Cancer

Medically Reviewed on 10/28/2023

What is cancer?

Breast Cancer
These abnormal cells are termed cancer cells, malignant cells, or tumor cells. These cells can infiltrate normal body tissues.

Cancer is the uncontrolled growth of abnormal cells anywhere in a body. These abnormal cells are termed cancer cells, malignant cells, or tumor cells. These cells can infiltrate normal body tissues. Many cancers and the abnormal cells that compose the cancer tissue are further identified by the name of the tissue that the abnormal cells originated from (for example, breast cancer, lung cancer, colorectal cancer). Cancer is not confined to humans; animals and other living organisms can get cancer. When a cell is damaged or altered without repair to its system, the cell usually dies. When damaged or unrepaired cells do not die and become cancer cells, uncontrolled division and growth occurs and a mass of cancer cells develops. Frequently, cancer cells can break away from this original mass of cells, travel through the blood and lymph systems, and lodge in other organs where they can again repeat the uncontrolled growth cycle. This process of cancer cells leaving an area and growing in another body area is termed metastatic spread or metastasis. For example, if breast cancer cells spread to a bone, it means that the individual has metastatic breast cancer to bone. This is not the same as "bone cancer," which would mean cancer had started in the bone.

The following table (National Cancer Institute 2022) gives the estimated numbers of new cases and deaths for each common cancer type:

Cancer Type Estimated New Cases Estimated Deaths
Bladder 76,960 17,100
Breast (Female -- Male) 287,850 - 2,710 43,250 - 530
Colon and Rectal (Combined) 151,030 52,580
Endometrial 65,950 12,550
Kidney (Renal Cell and Renal Pelvis) Cancer 79,000 13,920
Leukemia (All Types) 60,650 24,000
Lung (Including Bronchus) 236,740 130,180
Melanoma 99,780 7,650
Non-Hodgkin Lymphoma 80,470 20,250
Pancreatic 62,210 49,830
Prostate 268,490 34,500
Thyroid 43,800 2,230

The three most common cancers in men, women, and children in the U.S. are as follows:

  • Men: Prostate, lung, and colorectal
  • Women: Breast, lung, and colorectal
  • Children: Leukemia, brain tumors, and lymphoma

The incidence of cancer and cancer types are influenced by many factors such as age, gender, race, local environmental factors, diet, and genetics. Consequently, the incidence of cancer and cancer types varies depending on these variable factors. For example, the World Health Organization (WHO) provides the following general information about cancer worldwide:

  • Cancer is a leading cause of death worldwide. It accounted for 8.2 million deaths (around 22% of all deaths not related to communicable diseases; most recent data from WHO).
  • Lung, stomach, liver, colon, and breast cancer cause the most cancer deaths each year.
  • Deaths from cancer worldwide are projected to continue rising, with an estimated 13.1 million deaths in 2030 (about a 70% increase).

Different areas of the world may have cancers that are either more or less predominant than those found in the U.S. One example is that stomach cancer is often found in Japan, while it is rarely found in the U.S. This usually represents a combination of environmental and genetic factors.

The objective of this article is to introduce the reader to general aspects of cancers. It is designed to be an overview of cancer and cannot cover every cancer type. This article will also attempt to help guide the reader to more detailed sources about specific cancer types.

What are risk factors and causes of cancer?

Smoking
Tobacco or cigarette smoke contains at least 66 known potential carcinogenic chemicals and toxins.

Anything that may cause a normal body cell to develop abnormally potentially can cause cancer. Many things can cause cell abnormalities and have been linked to cancer development. Some cancer causes remain unknown while other cancers have environmental or lifestyle triggers or may develop from more than one known cause. Some may be developmentally influenced by a person's genetic makeup. Many patients develop cancer due to a combination of these factors. Although it is often difficult or impossible to determine the initiating event(s) that cause cancer to develop in a specific person, research has provided clinicians with a number of likely causes that alone or in concert with other causes, are the likely candidates for initiating cancer. The following is a listing of major causes and is not all-inclusive as specific causes are routinely added as research advances:

Chemical or toxic compound exposures: Benzene, asbestos, nickel, cadmium, vinyl chloride, benzidine, N-nitrosamines, tobacco or cigarette smoke (contains at least 66 known potential carcinogenic chemicals and toxins), asbestos, and aflatoxin

Ionizing radiation: Uranium, radon, ultraviolet rays from sunlight, radiation from alpha, beta, gamma, and X-ray-emitting sources

Pathogens: Human papillomavirus (HPV), EBV or Epstein-Barr virus, hepatitis viruses B and C, Kaposi's sarcoma-associated herpes virus (KSHV), Merkel cell polyomavirus, Schistosoma spp., and Helicobacter pylori; other bacteria are being researched as possible agents.

Genetics: A number of specific cancers have been linked to human genes and are as follows: breast, ovarian, colorectal, prostate, skin, and melanoma; the specific genes and other details are beyond the scope of this general article so the reader is referred to the National Cancer Institute for more details about genetics and cancer.

It is important to point out that most everyone has risk factors for cancer and is exposed to cancer-causing substances (for example, sunlight, secondary cigarette smoke, and X-rays) during their lifetime, but many individuals do not develop cancer. In addition, many people have genes that are linked to cancer but do not develop it. Why? Although researchers may not be able to give a satisfactory answer for every individual, it is clear that the higher the amount or level of cancer-causing materials a person is exposed to, the higher the chance the person will develop cancer. In addition, people with genetic links to cancer may not develop it for similar reasons (lack of enough stimulus to make the genes function). In addition, some people may have a heightened immune response that controls or eliminates cells that are or potentially may become cancer cells. There is evidence that even certain dietary lifestyles may play a significant role in conjunction with the immune system to allow or prevent cancer cell survival. For these reasons, it is difficult to assign a specific cause of cancer to many individuals.

Recently, other risk factors have been added to the list of items that may increase cancer risk. Specifically, red meat (such as beef, lamb, and pork) was classified by the International Agency for Research on Cancer as a high-risk agent for potentially causing cancers; in addition, processed meats (salted, smoked, preserved, and/or cured meats) were placed on the carcinogenic list. Individuals that eat a lot of barbecued meat may also increase risk due to compounds formed at high temperatures. Other less-defined situations that may increase the risk of certain cancers include obesity, lack of exercise, chronic inflammation, and hormones, especially those hormones used for replacement therapy. Other items such as cell phones have been heavily studied. In 2011, the World Health Organization classified cell phone low-energy radiation as "possibly carcinogenic," but this is a very low-risk level that puts cell phones at the same risk as caffeine and pickled vegetables.

Proving that a substance does not cause or is not related to increased cancer risk is difficult. For example, antiperspirants are considered to possibly be related to breast cancer by some investigators and not by others, and there are conflicting reports that have been described in the literature. However, there is no firm or definitive scientific evidence that links antiperspirant use to breast cancer development.

SLIDESHOW

Understanding Cancer: Metastasis, Stages of Cancer, and More See Slideshow

What are cancer symptoms?

Symptoms and signs of cancer depend on the type of cancer, where it is located, and/or where the cancer cells have spread. For example, breast cancer may present as a lump in the breast or as nipple discharge while metastatic breast cancer may present with symptoms of pain (if spread to bones), extreme fatigue (lungs), or seizures (brain). A few patients show no signs or symptoms until the cancer is far advanced.

The American Cancer Society describes seven warning signs and/or symptoms that cancer may be present, and which should prompt a person to seek medical attention. The word CAUTION can help you remember these.

  • Change in bowel or bladder habits
  • A sore throat that does not heal
  • Unusual bleeding or discharge (for example, nipple secretions or a "sore" that will not heal that oozes material)
  • Thickening or lump in the breast, testicles, or elsewhere
  • Indigestion (usually chronic) or difficulty swallowing
  • Obvious change in the size, color, shape, or thickness of a wart or mole
  • Nagging cough or hoarseness

Other signs or symptoms may also alert you or your doctor to the possibility of your having some form of cancer. These include the following:

  • Unexplained loss of weight or loss of appetite
  • A new type of pain in the bones or other parts of the body that may be steadily worsening, or come and go, but is unlike previous pains one has had before
  • Persistent fatigue, nausea, or vomiting
  • Unexplained low-grade fevers that may be either persistent or come and go
  • Recurring infections which will not clear with usual treatment

Anyone with these signs and symptoms should consult their doctor; these symptoms may also arise from noncancerous conditions.

Many cancers will present with some of the above general symptoms but often have one or more symptoms that are more specific for the cancer type. For example, lung cancer may present with common symptoms of pain, but usually, the pain is located in the chest. The patient may have unusual bleeding, but the bleeding usually occurs when the patient coughs. Lung cancer patients often become short of breath and then become very fatigued.

Because there are so many cancer types (see next section) with so many nonspecific and sometimes more specific symptoms, the best way to learn about the signs and symptoms of specific cancer types is to spend a few moments researching symptoms of a specific body area in question. Conversely, a specific body area can be searched to discover what signs and symptoms a person should look for in that area that is suspected of having cancer. The following examples are two ways to proceed to get information on symptoms:

  • Use a search engine (Google, Bing) to find links to cancer by listing the symptom followed by the term "cancer" or if you know the type you want information about, (lung, brain, breast) use MedicineNet's search option. For example, listing "blood in urine and cancer" will bring a person to websites that list possible organs and body systems where cancer may produce the listed symptoms.
  • Use a search engine as above and list the suspected body area and cancer (for example, bladder, and cancer), and the person will see sites that list the signs and symptoms of cancer in that area (blood in urine is one of several symptoms listed).
  • Be aware that many websites are not necessarily reviewed by a health care professional and could contain information that is not accurate. Your health care professional is ultimately the best resource if you have concerns.

Besides, if the cancer type is known (diagnosed), then even more specific searches can be done listing the diagnosed cancer type and whatever may be questioned about cancer (symptoms, tumor grades, treatments, prognosis, and many other items).

One's research should not replace consulting a health care provider if someone is concerned about cancer.

What are the five different types of cancer?

There are over 200 types of cancer; far too numerous to include in this introductory article. However, the NCI lists several general categories (see list in the first section of this article). This list is expanded below to list more specific types of cancers found in each general category; it is not all-inclusive and the cancers listed in quotes are the general names of some cancers:

  • Carcinoma: Cancer that begins in the skin or in tissues that line or cover internal organs -- "skin,lung, colon, pancreatic, ovarian cancers," epithelial, squamous and basal cell carcinomas, melanomas
  • Sarcoma: Cancer that begins in bone, cartilage, fat, muscle, blood vessels, or other connective or supportive tissue -- "bone, soft tissue cancers," osteosarcoma, synovial sarcoma, liposarcoma, angiosarcoma, rhabdosarcoma, and fibrosarcoma
  • Leukemia: Cancer that starts in blood-forming tissue such as the bone marrow and causes large numbers of abnormal blood cells to be produced and enter the blood -- "leukemia," lymphoblastic leukemia (ALL and CLL), myelogenous leukemia (AML and CML), T-cell leukemia, and hairy-cell leukemia
  • Lymphoma and myeloma: Cancers that begin in the cells of the immune system -- "lymphoma," T-cell lymphomas, B-cell lymphomas, Hodgkin lymphomas, non-Hodgkin lymphoma, and lymphoproliferative lymphomas
  • Central nervous system cancers: Cancers that begin in the tissues of the brain and spinal cord -- "brain and spinal cord tumors," gliomas, meningiomas, pituitary adenomas, vestibular schwannomas, primary CNS lymphomas, and primitive neuroectodermal tumors

Not included in the above types listed are metastatic cancers; this is because metastatic cancer cells usually arise from a cell type listed above and the major difference from the above types is that these cells are now present in a tissue from which the cancer cells did not originally develop. Consequently, if the term "metastatic cancer" is used, for accuracy, the tissue from which the cancer cells arose should be included. For example, a patient may say they have or are diagnosed with "metastatic cancer" but the more accurate statement is "metastatic (breast, lung, colon, or another type) cancer with spread to the organ in which it has been found." Another example is the following: A doctor describing a man whose prostate cancer has spread to his bones should say the man has metastatic prostate cancer to bone. This is not "bone cancer," which would be cancer that started in the bone cells. Metastatic prostate cancer to bone is treated differently than lung cancer to bone.

How is cancer diagnosed?

Some cancers are diagnosed during routine screening examinations. These usual tests are routinely done at a certain age. Many cancers are discovered when you present to your health care professional with specific symptoms.

A physical exam and medical history, especially the history of symptoms, are the first steps in diagnosing cancer. In many instances, the medical caregiver will order several tests, most of which will be determined by the type of cancer and where it is suspected to be located in or on the person's body. Also, most caregivers will order a complete blood count, electrolyte levels, and, in some cases, other blood studies that may give additional information.

Imaging studies are commonly used to help physicians detect abnormalities in the body that may be cancer. X-rays, CT and MRI scans, and ultrasound are common tools used to examine the body. Other tests such as endoscopy, which with variations in the equipment used, can allow visualization of tissues in the intestinal tract, throat, and bronchi that may be cancerous. In areas that cannot be well visualized (inside bones or some lymph nodes, for example), radionuclide scanning is often used. The test involves ingestion or IV injection of a weakly radioactive substance that can be concentrated and detected in the abnormal tissue.

The preceding tests can be very good at localizing abnormalities in the body; many clinicians consider that some of the tests provide presumptive evidence for the diagnosis of cancer. However, in virtually all patients, the definitive diagnosis of cancer is based on the examination of a tissue sample taken in a procedure called a biopsy from the tissue that may be cancerous and then analyzed by a pathologist. Some biopsy samples are relatively simple to procure (for example, a skin biopsy or intestinal tissue biopsy done with a device called an endoscope equipped with a biopsy attachment). Other biopsies may require as little as a carefully guided needle, or as much as a surgery (for example, brain tissue or lymph node biopsy). In some instances, the surgery to diagnose cancer may result in a cure if all of the cancerous tissue is removed at the time of biopsy.

The biopsy can provide more than the definitive diagnosis of cancer; it can identify the cancer type (for example, the type of tissue found may indicate that the sample is from a primary [started here] or metastatic type of brain cancer [spread from another primary tumor arising elsewhere in the body] and thereby help to stage cancer. The stage, or cancer staging, is a way for clinicians and researchers to estimate how extensive the cancer is in the patient's body.

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What types of blood tests can help detect cancer?

Tumor marker tests

Tumor markers are chemicals produced by cancer cells and found in the blood. However, tumor markers are also made by normal cells in the body, and levels may increase significantly in noncancerous conditions. Examples of tumor markers include:

  • Prostate-specific antigen (PSA) for prostate cancer
  • Cancer antigen-125 (CA-125) for ovarian cancer
  • Calcitonin for medullary thyroid cancer
  • Alpha-fetoprotein (AFP) for liver cancer and testicular cancer
  • Human chorionic gonadotropin (hCG) for germ cell tumors, such as testicular cancer and ovarian cancer
  • Carcinoembryonic antigen(CEA) for colon cancers
  • Human epididymis protein 4 (HE4) and inhibin for ovarian cancer

Circulating tumor cell tests

Recently developed blood tests can detect tumor cells that have separated from an original cancer site and are flowing through the bloodstream (circulating tumor cells). Many commercially available tests are used to measure circulating tumor cells or nucleic acids from tumor cells. In addition, there are currently many efforts underway to develop screening tests that can be run on a blood sample that can be used to detect abnormal nucleic acid or protein patterns that are suggestive of cancer. These tests are known as multi-cancer early detection (MCED) tests. A few are available commercially, although these tests are not yet in widespread use.

Blood protein testing

Electrophoresis is a test that examines various proteins in the blood. This can help identify various immunoglobulins, which are elevated in people with multiple myeloma. A bone marrow biopsy may help confirm the diagnosis of blood cancer.

Complete blood count (CBC)

A complete blood count helps the doctor to:

  • Diagnose some blood cancers, such as leukemia and lymphoma.
  • Find out if cancer has invaded the bone marrow.
  • Look how a person's body handles cancer treatment.
  • Diagnose other noncancerous conditions.

The results of CBC are interpreted as:

  • Low white blood cell count: Cancer treatment tends to lower the body&'s white blood cells. Leukemia, lymphoma or multiple myeloma also lower white blood cell count.
  • Low red blood cell count: Some chemotherapy or radiation treatment may lower red blood cell count (anemia). Low red blood cell count could also be caused by the cancer bleeding into the stomach, which occurs in stomach cancer.
  • Varying amount of white blood cells: Highly abnormal lymphocytes or monocytes can indicate the possibility of certain types of cancer.
  • Low platelet count: Cancer that affects the bone marrow can also lower platelet count.

A bone marrow biopsy may help confirm the diagnosis of blood cancer.

Urinalysis

Urinalysis is a lab examination of urine for various cells and chemicals, such as red blood cells, white blood cells, infection or excessive protein. Blood in the urine may indicate a benign condition, but it can also indicate other problems.

Other blood tests include:

  • Alkaline phosphatase: It helps to diagnose liver cancer and bone cancer.
  • Ferritin:Extremely elevated levels of ferritin may indicate Hodgkin disease or leukemia.
  • Thyroglobulin: Elevated levels of this hormone may indicate follicular cancer.

Is cancer that has been found localized to its site of origin, or is it spread from that site to other tissues? Localized cancer is said to be at an early stage, while one which has spread is at an advanced stage. The following section describes the general staging methods for cancers.

How do physicians determine cancer staging?

There are a number of different staging methods used for cancers and the specific staging criteria vary among cancer types. According to the NCI, the common elements considered in most staging systems are as follows:

  • Site of the primary tumor
  • Tumor size and number of tumors
  • Lymph node involvement (spread of cancer into lymph nodes)
  • The presence or absence of metastasis

However, there are two main methods that form the basis for the more specific or individual cancer type staging. The TMN staging is used for most solid tumors while the Roman numeral or stage grouping method is used by some clinicians and researchers on almost all cancer types.

The TNM system is based on the extent of the tumor (T), the extent of spread to the lymph nodes (N), and the presence of distant metastasis (M). A number is added to each letter to indicate the size or extent of the primary tumor and the extent of cancer spread (a higher number means a bigger tumor or more spread).

The following is how the NCI describes the TNM staging system:

  1. Primary tumor (T)
    • TX - Primary tumor cannot be evaluated
    • T0 - No evidence of primary tumor
    • Tis - Carcinoma in situ (CIS; abnormal cells are present but have not spread to neighboring tissue; although not cancer, CIS may become cancer and is sometimes called pre-invasive cancer)
    • T1, T2, T3, T4 - Size and/or extent of the primary tumor
  2. Regional lymph nodes (N)
    • NX - Regional lymph nodes cannot be evaluated
    • N0 - No regional lymph node involvement
    • N1, N2, N3 - involvement of regional lymph nodes (number of lymph nodes and/or extent of spread)
  3. Distant metastasis (M)
    • MX - Distant metastasis cannot be evaluated (some clinicians do not ever use this designation)
    • M0 - No distant metastasis
    • M1 - Distant metastasis is present

Consequently, a person's cancer could be listed as T1N2M0, meaning it is a small tumor (T1), but has spread to some regional lymph nodes (N2), and has no distant metastasis (M0).

The Roman numeral or stage grouping method is described by the NCI as follows:

SEER groups cancer cases into five main stages chart
Stage Definition
Stage 0 Carcinoma in situ.
Stage I Higher numbers indicate more extensive disease: Larger tumor size and/or spread of cancer beyond the organ in which it first developed to nearby lymph nodes and/or organs adjacent to the location of the primary tumor
Stage II
Stage III
Stage IV Cancer has spread to other organs (s).

As mentioned above, variations of these staging methods exist. For example, some cancer registries use surveillance, epidemiology, and end results program (SEER) termed summary staging. SEER groups cancer cases into five main categories:

  • In situ: Abnormal cells are present only in the layer of cells in which they developed.
  • Localized: Cancer is limited to the organ in which it began, without evidence of spread.
  • Regional: Cancer has spread beyond the primary site to nearby lymph nodes or organs and tissues.
  • Distant: Cancer has spread from the primary site to distant organs or distant lymph nodes.
  • Unknown: There is not enough information to determine the stage.

Staging of cancer is important; it helps the physician to decide on the most effective therapeutic protocols, provides a basis for estimating the prognosis (outcome) for the patient, and provides a system to communicate the patient's condition to other health professionals that become involved with the patients' care.

What are cancer treatment options?

The cancer treatment is based on the type of cancer and the stage of cancer. In some people, diagnosis and treatment may occur at the same time if the cancer is entirely surgically removed when the surgeon removes the tissue for biopsy.

Although patients may receive a unique sequenced treatment, or protocol, for their cancer, most treatments have one or more of the following components: surgery, chemotherapy, radiation therapy, or combination treatments (a combination of two or all three treatments).

Individuals obtain variations of these treatments for cancer. Patients with cancers that cannot be cured (completely removed) by surgery usually will get combination therapy, the composition determined by the cancer type and stage.

Palliative therapy (medical care or treatment used to reduce disease symptoms but unable to cure the patient) utilizes the same treatments described above. It is done with the intent to extend and improve the quality of life of terminally ill cancer patients. There are many other palliative treatments to reduce symptoms such as pain medications and antinausea medications.

Are there home remedies or alternative treatments for cancer?

There are many claims on the Internet and in publications about substances that treat cancer (for example, broccoli, grapes, ginseng, soybeans, green tea, aloe vera, and lycopene and treatments like acupuncture, vitamins, and dietary supplements). Almost every physician suggests that a balanced diet and good nutrition will help individuals combat cancer.

Although some of these treatments may help reduce symptoms, there is no good evidence they can cure any cancers. Patients are strongly recommended to discuss any home remedies or alternative treatments with their cancer doctors before beginning any of these.

What is the prognosis for cancer?

The prognosis (outcome) for cancer patients may range from excellent to poor. The prognosis is directly related to both the type and stage of cancer. For example, many skin cancers can be completely cured by removing the skin cancer tissue; similarly, even a patient with a large tumor may be cured after surgery and other treatments like chemotherapy (note that a cure is often defined by many clinicians as a five-year period with no reoccurrence of cancer). However, as the cancer type either is or becomes aggressive, spread to lymph nodes, or is metastatic to other organs, the prognosis decreases. For example, cancers that have higher numbers in their staging (for example, stage III or T3N2M1; see staging section above) have a worse prognosis than those with low (or 0) numbers. As the staging numbers increase, the prognosis worsens, and the survival rate decreases.

This article offers a general introduction to cancers, consequently, the details -- such as life expectancy for each cancer -- cannot be covered. However, cancers, in general, have a decreasing life expectancy as the stage of the cancer increases. Depending on the type of cancer, as the prognosis decreases, so does life expectancy. On the positive side, cancers that are treated and do not recur (no remissions) within a five-year period, in general, suggest that the patient will have a normal life expectancy. Some patients will be cured, and a few others may get recurrent cancer. Unfortunately, there are no guarantees.

There are many complications that may occur with cancer; many are specific to the cancer type and stage and are too numerous to list here. However, some general complications that may occur with both cancer and its treatment protocols are listed below:

  • Fatigue (both due to cancer and its treatments)
  • Anemia (both)
  • Loss of appetite (both)
  • Insomnia (both)
  • Hair loss (treatments mainly)
  • Nausea (both)
  • Lymphedema (both)
  • Pain (both)
  • Immune system depression (both)

Is it possible to prevent cancer?

Most experts are convinced that many cancers can either be prevented or the risk of developing cancers can be markedly reduced. Some of the cancer prevention methods are simple; others are relatively extreme, depending on an individual's view.

Cancer prevention, by avoiding its potential causes, is the simplest method. First on most clinicians and researchers' list is to stop (or better, never start) smoking tobacco. Avoiding excess sunlight (by decreasing exposure or applying sunscreen) and many chemicals and toxins are excellent ways to avoid cancers. Avoiding contact with certain viruses and other pathogens also are likely to prevent some cancers. People who have to work close to cancer-causing agents (chemical workers, X-ray technicians, ionizing radiation researchers, asbestos workers) should follow all safety precautions and minimize any exposure to such compounds.

There are two vaccines currently approved by the U.S. Food and Drug Administration (FDA) to prevent specific types of cancer. Vaccines against the hepatitis B virus, which is considered a cause of some liver cancers, and vaccines against human papillomavirus (HPV) types 16 and 18 are available. According to the NCI, these viruses are responsible for about 70% of cervical cancers. These viruses also play a role in cancers arising in the head and neck, as well as cancers in the anal region, and probably in others. Today, vaccination against HPV is recommended in children of both sexes. The HPV virus is so common that by the age of 50, half or more people have evidence of being exposed to it. extend the lifespan of individuals with advanced prostate cancer.

People with a genetic predisposition to develop certain cancers and others with a history of cancers in their genetically linked relatives currently cannot change their genetic makeup. However, some individuals who have a high possibility of developing genetically linked cancer have taken action to prevent cancer development. For example, some young women who have had many family members develop breast cancer have elected to have their breast tissue removed even if they have no symptoms or signs of cancer development to reduce or eliminate the possibility they will develop breast cancer. Some doctors consider this as an extreme measure to prevent cancer while others do not.

Screening tests and studies for cancer are meant to help detect cancer at an early stage when the cancer is more likely to be potentially cured with treatment. Such screening studies are breast exams, testicular exams, colon-rectal exams (colonoscopy), mammography, certain blood tests, prostate exams, urine tests, and others. People who have any suspicion that they may have cancer should discuss their concerns with their doctor as soon as possible. Screening recommendations have been the subject of numerous conflicting reports in recent years. Screening may not be cost-effective for many groups of patients or lead to unnecessary further invasive tests, but individual patients' unique circumstances should always be considered by doctors in making recommendations about ordering or not ordering screening tests.

How can nurses communicate with people about their cancer diagnosis, course of treatment and outcomes?

Nurses are in a good position to communicate with people with cancer because they spend more time with them during care than most other members of the cancer care team.

The person often feels the closest to the nurse. Even if nurses are not the ones who deliver the news, they help the person work through it by communicating with them. According to the National Cancer Institute, “nurses are frequently the most trusted member of the cancer team when it comes to obtaining information, and they serve as advocates for the patient when important and sensitive questions such as, "How bad is it?" or "How long do I have to live?" arise.

For hospitalized people, nurses serve as their advocates and translators, especially after personal interactions with medical professionals.

When speaking with people with cancer, nurses may prefer to start with the "five E's" of communication basics:

  1. Engage the patient
  2. Elicit the patient's understanding and concerns
  3. Educate the patient
  4. Address the emotion
  5. Enlist the collaboration of the patient and caregiver

The five E's of fundamental communication assists medical professionals to build relationships with the person, outlining their conditions, educating them on their illnesses and treatments, expressing compassion when dealing with emotions, and including the person's family in their care plan.

Where can people find more information about cancer?

There are many ways a person can find more information about cancer, but if they have any immediate concerns about having cancer, their first source of information should be their doctor. In addition to the references listed at the end of this article, the following is a list of information sources that are well recognized as authorities for cancer information by most clinicians:

Medically Reviewed on 10/28/2023
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How to Talk About Cancer: A Communication Guide for Cancer Patients, Providers, and Loved Ones. https://online.nursing.georgetown.edu/blog/how-to-talk-about-cancer-a-communication-guide-for-cancer-patients-providers-and-loved-ones/

Communication in Cancer Care (PDQ®)–Patient Version. https://www.cancer.gov/about-cancer/coping/adjusting-to-cancer/communication-pdq

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BETTER COMMUNICATION HELPS CANCER PATIENTS FEEL ‘IN CONTROL.’ https://www.futurity.org/cancer-care-communication-2117982/