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Understanding the Nexus of Aging and the Increase in Cancer Risk

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As Americas’ Greatest Generation continue to age studies are revealing that with the increase in the age of the population comes an increase in cancer risk. The nexus of age and cancer is supported by National Cancer Institute (NCI) research. The convergence of an overall aging population and a peak cancer incidence among those aged 65 to 74 will result in a significant rise in the number of people diagnosed with cancer. In addition, as people age the types of treatments and the eligibility and ability for older patients to participate in clinical trials diminishes.

According to the most recent statistical data from NCI’s Surveillance, Epidemiology, and End Results program, the median age of a cancer diagnosis is 66 years. The median age at diagnosis is 61 years for breast cancer, 68 years for colorectal cancer, 70 years for lung cancer, and 66 years for prostate cancer.

Healthcare professionals treating older cancer patients often discover other health conditions that may limit the use of specific therapies. Unless there is sufficient evidence that older patients can benefit from standard dosage of some therapies, clinicians can be reluctant to give older patients potentially beneficial treatments. This practice of less intensive therapy in aging patients is historically understandable; however, a growing field of geriatric oncologists now consider chronological age insufficient evidence for denying aggressive cancer therapy.

The solution to this aging dilemma, like the disease, is complex and we need to better understand how the biological underpinnings of aging affect the onset and trajectory of cancer. Reasons for this increase of cancer with aging can be contributed to the fact that living longer increases our exposure to things that have been shown to be contributing factors in determining cancer risk, such as exposure to sunlight, radiation, environmental toxins and noxious by-products of metabolism that increase with age. “Most aging cells develop genomic changes that make them more susceptible to the carcinogens in the environment,” says oncologist Lodovico Balducci, who studies and treats cancer in the elderly at the Moffitt Cancer Center in Tampa, Fla. In addition, the various immune defenses that keep our tissues healthy begin to break down with age.

Some of the more serious health conditions that are more common in adults over 65 that may impact the response to a cancer diagnosis include; high blood pressure, heart disease, lung disease, diabetes, kidney disease and arthritis. These co-existing conditions must be taken into account when designing cancer treatment protocols for older patients. For those older patients with cancer, knowing how treatments will be affected by these contributing factors is important to understanding how to respond to the process of therapy.

But progress towards better understanding is underway. A joint collaborative effort with the National Institute on Aging (NIA) and the Samuel Waxman Cancer Research Foundation is underway which will promote and support interdisciplinary research projects, sharing of resources, and development of new technologies and approaches to better understand how the physiological changes associated with aging affect cancer development, progression, and response to therapy. NCI is also committing more resources aimed to increase enrollment for older patients in clinical trials.

Cigarette Smoking a Leading Cause of Preventable Death in United States

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On the last Sunday in November 2017, television viewers and print media readers experienced a dramatic moment that continues into this year. The three major U.S. tobacco companies were ordered by the Federal Drug Administration (FDA) to issue the first in what will be a series of five “corrective statements” about their products. The corrective statements are the result of a federal racketeering lawsuit brought against the tobacco companies in 1999 by the Department of Justice. These court-ordered statements, which cover five different topic areas, explain in detail and in plain language the reality of the health harms inflicted by tobacco products upon users. Not that the harmful effects of cigarette smoking on a smoker’s health is anything new. Since the 1960’s, smokers and non-smokers alike have been bombarded with packaging warnings, public awareness campaigns and tobacco advertising bans. In case someone missed the multitude of discussions, the new statements should leave little doubt about the dangers of smoking tobacco.

Cigarette smoking is the leading cause of preventable death in the United States, causing nearly 30 percent of cancer deaths across the country. Of the more than 7,000 chemicals in tobacco smoke, at least 250 are known to be harmful, including hydrogen cyanide, carbon monoxide, and ammonia. Among those, at least 69 can cause cancer. While we are all aware that smoking causes cancer, smoking also harms nearly every bodily organ and organ system in the body and diminishes a person’s overall health. Among the cancers caused are: lung, esophagus, larynx, mouth, throat, kidney, bladder, liver, pancreas, stomach, cervix, colon, and rectum, as well as acute myeloid leukemia. Smoking also causes heart disease, stroke, aortic aneurysm, chronic obstructive pulmonary disease (COPD) (chronic bronchitis and emphysema), diabetes, osteoporosis, rheumatoid arthritis, age-related macular degeneration, and cataracts, and worsens asthma symptoms in adults. There is no safe level of smoking. Smoking even just one cigarette per day over a lifetime can cause smoking-related cancers and premature death.

Despite all the good reasons to quit, kicking the smoking habit is extremely difficult. Studies show that most smokers picked up the habit as a teenager. Cigarettes contain various amounts of Nicotine, the highly addictive drug primarily responsible for a person’s addiction to tobacco products, so quitting can be very difficult even for those already diagnosed with cancer. A study by American Cancer Society researchers found that about 1 in 10 cancer survivors still reports smoking about 9 years after a cancer diagnosis. Lead author Lee Westmaas, PhD, American Cancer Society Director of Tobacco Control Research, says, “Doctors and health care providers must continue to ask survivors about their smoking and provide resources, including medications and counseling, to help them quit.”

Cessation has immediate benefits to a smoker. Ex-smokers suffer from fewer illnesses, lower rates of pneumonia and are healthier overall than people who continue to smoke. Regardless of age, smokers can substantially reduce their risk of bad health. Smokers who quit before age 40 reduce their chance of dying prematurely from smoking-related diseases by about 90%, and the reduction for those who quit by age 45-54 is about two-thirds.

The National Cancer Institute (NCI) and other agencies and organizations can help smokers quit. For more information on organizations that can help you quit smoking, contact the NCI Smoking Quitline at 1–877–44U–QUIT (1–877–448–7848) for individualized counseling, printed information, and referrals to other sources.

Proper Screening and Lifestyle Changes Can Impact Cancer Risk

GCC February Blog Image 2 (640x427)When Cheryl and her husband of thirty-five years sold their business and headed off to retirement, they looked forward to having more time to dedicate to their three children and four grandchildren. Discovering a lump in her left breast while on vacation dramatically altered their retirement plans and her outlook on the future. With no family history of breast cancer, the results of her mammogram were stunning. Cheryl was diagnosed with Stage 2 triple negative ductal carcinoma breast cancer.

Cheryl is not unlike many thousands of women who receive an unexpected breast cancer diagnosis. While aware of the disease and its impact on the lives of those suffering from it, the thought of receiving the bad news is one stuck in the back of the mind, hopefully never to be realized.

In 2018, an estimated 266,120 new cases of invasive breast cancer are expected to be diagnosed in women in the U.S., along with 63,960 new cases of non-invasive breast cancer. Death rates have been decreasing since 1989, but approximately 40,920 women in the U.S. are expected to die in 2018 from breast cancer. About 85% of breast cancers occur in women who have no family history of breast cancer. The two most common risk factors are gender and growing older. While you can’t change some breast cancer risk factors there are some risk factors that you can control.

Personal behaviors, such as diet and exercise, and taking medicines that contain hormones can impact the chances of getting breast cancer. Drinking alcohol is clearly linked to an increased risk of breast cancer. The risk increases with the amount of alcohol consumed. Being overweight or obese increases the risk in women after menopause. The American Cancer Society recommends you stay at a healthy weight throughout your life and avoid excess weight gain by balancing your food intake with physical activity. Moderate and vigorous physical activity lowers risk for postmenopausal breast cancer. Vigorous physical activity lowers risk for pre-menopausal breast cancer, according to the recently released American Institute for Cancer Research “Breast Cancer Report.”

Early detection of breast cancer is the leading factor in the historic decline in cancer deaths. With screening mammography, treatment can be started earlier in the course of the disease, possibly before it has spread. Results from randomized clinical trials and other studies show that screening mammography can help reduce the number of deaths from breast cancer among women ages 40 to 74.

“The importance of love and life hits you square in the face and it takes a strong toll on your body and spirit,” says Cheryl of her diagnosis and treatment regimen.  Today she is more than one year cancer free.

For more than 25 years, Gettysburg Cancer Center has been committed to providing cancer care in a community-based setting close to home. The all-encompassing oncology and hematology programs provide a complete range of diagnosis, treatment, and follow-up care for all types of cancer.

Cancer Mortality Rates Continue to Decline in The U.S.

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Continuing a positive trend for the last two decades, cancer death rates declined again last year. According to annual statistics reported from the American Cancer Society, the cancer death rate for men and women combined has fallen 26% from its peak in 1991. This decline translates to nearly 2.4 million deaths averted during this time period.

“Cancer Statistics, 2018,” was published in the American Cancer Society’s journal CA: A Cancer Journal for Clinicians. The information is also available in a companion report, Cancer Facts and Figures 2018, and on a website, the Cancer Statistics Center. Although cancer death rates continue to decline, a total of 1,735,350 new cancer cases and 609,640 deaths from cancer are projected to occur in the US in 2018.

The decline is mostly due to steady reductions in smoking and advances in early detection and treatment. “This new report reiterates where cancer control efforts have worked, particularly the impact of tobacco control,” said Otis W. Brawley, M.D., chief medical officer of the American Cancer Society. “A decline in consumption of cigarettes is credited with being the most important factor in the drop in cancer death rates. Strikingly though, tobacco remains by far the leading cause of cancer deaths today, responsible for nearly 3 in 10 cancer deaths.”

Lung, breast, prostate, and colorectal cancers are leading the way in lower death rates. Lung cancer death rates declined 45% from 1990 to 2015 among men and 19% from 2002 to 2015 among women. Early detection of breast cancer resulted in a 39 percent decline in death rates in women for the same period. Prostate and colorectal cancer experienced a 52 percent reduction between 1970 and 2015, primarily due to increased routine screening.

According to the report, the reduction in death rates is not equal across all ethnic, racial and social economic classes of population. The rates of new cancer occurrence are generally highest among African Americans and lowest for Asian Americans.

Cancer remains the second most common cause of death among children ages 1 to 14 in the U.S. Leukemia accounts for almost a third of all childhood cancers, followed by brain and other nervous system tumors. While child death rates due to cancer have continuously declined since 1975, cancer incidence rates increased in children and adolescents by 0.6% per year for the same period.

The report also reveals that the lifetime probability of being diagnosed with cancer is 39.7% for men and 37.6% for women. The most common cancers to be diagnosed in men are prostate, lung, and colorectal cancers. The most common cancers to be diagnosed in women are breast, lung, and colorectal cancers. Breast cancer accounts for 30% of all new cancer diagnoses in women. Liver cancer incidence continues to increase rapidly in women, but appears to be stabilizing in men.

The good news is particularly rewarding to the professionals at Gettysburg Cancer Center where their understanding of cancer and how to treat it is constantly evolving toward the day when they have a cure. Testing new procedures for identifying and diagnosing certain diseases and conditions, finding ways to prevent certain diseases or conditions before they have a chance to develop, and exploring new methods of supportive care for patients with chronic diseases are at the core of the ongoing clinical trials at the Center.

Early Detection and Treatment May Prevent Cervical Cancer

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Each year, an estimated 12,820 women in the United States will be diagnosed with some form of cervical cancer. Approximately 4,200 women die from the disease each year, and more than a quarter of a million women will live with the disease each year.  While the numbers can be daunting, when detected early, 91 percent of those diagnosed with cervical cancer will survive.

Long-lasting infections with certain types of human papillomavirus (HPV) cause almost all cases of cervical cancer. Normal cells of the cervix can gradually develop pre-cancerous changes.  These cells do not suddenly change into cancer. Instead, the normal cells of the cervix first gradually develop pre-cancerous changes that may turn into cancer.

The two main types of cervical cancer are squamous cell carcinoma and adenocarcinoma and represent the vast majority of cancer of the cervix. Only some of the women with pre-cancers of the cervix will develop cancer, and it may take several years for cervical pre-cancer to change to cervical cancer. For most women, pre-cancerous cells will go away without any treatment, but others will have their pre-cancers turn into invasive cancers.

Detecting and treating all cervical pre-cancers may prevent true cervical cancers. The Pap test (or Pap smear) and the HPV test may prevent cervical cancer by detecting pre-cancers before they can turn into an invasive form of cancer. During the past several decades, screening has reduced deaths from cervical cancer by finding the cancer early and treating it or preventing it from developing.

For women it can be very hard not to be exposed to HPV. Passed from one person to another during skin-to-skin contact with an infected area of the body, HPV can be spread rapidly and easily.

Available vaccines can protect against infection with the HPV subtypes most commonly linked to cancer. These vaccines help prevent pre-cancers and cancers of the cervix. The vaccines require a series of injections and may cause some mild side effects. The most common are is short-term redness, swelling, and soreness at the injection site.

The American Cancer Society recommends vaccinations for girls and boys beginning at age 11 or 12. HPV vaccination is also recommended for females 13 to 26 and males between the ages of 13 and 21. Vaccination at older ages is less effective in lowering cancer risk. No vaccine provides complete protection against all cancer-causing types of HPV, so routine cervical cancer screening is still recommended.

For more than 25 years, Gettysburg Cancer Center has been committed to providing cancer care in a community-based setting close to home. A leader in Oncology care across the region since 1989, Gettysburg Cancer Center’s cancer team provides screening and treatment options to women across York and Adams County.

For the latest information on early detection and treatments for cervical cancer, contact the Gettysburg Cancer Center.

Finding New Solutions in the Fight Against Cancer Through Research

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While the most overt cancer research news usually comes from efforts to derail the progression of the deadly disease, research into the development of alternative pathways to finding an ultimate solution to cancer often go unnoticed or fail to receive the same level of notice among the public. Advances are being made in new techniques to improve the effectiveness of traditional treatment protocols, the utilization of non-traditional or culturally specific treatment methods or identifying dietary or physical behaviors that may lead to increasing or decreasing the risk factors associated with cancer.

An innovative new treatment for an aggressive form of blood cancer has been approved by the U.S. Food and Drug Administration. According to Mounzer Agha, Director of the Mario Lemiuex Center for Blood Cancers at Hillman Cancer Center, the cell based therapy produced a 51 percent remission rate among patients with a strain of lymphoma that didn’t respond well to traditional chemotherapy or radiation. “There was no treatment that could possibly put them into remission, so to get a 50 percent remission rate with this kind of treatment is a major accomplishment,” Agha said. This is a breakthrough for patients and physicians, according to Agha. The treatment is customized to each individual’s immune system. “This type of therapy represents a paradigm shift in the treatment of blood cancer and it will completely change the landscape of how we approach and treat blood cancers in the future,” he said.

In oriental medicine, treatment using acupuncture needles has been commonly practiced for thousands of years in the fields of treating musculoskeletal disorders, pain relief, and addiction relief. Recently, it has emerged as a promising treatment for brain diseases, gastrointestinal disorders, nausea, and vomiting, and studies are under way to use acupuncture to treat severe diseases. A research team lead by Professor Su-Il In, through joint research with Dr. Eunjoo Kim of Companion Diagnostics & Medical Technology Research Group at DGIST and Professor Bong-Hyo Lee’s research team from the College of Oriental Medicine at Daegu Haany University, has published a study showing that the molecular biologic indicators related to anticancer effects are changed only by the treatment of acupuncture. The research was published in the online edition of Scientific Reports, the sister journal of the globally renowned academic journal Nature. Professor Su-Il In said, “This research, which combines nanotechnology and oriental medicine technology, is a scientific study that shows the possibility of using acupuncture as a method to treat severe diseases such as cancer.”

For decades researchers have known that dietary issues can often be a factor in the incidence of cancer. In a paper published in the journal Nature Communications, researchers from VIB, a life sciences research institute, and Vrije University in Brussels found that a compound in sugar stimulates aggressive cancer cells and helps them to grow faster. Led by Johan Thevelein, a microbiologist with VIB, this research builds on what scientists already knew about the Warburg effect, where cancer cells rapidly break down sugar for energy and to fuel for further growth. While the research identifies a link between sugar and the aggressiveness of cancer cells, it doesn’t mean that eliminating sugar from one’s diet will eliminate the likelihood of getting cancer. “We have no evidence of this effect happens in healthy people,” Thevelein says, but “Reducing sugar intake during cancer treatment might help the system to overcome the cancer and it might facilitate the action of chemotherapy because it’s difficult to kill the cancer cells if they’re always activated [by sugar],” he says. “Providing sugar to cancer cells carries a greater risk of stimulating their aggressiveness.”

In Queensland, Australia scientist Georgia Chenevix-Trench has uncovered an additional 72 genetic markers that can indicate an increased likelihood that a patient may be more susceptible to getting cancer in their lifetime.  The discovery may lead to the development of a more definitive predictive test for breast cancer in women.

While most of us hope for quick and all-encompassing cure for cancer, the complexity and the infinite variety of cancer types indicate that a single solution is more than unlikely. The ultimate solutions will come from a combination a multitude of treatments and advances in early prediction and detection.

Gettysburg Cancer Center is actively involved with a consortium of doctors offering clinical trials for patients seeking alternative solutions and therapies.  For more information on the current clinical trials available, visit http://gettysburgcancercenter.com/patients/clinical-trials/.

Gene Therapy. A New Frontier in Medical Innovation

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Cancer is a disease that is experienced by young and old and by every economic and social segment of the world populace. At some point in everyone’s life, cancer will affect us individually, a member of our family or one or many of our friends and acquaintances. The American Cancer Society projects there will be 1,688,780 new cancer patients and 600,920 deaths due to cancer in 2017, for a disease that does not discriminate by race or national origin.

Cancer is where abnormal cell growths form in the body and interfere with normal, healthy body functions. Not new to the world stage, cancer dates back to ancient times. Today, after millennials of research and discovery, new treatments for a vast array of cancer types are being studied, many with promising results.  One such new treatment called chimeric antigen receptor T-cell therapy (CAR-T) involves taking samples of T-immune cells called T-cells from a patient, genetically engineering them, and putting them back in to fight the cancer. Co-developed with the drug giant Novartis, the therapy, CAR-T, genetically alters a patient’s own immune cells to target and destroy cancer cells.

“We’re entering a new frontier in medical innovation with the ability to reprogram a patient’s own cells to attack a deadly cancer,” said FDA Commissioner Dr. Scott Gottlieb. The process takes about 22 days and begins with the extraction of a patients T cells, exposing them to the vector which genetically transforms them. They’re then expanded and frozen for shipment back to the patient. During the out-of-body processing of the cells, the patient receives chemotherapy to wipe out any remaining T cells to avoid interference with the, soon to be, newly implanted cells.

“This is a major advance, and is ushering in a new era,” said Malcolm Smith, a pediatric oncologist at the National Institutes of Health. The treatment appears to strengthen a patient’s immune system allowing their own body to fight the cancer. The treatment is recommended for cancer patients who have run out of options for traditional therapy. The new therapy is only currently available for patients 25 years or younger. Thus far, 83 percent of patients are experiencing positive survival results.

While overtly touting the success of gene therapy, researchers are tempering their enthusiasm after experiencing some significant life threatening side effects in 47 percent of the studies participants. These side effects have resulted in brain swelling and deaths, casting a shadow over the field. Seizures and hallucinations were also relatively common, but temporary. Though concerning, the side effects have been successfully managed with drugs. Quality control and how to standardize the potency and purity of living cells extracted from each patient are also a concern. Because of the risks, the treatment is only currently available at 20 US hospitals. The individualized nature and relatively small patient population both drive up the cost of the treatment for now.

“This is a big paradigm shift, using this living drug,” says Dr. Kevin Curran, a pediatric oncologist at Memorial Sloan Kettering Cancer Center that will soon be offering the treatment. “It will provide a lot of hope. This is the beginning.”

“The approval of CAR T-cell therapy for pediatric leukemia marks an important shift in the blood cancer treatment paradigm,” says the American Society of Hematology. “We now have proof that it is possible to eradicate cancer by harnessing the power of a patient’s own immune system. This is a potentially curative therapy in patients whose leukemia is unresponsive to other treatments and represents the latest milestone in the shift away from chemotherapy toward precision medicine. Today’s approval is the result of over a decade of hematology research, including research funded by the National Institutions of Health (NIH).”

The Best in Cancer Care Across the Community

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Healthcare and access to quality healthcare is a critical issue for individuals whether healthy or recently diagnosed with a life-threatening illness.  Most patients have experienced a private medical practice being merged into a large healthcare system and often don’t understand how that will impact their care.

While large specialized health centers can promise to offer the most advanced techniques, facilities and methods, they are usually located in large urban centers, often miles and driving hours from the patient’s home, requiring long and physically taxing commutes for frequent treatments. Although staffed with caring and competent professionals these mega centers can often feel overly clinical and crowded, giving the patient a sense of being just another number among many.

The best and most advanced treatment and care is becoming less centralized, allowing for advanced specialized care to be available within the patient’s own community, providing ease of care access and reducing the personal stresses often accompanying cancer therapy.

Gettysburg Cancer Center (GCC) has been a leader in Oncology Care in the Adams County region since 1989. For more than 25 years, the highly regarded and vastly experienced medical specialists have been committed to providing cancer care in a community-based setting close to their patient’s home. The all-encompassing oncology and hematology programs provide a complete range of diagnosis, treatment, and follow-up care in an environment that recognizes the importance of treating not only the disease but the individual person behind the disease.

With Medical Oncology, Radiation Oncology, Diagnostic Imaging, access to the latest clinical trials as well as an onsite laboratory and pharmacy, Gettysburg Cancer Center truly offers comprehensive cancer care. Their compassionate and experienced staff takes pride in providing the best possible care and personal assistance to their patients and their patient’s families. Dr. Satish Shah, Principle Medical Oncologist and Hematologist at GCC says, “Our mission is to provide individualized treatment, utilizing the best technical approach.  We focus on providing the best treatment in the right environment so that our patients can focus on getting better.”

To learn more about how GCC’s is helping their cancer patients, click on http://gettysburgcancercenter.com/about-us/testimonials/.

October is Breast Cancer Awareness Month Around the World

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Billed as the most common cancer in women, breast cancer is impacting the lives of one in eight women in the United States. The second leading cause of cancer death in women after lung cancer, breast cancer most commonly occurs in women 50 years of age and older. Breast cancer is caused by a genetic mutation in the DNA of breast cancer cells but how or why this damage occurs isn’t fully understood. Some mutations may develop randomly over time, while others are inherited or may be the result of environmental exposures or lifestyle factors. More than 3.5 million women are living in the U.S. with a history of breast cancer.

Early detection remains the most important factor in the successful treatment and survivability of breast cancer. Caught early when known treatments have the best chance of success, breast cancer is survivable. Successful treatments include surgery, chemotherapy, radiation and immunotherapy. “Risk factors include being female, obesity, a lack of physical exercise, drinking alcohol, hormone replacement therapy during menopause, ionizing radiation, early age at first menstruation, having children late or not at all, older age, and family history.” With the clear lack of knowledge for its causes, early detection of the disease remains the cornerstone of breast cancer control.

National Breast Cancer Awareness Month (NBCAM) was founded in 1985 by the American cancer Society and what is now known as AstraZeneca Pharmaceuticals. Held each October, the event is an attempt to increase the awareness of breast cancer and to aid the solicitation of funds for research and treatment of the disease. NBCAM unites cancer organizations around the world in providing information and support for those suffering from the cancer. Breast Cancer Awareness is represented by the display of pink ribbons, first introduced by the Susan G. Komen Foundation at its New York City race for breast cancer survivors in 1991.

The effort by so many to bring worldwide attention to the disease appears to be having a positive impact. A new report from the American Cancer Society finds that death rates from breast cancer in the United States have dropped 39% between 1989 and 2015. The overall declines in breast cancer death rates have been attributed to both improvements in treatment and early detection by mammograms. The American Cancer Society recommends women find breast cancer earlier when treatments are more likely to be effective. While there is a lack or definite agreement on when and how often screening is most effective, The National Comprehensive Cancer Network recommends annual screening beginning at age 40.

The professional team of oncologists and staff at Gettysburg Cancer Center supports the efforts of Breast Cancer Awareness Month in its world-wide goal to provide the latest information, research, treatment options and support for those who suffer from breast cancer.

Cancer Research: Not Always an Exact Science

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It is the question most frequently asked of doctors by patients who have just received a diagnosis of cancer, “Why me?” It is usually asked by those who thought they were living a healthy lifestyle and had little expectation of receiving the devastating news. Others may have been aware of near or distant family members who had a form of cancer.

While much progress has been made in the effort to understand multiple forms of cancer and the development of effective treatments, the answer to why some people get the disease and others do not remains predominately an elusive mystery. Cancer is known to be caused by changes, or mutations, to the DNA within cells that can cause the cell to stop its normal function and may allow a cell to become cancerous. Some faulty genes that increase the risk of cancer, known as inherited cancer genes, and genes that increase the risk of cancer called cancer susceptibility genes can be passed on from parent to child. But most of genetic mutations appear to occur after birth and aren’t inherited.

Environmental influences such as smoking, radiation, viruses, persistent exposure to cancer-causing chemicals (carcinogens), obesity, hormones, chronic inflammation and a lack of exercise has been proven to provide a more definitive answer to the “Why Me?”. Even with this accepted knowledge, some people who share one or more of these environment factors appear to avoid a cancer diagnosis altogether.

Why do some cancers spread and kill patients, while many remain docile?  Seeking the answer to this question has researchers redirecting their approach for answers from why some get cancer to why so many do not. Ruslan Medzhitov, an Immunobiologist at Yale, says “You can inject the same virus into different hosts and get vastly different responses.”

Diagnosis and treatment becomes art and science. Researchers continue to develop and identify predictive tests based on gene mutations and patterns of gene regulation.  These tests assist in targeting the right therapies and treatments for each patient.  Research related to the micro-environments in which the cancer lives and spreads will provide beneficial to the prevention and early detection of cancer.

The field of oncology remains focused on a holistic approach factoring in the environment, genetic factors, and physiology, in the hopes of finding a concrete, science based answer to the “Why Me?”

To learn more about the clinical trials and research that Gettysburg Cancer Center offers its patients, click here.