Cancer Research

Cancer research is basic research into cancer in order to identify causes and develop strategies for prevention, diagnosis, treatments and cure.

Cancer research ranges from epidemiology, molecular bioscience (bench research) to the performance of clinical trials to evaluate and compare applications of the various cancer treatment. These applications include surgery, radiation therapy, chemotherapy and hormone therapy, and combined treatment modalities such as chemo-radiotherapy. Starting in the mid-1990s, the emphasis in clinical cancer research shifted towards therapies derived from biotechnology research, such as immunotherapy and gene therapy.
Areas of research

 
Cause

This type of research involves many different disciplines including genetics, diet, environmental factors (ie chemical carcinogens). In regard to investigation of causes and potential targets for therapy, the route used starts with data obtained from clinical observations, enters basic research, and, once convincing and independently confirmed results are obtained, proceeds with clinical research, involving appropriately designed trials on consenting human subjects, with aim to test safety and efficiency of the therapeutic intervention method. Important part of basic research is characterization of the potential function of mechanisms of carcinogenesis, in regard to the types of genetic and epigenetic changes that are associated with cancer development. The mouse is often used as a mammalian model for manipulation of the function of genes that play a role in tumor formation, while basic aspects of tumor initiation, such as mutagenesis, are assayed on cultures of bacteria and mammalian cells. Please help improve this section by expanding it. Further information might be found on the talk page. (June 2008)


 
Oncogenomics/Genes involved in cancer

The goal of oncogenomics is to identify new oncogenes or tumor suppressor genes that may provide new insights into cancer diagnosis, predicting clinical outcome of cancers, and new targets for cancer therapies. As the Cancer Genome Project stated in a 2004 review article, "a central aim of cancer research has been to identify the mutated genes that are causally implicated in oncogenesis (cancer genes)."[1]

Several hereditary factors can increase the chance of cancer-causing mutations, including the activation of oncogenes or the inhibition of tumor suppressor genes. The functions of various onco- and tumor suppressor genes can be disrupted at different stages of tumor progression. Mutations in such genes can be used to classify the malignancy of a tumor.

In later stages, tumors can develop a resistance to cancer treatment. The identification of oncogenes and tumor suppressor genes is important to understand tumor progression and treatment success. The role of a given gene in cancer progression may vary tremendously, depending on the stage and type of cancer involved[2].

Genes and protein products that have been identified by at least two independent publications as being involved in cancer are:
ABI1, ABL2, ACSL6, AF1Q, AF5Q31 (also known as MCEF), AKT1, ARNT, ASPSCR1, ATF1, ATIC, BCL10, BFHD, BIRC3, BMPR1A, BTG1, CBFA2T1, CBFA2T3, CBFB, CCND1, CDC2, CDK4, CHIC2, CHN1, COPEB, COX6C, CTNNB1, CYLD, DDB2, DDIT3, DEK, Eif4a, EIF4A2, EPS15, ERCC2, ERCC3, ERCC5, ERG, ETV4, ETV6, EWSR1, EXT1, EXT2, FANCC, FANCG, FGFR1OP, FGFR3, FH, FIP1L1, FUS, GAS7, GATA1, GMPS, GOLGA5, GPC (gene), GPHN, HIST1H4I, HRAS, HSPCA, IL21R, IIRF4, KRAS2, LASP1, LCP1, LHFP, LMO2, LYL1, MADH4, MLF1, MLH1, MLLT3, MLLT6, MNAT1, MSF, MSH2, MSN, MUTYH, MYC, NCOA4, NF2, NPM1, NRAS, PAX8, PCBD, PDGFB, PIM1, PLK2, PNUTL1, POU2F1, PPARG, PRCC, PRKACB, PRKAR1A, PTEN, PTPN11, RABEP1, RAD51L1, RAP1GDS1, RARA, RB1, RET, RHOH, RPL22, SBDS, SDHB, SEPTIN6, SET, SH3GL1, SS18L1, SSX1, SSX2, SSX4, STAT3, TAF15, TCF12, TCL1A, TFE3, TFEB, TFG, TFPT, TFRC, TNFRSF6, TP53, TPM3, TPM4, TRIP11, VHL, WAS, WT1, ZNF198, ZNF278, ZNF384, ZNFN1A1 rociowh:E

 
Treatment

Current topics of cancer treatment research include:
Chemotherapy
Radiation therapy
Boosting the immune system
Gene therapy[3]
Anti-cancer vaccine — based on exposing some cancer cells extracted from a tumour to UV rays for 24 hrs then injecting them back into the organism, this approach has already been successful on rats.
Targeted therapy
Photodynamic therapy

Specific treatment research topics

 
Dichloroacetate

In January 2007 researchers of the University of Alberta reported preliminary results of dichloroacetate (DCA) causing regression in several cancers in vitro, including lung, breast and brain tumors.[4] Since the compound DCA itself cannot be patented it could be an inexpensive alternative to other treatments, depending of course on whether the method of using DCA in the treatment of cancer is patentable. Clinical use of DCA will of course require further public/private investment for clinical trials.[5] The initial research was funded by the Canadian Institutes of Health Research.[6]
 
Prevention

 
Vaccines
(see HPV vaccine)
Canine Melanoma Vaccine[7][1]
Oncophage [2]

Animal Models

The Newsweek magazine published an article criticising the use of lab rats on cancer research because even though researchers frequently manage to cure lab mice transplanted with human tumors, few of those achievements are relevant to humanity.[9] Oncologist Paul Bunn, from the International Association for the Study of Lung Cancer[10] said: "We put a human tumor under the mouse's skin, and that microenvironment doesn't reflect a person's—the blood vessels, inflammatory cells or cells of the immune system".[9] Fran Visco founder of the National Breast Cancer Coalition completed:"We cure cancer in animals all the time, but not in people."[9]

Another problem, according to the magazine, is that human tumors transplanted into lab rats "almost never metastasize", [9] and yet metastatic cancers are responsible for 90% of all cancer deaths.[9] Robert Weinberg of the MIT recognizes that the inexistence of good animal models limits the rate of progress of cancer research.[9]

 
Funding

Some methods, like Dichloroacetate, cannot be patented and thus would not garner the investment interest towards research from the pharmaceutical industry.[5]

 
Distributed computing

One can share computer time for distributed cancer research projects like Help Conquer Cancer[11]. World Community Grid also had a project called Help Defeat Cancer. A related project is Stanford University's Folding@Home project [3].

 
Organizations
American Association for Cancer Research
Bath Cancer Research Unit
Cancer Research Foundation
Cancer Research Institute
Cancer Research UK
Cancer Research (journal)
Childhood Cancer Research Group
Dana-Farber/Harvard Cancer Center
Gateway for Cancer Research
Grassroots Cancer Research Foundation
Institute of Cancer Research
International Agency for Research on Cancer
International Cancer Genome Consortium
Lance Armstrong Foundation
Ludwig Institute for Cancer Research
United Devices Cancer Research Project
National Foundation for Cancer Research
NCI-designated Cancer Center
Memorial Sloan-Kettering Cancer Center
E-Foundation for Cancer Research
Friends of Cancer Research
Walker Cancer Research Institute
American Society of Clinical Oncology
Australian Cancer Research Foundation

Cancer Treatment Information

Treatment

Cancer can be treated by surgery, chemotherapy, radiation therapy, immunotherapy, monoclonal antibody therapy or other methods. The choice of therapy depends upon the location and grade of the tumor and the stage of the disease, as well as the general state of the patient (performance status). A number of experimental cancer treatments are also under development.

Complete removal of the cancer without damage to the rest of the body is the goal of treatment. Sometimes this can be accomplished by surgery, but the propensity of cancers to invade adjacent tissue or to spread to distant sites by microscopic metastasis often limits its effectiveness. The effectiveness of chemotherapy is often limited by toxicity to other tissues in the body. Radiation can also cause damage to normal tissue.

Because "cancer" refers to a class of diseases, it is unlikely that there will ever be a single "cure for cancer" any more than there will be a single treatment for all infectious diseases.

Surgery

In theory, non-hematological cancers can be cured if entirely removed by surgery,[citation needed] but this is not always possible. When the cancer has metastasized to other sites in the body prior to surgery, complete surgical excision is usually impossible. In the Halstedian model of cancer progression, tumors grow locally, then spread to the lymph nodes, then to the rest of the body. This has given rise to the popularity of local-only treatments such as surgery for small cancers. Even small localized tumors are increasingly recognized as possessing metastatic potential.

Examples of surgical procedures for cancer include mastectomy for breast cancer and prostatectomy for prostate cancer. The goal of the surgery can be either the removal of only the tumor, or the entire organ. A single cancer cell is invisible to the naked eye but can regrow into a new tumor, a process called recurrence. For this reason, the pathologist will examine the surgical specimen to determine if a margin of healthy tissue is present, thus decreasing the chance that microscopic cancer cells are left in the patient.

In addition to removal of the primary tumor, surgery is often necessary for staging, e.g. determining the extent of the disease and whether it has metastasized to regional lymph nodes. Staging is a major determinant of prognosis and of the need for adjuvant therapy.

Occasionally, surgery is necessary to control symptoms, such as spinal cord compression or bowel obstruction. This is referred to as palliative treatment.

Radiation therapy
Main article: Radiation therapy

Radiation therapy (also called radiotherapy, X-ray therapy, or irradiation) is the use of ionizing radiation to kill cancer cells and shrink tumors. Radiation therapy can be administered externally via external beam radiotherapy (EBRT) or internally via brachytherapy. The effects of radiation therapy are localised and confined to the region being treated. Radiation therapy injures or destroys cells in the area being treated (the "target tissue") by damaging their genetic material, making it impossible for these cells to continue to grow and divide. Although radiation damages both cancer cells and normal cells, most normal cells can recover from the effects of radiation and function properly. The goal of radiation therapy is to damage as many cancer cells as possible, while limiting harm to nearby healthy tissue. Hence, it is given in many fractions, allowing healthy tissue to recover between fractions.

Radiation therapy may be used to treat almost every type of solid tumor, including cancers of the brain, breast, cervix, larynx, lung, pancreas, prostate, skin, stomach, uterus, or soft tissue sarcomas. Radiation is also used to treat leukemia and lymphoma. Radiation dose to each site depends on a number of factors, including the radiosensitivity of each cancer type and whether there are tissues and organs nearby that may be damaged by radiation. Thus, as with every form of treatment, radiation therapy is not without its side effects.

Chemotherapy
Main article: Chemotherapy

Chemotherapy is the treatment of cancer with drugs ("anticancer drugs") that can destroy cancer cells. In current usage, the term "chemotherapy" usually refers to cytotoxic drugs which affect rapidly dividing cells in general, in contrast with targeted therapy (see below). Chemotherapy drugs interfere with cell division in various possible ways, e.g. with the duplication of DNA or the separation of newly formed chromosomes. Most forms of chemotherapy target all rapidly dividing cells and are not specific to cancer cells, although some degree of specificity may come from the inability of many cancer cells to repair DNA damage, while normal cells generally can. Hence, chemotherapy has the potential to harm healthy tissue, especially those tissues that have a high replacement rate (e.g. intestinal lining). These cells usually repair themselves after chemotherapy.

Because some drugs work better together than alone, two or more drugs are often given at the same time. This is called "combination chemotherapy"; most chemotherapy regimens are given in a combination.

The treatment of some leukaemias and lymphomas requires the use of high-dose chemotherapy, and total body irradiation (TBI). This treatment ablates the bone marrow, and hence the body's ability to recover and repopulate the blood. For this reason, bone marrow, or peripheral blood stem cell harvesting is carried out before the ablative part of the therapy, to enable "rescue" after the treatment has been given. This is known as autologous stem cell transplantation. Alternatively, hematopoietic stem cells may be transplanted from a matched unrelated donor (MUD).

Targeted therapies
Main article: Targeted therapy

Targeted therapy, which first became available in the late 1990s, has had a significant impact in the treatment of some types of cancer, and is currently a very active research area. This constitutes the use of agents specific for the deregulated proteins of cancer cells. Small molecule targeted therapy drugs are generally inhibitors of enzymatic domains on mutated, overexpressed, or otherwise critical proteins within the cancer cell. Prominent examples are the tyrosine kinase inhibitors imatinib (Gleevec/Glivec) and gefitinib (Iressa).

Monoclonal antibody therapy is another strategy in which the therapeutic agent is an antibody which specifically binds to a protein on the surface of the cancer cells. Examples include the anti-HER2/neu antibody trastuzumab (Herceptin) used in breast cancer, and the anti-CD20 antibody rituximab, used in a variety of B-cell malignancies.

Targeted therapy can also involve small peptides as "homing devices" which can bind to cell surface receptors or affected extracellular matrix surrounding the tumor. Radionuclides which are attached to these peptides (e.g. RGDs) eventually kill the cancer cell if the nuclide decays in the vicinity of the cell. Especially oligo- or multimers of these binding motifs are of great interest, since this can lead to enhanced tumor specificity and avidity.

Photodynamic therapy (PDT) is a ternary treatment for cancer involving a photosensitizer, tissue oxygen, and light (often using lasers). PDT can be used as treatment for basal cell carcinoma (BCC) or lung cancer; PDT can also be useful in removing traces of malignant tissue after surgical removal of large tumors.[78]

Immunotherapy
Main article: Cancer immunotherapy

Cancer immunotherapy refers to a diverse set of therapeutic strategies designed to induce the patient's own immune system to fight the tumor. Contemporary methods for generating an immune response against tumours include intravesical BCG immunotherapy for superficial bladder cancer, and use of interferons and other cytokines to induce an immune response in renal cell carcinoma and melanoma patients. Vaccines to generate specific immune responses are the subject of intensive research for a number of tumours, notably malignant melanoma and renal cell carcinoma. Sipuleucel-T is a vaccine-like strategy in late clinical trials for prostate cancer in which dendritic cells from the patient are loaded with prostatic acid phosphatase peptides to induce a specific immune response against prostate-derived cells.

Allogeneic hematopoietic stem cell transplantation ("bone marrow transplantation" from a genetically non-identical donor) can be considered a form of immunotherapy, since the donor's immune cells will often attack the tumor in a phenomenon known as graft-versus-tumor effect. For this reason, allogeneic HSCT leads to a higher cure rate than autologous transplantation for several cancer types, although the side effects are also more severe.

Hormonal therapy
Main article: Hormonal therapy (oncology)

The growth of some cancers can be inhibited by providing or blocking certain hormones. Common examples of hormone-sensitive tumors include certain types of breast and prostate cancers. Removing or blocking estrogen or testosterone is often an important additional treatment. In certain cancers, administration of hormone agonists, such as progestogens may be therapeutically beneficial.

Angiogenesis inhibitors
Main article: Angiogenesis inhibitor

Angiogenesis inhibitors prevent the extensive growth of blood vessels (angiogenesis) that tumors require to survive. Some, such as bevacizumab, have been approved and are in clinical use. One of the main problems with anti-angiogenesis drugs is that many factors stimulate blood vessel growth in cells normal or cancerous. Anti-angiogenesis drugs only target one factor, so the other factors continue to stimulate blood vessel growth. Other problems include route of administration, maintenance of stability and activity and targeting at the tumor vasculature.[79]

Symptom control

Although the control of the symptoms of cancer is not typically thought of as a treatment directed at the cancer, it is an important determinant of the quality of life of cancer patients, and plays an important role in the decision whether the patient is able to undergo other treatments. Although doctors generally have the therapeutic skills to reduce pain, nausea, vomiting, diarrhea, hemorrhage and other common problems in cancer patients, the multidisciplinary specialty of palliative care has arisen specifically in response to the symptom control needs of this group of patients.

Pain medication, such as morphine and oxycodone, and antiemetics, drugs to suppress nausea and vomiting, are very commonly used in patients with cancer-related symptoms. Improved antiemetics such as ondansetron and analogues, as well as aprepitant have made aggressive treatments much more feasible in cancer patients.

Chronic pain due to cancer is almost always associated with continuing tissue damage due to the disease process or the treatment (i.e. surgery, radiation, chemotherapy). Although there is always a role for environmental factors and affective disturbances in the genesis of pain behaviors, these are not usually the predominant etiologic factors in patients with cancer pain. Furthermore, many patients with severe pain associated with cancer are nearing the end of their lives and palliative therapies are required. Issues such as social stigma of using opioids, work and functional status, and health care consumption are not likely to be important in the overall case management. Hence, the typical strategy for cancer pain management is to get the patient as comfortable as possible using opioids and other medications, surgery, and physical measures. Doctors have been reluctant to prescribe narcotics for pain in terminal cancer patients, for fear of contributing to addiction or suppressing respiratory function. The palliative care movement, a more recent offshoot of the hospice movement, has engendered more widespread support for preemptive pain treatment for cancer patients.

Fatigue is a very common problem for cancer patients, and has only recently become important enough for oncologists to suggest treatment, even though it plays a significant role in many patients' quality of life.

Treatment trials
Main article: Experimental cancer treatment

Clinical trials, also called research studies, test new treatments in people with cancer. The goal of this research is to find better ways to treat cancer and help cancer patients. Clinical trials test many types of treatment such as new drugs, new approaches to surgery or radiation therapy, new combinations of treatments, or new methods such as gene therapy.

A clinical trial is one of the final stages of a long and careful cancer research process. The search for new treatments begins in the laboratory, where scientists first develop and test new ideas. If an approach seems promising, the next step may be testing a treatment in animals to see how it affects cancer in a living being and whether it has harmful effects. Of course, treatments that work well in the lab or in animals do not always work well in people. Studies are done with cancer patients to find out whether promising treatments are safe and effective.

Patients who take part may be helped personally by the treatment they receive. They get up-to-date care from cancer experts, and they receive either a new treatment being tested or the best available standard treatment for their cancer. At the same time, new treatments also may have unknown risks, but if a new treatment proves effective or more effective than standard treatment, study patients who receive it may be among the first to benefit. There is no guarantee that a new treatment being tested or a standard treatment will produce good results. In children with cancer, a survey of trials found that those enrolled in trials were on average not more likely to do better or worse than those on standard treatment; this confirms that success or failure of an experimental treatment cannot be predicted.[80]

Complementary and alternative
Main article: Unproven cancer therapy

Complementary and alternative medicine (CAM) treatments are the diverse group of medical and health care systems, practices, and products that are not part of conventional medicine.[81] "Complementary medicine" refers to methods and substances used along with conventional medicine, while "alternative medicine" refers to compounds used instead of conventional medicine.[82] CAM use is common among people with cancer; a 2000 study found that 69% of cancer patients had used at least one CAM therapy as part of their cancer treatment.[83] Most complementary and alternative medicines for cancer have not been rigorously studied or tested. Some alternative treatments which have been investigated and shown to be ineffective continue to be marketed and promoted.[84]

Prognosis

Cancer has a reputation for being a deadly disease. While this certainly applies to certain particular types, the truths behind the historical connotations of cancer are increasingly being overturned by advances in medical care. Some types of cancer have a prognosis that is substantially better than nonmalignant diseases such as heart failure and stroke.

Progressive and disseminated malignant disease has a substantial impact on a cancer patient's quality of life, and many cancer treatments (such as chemotherapy) may have severe side-effects. In the advanced stages of cancer, many patients need extensive care, affecting family members and friends. Palliative care solutions may include permanent or "respite" hospice nursing.

Emotional impact

Many local organizations offer a variety of practical and support services to people with cancer. Support can take the form of support groups, counseling, advice, financial assistance, transportation to and from treatment, films or information about cancer. Neighborhood organizations, local health care providers, or area hospitals may have resources or services available.

Counseling can provide emotional support to cancer patients and help them better understand their illness. Different types of counseling include individual, group, family, peer counseling, bereavement, patient-to-patient, and sexuality.

Many governmental and charitable organizations have been established to help patients cope with cancer. These organizations often are involved in cancer prevention, cancer treatment, and cancer research.

Epidemiology
Main article: Epidemiology of cancer

Cancer is responsible for about 25% of all deaths in the U.S., and is a major public health problem in many parts of the world. In the U.S., lung cancer causes about 30% of cancer deaths but only about 15% of new cancer cases; the most commonly occurring cancer in men is prostate cancer (about 25% of new cases) and in women is breast cancer (also about 25%). Cancer can also occur in young children and adolescents, but it is rare (about 150 cases per million in the U.S.), with leukemia being the most common.[85] In the first year of life the incidence is about 230 cases per million in the U.S., with the most common being neuroblastoma.[86]

Over a third of cancer deaths worldwide are due to potentially modifiable risk factors, which are headed by tobacco smoking, alcohol use, and diets low in fruit and vegetables. In developed countries overweight and obesity is also a leading cause of cancer, and in low-and-middle-income countries sexual transmission of human papillomavirus is a leading risk factor for cervical cancer.[35]

Cancer History

Today, the Greek term carcinoma is the medical term for a malignant tumor derived from epithelial cells. It is Celsus who translated carcinos into the Latin cancer, also meaning crab. Galen used "oncos" to describe all tumours, the root for the modern word oncology.[87]

Hippocrates described several kinds of cancers. He called benign tumours oncos, Greek for swelling, and malignant tumours carcinos, Greek for crab or crayfish. This name comes from the appearance of the cut surface of a solid malignant tumour, with the veins stretched on all sides as the animal the crab has its feet, whence it derives its name[88] (see picture). He later added the suffix -oma, Greek for swelling, giving the name carcinoma. Since it was against Greek tradition to open the body, Hippocrates only described and made drawings of outwardly visible tumors on the skin, nose, and breasts. Treatment was based on the humor theory of four bodily fluids (black and yellow bile, blood, and phlegm). According to the patient's humor, treatment consisted of diet, blood-letting, and/or laxatives. Through the centuries it was discovered that cancer could occur anywhere in the body, but humor-theory based treatment remained popular until the 19th century with the discovery of cells.

Our oldest description and surgical treatment of cancer was discovered in Egypt and dates back to approximately 1600 B.C. The Papyrus describes 8 cases of ulcers of the breast that were treated by cauterization, with a tool called "the fire drill." The writing says about the disease, "There is no treatment."[89]

Another very early surgical treatment for cancer was described in the 1020s by Avicenna (Ibn Sina) in The Canon of Medicine. He stated that the excision should be radical and that all diseased tissue should be removed, which included the use of amputation or the removal of veins running in the direction of the tumor. He also recommended the use of cauterization for the area being treated if necessary.[90]

In the 16th and 17th centuries, it became more acceptable for doctors to dissect bodies to discover the cause of death. The German professor Wilhelm Fabry believed that breast cancer was caused by a milk clot in a mammary duct. The Dutch professor Francois de la Boe Sylvius, a follower of Descartes, believed that all disease was the outcome of chemical processes, and that acidic lymph fluid was the cause of cancer. His contemporary Nicolaes Tulp believed that cancer was a poison that slowly spreads, and concluded that it was contagious.[91]

The first cause of cancer was identified by British surgeon Percivall Pott, who discovered in 1775 that cancer of the scrotum was a common disease among chimney sweeps. The work of other individual physicians led to various insights, but when physicians started working together they could make firmer conclusions.

With the widespread use of the microscope in the 18th century, it was discovered that the 'cancer poison' spread from the primary tumor through the lymph nodes to other sites ("metastasis"). This view of the disease was first formulated by the English surgeon Campbell De Morgan between 1871 and 1874.[92] The use of surgery to treat cancer had poor results due to problems with hygiene. The renowned Scottish surgeon Alexander Monro saw only 2 breast tumor patients out of 60 surviving surgery for two years. In the 19th century, asepsis improved surgical hygiene and as the survival statistics went up, surgical removal of the tumor became the primary treatment for cancer. With the exception of William Coley who in the late 1800s felt that the rate of cure after surgery had been higher before asepsis (and who injected bacteria into tumors with mixed results), cancer treatment became dependent on the individual art of the surgeon at removing a tumor. During the same period, the idea that the body was made up of various tissues, that in turn were made up of millions of cells, laid rest the humor-theories about chemical imbalances in the body. The age of cellular pathology was born.

When Marie Curie and Pierre Curie discovered radiation at the end of the 19th century, they stumbled upon the first effective non-surgical cancer treatment. With radiation also came the first signs of multi-disciplinary approaches to cancer treatment. The surgeon was no longer operating in isolation, but worked together with hospital radiologists to help patients. The complications in communication this brought, along with the necessity of the patient's treatment in a hospital facility rather than at home, also created a parallel process of compiling patient data into hospital files, which in turn led to the first statistical patient studies.

A founding paper of cancer epidemiology was the work of Janet Lane-Claypon, who published a comparative study in 1926 of 500 breast cancer cases and 500 control patients of the same background and lifestyle for the British Ministry of Health. Her ground-breaking work on cancer epidemiology was carried on by Richard Doll and Austin Bradford Hill, who published "Lung Cancer and Other Causes of Death In Relation to Smoking. A Second Report on the Mortality of British Doctors" followed in 1956 (otherwise known as the British doctors study). Richard Doll left the London Medical Research Center (MRC), to start the Oxford unit for Cancer epidemiology in 1968. With the use of computers, the unit was the first to compile large amounts of cancer data. Modern epidemiological methods are closely linked to current concepts of disease and public health policy. Over the past 50 years, great efforts have been spent on gathering data across medical practise, hospital, provincial, state, and even country boundaries, as a way to study the interdependence of environmental and cultural factors on cancer incidence.

Cancer patient treatment and studies were restricted to individual physicians' practices until World War II, when medical research centers discovered that there were large international differences in disease incidence. This insight drove national public health bodies to make it possible to compile health data across practises and hospitals, a process that many countries do today. The Japanese medical community observed that the bone marrow of victims of the atomic bombings of Hiroshima and Nagasaki was completely destroyed. They concluded that diseased bone marrow could also be destroyed with radiation, and this led to the discovery of bone marrow transplants for leukemia. Since World War II, trends in cancer treatment are to improve on a micro-level the existing treatment methods, standardize them, and globalize them as a way to find cures through epidemiology and international partnerships.

Glossary Of Cancer

Further information: List of oncology-related terms

The following closely related terms may be used to designate abnormal growths:
Tumor or tumour: originally, it meant any abnormal swelling, lump or mass. In current English, however, the word tumor has become synonymous with neoplasm, specifically solid neoplasm. Note that some neoplasms, such as leukemia, do not form tumors.
Neoplasm: the scientific term to describe an abnormal proliferation of genetically altered cells. Neoplasms can be benign or malignant:
Malignant neoplasm or malignant tumor: synonymous with cancer.
Benign neoplasm or benign tumor: a tumor (solid neoplasm) that stops growing by itself, does not invade other tissues and does not form metastases.
Invasive tumor is another synonym of cancer. The name refers to invasion of surrounding tissues.
Pre-malignancy, pre-cancer or non-invasive tumor: A neoplasm that is not invasive but has the potential to progress to cancer (become invasive) if left untreated. These lesions are, in order of increasing potential for cancer, atypia, dysplasia and carcinoma in situ.

The following terms can be used to describe a cancer:
Screening: a test done on healthy people to detect tumors before they become apparent. A mammogram is a screening test.
Diagnosis: the confirmation of the cancerous nature of a lump. This usually requires a biopsy or removal of the tumor by surgery, followed by examination by a pathologist.
Surgical excision: the removal of a tumor by a surgeon.
Surgical margins: the evaluation by a pathologist of the edges of the tissue removed by the surgeon to determine if the tumor was removed completely ("negative margins") or if tumor was left behind ("positive margins").
Grade: a number (usually on a scale of 3) established by a pathologist to describe the degree of resemblance of the tumor to the surrounding benign tissue.
Stage: a number (usually on a scale of 4) established by the oncologist to describe the degree of invasion of the body by the tumor.
Recurrence: new tumors that appear at the site of the original tumor after surgery.
Metastasis: new tumors that appear far from the original tumor.
Transformation: the concept that a low-grade tumor transforms to a high-grade tumor over time. Example: Richter's transformation.
Chemotherapy: treatment with drugs.
Radiation therapy: treatment with radiations.
Adjuvant therapy: treatment, either chemotherapy or radiation therapy, given after surgery to kill the remaining cancer cells.
Prognosis: the probability of cure after the therapy. It is usually expressed as a probability of survival five years after diagnosis. Alternatively, it can be expressed as the number of years when 50% of the patients are still alive. Both numbers are derived from statistics accumulated with hundreds of similar patients to give a Kaplan-Meier curve.

About Cancer

Cancer (medical term: malignant neoplasm) is a class of diseases in which a group of cells display uncontrolled growth (division beyond the normal limits), invasion (intrusion on and destruction of adjacent tissues), and sometimes metastasis (spread to other locations in the body via lymph or blood). These three malignant properties of cancers differentiate them from benign tumors, which are self-limited, do not invade or metastasize. Most cancers form a tumor but some, like leukemia, do not. The branch of medicine concerned with the study, diagnosis, treatment, and prevention of cancer is oncology.

Cancer may affect people at all ages, even fetuses, but the risk for most varieties increases with age.[1] Cancer causes about 13% of all deaths.[2] According to the American Cancer Society, 7.6 million people died from cancer in the world during 2007.[3] Cancers can affect all animals.

Nearly all cancers are caused by abnormalities in the genetic material of the transformed cells[citation needed]. These abnormalities may be due to the effects of carcinogens, such as tobacco smoke, radiation, chemicals, or infectious agents. Other cancer-promoting genetic abnormalities may be randomly acquired through errors in DNA replication, or are inherited, and thus present in all cells from birth. The heritability of cancers are usually affected by complex interactions between carcinogens and the host's genome. New aspects of the genetics of cancer pathogenesis, such as DNA methylation, and microRNAs are increasingly recognized as important.

Genetic abnormalities found in cancer typically affect two general classes of genes. Cancer-promoting oncogenes are typically activated in cancer cells, giving those cells new properties, such as hyperactive growth and division, protection against programmed cell death, loss of respect for normal tissue boundaries, and the ability to become established in diverse tissue environments. Tumor suppressor genes are then inactivated in cancer cells, resulting in the loss of normal functions in those cells, such as accurate DNA replication, control over the cell cycle, orientation and adhesion within tissues, and interaction with protective cells of the immune system.

Diagnosis usually requires the histologic examination of a tissue biopsy specimen by a pathologist, although the initial indication of malignancy can be symptoms or radiographic imaging abnormalities. Most cancers can be treated and some cured, depending on the specific type, location, and stage. Once diagnosed, cancer is usually treated with a combination of surgery, chemotherapy and radiotherapy. As research develops, treatments are becoming more specific for different varieties of cancer. There has been significant progress in the development of targeted therapy drugs that act specifically on detectable molecular abnormalities in certain tumors, and which minimize damage to normal cells. The prognosis of cancer patients is most influenced by the type of cancer, as well as the stage, or extent of the disease. In addition, histologic grading and the presence of specific molecular markers can also be useful in establishing prognosis, as well as in determining individual treatments.

Cancer Cures In The Herbal Pharmacy

Curing cancer with natural products - a case for shamans and herb women? Not at all, for many chemotherapies to fight cancer applied in modern medicine are natural products or were developed on the basis of natural substances. Thus, taxanes used in prostate and breast cancer treatment are made from yew trees. The popular periwinkle plant, which grows along the ground of many front yards, is the source of vinca alkaloids that are effective, for example, against malignant lymphomas. The modern anti-cancer drugs topotecan and irinotecan are derived from a constituent of the Chinese Happy Tree. 

Looking for new compounds, doctors and scientists are increasingly focusing on substances from plants used in traditional medicine. About three quarters of the natural pharmaceutical compounds commonly used today are derived from plants of the traditional medicine of the people in various parts of the world. The chances of finding new substances with interesting working profiles in traditional medicinal plants are better than in common-or-garden botany. 

In his search for active ingredients, Professor Dr. Thomas Efferth of the DKFZ has been concentrating on herbal remedies from traditional Chinese medicine with particularly well documented application range. Working together with colleagues in Mainz and Düsseldorf, Germany, Graz, Austria and Kunming in China, he launched a systematic compound search in 76 Chinese medicinal plants that are believed to be effective against malignant tumors and other growths. First results of this study have now been published. 

Extracts from 18 of the plants under investigation were found to substantially suppress the growth of a cancer cell line in the culture dish. "With this success rate of about 24 percent, we are way above the results that could be expected from searching through large chemical substance libraries," Thomas Efferth explains. 

The scientists proceeded to chemically separate, step by step, all active extracts, tracing the active component after each separation step by cell tests. The chemical structure of the compounds is analyzed using nuclear magnetic resonance and mass spectroscopy. "We are combining natural substance research with advanced analytical and molecular-biological methods", Efferth explains. "Plant constituents that seem particularly promising are immediately subjected to further tests." Such constituents include, for example, substances derived from the Rangoon Creeper, an ornamental plant with red flowers, or from Red-Root Sage. The latter contains three ingredients with powerful anti-tumor activity. The substances were found to suppress the growth of a specific tumor cell line that is particularly resistant to many commonly used cytotoxins due to overproduction of a transport protein in the cell wall. In contrast, a whole range of standard anti-cancer drugs fail to be effective against this cell. 

We can expect to find many interesting, yet unknown working mechanisms among the chemically highly diverse natural substances. Currently, we are aligning the effectiveness of the substances on 60 different cancer cell lines with the gene activity profiles of these cells. Thus, we can determine the exact gene products that are the cellular targets of our compounds. Thereby, it may be possible to discover whole new Achilles' heels of the cancer cell," said Efferth describing the next steps. 

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Article adapted by Medical News Today from original press release.
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Thomas Efferth, Stefan Kahl, Kerstin Paulus, Michael Adams, Rolf Rauh, Herbert Boechzelt, Xiaojiang Hao, Bernd Kaina and Rudolf Bauer: Phytochemistry and Pharmacogenomics of Natural products derived from traditional Chinese medica with activity against tumor cells. Molecular Cancer Therapy 7 (1) 2008, page 152 

The task of the Deutsches Krebsforschungszentrum in Heidelberg (German Cancer Research Center, DKFZ) is to systematically investigate the mechanisms of cancer development and to identify cancer risk factors. The results of this basic research are expected to lead to new approaches in the prevention, diagnosis and treatment of cancer. The Center is financed to 90 percent by the Federal Ministry of Education and Research and to 10 percent by the State of Baden-Wuerttemberg. It is a member of the Helmholtz Association of National Research Centers (Helmholtz-Gemeinschaft Deutscher Forschungszentren e.V.). 

Source: Dr. Sibylle Kohlstädt 
Helmholtz Association of German Research Centres

Cancer is the uncontrolled growth of abnormal cells in the body. Cancerous cells are also called malignant cells.

Causes

Cells are the building blocks of living things. Cancer grows out of normal cells in the body. Normal cells multiply when the body needs them, and die when the body doesn't need them. Cancer appears to occur when the growth of cells in the body is out of control and cells divide too quickly. It can also occur when cells “forget” how to die.

There are many different kinds of cancers. Cancer can develop in almost any organ or tissue, such as the lung, colon, breast, skin, bones, or nerve tissue.

There are many causes of cancers, including:
Benzene and other chemicals
Certain poisonous mushrooms and a type of poison that can grow on peanut plants (aflatoxins)
Certain viruses
Radiation
Sunlight
Tobacco

However, the cause of many cancers remains unknown.

The most common cause of cancer-related death is lung cancer.

The three most common cancers in men in the United States are:
Prostate cancer 
Lung cancer 
Colon cancer 

In women in the U.S., the three most common cancers are:
Breast cancer 
Colon cancer
Lung cancer

Some cancers are more common in certain parts of the world. For example, in Japan, there are many cases of gastric cancer, but in the U.S. this type of cancer is pretty rare. Differences in diet may play a role.

Some other types of cancers include:
Brain cancer 
Cervical cancer 
Hodgkin's lymphoma 
Kidney cancer 
Leukemia
Liver cancer 
Non-Hodgkin's lymphoma 
Ovarian cancer 
Skin cancer 
Testicular cancer 
Thyroid cancer 
Uterine cancer 

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Symptoms

Symptoms of cancer depend on the type and location of the tumor. For example, lung cancer can cause coughing, shortness of breath, or chest pain. Colon cancer often causes diarrhea, constipation, and blood in the stool.

Some cancers may not have any symptoms at all. In certain cancers, such as gallbladder cancer, symptoms often do not start until the disease has reached an advanced stage.

The following symptoms can occur with most cancers:
Chills 
Fatigue 
Fever 
Loss of appetite 
Malaise 
Night sweats
Weight loss 

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Exams and Tests

Like symptoms, the signs of cancer vary based on the type and location of the tumor. Common tests include the following:
Biopsy of the tumor
Blood chemistries
Bone marrow biopsy (for lymphoma or leukemia)
Chest x-ray 
Complete blood count (CBC)
CT scan 

Most cancers are diagnosed by biopsy. Depending on the location of the tumor, the biopsy may be a simple procedure or a serious operation. Most patients with cancer have CT scans to determine the exact location and size of the tumor or tumors.

A cancer diagnosis is difficult to cope with. It is important, however, that you discuss the type, size, and location of the cancer with your doctor when you are diagnosed. You also will want to ask about treatment options, along with their benefits and risks.

It's a good idea to have someone with you at the doctor's office to help you get through the diagnosis. If you have trouble asking questions after hearing about your diagnosis, the person you bring with you can ask them for you.

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Treatment

Treatment also varies based on the type of cancer and its stage. The stage of a cancer refers to how much it has grown and whether the tumor has spread from its original location.
If the cancer is confined to one location and has not spread, the most common goals for treatment are surgery and cure. This is often the case with skin cancers, as well as cancers of the lung, breast, and colon.
If the tumor has spread to local lymph nodes only, sometimes these can also be removed.
If surgery cannot remove all of the cancer, the options for treatment include radiation, chemotherapy, or both. Some cancers require a combination of surgery, radiation, and chemotherapy.

Although treatment for cancer can be difficult, there are many ways to keep up your strength.

If you have radiation treatment, know that:
Radiation treatment is painless.
Treatment is usually scheduled every weekday.
You should allow 30 minutes for each treatment session, although the treatment itself usually takes only a few minutes.
You should get plenty of rest and eat a well-balanced diet during the course of your radiation therapy.
Skin in the treated area may become sensitive and easily irritated.
Side effects of radiation treatment are usually temporary. They vary depending on the area of the body that is being treated.

If you are going through chemotherapy, you should eat right. Chemotherapy causes your immune system to weaken, so you should avoid people with colds or the flu. You should also get plenty of rest, and don't feel as though you have to accomplish tasks all at once.

It will help you to talk with family, friends, or a support group about your feelings. Work with your health care providers throughout your treatment. Helping yourself can make you feel more in control.

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Support Groups

A cancer diagnosis often causes a lot of anxiety and can affect your entire quality of life. Several support groups for cancer patients can help you cope.

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Outlook (Prognosis)

The outlook depends on the type of cancer. Even among people with one type of cancer, the outcome varies depending on the stage of the tumor when they are diagnosed.

Some cancers can be cured. Some cancers that are not curable can still be treated well. And some patients can live for many years with their cancer. Other tumors are quickly life-threatening.

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Possible Complications

One complication is that the cancer may spread. Other complications vary with the type and stage of the tumor.

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When to Contact a Medical Professional

Contact your health care provider if you develop symptoms of cancer.

Prevention

One of the best ways to prevent cancer is to not smoke or chew tobacco. Many cancers can be prevented by avoiding risk factors such as excessive exposure to sunlight and heavy drinking.

Cancer screenings, such as mammography and breast examination for breast cancer and colonoscopy for colon cancer, may help catch these cancers at their early stages when they are most treatable. Some people at high risk for developing certain cancers can take medication to reduce their risk.

What Is cancer

If someone asked you to define cancer, could you do it? We all have heard the word "cancer" many times, however very few people understand the disease and how it develops. 
What is Cancer?
Cancer is a complex group of over 100 different types of cancer. Cancer can affect just about every organ in the human body.

How Does Cancer Develop?

The organs in our body are made up of cells. Cells divide and multiply as the body needs them. When these cells continue multiplying when the body doesn't need them, the result is a mass or growth, also called a tumor.

These growths are consider either benign or malignant. Benign is considered non-cancerous and malignant is cancerous.

Benign tumors rarely are life threatening and do not spread to other parts of the body. They can often be removed.

How Does Cancer Spread to Other Parts of the Body?
The cells within malignant tumors have the ability to invade neighboring tissues and organs, thus spreading the disease. It is also possible for cancerous cells to break free from the tumor and enter the blood stream, and spreading the disease to other organs. This process of spreading is called metastasis.

When cancer has metastasized and has affected other areas of the body, the disease is still referred to the organ of origination. For instance, if cervical cancer spreads to the lungs, it is still called cervical cancer, not lung cancer.

Although most cancers develop this way, diseases like leukemia do not. They affect the blood and the organs that form blood and then invade nearby tissues.

All cancers are different, and require different treatment. What may be effective for prostate cancer, probably will not be for bladder cancer. Diagnosing cancer will vary as well, depending on the organ affected. 
Fast Facts About Cancer
One in three people will develop cancer.
One in four people will die of cancer.
In 2005, about 1.4 million new cases of cancer were diagnosed.
More than 1500 Americans died each day of cancer this year. 
Over 1,000,000 cases of skin cancer will be diagnosed this year. 
Cancer is the leading cause of death among Americans under the age of 85.

Myspace and Facebook Cause Cancer?

That's what British researcher, Dr. Aric Sigman claims. His study suggests that using social networking sites like Myspace and Facebook could cause harm to our bodies, resulting in diseases like cancer. Dr. Sigman believes that the lack of face-to-face social interaction can indirectly cause our genes to alter, ultimately causing disease. He also notes the psychological consequences of excessive amount of socializing on the internet. 

It hasn't taken long for internet psychologists and other medical professionals to tear apart Sigman's research with claims that the data he used in his analysis is outdated and doesn't even include studies concerning internet social sites, like Facebook and Myspace.

Mesothelioma Overview

Mesothelioma Cancer

Mesothelioma is a rare type of cancer that develops in the mesothelial cells that lines many organs and body cavities. The mesothelium (composed of mesothelial cells) is the membrane that lines three of the body's cavities, and depending on what cavity it lines it is given a specific name: the thoracic cavity (pleura), abdominal cavity (peritoneum), and the heart sac (pericardium).

Mesothelioma is a rare cancer that can develop in the mesothelium of the thoracic cavity in the lungs.

The mesothelium that covers the internal organs is called the visceral mesothelium, while the layer that covers the body wall is called parietal mesothelium.

Mesothelium tissue also surrounds the male internal reproductive organs and covers the internal reproductive organs in women. 

Mesothelioma is an aggressive cancer of the mesothelium, in which cells of the mesothelium become abnormal and divide uncontrollably and without order. They can invade and damage nearby tissues and organs. Most cases of mesothelioma begin in the thoracic cavity (pleura) or the abdominal cavity (peritoneum). 

Approximately 2,000 to 3,000 cases of mesothelioma are diagnosed each year in the United States, comprising around 3 percent of all cancer diagnoses. This cancer occurs more frequently in men than in women, about four times more frequent. All forms of mesothelioma, except for benign mesothelioma, are invariably fatal. The prognosis for mesothelioma is almost always poor and most studies report a median survival of less than one year, but the prognosis really depends on how early it is diagnosed and aggressively it is treated. 
Causes of Mesothelioma

Mesothelioma is caused by asbestos exposure. Asbestos is a naturally-occurring fibrous substance that was widely used in the twentieth century in a number of different industries. Popular because of its durability, fire resistance, and insulating properties, it was regularly used in the manufacture of several thousand different products, up until the time that asbestos warnings were issued in the mid-1970s. It is estimated that approximately 80 to 90 percent of mesothelioma cases are caused by asbestos exposure.

The exact way in which asbestos causes mesothelioma is not well understood though doctors and researchers have put forth many hypotheses. What is apparent, however, is that any length of exposure to asbestos can be hazardous and may result in the development of asbestos-related diseases later in life.
Types of Mesothelioma

There are five known types of mesothelioma. Four of these are malignant cancers, and one is a benign condition.

Once asbestos is inhaled it can effect many of the bodys different organs including the throat, lungs, stomach, heart and testicles.

Pleural Mesothelioma: This type of mesothelioma develops in the lining of the lungs, known as the pleura. It is the most common form of malignant mesothelioma, with around 70 percent of cases being pleural in origin. 

Peritoneal Mesothelioma: This form of mesothelioma develops in the lining of the abdominal cavity, known as the peritoneal membrane. Approximately 25 percent of mesotheliomas are of this type.

Pericardial Mesothelioma: This form of mesothelioma develops in the lining of the heart, known as the pericardium. About 5 percent of all mesothelioma cases are pericardial.

Testicular Mesothelioma: This is the rarest type of malignant mesothelioma; to date, there have been less than 100 recorded cases. Testicular mesothelioma develops in the tunica vaginalis of the testicles. 

Benign Mesothelioma: The benign form of mesothelioma most commonly develops in the pleura. This is the only form of mesothelioma for which full cure and recovery is a probable outcome, though it may be a precursor of future asbestos-related problems.
Mesothelioma Symptoms and Diagnosis

Mesothelioma is difficult to diagnose, largely due to the fact that it remains latent in the body for up to five decades and is usually not diagnosed until its late stages.

A medical exam is the first step in diagnosing an asbestos-related illness.

The most common symptoms of pleural mesothelioma are shortness of breath, chest pain, and persistent cough. However, some patients may not show any symptoms at all. A frequent sign is pleural effusion (water in the lungs).

Some symptoms of peritoneal mesothelioma include weight loss, abdominal pain and swelling, and bowel obstruction. If the cancer has spread to other parts of the body, some other common symptoms may include trouble swallowing, swelling of the neck or face, blood clotting problems, anemia, and fever.

Also, diagnosis may be difficult due to the non-specific nature of most mesothelioma symptoms, which often resemble symptoms of less serious diseases. 

The process of diagnosis usually begins with a compilation of the patient's full medical and work history, including any exposure to asbestos. A medical examination is performed and if a problem is suspected, one or more diagnostic tests are ordered. These typically include medical imaging tests such as x-rays, CT, and MRI scans, as well as biopsy procedures that test samples of fluid and tissue for the presence of cancer cells. Diagnostic tests are also used to determine how far the cancer has advanced, and whether it has spread to other locations in the body.
Mesothelioma Treatment

There are a variety of treatment options for mesothelioma patients including radiation, chemotherapy, and surgery.

Mesothelioma treatments can be divided into two main categories: curative treatments and palliative treatments. Curative treatments are those carried out in an attempt to remove all cancer cells and cure the disease. Palliative treatments are designed to ease pain and make a patient more comfortable.

Treatments for mesothelioma include conventional treatments such as surgery, mesothelioma chemotherapy, and radiation therapy, as well as experimental procedures, including immunotherapy and gene therapy.

Generally, a patient with mesothelioma will receive more than one type of conventional treatment. For example, they may undergo surgery to remove the bulk of cancerous tissue, and then receive chemotherapy or radiation therapy to kill any remaining cancer cells. 

Experimental treatments are typically available only to patients who agree to enter clinical trials. In these cases, patients must fit certain criteria to be eligible.
Legal Issues

The dangers of asbestos exposure were known long before any efforts were made to protect workers. Thousands of American workers were exposed to asbestos during the twentieth century, with no indication as to the risks that they were facing. 

Companies that produced asbestos-containing products or used these products on a daily basis are liable for their negligence in failing to protect their workers. If you or a loved one has developed mesothelioma or another asbestos-related disease as a result of asbestos exposure, it's important to know you can talk to an attorney about seeking compensation for pain and suffering as well as reimbursement for medical expenses and lost income. For more information, please fill out the form on the right to receive a comprehensive packet. 
Mesothelioma Cancer & Veterans

According to a revealing statistic, more than 30 percent of Americans beset with mesothelioma (a rapacious cancer that attacks the internal lining of the lungs, abdomen, or heart) were exposed to asbestos during military service.

Due to common military practices, veterans who served between 1940 and 1970 have a great risk of developing asbestos-related illnesses. Additionally, Navy personnel and workers employed in shipyards from the 1930s through the 1970s hold a greater risk of developing a disease caused by asbestos exposure.

Sources:
Castleman, B. Asbestos: Medical and Legal Aspects. Aspen Publishers: New York. 2005.
Dodson, R. and Hammar, S. Asbestos: Risk Assessment, Epidemiology, and Health Effects. Taylor & Francis: Boca Raton. 2006.
http://www.mayoclinic.com/print/mesothelioma/DS00779/DSECTION=all&METHOD=print
http://www.cancer.org/docroot/CRI/content/CRI_2_4_3X_How_is_malignant _mesothelioma_diagnosed_29.asp?sitearea
http://www.cancer.org/docroot/CRI/content/CRI_2_4_1X_What_are_the_key_statistics_for_malignant _mesothelioma_29.asp?sitearea
http://www.cancer.org/downloads/PUB/DOCS/SECTION28/89.pdf
http://www.marf.org/Resources/UnderstandingMeso/MesoDetails.html
http://sup.ultrakohl.com/Uscap/uscap05/meso3.htm
http://medind.nic.in/ibq/t04/i3/ibqt04i3p142.pdf
http://www.cancerbackup.org.uk/Aboutcancer/Whatiscancer/Whatiscancer/related_faqs/QAs/502
http://www.nlm.nih.gov/medlineplus/ency/article/000116.htm

Cancer Classification

Further information: List of cancer types
A large invasive ductal carcinoma in a mastectomy specimen.

Cancers are classified by the type of cell that resembles the tumor and, therefore, the tissue presumed to be the origin of the tumor. These are the histology and the location, respectively. Examples of general categories include:
Carcinoma: Malignant tumors derived from epithelial cells. This group represents the most common cancers, including the common forms of breast, prostate, lung and colon cancer.
Sarcoma: Malignant tumors derived from connective tissue, or mesenchymal cells.
Lymphoma and leukemia: Malignancies derived from hematopoietic (blood-forming) cells
Germ cell tumor: Tumors derived from totipotent cells. In adults most often found in the testicle and ovary; in fetuses, babies, and young children most often found on the body midline, particularly at the tip of the tailbone; in horses most often found at the poll (base of the skull).
Blastic tumor or blastoma: A tumor (usually malignant) which resembles an immature or embryonic tissue. Many of these tumors are most common in children.

Malignant tumors (cancers) are usually named using -carcinoma, -sarcoma or -blastoma as a suffix, with the Latin or Greek word for the organ of origin as the root. For instance, a cancer of the liver is called hepatocarcinoma; a cancer of the fat cells is called liposarcoma. For common cancers, the English organ name is used. For instance, the most common type of breast cancer is called ductal carcinoma of the breast or mammary ductal carcinoma. Here, the adjective ductal refers to the appearance of the cancer under the microscope, resembling normal breast ducts.

Benign tumors (which are not cancers) are named using -oma as a suffix with the organ name as the root. For instance, a benign tumor of the smooth muscle of the uterus is called leiomyoma (the common name of this frequent tumor is fibroid). Unfortunately, some cancers also use the -oma suffix, examples being melanoma and seminoma.

Mesothelioma: House of Representatives Pass Nanotechnology Bill to Improve Safety

The United States House of Representatives recently approved the National Nanotechnology Initiative Amendments Act (H.R. 554), which was sponsored by Bart Gordon. The bill is designed to support the future development of nanotechnology while strengthening research to understand the potential risks of its usage.

In 2008, the same bill, which was sponsored by Senator John Kerry at the time, failed to receive a single vote.

Due to the new legislation, those participating in the National Nanotechnology Initiative will have to create short and long-term goals in devising a plan for environmental and safety research involving nanotechnology.

Past reports have raised concerns regarding health risks from workers that may be inhaling carbon nanotubes during the manufacture of certain products. These carbon nanotubes closely resemble asbestos fibers in appearance, raising the concern that they may causes illnesses similar to those linked to asbestos exposure.

Some studies have indicated that only carbon nanotubes of a particular long, thin shape have the potential to cause diseases such as pleural mesothelioma, a cancer developing within the lining of the lungs.

Although uncertainty remains, Executive Chairman Sean Murdock of NanoBusiness Alliance (the industry association for the emerging nanotechnology industry) says, “This is an excellent, bipartisan bill. The bill updates the National Nanotechnology Initiative, first authorized in 2003, and adds new provisions in several key areas: addressing environmental, health, and safety issues associated with nanotechnology; improving nanotechnology education; ensuring that new technology moves from the laboratory to the marketplace; focusing research efforts in areas of national importance such as electronics, energy, health care, and water; and research into nanomanufacturing.”

The Environmental Protection Agency is especially concerned about the possible consequences of the use of nanotechnology. However, with bills such as the National Nanotechnology Initiative Amendments Act that address the health and safety issues of nanotechnology, people can rest assured that the risks of nanotube exposure are properly being explored.

How Many People Die of Cancer Each Day?

Question: How Many People Die of Cancer Each Day?

Answer: Approximately 1500 people die each day in the United States due to cancer. About 3,400 people are diagnosed with cancer each day in the U.S.

20,000 Die Every Year From Cancer

Cancer is also known by the medical term malignant neoplasm. It is a disease which presents itself in a host of different ways, in a host of different areas of the body, and kills hosts of people every year. What is the real risk of you developing cancer, and what can you do to identify cancer symptoms, and even help work towards a cure for cancer?

Cancer is basically the uncontrolled growth of certain types of tissue or cells. They invade on cells that are adjacent to them, impairing their normal function (this is especially dangerous in the case of heart cancer, brain cancer, and lung cancer). Cancers can also spread to areas of the body other than their original location, through the lymphatic system or the circulatory system. There are benign forms of tumors, which do not invade their surrounding tissue, and do not spread to other areas of the body, and these are sometimes recognized as a precursor to cancer. 

Cancer is incredibly prolific worldwide, and there has never been a singular cause or single best treatment identified. It has been estimated that cancer causes around 13% of all deaths worldwide -as the title suggests, it has recently been found that cancer kills 20,000 people each day. As you read this article, there will be hundreds of people the world over, dying from cancer. While 12 million people every year are diagnosed with some form of cancer, approximately 7.6 million of those die. 

It is expected that this year, there will be around 2.9 million people in the developed world that die of cancer, out of 5.4 million new cases of diagnosed cancer. In the developing world, around 4.7 million people will die of cancer, out of 6.7 million new cases. 

If you are a woman in the developed world, the form of cancer you are most likely to get is either breast, colorectal, or lung cancer. Women in the developing world were found to be far more likely to contract cervical cancer or stomach cancer, both of which are caused by viruses. 

Men in the developed world most frequently have prostate, lung or colorectal cancer, while those in the developing world are more likely to get stomach, lung or liver cancer. The reason for the much greater incidence of stomach cancer in both men and women in the developing world is that it is caused by a bacterium Helicobacter pylori, while the greater incidence of cervical cancer in women is attributed to the prevalence of the human papillomavirus. 

Since cancer symptoms vary among the different types, it is important to have any niggling health worries checked out by a professional. Be aware of your family medical history, and know the symptoms of cancers to which you might be susceptible. Sometimes seemingly unimportant things, like shortness of breath or lack of energy, can signal cancer. Other common cancer symptoms include lumps or swellings, which could indicate a tumor, enlarged lymph nodes, bone pain, weight loss , poor appetite, persistent coughs, or excessive sweating, especially night sweating. A symptom of heat cancer is an irregular heart beat.

The cure for cancer remains the holy grail of medicine. However, there are some breakthroughs in recent times which hold much promise for specific types of cancers, including lung cancer and skin cancer. Keep yourself abreast of developments, and ask your health professional if any of them may be pertinent in your case.