Cancer is one of the most harmful and deadly diseases to humankind. The number of those who contract and fall victim to cancer continues to rise, though in comparison, the number of treatments to counteract this disease also rises. In today’s society a lot is put into finding a cure for cancer. Many organizations raise funds and awareness for certain types of cancers and there are labs around the world focused on revealing the secrets that cancer keeps. Even through all this effort, the key to cracking this fatal disease has still not been unlocked. However, compared to years ago, the treatments for cancers have been improved and new ideas on treatments keep emerging. Scientific research specifically plays a role in this as it is what leads …show more content…
This idea has been changed and added to several times throughout the history of cancer research. Some of these steps include finding the first human oncogene, coding a cancer cell’s DNA and tracing cancer through a family’s tree. These discoveries have allowed doctors to study cancer more clearly and figure out some of the key functions of cancer. These include the revelation that cancer does not spread evenly from a central point. Doctors, from this, discovered how to remove a tumor without taking as many healthy cells with it and tracing family trees. These all provide easier ways to treat and know about cancer. All of these advancements would not have improved as they did without scientific research. In fact without running experiments and tests of certain treatments people would still be dying from inefficient medical treatments. This is why scientific research is so …show more content…
Specifically I would like to analyze how a malignant cell differs from a healthy, normal cell in the body. Also I would design and bring to life a treatment that specifically targets the malignant cells and not the surrounding healthy cells. By identifying how cancer differs, I would target the specific mutation that causes the cancer. This way the treatments for cancer would not be as harmful to the patient and would reduce the number of symptoms. If I were to be a scientific researcher this is what I would do, now the reasons as to why I would do this research are many.
I have been tormented by this disease at a younger age and know firsthand that cancer is one of the worst illnesses in society. To rid the world of this plague would not only save many of others’ lives, but it will keep me going in my life’s pursuits. Overall the reason that I want to study this is to increase the wellbeing of cancer patients more efficiently both now and in the future. Even if I were not able to find a cure, I could still find some way or some treatment to improve the lives of patients now. One day my research will lead to finding a prevention or even a cure for this horrid
...0’s cancer mortality rates have dramatically decreased from 10% to over 80% for leukemia. Overall decline in mortality for cancer was nearly 54% from 1978 to 2008 (National Cancer Institute, 2011). Decrease in mortality rates are due to improvements in cancer treatments. Recent advances in treatments are due to aggressive cancer therapies and collaboration of findings from clinical trials. More than 80 percent of patients are expected to be long term cancer survivors (National Cancer Institute, 2011).
Breast cancer has always been a common thread among the women of my family; especially on my mother’s side, including my Grandmother whom passed away due to this disease before I could ever meet her. More so, my mother was gravely affected by this disease early in my life. Thankfully, she was able to stop the cancer from spreading; the doctors were able to find the cancerous cells and remove them. Due to this grave, but powerful impact on my life, I have been determined to becoming a biomedical scientist to assist on the research and treatment of this deadly disease. Although this acts as my principal driver, to study in this field, I have also been intrigued and driven by the idea that I could aid lower setting regions to receive health benefits using studies in translational medicine and
Because of advancements in technology and funding survival rates have increased in each patient and quality of life due to better chemotherapy and radio therapy drugs are helping millions of survivors round the world to lead a generally normal life without the risk of the cancer returning.
I have chosen to write about the constellation Cancer (The Crab). I chose Cancer because it is one of only a handful of constellations that I am actually able to identify in the night sky. Cancer is one of the twelve Zodiac constellations; people whose birthdays fall between June 21st and July 22nd have Cancer as their sign. Cancer is the Latin word for crab, and despite the fact that the constellation looks more like a lobster then a crab, it is still referred to as a crab. The constellation is visible from the northern hemisphere from late winter to early spring.
Cancer has been an active concern in our society for the past couple decades, since we truly discovered the nature of cancer and the potency it brings along with it. However, it was not until the mid-20th century that scientists were beginning to truly understand the origin of cancer. Scientists dating back all the way to the Renaissance, when they first began performing autopsies to learn more about the human body and form, noticed abnormalities but it never clicked that it was something much worse than it seemed. Research has continued since then, and it has continued to thrive even to this day. When James Watson and Francis Crick discovered DNA and it’s chemical structure in 1962, it opened up doors that even they could not expect. With the understanding of DNA and how it affected the way we look at life, came the beginning of the understanding of mutated DNA (which is a cause of the growth of cancerous cells). In this past century, researching scientists discovered that cancer is linked with the DNA that resides in a cell’s nucleus. By ways of damage to the cells via chemicals or radiation, or even introduction of a new DNA, the cancerous cells begin to form and duplicate. We are learning more and more about cancer and how to fight it, but we still have much more to learn.
I have elected to transcribe my proposal argument on issues regarding cancer chemoprevention. I selected this topic because reasonably minute devotion has been given to cancer chemoprevention research in ethical writings, particularly in relation to the huge quantity of moral studies in cancer treatment exploration. Cancer chemoprevention trials test the ability and care of medicinal agents in averting cancer before its manifestation. I believe that phase III chemoprevention issues can be less prevalent by simply ensuring enhanced communication and etiquette between researchers and investigators.
The leading cause of death in America is lung cancer. Lung cancer is ranked top 10 fatal cancers in the United States. There are many types of ways to get lung cancer. There is radon gas it occurs outdoors naturally. Then there is second hand smoke that comes from other people smoking. People are even getting lung cancer from cancer causing agents, this happens from carcinogens. You can also get it from air pollution indoors and outdoors. Also there are gene-mutations that form cancer causing cells. Then there is the one everyone blamed lung cancer is smoking.
...y may be another area of research that may enhance anti-tumor activity. Creating better antibodies, like rituximab and others we are able to better target the tumor cell. There are many targets on our bodies immune cells and by being able to locate them specifically and boost the immune system in order for it to work better than it already can proves to be beneficial and harnessing this power can lead to a dramatic impact on the way we treat cancer. Maintaining and preserving patients quality of life and looking for lifelong cure is what scientists are looking for. Improving the efficacy of these immunotherapy treatments can lead to significant breakthroughs including longterm remission and being able to treat patients with cancer that is hard to treat. I look forward and can't wait to see the advances that will be made in this field or research in the near future.
Ostrow, N. (2011). Screening for lung cancer with chest x-ray doesn’t cut deaths, study finds. Retrieved from http://www.bloomberg.com/news/2011-10-26/screening-for-lung-cancer-with-chest-x-rays-doesn-t-cut-deaths.html.
We now can find what specific cancer a patient has and where, and give them a variety of treatment options such as surgery, chemotherapy, radiation, and several other types of treatment including experimental drugs. But there is no 100% guarantee that these treatments work. Ancient physicians and surgeons knew that cancer usually came back after it was removed surgically and recognized that there was no cure once the cancer had spread, and thought that intervention may be more harmful that no treatment at all. Some people today still think of cancer as incurable and wait until the last minute to go to the doctor. Galen was a 2nd- century Greek doctor that claimed a breast cancer tumor could be completely removed if it was caught at an early enough
During the 15th century, scientists started grasping a better understanding of the human body. Giovanni Morgangi was the first to perform autopsies on patients to relate to their illnesses along with the finding of cancer after death. This laid the foundation of scientific oncology, the study of cancer. Over the years, scientists have realized that the disease they thought they distinguished was very dissimilar to the diseases they currently study today. There are over 200 types of cancer in the world today. Scientists continue to study every day to be able to come closer to finding a cure finding for this awful disease.
The Phase I trial will be discussed here as it pertains to the topic at hand. The typical treatment for cervical cancer if surgery is not a viable option – like if the cancer has spread, then called locally advanced cervical cancer – is chemotherapy and radiation treatment at the same time. This phase I clinical trial is simply looking to add ipilimumab to this regimen, but once the chemo/radiation has been completed (LACC article). Chemo and radiation destroy tumor cells, which causes tumor-associated antigens to be released. Once released, these antigens are exogenous (outside the cell) and will be presented to helper T cells to initiate an immune response.
In our experiments we went to look how cells function and what are their features. In finding this information, I know have a better understanding of how cells function and their specific features.
... new ways to treat other diseases like the cancer genes that soon could very well be stopped before they even start. The changes it could bring are amazing there is really no reason to stop learning more about helping to heal the human body.
Medicine is one area that constantly looks to use prior knowledge to discover new things. Take the HeLa cells for instance. The initial discover of these cells occurred in 1951. These cells came from a black woman named Henrietta Lacks. She was diagnosed with cervical cancer. He doctor took a segment of her tumor and sent it to Dr. George Otto Grey, who was the first scientist to successfully grow human cells in a culture. These cells would go on to be used in research for cloning, the polio vaccine, gene mapping and in virto fertilization. These cells were important to science because no scientist had an endless supply of cells ...