover Your Cough and Sneeze: Use a tissue to cover your mouth and nose when coughing or sneezing and dispose of the tissue properly.
  • Stay Hydrated: Drinking plenty of fluids can help soothe sore throats and reduce congestion.
  • Get Enough Rest: Sufficient sleep helps your immune system function optimally.

The Rising Threat of RSV

Recently, respiratory syncytial virus (RSV) has gained significant attention. While often associated with mild illness in children, RSV can cause severe respiratory infections in adults, especially those with underlying health conditions.

Why is RSV a Concern?

  • Increased Severity: In recent years, RSV has been causing more severe illness in adults, particularly older adults and those with chronic health conditions.
  • Co-circulation with Other Viruses: The simultaneous circulation of RSV, influenza, and COVID-19 can lead to increased hospitalizations and strain on healthcare systems.

Accurate Diagnosis and Timely Treatment

To accurately diagnose RSV and other respiratory infections, PCR testing is essential. PCR tests can quickly and reliably identify the specific virus causing your illness, allowing for appropriate treatment and preventive measures.

By understanding the causes and prevention strategies for the common cold and other respiratory infections, you can take steps to protect yourself and your loved ones. Remember, a timely PCR test can help you get the right treatment and recover faster.
Book your PCR test from Alfa Labs Now!

10 Dec

Essential Winter Vitamins and Minerals for Glowing Skin and Healthy Hair 

Marcom Blogs & News

Essential Winter Vitamins and Minerals for Glowing Skin and Healthy Hair 

As winter approaches, cold weather, low humidity, and dry air can negatively impact both your skin and hair. To protect your skin and hair from winter damage, it’s essential to ensure you’re getting the right vitamins and minerals. Here are the most important nutrients to support healthy skin and hair during the colder months. 

  1. Vitamin D for Healthy Skin and Hair

Vitamin D plays a vital role in maintaining healthy skin and hair. Reduced sunlight during winter can lead to a vitamin D deficiency, which can impact skin hydration and hair growth. Vitamin D supports new skin cell production and promotes hair follicle health. To boost your vitamin D levels, include fatty fish, egg yolks, and fortified dairy products in your diet. 

  1. Vitamin E for Skin Hydration and Hair Growth

Vitamin E is known for its antioxidant properties, protecting your skin from oxidative stress and improving scalp circulation for healthier hair growth. It helps maintain proper skin hydration, preventing dryness and irritation. Foods like nuts, seeds, and avocados are rich in vitamin E and beneficial for both skin and hair health during winter. 

  1. Vitamin C for Collagen Production and Skin Elasticity

Vitamin C is essential for collagen production, which keeps your skin firm and elastic. During winter, cold weather can lead to wrinkles and sagging skin. Vitamin C also has anti-inflammatory benefits, reducing redness and irritation. Add citrus fruits, strawberries, and bell peppers to your diet to support skin health and boost hair follicle strength. 

  1. Biotin (Vitamin B7) for Strong, Healthy Hair

Biotin (vitamin B7) is crucial for maintaining strong hair. It supports keratin production, reducing hair breakage, especially in the dry winter months. Incorporate eggs, nuts, and whole grains into your diet to promote hair growth and prevent hair damage. 

  1. Iron for Hair Strength and Prevention of Hair Loss

Iron is essential for healthy hair as it helps red blood cells deliver oxygen to hair follicles. An iron deficiency can lead to hair thinning or hair loss. To ensure strong hair during winter, include spinach, lentils, and red meat in your meals. 

Conclusion: Nourish Your Skin and Hair with Key Nutrients 

By incorporating these essential vitamins and minerals—vitamin D, vitamin E, vitamin C, biotin, and iron—into your diet, you can maintain healthy skin and hair all winter long. These nutrients help protect your skin from dryness, support hair growth, and ensure your hair stays strong and vibrant during the colder months. 

21 Sep

BRCA Gene Mutations: Cancer Risk and Genetic Testing

Marcom Newsletter

What are BRCA1 and BRCA2?

BRCA1 (BReastCAncer gene 1) and BRCA2 (BReastCAncer gene 2) are genes that produce proteins that help repair damaged DNA, so when they have certain changes (mutations, harmful variant), cancer can develop.

Is it important to test for the presence of inherited harmful variants in BRCA1 or BRCA2 ?

People who inherit harmful variants in one of these genes have increased risks of several cancers—most notably breast and ovarian cancer.

The benefits of genetic testing outweigh any harm. Apart from the sense of relief from uncertainty and helping people make informed decisions about managing their health care, a true negative result can eliminate the need for unnecessary checkups and screening tests. A positive test result can direct a person toward available prevention, monitoring and treatment options.

How can a person who has inherited a harmful BRCA1 or BRCA2 gene variant reduce their risk of cancer?

Several options are available for reducing cancer risk in individuals who have inherited a harmful BRCA1 or BRCA2 variant. These include enhanced screeningrisk-reducing surgery (sometimes referred to as prophylactic surgery), and chemoprevention.

11 situations should consider genetic testing for BRCA1 and BRCA2 variants

  • A personal history of breast cancer diagnosed before age 45
  • A personal history of breast cancer diagnosed before age 50 and a second primary breast cancer, one or more relatives with breast cancer, or an unknown or limited family medical history
  • A personal history of triple negative breast cancer diagnosed at age 60 or younger
  • A personal history of two or more types of cancer
  • A personal history of ovarian cancer
  • A personal history of male breast cancer
  • A personal history of breast cancer and one or more relatives with breast cancer diagnosed before age 50, two or more relatives diagnosed with breast cancer at any age, one or more relatives with ovarian cancer, one or more relatives with male breast cancer, or two or more relatives with prostate cancer or pancreatic cancer
  • A personal history of breast cancer and Ashkenazi (Eastern European) Jewish ancestry
  • A personal history of prostate cancer or pancreatic cancer with two or more relatives with BRCA-associated cancers
  • A history of breast cancer at a young age in two or more blood relatives, such as your parents, siblings or children
  • A relative with a known BRCA1 or BRCA2 mutation
  • One or more relatives with a history of cancer that would meet any of these criteria for gene testing.

Is there any treatment implications when having a harmful BRCA1 or BRCA2 variant for patients who have already developed cancer?

A class of drugs called PARP inhibitors, which block the repair of DNA damage, have been found to arrest the growth of cancer cells that have harmful BRCA1 or BRCA2 variants. Four PARP inhibitors—olaparib [Lynparza], rucaparib [Rubraca], niraparib [Zejula], and talazoparib [Talzenna]—are approved by the FDA to treat certain cancers bearing harmful variants in BRCA1 or BRCA2.

IS HRR TESTING AVAILABLE AT ALFA LAB?

Yes, by NGS technique in the genetic unit, too.

TEST INFO:

SAMPLE:3mL EDTA BLOOD
TAT:3 WKS
PRICE: 

REFERENCES:

  1. Howlader N, Noone AM, Krapcho M, et al. SEER Cancer Statistics Review, 1975–2017, National Cancer Institute. Bethesda, MD, https://seer.cancer.gov/csr/1975_2017/, based on November 2019 SEER data submission, posted to the SEER web site, April 2020.
  2. Kuchenbaecker KB, Hopper JL, Barnes DR, et al. Risks of breast, ovarian, and contralateral breast cancer for BRCA1 and BRCA2 mutation carriers. JAMA 2017; 317(23):2402–2416. [PubMed Abstract]
  3. Chen S, Parmigiani G. Meta-analysis of BRCA1 and BRCA2 penetrance. Journal of Clinical Oncology 2007; 25(11):1329–1333. [PubMed Abstract]
    https://www.mayoclinic.org
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21 Sep

The Basics on Hereditary Breast and Ovarian Cancer

Marcom Newsletter

If you are a woman with a family health history of breast or ovarian cancer, you may be more likely to get these cancers yourself. Collecting your family health history and sharing this information with your doctor can help you find out if you’re at higher risk. If so, you can take steps to lower your risk.

 

Each year, over 250,000 women in the United States learn that they have breast cancer and more than 20,000 find out that they have ovarian cancer. While most of these cancers happen by chance, some are hereditary, meaning that they are caused by genetic changes (called mutations) which are passed down in families.

Effective medical options are available for women at risk for hereditary breast and ovarian cancer that can make them less likely to get these cancers. Because of this, all women should learn about their family health history of breast and ovarian cancer to know if they could be at risk for hereditary breast and ovarian cancer.

The first step to find out if you are at risk is to collect your family health history of breast and ovarian cancer and share this information with your doctor. If your family health history shows that you could be at risk for hereditary breast and ovarian cancer, your doctor may refer you for genetic counseling and genetic testing.

The BRCA1 and BRCA2 Genes

The genes most commonly affected in hereditary breast and ovarian cancer are the breast cancer 1 (BRCA1) and breast cancer 2 (BRCA2) genes. About 3% of breast cancers (about 7,500 women per year) and 10% of ovarian cancers (about 2,000 women per year) result from inherited mutations in the BRCA1 and BRCA2 genes.

Normally, the BRCA1 and BRCA2 genes protect you from getting certain cancers. But some mutations in the BRCA1 and BRCA2 genes prevent them from working properly, so that if you inherit one of these mutations, you are more likely to get breast, ovarian, and other cancers. However, not everyone who inherits a BRCA1 or BRCA2 mutation will get breast or ovarian cancer.

Everyone has two copies of the BRCA1 and BRCA2 genes, one copy inherited from their mother and one from their father. Even if a person inherits a BRCA1 or BRCA2 mutation from one parent, they still have the normal copy of the BRCA1 or BRCA2 gene from the other parent. Cancer occurs when a second mutation happens that affects the normal copy of the gene, so that the person no longer has a BRCA1 or BRCA2 gene that works properly. Unlike the inherited BRCA1 or BRCA2 mutation, the second mutation would not be present throughout the person’s body, but would only be present in the cancer tissue.

Breast and ovarian cancer can also be caused by inherited mutations in genes other than BRCA1 and BRCA2. This means that in some families with a history of breast and ovarian cancer, family members will not have mutations in BRCA1 or BRCA2, but can have mutations in one of these other genes. These mutations might be identified through genetic testing using multigene panels, which look for mutations in several different genes at the same time.

You and your family members are more likely to have a BRCA1 or BRCA2 mutation if your family has a strong history of breast or ovarian cancer. Family members who inherit BRCA1 and BRCA2 mutations usually share the same mutation. If one of your family members has a known BRCA1 or BRCA2 mutation, other family members who get genetic testing should be checked for that mutation.

If you are concerned that you could have a BRCA1BRCA2, or other mutation related to breast and ovarian cancer, the first step is to collect your family health history of breast and ovarian cancer and share this information with your doctor.

Family Health History and the BRCA1 and BRCA2 genes

Breast and ovarian cancers that run in families can be caused by genetic changes, or mutations, most commonly in the BRCA1 and BRCA2 genes. You can use the My Family Health Portrait tool to collect your family health history of breast, ovarian, and other cancers and share this information with your doctor. Your personal and family health history information can help your doctor decide whether to refer you for genetic counseling to find out if genetic testing might be right for you. It’s important to know that not everyone who inherits a BRCA1 or BRCA2 mutation will get breast or ovarian cancer. Also, not all inherited forms of breast or ovarian cancer are due to mutations in the BRCA1 and BRCA2 genes.

Can men get breast cancer? Men and BRCA-related cancers

Although breast cancer is much more common in women, men with BRCA1 or BRCA2 mutations are more likely to get breast cancer than other men. In addition, men with BRCA mutations are more likely to get high grade prostate cancer. Both men and women with BRCA mutations are more likely to get pancreatic cancer.

You can inherit BRCA1, BRCA2, and other mutations from your mother or your father, so be sure to include information from both sides of your family when collecting your family health history. Include information on your parents, sisters, brothers, children, grandparents, aunts, uncles, nieces, nephews, and grandchildren. Include information about your ancestry, if you know it. BRCA1 and BRCA2 mutations are more common in people with Ashkenazi Jewish or Eastern European ancestry. Tell your doctor if you are concerned about your family health history, especially if you or your close relatives have or had any of the following:

  • Breast cancer, especially at a younger age (age 50 or younger)
  • Ovarian, peritoneal or fallopian tube cancer
  • Triple negative breast cancer (Triple negative cancers are a type of breast cancer that lack estrogen receptors, progesterone receptors, and human epidermal growth factor receptor 2)
  • Cancer in both breasts
  • Breast cancer in a male relative
  • Pancreatic cancer
  • Metastatic or high grade prostate cancer
  • Multiple cancers in the family, including breast, ovarian, high grade prostate, or pancreatic cancer
  • Ashkenazi or Eastern European Jewish ancestry
  • A known BRCA1 or BRCA2 mutation in the family
If Your Family Health History of Breast Cancer is Average or Moderate Risk

Most women with a family health history of breast cancer don’t need genetic counseling for breast and ovarian cancer. Most women have family health histories that mean they are at average risk. Some women with breast cancer in their families will have a moderate risk.

If your family health history of breast cancer is average or moderate risk, you probably won’t need genetic counseling and testing for hereditary breast and ovarian cancer. One exception is if you have a moderate risk family health history and Ashkenazi or Eastern European Jewish ancestry. BRCA1 and BRCA2 mutations are more common in women of Ashkenazi or Eastern European Jewish ancestry. This means that women of Ashkenazi or Eastern European Jewish ancestry are more likely to have a BRCA1 or BRCA2 mutation than women of other ancestries with similar family health histories. Thus, a family health history that would be considered moderate risk for most women might be considered strong risk for you because of your Ashkenazi or Eastern European Jewish ancestry.

Even if your doctor doesn’t recommend genetic testing and counseling, your family health history of breast cancer can affect when you start mammography screening. If you are a woman with a parent, sibling, or child with breast cancer, you are at higher risk for breast cancer. Based on current recommendationsexternal icon, you should consider talking to your doctor about starting mammography screening in your 40s.

If your Family Health History of Breast or Ovarian Cancer is Strong Risk

If you are a woman with a strong risk family health history, you are more likely to have a mutation in BRCA1 or BRCA2 than women with average or moderate risk family health histories. Thus, you are more likely to benefit from genetic counseling and testing for mutations in BRCA1 and BRCA2. To learn more about risk for breast or ovarian cancer based on family health history, see family health history risk categories.

If You Have a Personal History of Breast or Ovarian Cancer

If you have a personal history of ovarian, fallopian tube, or primary peritoneal cancer, some current guidelines recommend that you have genetic counseling and testing. If you have a personal history of breast cancer, genetic counseling and testing may or may not be recommended for you, depending on your age of diagnosis, type of breast cancer, presence of certain other cancers or cancer in both breasts, ancestry, and family health history of breast, ovarian, and other cancers.

Learn more about genetic counseling for hereditary breast and ovarian cancer.

The BRCA1 and BRCA2 genes

The breast cancer 1 (BRCA1) and breast cancer 2 (BRCA2) genes are the genes most commonly affected in hereditary breast and ovarian cancer. Normally, the BRCA1 and BRCA2 genes protect you from getting certain cancers. But certain mutations in the BRCA1 and BRCA2 genes prevent them from working properly, so that if you inherit one of these mutations, you are more likely to get breast, ovarian, and other cancers. You and your family members are more likely to have a BRCA1 or BRCA2 mutation if your family has a strong history of breast or ovarian cancer. Because BRCA1 and BRCA2 mutations are inherited, family members with BRCA1 or BRCA2 mutations usually share the same mutation

21 Sep

BRCA FAQs

Marcom Newsletter

The BRCA gene test is a blood test that uses DNA analysis to identify harmful changes (mutations) in either one of the two breast cancer susceptibility genes — BRCA1 and BRCA2.

A BRCA genetic test looks for changes, known as mutations, in genes called BRCA1 and BRCA2. A mutation in a BRCA1 or BRCA2 gene can cause cell damage that may lead to cancer

Women with a mutated BRCA gene have a higher risk of getting breast or ovarian cancer. Men with a mutated BRCA gene are at a higher risk for getting breast or prostate cancer. Not everyone who inherits a BRCA1 or BRCA2 mutation will get cancer.

HOW is BRCA genetic MUTATION tested?

BRCA gene mutation is tested by the next generation sequencing technique. A massively parallel sequencing technology that offers ultra-high throughput, scalability, and speed. The technology is used to determine the order of nucleotides in entire genomes or targeted regions of DNA or RNA.

WHY it's done?

Mutations in either breast cancer gene — BRCA1 or BRCA2 — significantly increase the risk of: Breast cancer, Male breast cancer, Ovarian cancer, Prostate cancer, Pancreatic cancer, Melanoma.

Test is useful for:

  • Evaluation for patients with a personal or family history suggestive of hereditary breast and ovarian cancer (HBOC) syndrome
  • Establishing a diagnosis of HBOC syndrome allowing for targeted cancer surveillance based on associated risks
  • Identifying variants within genes known to be associated with increased risk for HBOC syndrome allowing for predictive testing of at-risk family members
  • Therapeutic eligibility including poly adenosine diphosphate-ribose polymerase (PARP) inhibitors in select cancer types

So, test is done to have a plan for tomorrow if the patient is at risk, OR test is considered to be done for the aim of precision medicine for these cancers.

WHO should consider BRCA gene testing?

A candidate for genetic testing — is a patient who has:

    • A personal history of breast cancer diagnosed before age 45
    • A personal history of breast cancer diagnosed before age 50 and a second primary breast cancer, one or more relatives with breast cancer, or an unknown or limited family medical history
    • A personal history of triple negative breast cancer diagnosed at age 60 or younger
    • A personal history of two or more types of cancer
    • A personal history of ovarian cancer
    • A personal history of male breast cancer
    • A personal history of breast cancer and one or more relatives with breast cancer diagnosed before age 50, two or more relatives diagnosed with breast cancer at any age, one or more relatives with ovarian cancer, one or more relatives with male breast cancer, or two or more relatives with prostate cancer or pancreatic cancer
    • A personal history of prostate cancer or pancreatic cancer with two or more relatives with BRCA-associated cancers
  • A relative with a known BRCA1 or BRCA2 mutation

 

What other cancers are linked to harmful variants in BRCA1 and BRCA2?

  • Harmful variants in BRCA1 and BRCA2 increase the risk of several additional cancers. In women, these include fallopian tube cancer (6) and primary peritoneal cancer (7), both of which start in the same cells as the most common type of ovarian cancer. 
  • Men with BRCA2 variants, and to a lesser extent BRCA1 variants, are also at increased risk of breast cancer (8) and prostate cancer (9). Both men and women with harmful BRCA1 or BRCA2 variants are at increased risk of pancreatic cancer, although the risk increase is low (10).

In addition, certain variants in BRCA1 and BRCA2 can cause subtypes of Fanconi anemia, a rare syndrome that is associated with childhood solid tumors and development of acute myeloid leukemia (11). The mutations that cause these Fanconi anemia subtypes have a milder effect on protein function than the mutations that cause breast and ovarian cancer. Children who inherit one of these variants from each parent will develop Fanconi anemia.

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