New Drug Could Change Brain Cancer Treatment


His family rushed him to the hospital. A brain tumor was found. The surgeons were going to take it out with the help of an investigational drug.

"Well, they said that it was experimental, a trial thing, they said how good it worked," remarked the patient's wife, Lillian Rotella.

He had a tumor called a glioblastoma, a brain cell cancer with a typical life expectancy with treatment of only one to two years.

While the biggest part of the tumor is quite apparent, there are often tentacle-like extensions that don't show up to the naked eye or even on MRI scans.

A technique approved in Europe helps doctors find these tentacles. Surgeons at Allegheny General Hospital trained with the pioneering surgeon from Germany to learn this new technique.

AGH is just one of four medical centers in the country with a research protocol using this special drug specifically for this type of brain cancer.

Three hours before surgery, patients take a drug by mouth called amino levulinic acid or ALA.

It goes into the rapidly dividing cancer cells and gets turned into a substance that lights up. This doesn't happen in normal tissue. In ultraviolet light, all the areas of the cancer, obvious and unobvious, light up red.

The surgeons cut until all the red is gone, as long as they aren't getting too close to crucial parts of the brain that control language, speech, movement and sensation. Instead of getting 90 percent of the tumor the ordinary way, the ALA helps them get 5 percent more.

"So far, all the cases we did we have above 95 percent resection, which is the best you can achieve with this type of tumor," says AGH neurosurgeon Dr. .

"Dozens of specimens which have glowed, which look perfectly normal under the surgical microscope, stuff that I would have left there, two months ago before I had this drug, all are tumor. Even stuff that doesn't show up on the MRI," AGH neurosurgeon Dr. Quigley emphatically testifies.

It only seems to work for certain brain tumors. Slow growing and highly malignant tumors won't glow.

Every patient still gets the customary radiation and chemotherapy after surgery. The more tumor taken out, the better patients do.

"This is great, everything went well, they got more of the tumor out than they expected to, and just looked forward to what would happen next," says Lillian.

AGH has FDA approval to do 50 cases with ALA. The drug is being studied for safety and for how well it works.

The only issue has been some mild and temporary liver abnormalities. The doctors guess it will be at least five to seven years before ALA gets through the whole approval process.

CANCER: a complet Doctor-rviewed article from RightHealth and Natural Standard Background.



Cancer, also called malignancy or neoplasm, develops when cells in a specific part of the

body begin to grow out of control. Unlike normal cells, cancer cells do not stop reproducing

after they have doubled 50-60 times.

Normal body cells grow, divide, and die in an orderly, natural fashion. Normal cells divide

more rapidly during the early years of an individual's life. After adulthood is reached,

cells in most parts of the body divide only to replace worn-out or dying cells and to repair

injuries. Cancer cells continue to grow and divide forming new abnormal cells.

Cancer cells usually form a tumor. Some cancers, such as leukemia or cancer of the bone

marrow and blood, do not form tumors. Instead, these cancer cells circulate through other

tissues where they grow.

Not all tumors are cancerous. Benign (non-cancerous) tumors do not metastasize (spread) to

other parts of the body and, with very rare exceptions, are not life threatening. Different

types of cancer can grow at different rates and respond to different treatments. Malignant,

or cancerous, tumors may metastasize and cause further damage to organs and tissues in the

body.

Cancer cells develop because of damage to DNA (the material inside the nucleus of a cell that

carries genetic information). DNA occurs in most cells of the body and is the blueprint for

how the body grows, functions, and stays healthy. Usually, when DNA becomes damaged the body

is able to repair it. In cancer cells, the damaged DNA is not able to be repaired.

Individuals can inherit damaged DNA, such is the case with inherited cancers. More often,

though, an individual's DNA becomes damaged by exposure to something in the environment, such

as smoking or radiation from the sun.

The immune system, which is made up of special cells, proteins, tissues, and organs, defends

individuals against invasion by pathogens (disease-causing agent), such as cancer cells,

bacteria, and viruses. The differences between cancer cells and normal cells may not be as

easily detected, and the immune system may not always recognize cancer cells as pathogens.

Most healthy individuals have immune systems that can keep up with the pathogens but,

sometimes problems with the immune system can lead to illness and infection.

Cancer cells sometimes travel through the blood or lymphatic system to other parts of the

body. The cancerous cells begin to grow and replace normal tissue in a process called

metastasis. Regardless of where cancer may spread, it is always named for the place it began.

For instance, colon cancer that spreads to the liver is still called colon cancer, not liver

cancer.

Symptoms and treatment depend on the cancer type and how advanced it is. Treatment plans may

include surgery, radiation, and/or chemotherapy. The most common cancers are breast cancer,

lung cancer, bowel or colon cancer, prostate cancer, bladder cancer, non-Hodgkin's lymphoma,

stomach cancer, melanoma, esophageal cancer, pancreatic cancer, leukemia, and ovarian cancer.

Cancer is the leading cause of death among Americans under the age of 85. Half of all men and

one third of all women in the United States will develop cancer during their lifetimes.

Although cancer occurs in Americans of all racial and ethnic groups, the rate of cancer

occurrence varies from group to group. Two-thirds of individuals diagnosed with cancer are

aged over 65 years. In 2005, 7.6 million people died of cancer out of 58 million deaths

worldwide. More than 70% of all cancer deaths worldwide occur in low and middle income

countries, where resources available for prevention, diagnosis, and treatment of cancer are

limited or nonexistent. Based on projections, cancer deaths will continue to rise and an

estimated 9 million people will die from cancer in 2015, and 11.4 million may die in 2030.

Early diagnosis makes it more likely that cancer can be treated successfully. It is important

that individuals are aware of possible symptoms and that individuals see a doctor for regular

check ups.

Types Of Cancer
There are over one hundred types of cancer that can affect the human body. Each of the types

of cancer has its own name, behavior, and course of treatment. All cancers involve the

abnormal growth of cells. The most commonly found cancers in humans include carcinoma,

sarcoma, leukemia, lymphoma, and adenoma.

Carcinoma: More than 85% of cancers are carcinomas. Carcinomas start in the cells that line

and cover internal and external organs. The most common carcinomas are lung cancer, breast

cancer, skin cancer, and bowel cancer.

Sarcoma: Sarcoma begins in supportive tissues of the body, such as muscle, bone, cartilage,

blood vessels, fat, and connective tissue.

Leukemia: Leukemia is cancer of the blood cells that grows in the bone marrow.

Lymphoma: Lymphomas develop in the lymph nodes and tissues of the immune system.

Adenoma: An adenoma is a tumor (usually benign) that begins in glandular tissue, such as the

adrenal, pituitary, or thyroid gland.

Risk Factors And Causes
Age: The chances of developing cancer increases with age. In the United States, more than 60%

of cancers occur in people older than 65. The risk of developing cancer doubles every five

years after the age of 25. The increased cancer rate is probably due to a combination of

increased and prolonged exposure to carcinogens and weakening of the body's immune system.

Environmental Factors: The environment we live in can cause an individual to have an

increased risk of developing various types of cancers. Studies have reported that individuals

exposed to high amounts of benzene, which is commonly found in gasoline, cigarettes, and

pollution, are at an increased risk for developing cancer.

Certain chemicals found in pesticide products, such as lawn and garden chemicals, may

increase the risk of developing cancers such as lymphoma. Long-term use of hair products,

including permanent hair dyes (especially dark colors) and hair straightening chemicals

doubles an individual's risk of developing lymphoma, particularly among women and persons who

used hair dyes before 1980. These dyes contained more carcinogenic (cancer-causing)

substances than the dyes used today, due to changes in regulation by the U.S. Food and Drug

Administration (FDA).

Studies have reported that exposure to chemicals and pesticides can significantly increase

the chances of developing breast cancer. Being overweight increases the chances of developing

many types of cancer, such as ovarian cancer. A high fat diet may increase the chances of

developing colon cancer. Exercising at least 30 minutes a day, five days a week may reduce

the risk of developing cancer.

Diet and lifestyle: Exposure to charred red meat has been reported to increase the risk of

developing colon cancer. Diets low in fruits and vegetables are linked to an increased risk

of cancers including cervical cancer.

Heredity: Heredity or genetics plays a large role in cancer development. A family history of

cancer, such as breast, ovarian, or colon cancer, increases the risk of the individual

developing that type of cancer. When cancer is genetic, a mutated gene has been passed down.

However, this does not always mean that the genetically pre-disposed individual will always

develop cancer. Genetic tests are available for many cancers that are hereditary.

Personal history of cancer: If an individual has had any type of cancer, there is an

increased risk of developing that cancer again. Cancer can be in remission, or a period of

time when the cancer is responding to treatment or is under control, and then return at a

later time.

Pre-existing medical conditions: Pre-existing medical conditions can increase an individual's

risk of developing various forms of cancer. Inflammatory bowel diseases such as ulcerative

colitis and Crohn's disease increase the risk of colon cancer. Individuals with diabetes have

as high as a 40% increased risk of developing colorectal cancer. A recent report found that

men with testicular cancer had a higher rate of colorectal cancer. Men who receive radiation

therapy for prostate cancer have also been reported to have a higher risk of rectal cancer.

Ethnicity: Some research suggests that ethnicity may play a role in the development of

various types of cancer. However, it is important to note that the following statistics may

be correlations that do no necessarily have to do with ethnicity/genetics, but may be

influenced by social factors associated with people of certain ethnicities (such as diet,

access to healthcare, and quality of healthcare). Caucasian families have about a 17% risk

for developing lung cancer, while African-Americans have a much higher risk, around 25%. Jews

of Eastern European descent (Ashkenazi Jews) have a higher incidence of developing colon

cancer. Caucasian women are more likely to develop breast cancer than African-American or

Latino women. In the United States, African American men have a 60% higher incidence rate of

developing prostate cancer as compared to Caucasian men.

Sun Exposure: Individuals who spend a considerable amount of time in the sun can develop skin

cancer, especially if the skin is not protected by sunscreen or clothing. UV rays from the

sun can damage the DNA of skin cells and cause the mutation into cancerous cells. Tanning is

the skin's injury response to excessive UV radiation, and increases the risk of skin cancer.

Every time an individual gets sunburned or is exposed to too much UV radiation, there is an

increased risk of damaging skin cells and developing skin cancer. One or more severe,

blistering sunburns can increase the risk of skin cancer as an adult.

Tobacco: Smoking cessation decreases the risk for developing various types of cancer. 
 

According to the National Cancer Institute (NCI), smoking causes 30% of all cancer deaths in

the United States and is responsible for 87% of cases of lung cancer. Smoking affects the

lungs and kidneys and has been reported to cause pancreatic, cervical, and stomach cancers

and acute myeloid leukemia. Cancers of the mouth, larynx, bladder, cervix, and esophagus are

also related to tobacco. A study found that exposure to secondhand smoke increases the risk

of breast cancer in pre-menopausal women and lung cancer in the general population.

Weak immune system: Individuals with a weakened immune system, including those living with

human immunodeficiency virus (HIV) or acquired immunodeficiency syndrome (AIDS), leukemia,

and those taking immunosuppressant drugs after an organ transplant, are at a greater risk for

developing certain types of cancer, including skin cancer.

Viral infections: Practicing unsafe sex can increase the risk of developing human

papillomavirus (HPV). HPV is a group of over 100 viruses that increases the risk of

developing cervical, anal, vulvar, and vaginal cancer. Hepatitis B virus can cause liver

cancer. Some human retroviruses cause lymphomas and other cancers of the blood system. Some

viruses produce cancer in certain countries but not in others. For instance, the Epstein-Barr

virus causes Burkitt's lymphoma (a type of cancer) in Africa and cancers of the nose and

pharynx in China.

Signs And Symptoms
There are over one hundred different types of cancer. They are all unique with their own

symptoms and characteristics. Each cancer affects the body in a different way. Although

cancers differ greatly, there are a few cancer symptoms that are commonly experienced by most

cancer patients. Symptoms can be general (also called non-specific), such as pain or

unexplained weight loss. Other symptoms are more specific, such as with unusual bleeding in

the vagina, common in vaginal cancer, or difficulty swallowing, common in esophageal cancer.

Non-specific symptoms:

Depression: Cancer often results in depression. Depression can be related to the symptoms of

the illness, a fear of dying, or a loss of independence. Additionally, some cancers may

produce tumors that directly cause depression by affecting normal brain function.

Fatigue: Fatigue, or extreme tiredness, is one of the most commonly experienced symptoms of

cancer. Fatigue may occur early in cancers that cause a chronic loss of blood, including

colon or stomach cancers and leukemia. Fatigue is usually more common when the cancer is

advanced, but still occurs in the early stages.

Fever: Most cancer patients experience a fever at some point, particularly if the cancer or

its treatment (including chemotherapy and radiation) affects the immune system and reduces

resistance to infection. Less often, fever may be an early sign of cancer, such as with

leukemia or lymphoma.

Neurological and muscular symptoms: Cancer can grow directly onto or compress nerves, causing

any of several neurological and muscular symptoms, including a change in sensation (such as

tingling sensations) or muscle weakness. When a cancer grows in the brain, symptoms may be

hard to pinpoint but can include confusion, dizziness, headaches, nausea, changes in vision,

and seizures.

Pain: Pain is normally present when cancer progresses. However, pain can be present early on

in some cancers, such as bone or testicular cancers.

Respiratory symptoms: Cancer can compress or block physical structures, such as the airways

in the lungs or trachea, causing shortness of breath, cough, or pneumonia. Shortness of

breath can also occur when the cancer causes a fluid or bleeding into the lungs or anemia (a

lack of red blood cells which carry oxygen to tissues).

Skin changes: Skin changes such as jaundice, hyperpigmentation (darkening of the skin),

abnormal hair growth, erythema (reddening), boils, and skin itchiness can indicate certain

types of cancers.

Unintentional weight loss: Most individuals with cancer will lose weight at some time with

their disease. Losing 10 or more pounds without dieting or intending to lose weight can be

one of the first symptoms experienced with cancer, particularly cancers of the pancreas,

stomach, esophagus, or lung.

Specific symptoms:

Bladder cancer: Individuals with bladder cancer may have blood in the urine, pain or burning

upon urination, frequent urination, or cloudy urine.

Bone cancer: Individuals with bone cancer may often experience pain in the bone or swelling

around the affected site, fractures in bones, weakness, fatigue, weight loss, repeated

infections, nausea, vomiting, constipation, problems with urination, weakness or numbness in

the legs, and/or bumps and bruises that do not heal easily.

Brain cancer: Individuals with brain cancer often experience dizziness, drowsiness, abnormal

eye movements or changes in vision, weakness, loss of feeling in arms or legs or difficulties

in walking, fits or convulsions, changes in personality, memory, or speech, headaches that

tend to be worse in the morning and ease during the day, and headaches that may be

accompanied by nausea or vomiting.

Breast cancer: Although most lumps are not cancerous, individuals with breast cancer may have

a lump or thickening of the breast; the most common sign of breast cancer for both men and

women is a lump or thickening in the breast. Often, the lump is painless. Other symptoms of

breast cancer may include: a spontaneous clear or bloody discharge from the nipple often

associated with a breast lump, retraction or indentation of the nipple, a change in the size

or contours of the breast, flattening or indentation of the skin over the breast, and redness

or pitting of the skin over the breast (similar to the skin of an orange).

Colorectal cancer: Individuals with colorectal cancer often experience rectal bleeding (red

blood in stools or black stools), abdominal cramps, constipation alternating with diarrhea,

weight loss, loss of appetite, weakness, changes in bowel habits, or pale complexion.

Kidney cancer: Individuals with kidney cancer often experience blood in urine, dull ache or

pain in the back or side, or a lump in the kidney area, sometimes accompanied by high blood

pressure or abnormality in red blood cell count.

Leukemia: Individuals with leukemia often experience weakness, paleness; fever and flu-like

symptoms; bruising and prolonged bleeding; enlarged lymph nodes, spleen, liver; pain in bones

and joints; frequent infections; weight loss; or night sweats.
ng cancer:
Lu Individuals with lung cancer often experience a wheezing, persistent cough for months,

blood-streaked sputum, persistent ache in chest, congestion in lungs, or enlarged lymph nodes

in the neck.

Melanoma: Individuals with melanoma often experience a change in mole or other bump on the

skin, including bleeding or change in size, shape, color, or texture.

Non-Hodgkin's lymphoma: Individuals with non-Hodgkin's lymphoma often experience painless

swelling in the lymph nodes in the neck, underarm, or groin, persistent fever, feeling of

fatigue, unexplained weight loss, itchy skin and rashes, small lumps in skin, bone pain, 
 

swelling in the abdomen, and liver or spleen enlargement.

Oral cancer: Individuals with oral cancer often experience a lump in the mouth, ulceration of

the lip, tongue or inside of the mouth that does not heal within a couple of weeks, dentures

that no longer fit well, or oral pain, bleeding, foul breath, loose teeth, and changes in

speech.

Ovarian cancer: Individuals with ovarian cancer often experience abdominal swelling abnormal

vaginal bleeding (in rare cases), and digestive discomfort.

Pancreatic cancer: Individuals with pancreatic cancer often experience upper abdominal pain

and unexplained weight loss, pain near the center of the back, inability to eat fatty foods

without experiencing gas, bloating, nausea, or vomiting, yellowing of the skin, abdominal

masses, and enlargement of liver and spleen.

Prostate cancer: Individuals with prostate cancer often experience urination difficulties due

to blockage of the urethra, urinary retention creating frequent feelings of urgency to

urinate, especially at night, incomplete bladder emptying, burning or painful urination

bloody urine, tenderness over the bladder, and dull ache in the pelvis or back.

Stomach cancer: Individuals with stomach cancer often experience indigestion or heartburn,

discomfort or pain in the abdomen nausea and vomiting, diarrhea or constipation, bloating

after meals, loss of appetite, weakness and fatigue, and bleeding such as vomiting blood or

blood in the stool.

Uterine cancer: Individuals with uterine cancer often experience abnormal vaginal bleeding, a

watery bloody discharge in postmenopausal women, painful urination, pain during intercourse,

and pain in pelvic area.

Cancer remission: Remission is a period of time when the cancer is responding to treatment or

is under control. Cancer cells stop growing out of control. In a complete remission, all the

signs and symptoms of the disease disappear. It is also possible for a patient to have a

partial remission in which the cancer shrinks but does not completely disappear. Remissions

can last anywhere from several weeks to many years. Complete remissions may continue for

years and be considered cures. If the disease returns, another remission often can occur with

further treatment. A cancer that has recurred may respond to a different type of therapy,

including a different drug combination. Recurrence of cancer may not respond to the same

medications and treatments as the cancer did before remission.

Spontaneous remission of cancer refers to exceptional and unexplained partial or complete

disappearance of cancer without medical intervention.

Diagnosis
Cancer is diagnosed based on an individual's symptoms, the results of a physical examination,

and sometimes the results of screening tests. Confirmation that cancer is present requires

diagnostic tests.

Screening:

Screening tests serve to detect the possibility that a cancer is present before symptoms

occur. Screening tests are an important prophylactic measure for detecting cancer early, and

healthcare professionals recommend cancer screening. Screening tests usually are not perfect;

results are confirmed or disproved with further examinations and tests. Diagnostic tests are

performed once a doctor suspects that an individual has cancer.

Although screening tests can help save lives, they can be costly and can produce

false-positive results, or results that suggest a cancer is present when it actually is not.

False-positive results can create undue psychological stress and can lead to other tests that

are expensive and risky. Screening tests can also produce false-negative results, or results

that show no presence of a cancer that is actually present. However, cancer screening is

important for individuals with risk factors for cancer, including age, race, heredity, and

lifestyle (such as smoking, lack of exercise, or being overweight). The American Cancer

Society has cancer screening guidelines that are widely used by healthcare providers.

Recommendations for cancer screening are influenced by many factors, including age, race,

previous medical history, and lifestyle. These screening recommendations are for individuals

with no symptoms and with an average risk of cancer. For individuals with a higher risk, such

as those with a strong family history of certain cancers or those who have had a previous

cancer, screening may be recommended more frequently or to start at a younger age. Screening

tests other than those listed here may also be recommended. An individual's physician will

help decide when to begin screening and which tests should be used.

Breast cancer: Breast self-examination is recommended monthly after age 20. A physical

examination by a healthcare provider is recommended every three years between the ages of 20

and 39, then yearly. A mammography is recommended yearly starting at age 40.

Cervical cancer: A papanicolaou (Pap) test is recommended yearly for individuals younger than

30 years of age. Some women 65-70 years of age or older who have had three or more normal Pap

tests in a row may choose to stop having cervical cancer screening. For women over 30, some

doctors recommend testing every three years with a conventional Pap test plus the human

papillomavirus DNA test.

Lung cancer: Chest x-ray, sputum cytology (examining the sputum for changes in cells), and

computed tomography (CT) are not recommended on a routine basis. If an individual presents

with symptoms of lung cancer, such as persistent hoarseness or cough, these tests may be

performed.

Prostate cancer: A rectal examination is recommended yearly for men after age 50. A

prostate-specific antigen (PSA) blood test is also recommended yearly after age 50.

Rectal and colon cancer: A stool examination for occult (hidden) blood should be performed

yearly after age 50. A sigmoidoscopic examination should be performed every five years

beginning at age 50, or a colonoscopic examination every 10 years beginning at age 50. In a

sigmoidoscopic exam, the doctor uses a flexible, slender, and lighted tube to examine the

rectum and sigmoid colon (approximately the last two feet of the colon). The test is fast but

can sometimes be uncomfortable. If a polyp or colon cancer is found during this exam, the

doctor will recommend a colonoscopy to look at the entire colon and remove any polyps for

further examination under a microscope.

Skin cancer: A physical examination should be part of a routine checkup. More frequent

examinations may be needed for individuals at high risk for developing skin cancer, such as

those with fair skin or frequent sunburns. Whole-body photography is not routinely needed,

although it may be helpful for those with multiple moles or in whom examination of the skin

is difficult.

Diagnosis:

Generally, when a doctor first suspects cancer, some type of imaging study, such as x-ray,

ultrasonography, computed tomography (CT), or magnetic resonance imaging (MRI) is performed.

Although these tests can show the presence, location, and size of an abnormal mass, they

usually can not confirm that cancer is the cause. Cancer is confirmed by finding cancer cells

on microscopic examination of samples from the suspected area. Usually, the sample must be a

piece of tissue, although sometimes examination of the blood is enough (such as in leukemia).

Obtaining a tissue sample is termed a biopsy. Biopsies can be performed by cutting out a

small piece of tissue with a scalpel (surgical knife), but very commonly the sample is

obtained using a hollow needle. Such tests are commonly done without the need for an

overnight hospital stay and are called outpatient procedures. Doctors often use

ultrasonography or a computerized tomography (CT) scan to guide the needle to the right

location. Because biopsies can be painful, the individual is usually given a local anesthetic

(such as lidocaine or Xylocaine®) to numb the area.

In cases with findings on examination or imaging tests that suggest cancer, measuring blood

levels of tumor markers may provide additional evidence for or against the diagnosis of

cancer. Tumor markers are substances produced by tumor cells or by other cells of the body in

response to cancer or certain benign (non-cancerous) conditions. Tumor markers can be found

in the blood, the urine, the tumor tissue, or in other tissues. Different tumor markers are

found in different types of cancer, and levels of the same tumor marker can be altered in

more than one type of cancer. In addition, tumor marker levels are not altered in all people

with cancer, especially if the cancer is early stage. Some tumor marker levels can also be

altered in patients with non-cancerous conditions. In individuals who have been diagnosed

with certain types of cancer, tumor markers may be useful to monitor the effectiveness of

treatment and to detect possible recurrence of the cancer. For some cancers, the level of a

tumor marker drops following treatment and increases if the cancer recurs. Common cancer

tumor markers include: alpha-fetoprotein (AFP), which may be raised in individuals with colon

cancer; beta2 (ß2)-microglobulin, which may occur in individuals with multiple myeloma;

carcinoembryonic antigen (CEA), which may be raised in individuals with colon cancer;

prostate-specific antigen (PSA), which may be increased in individuals with prostate cancer;

and carbohydrate antigen 27.29 (CA27.29), which may be increased in individuals with breast

cancer. Using tumor markers for cancer diagnosis is beneficial because of the ease of

obtaining and measuring their presence; also, there is less discomfort for patients.

Staging:

After cancer is diagnosed, it is staged. Staging is the process of finding out how far the

cancer has spread. Staging the cancer is a vital step in determining the treatment choices,

and it will also give the healthcare team a clearer idea of the outlook for recovery. There

can be several different processes for staging each individual cancer, such as with brain

cancer, lymphoma, or melanoma.

The TNM system is the most widely used staging. The "T" describes the size of the tumor, and

whether the cancer has invaded nearby tissues and organs. The "N" describes how far the

cancer has spread to nearby lymph nodes. The "M" shows whether the cancer has metastasized

(spread) to other organs of the body. Once the TNM descriptions have been established, they

can be grouped together into a simpler set of stages, stages 0 through stage IV (0-4). In

general, the lower the number, the less the cancer has spread. A higher number, such as stage

IV (4), means a more serious, widespread cancer. A T1N2M0 cancer would be a cancer with a T1

tumor, N2 involvement of the lymph nodes, and no metastases (no spreading through the body).

Complications
Metastasis: Metastasis (spreading) to other organs, such as the liver, pancreas, lungs, and

lymph nodes, may occur causing an increase chance of death. Metastasis allows cancerous cells

to spread to other tissues in the body and more than one body system, causing damage.

Cardiac tamponade: Cardiac tamponade occurs when fluid accumulates in the pericardium or

baglike structure surrounding the heart. This fluid puts pressure on the heart and interferes

with its ability to pump blood. Fluid can accumulate when a cancer invades and irritates the

pericardium.

Pleural effusion: Pleural effusion occurs when fluid accumulates in the pleural cavity

surrounding the lungs, causing shortness of breath.

Superior vena cava syndrome: Superior vena cava syndrome occurs when cancer partially or

completely blocks the superior vena cava, which is a vein that drains blood from the upper

part of the body into the heart. Blockage of the superior vena cava causes the veins in the

upper part of the chest and neck to swell, resulting in swelling of the face, neck, and upper

part of the chest.

Spinal cord compression: Spinal cord compression occurs when cancer compresses the spinal

cord or the spinal cord nerves, resulting in pain and loss of function (such as urinary or

fecal incontinence). The longer the compression of the spinal cord or spinal cord nerves

persists, the less likely normal nerve function will return when the compression is relieved.

Brain dysfunction: Brain dysfunction occurs when the brain functions abnormally as a result

of a cancer growing within the brain, either as a primary brain cancer or more commonly as a

metastasis from a cancer elsewhere in the body. Tumors may develop and put pressure on

sensitive nerves and blood vessels, causing symptoms such as confusion, drowsiness,

agitation, headaches, abnormal vision, abnormal sensations, weakness, nausea, vomiting, and

seizures.

Bleeding: At first, a cancer may bleed slightly because its cells are not well attached to

each other and its blood vessels are fragile. Later, as the cancer enlarges and invades

surrounding tissues, it may grow into a nearby blood vessel, causing bleeding. The bleeding

may be slight and undetectable or detectable only with testing. Such is often the case in

early-stage colon cancer. Or, particularly with advanced cancer, the bleeding may be more

significant, even massive and life threatening. The site of the cancer determines the site of

the bleeding. Cancer anywhere along the gastrointestinal tract can cause bleeding in the

stool. Cancer anywhere along the urinary tract can cause bleeding in the urine. Other cancers

can bleed into internal areas of the body. Bleeding into the lungs can cause the individual

to cough up blood.

Treatment
The number of treatment choices an individual has will depend on the type of cancer, the

stage of the cancer, and other individual factors such as age, health status, and personal

preferences. An individual should discuss all treatment options with their cancer team. It is

important to ask questions and to understand all the cancer treatment options available.

The four major types of treatment for cancer are surgery, radiation, chemotherapy, and

biologic therapies. The specific cancer treatment will be based on the individual's needs.

Certain types of cancer respond very differently to different types of treatment, so

determining the type of cancer is a vital step toward knowing which treatments will be most

effective. The cancer's stage (how widespread it is) will also determine the best course of

treatment, since early-stage cancers respond to different therapies than later-stage ones.

The individual's overall health, lifestyle, and personal preferences will also play a part in

deciding which treatment options will be best.

It is important for individuals to understand the goals of treatment. The treatment can

either be palliative, which helps control symptoms (such as pain), or curative, which may

help cure the cancer and decrease the chances of it returning. The goal of cancer treatments

and therapies is to increase the quality of life for the individual suffering from this

condition.

Chemotherapy:

While surgery and radiation therapy are used to treat localized cancers, chemotherapy is used

to treat cancer cells that have metastasized (spread) to other parts of the body.

Chemotherapy is also used in combination with surgery and/or radiation or to shrink tumors,

which helps surgery be easier on the patient and safer. Depending on the type of cancer and

its stage of development, chemotherapy can be used to cure cancer, to keep the cancer from

spreading, to slow the cancer's growth, to kill cancer cells that may have spread to other

parts of the body, or to relieve symptoms caused by cancer. Not all individuals will respond

the same way to chemotherapy treatments and some individual's will have more success than

others.

Prior to chemotherapy: The individual undergoing chemotherapy may be asked to take some

medications prior to the procedure (called pre-medications), including: steroids, such as

prednisone (Deltasone®) or hydrocortisone (Solu Medrol®); antihistamines (allergy

medications), such as diphenhydramine (Benadryl®); anti-nausea medications, such as

ondansetron (Zofran®); sedatives, such as alprazolam (Xanax®); or antibiotics, such as

levofloxacin (Levaquin®).

During chemotherapy: Individuals will be given the chemotherapy medication(s) by whichever

route the doctor thinks best. Chemotherapy drugs can be given by mouth, injected through a

syringe into a vein, artery, or muscle; given intravenously though an IV drip device; placed

into a catheter (tube) that goes into the bladder, chest cavity, brain, spinal cord, liver,

or abdomen; or, they can be applied to the skin. The decision on what route to use depends on

several factors, mainly the type of tumor and the drug being used.

At the same time, individuals may be given other medications to fight the side effects of

chemotherapy, including steroids, allergy medications (anti-histamines), anti-nausea

medications, sedatives, and antibiotics.

Chemotherapy drugs: Almost all chemotherapy agents currently available kill cancer cells by

affecting DNA synthesis or function, a process that occurs through the cell cycle. Each drug

varies in the way this occurs within the cell cycle.

The major categories of chemotherapy agents are alkylating agents, antimetabolites, plant

alkaloids, antitumor antibiotics, and steroid hormones. Each drug is categorized according to

their effect on the cell cycle and cell chemistry.

Alkylating agents kill cells by directly attacking DNA. Alkylating agents may be used in the

treatment of chronic leukemias, Hodgkin's disease, lymphomas, and certain carcinomas of the

lungs, breasts, prostate, and ovaries. Cyclophosphamide (Cytoxan®) is an example of a

commonly used alkylating agent.

Nitrosoureas act similarly to akylating agents and also inhibit changes necessary for DNA

repair. These agents cross the blood-brain barrier and are therefore used to treat brain

tumors, lymphomas, multiple myeloma, and malignant melanoma. Carmustine (BCNU or BiCNU®) and

lomustine (CCNU, or CeeNU®) are the major drugs in this category.

Antimetabolites are drugs that block cell growth by interfering with certain activities,

usually DNA synthesis. Once ingested into the cell, they halt normal development and

reproduction. Antimetabolites may be used in the treatment of acute and chronic leukemias,

choriocarcinoma, and some tumors of the gastrointestinal tract, breast, and ovary. Examples

of commonly used antimetabolites are 6-mercaptopurine (Purinethol®) and 5-fluorouracil (5FU,

or Leucovorin®).

Antitumor antibiotics are a diverse group of compounds. In general, they act by binding with

DNA and preventing RNA synthesis. These agents are widely used in the treatment of a variety

of cancers. The most commonly used drugs in this group are doxorubicin (Adriamycin®),

mitomycin-C (Mutamycin®), and bleomycin (Blenoxane®).

Mitotic inhibitors are compounds derived from natural substances that inhibit mitosis (a

stage of division) or cellular reproduction. Examples include: paclitaxel (Taxol®), docetaxel

(Taxotere®), ixabepilone (Ixempra®), and estramustine (Emcyt®). Ixabepilone (Ixempra®) was

approved by the U.S. Food and Drug Administration in October 2007 for use in patients with

metastatic or locally advanced breast cancer who have not responded to certain other cancer

drugs.

Plant (vinca) alkaloids are also examples of mitotic inhibitors, which are derived from the

periwinkle plant (Vinca sp.). These drugs act specifically by blocking cell division during

mitosis. They are commonly used in the treatment of acute lymphoblastic leukemia, Hodgkin's

and non-Hodgkin's lymphomas, neuroblastomas, Wilms' tumor, and cancers of the lungs, breasts,

and testes. Vincristine (Oncovin®) and vinblastine (Velbe®) are commonly used agents in this

group.

Steroid hormones are useful in treating some types of tumors. This class includes

adrenocorticosteroids, estrogens, antiestrogens, progesterones, and androgens. Although their

specific mechanism of action is not clear, steroid hormones modify the growth of certain

hormone-dependent cancers. Tamoxifen (Nolvadex®) is an example, which is used for estrogen

dependent breast cancer.

Platinum-based chemotherapy drugs contain the metal platinum. They are used to treat various

types of cancers, including sarcomas, some carcinomas (e.g. small cell lung cancer and

ovarian cancer), lymphomass and germ cell tumors. Examples include platinol (Cisplatin®),

carboplatin (Paraplatin®), and oxaliplatin (Eloxatin®).

Often, a combination of chemotherapy is used instead of a single drug. Chemotherapy is given

in cycles, each followed by a recovery period. The total course of chemotherapy is often

about six months, usually ranging from three to nine months. After a cancer is removed by

surgery, chemotherapy can significantly reduce the risk of cancer returning. The chances of

cancer returning and the potential benefit of chemotherapy depend on the type of cancer and

other individual factors.

After chemotherapy: After chemotherapy, individuals may be given any of the following

medications: anti-nausea drugs, injections of immune-system boosting drugs (to increase white

blood cells that fight potential infections) several days after the chemotherapy has been

given, or other drugs, including steroids, antihistamines, anti-nausea medications,

sedatives, and/or antibiotics.

Side effects of chemotherapy: A major concern with chemotherapy is the possibility of

long-term side effects and complications, such as heart damage, lung damage, liver damage,

and secondary cancers (including leukemia). Although these severe effects occur in only a

small number of people, great effort is being put into finding equally effective regimens

with less toxicity. Drug regimens have been developed that substantially diminish the

likelihood of long-range, life-threatening complications, including acute leukemia in people

who have received multiple courses of chemotherapy and radiation therapy.

Side effects of chemotherapy depend on the type of drugs, the amounts taken, and the length

of treatment. The most common are nausea and vomiting, temporary hair loss, increased chance

of infections, and fatigue (extreme tiredness). Many of these side effects can be

uncomfortable or emotionally upsetting. However, most side effects can be controlled with

medicines, supportive care measures, or by changing the treatment schedule.

Fatigue is one of the most common side effects of radiation and chemotherapy. Like most other

side effects, fatigue will usually disappear once the treatment is complete. Individuals need

to get plenty of rest, eat a well-balanced diet (less meats, dairy, and fats, and more

vegetables), and drink plenty of water.

Hair loss may occur with some types of chemotherapy. Some individuals experience hair loss

during chemotherapy treatments (and sometimes with radiation treatment to the head) while

others do not, even with the same drugs. If hair loss does occur, it usually begins within

two weeks of the start of therapy and gets worse one to two months after the start of

therapy. Hair growth often begins even before therapy is completed. Most people are able to

find suitable ways of managing the hair loss until it grows back, with specially designed

hats, scarves, and wigs.

Medications for side effects of chemotherapy: Some individuals who experience certain side

effects of chemotherapy may be prescribed medications to counteract these effects. Several

drugs are now available for use alone or in combination to help reduce a few of the most

common side effects, such as nausea, vomiting, and fatigue.

Anzemet® (dolasetron mesylate): Anzemet® helps prevent and relieve nausea and vomiting from

surgery or chemotherapy. Researchers believe that nausea and vomiting during chemotherapy is

associated with the release of serotonin from special cells in the small intestine. Anzemet®

blocks these nerve endings in the intestine and prevents signals to the central nervous

system. Anzemet® is available in tablet form and by injection.

Compazine® (prochlorperazine): Prochlorperazine helps control nausea and vomiting after

surgery or chemotherapy. Prochlorperazine is available in capsule, tablet, and liquid form,

and by suppository or injection. Prochlorperazine can cause drowsiness and may interact with

other medications or alcohol.

Kytril® (granisetron hydrochloride): Kytril® is an anti-nausea medication FDA-approved for

patients undergoing chemotherapy. Kytril® is typically given 60 minutes before chemotherapy.

In some cases, a second dose is given about 12 hours after the first dose. Kytril® is

available in tablet form and by injection.

Phenergan® (promethazine): Promethazine has sedative, antihistamine, and mild anti-nausea

properties. It may be used to help prevent or treat nausea due to chemotherapy. Promethazine

may be available in tablet form or as an oral syrup, suppository, or injection.

Procrit® (epoetin alfa): Procrit® helps the body produce more red blood cells, which help

relieve fatigue due to chemotherapy. Since chemotherapy affects both normal and cancerous

cells, it can decrease the number of red blood cells, which leads to anemia (lack of red

blood cells to carry oxygen) and a feeling of extreme tiredness.

Neupogen® (filgrastim): Neupogen® is the trade name for granulocyte colony stimulating factor

(G-CSF, or filgrastim). Neupogen® is a protein-based drug that stimulates the production of

white blood cells. White blood cells are important for protecting the body from infection.

Neupogen® is used to increase white blood cells, and to decrease the risk of infection, in

conditions such as cancer. Neupogen® can be used subcutaneously (SC) or intravenously (IV).

Side effects may include nausea, bone pain, and swelling or redness at the injection site.

Contacting a doctor immediately is recommended by healthcare providers if the individual

develops a fever, chills, sore throat, congestion, diarrhea, or redness, pain, or swelling

around a wound or sore while using Neupogen®.

Zofran® (ondansetron): Zofran® helps to relieve nausea and vomiting associated with

chemotherapy. Zofran® is available in pill form, as a liquid solution, and by injection. The

first dose of Zofran® (tablet form) is usually administered 30 minutes before chemotherapy

and then at regular intervals for one to two days after chemotherapy.

Myelodysplastic syndrome: Myelodysplastic syndromes are diseases of the blood and bone

marrow, often caused by chemotherapy. Blood cells, such as red blood cells that carry oxygen

to tissues and white blood cells that help produce cells for immunity, are damaged by

chemotherapy medicines. Symptoms of myelodysplastic syndrome include fatigue and chronic

tiredness, shortness of breath, chilled sensation, chest pain (occasionally), an increased

susceptibility to infection, and an increased susceptibility to bleeding. Patients who

experience low blood cells counts during chemotherapy may also be given medications to help

raise blood cell or platelet counts. For example, patients who suffer from neutropenia, a

decrease in the number of neutrophils (a type of white blood cell), may be given certain

growth factors, such as the granulocyte-macrophage colony stimulating factor (GM-CSF,

sargramostim, or Leukine®) or Neupogen®.

Radiation therapy:

Radiation therapy uses high-energy rays to kill cancer cells. It is considered a local

therapy, meaning that it should be used to target areas of the body invaded by tumor masses.

A radiation oncologist will plan and supervise therapy. The area to be treated will be

carefully mapped out and the treatment machine will be adjusted so that only the lymphoma

cells are exposed to a full dose of radiotherapy. Because of the need to target the radiation

at exactly the right area of the body, a mold is sometimes made that will help to hold that

part of the body still and in position during the treatment sessions.

Normal cells surrounding the lymphoma are spared the full dose, and these cells are usually

able to repair themselves more easily than lymphoma cells. Therefore, radiotherapy can often

control or destroy lymphoma cells, while causing only temporary damage to normal cells.

Radiotherapy is usually given on an outpatient basis, with the patient visiting the hospital

up to five times a week. Before each treatment, the patient is carefully positioned, usually

lying on a treatment table. Parts of the body that are not being treated may be covered. It

is important to remain completely still during the treatment. Each treatment usually lasts

only a few minutes and causes no discomfort. Although the patient is left alone during the

actual treatment, the radiotherapy technician watches from an observation room and it is

possible to talk to the individual through a microphone. A course of radiotherapy typically

lasts between two and six weeks, depending on the patient's individual circumstances. The

length of radiation treatment varies depending on the stage of the disease. Radiation therapy

may be used alone, but is commonly used in conjunction with chemotherapy.

Depending on how and where the radiation is administered, it may cause certain side effects

such as fatigue (extreme tiredness), loss of appetite, nausea, diarrhea, and skin problems.

Radiation of lymph node areas may result in suppression of the immune system to varying

degrees. Irradiation of the underlying bone and the marrow within the bone may result in

suppression of the blood counts.

Surgery:

Surgery is the treatment of choice for many types of cancer, such as colon or breast.

Treatment depends on the stage of the disease and the overall health of the patient.

Chemotherapy and radiation therapy may be used as adjuvant treatment or in addition to

surgery.

Cryosurgery: During cryosurgery, a doctor uses very cold material, such as liquid nitrogen

spray, or a cold robe to freeze and destroy cancer cells or cells that may become cancerous

(such as irregular cells in the cervix that could become cervical cancer).

Electrosurgery: Electrosurgery is the application of high-frequency electrical currents by a

doctor. These currents can kill cancer cells, such as in the mouth or on the skin.

Laser surgery: Laser surgery is used to treat many types of cancer. Laser therapy uses

high-intensity light to treat cancer and other illnesses. Lasers can be used to shrink or

destroy tumors. Lasers are most commonly used to treat superficial cancers (cancers on the

surface of the body or the lining of internal organs) such as basal cell skin cancer and the

very early stages of some cancers, such as cervical, penile, vaginal, vulvar, and non-small

cell lung cancer.

Mohs' surgery: Mohs' surgery is useful for removing cancer from sensitive areas such as near

the eye. Mohs' surgery is also useful for assessing how deep a cancer is growing. Mohs'

surgery is performed by carefully removing cancer layer by layer with a scalpel or knife.

After removing a layer, the doctor will evaluate the cells under a microscope until all the

abnormal cells have been removed and the surrounding tissue shows no evidence of cancer.

Laparoscopic surgery: In laparoscopic surgery (or minimally invasive surgery), a surgeon uses

a laparoscope to see inside the body without making large incisions. A laparoscope is a

telescopic rod lens system that is usually connected to a video camera. Several small

incisions are made and a tiny camera and surgical tools are inserted into the body. The

surgeon watches a monitor that projects what the camera sees inside the body. The smaller

incisions mean faster recovery and a reduced risk of complications. Laparoscopic surgery is

used in cancer diagnosis, staging, treatment, and symptom relief.

Robotic surgery: In robotic surgery, the surgeon sits away from the operating table and

watches a screen that projects a three-dimensional image of the area being operated on. The

surgeon uses hand controls that tell a robot how to maneuver surgical tools to perform the

operation. Robotic surgery helps the surgeon operate in hard-to-reach areas. But robotic

surgical systems are expensive and require specialized training, so robotic surgery is only

available in specialized medical centers.

Clinical trials:

Human studies of promising new or experimental treatments are known as clinical trials. A

clinical trial is only done when there is some reason to believe that the treatment being

studied may be valuable to the patient. Treatments used in clinical trials are often found to

have real benefits. Clinical trials are not commonly used as treatments for cancer, but are

an option. A doctor will help get information on various clinical trials available for

certain types of cancer. There is no guarantee of success in clinical trials for the

patients, and some individuals will actually not receive medication (the placebo).

Types of clinical trials: There are three phases of clinical trials in which a treatment is

studied before it can be approved by the U.S. Food and Drug Administration (FDA).

Phase I clinical trials: The purpose of a phase I study is to find the best way to give a new

treatment and find out how much of it can be given safely. Doctors watch patients carefully

for any harmful side effects. The treatment has been well tested in lab and animal studies,

but the side effects in patients are not completely known. Doctors running the clinical trial

start by giving very low doses of the drug to the first patients and increasing the dose for

later groups of patients until side effects appear. Although doctors are hoping to help

patients, the main purpose of a phase I study is to test the safety of the drug.

Phase II clinical trials: These studies are designed to see if the drug works. Patients are

given the best dose of the drug (based on the results of the phase I study) and closely

observed for an effect on the cancer. The doctors will also look for side effects.

Phase III clinical trials: Phase III studies are done to see if the new treatment is better

than what is already available. They involve large numbers of patients. One group (the

control group) receives the standard (most accepted) treatment. The other group receives the

new treatment. All patients in phase III studies are closely watched. The study will be

stopped if the side effects of the new treatment are too severe or if one group has had much

better results than the others.

If an individual enrolls in a clinical trial, a team of experts will monitor their progress

very carefully. The study is especially designed to pay close attention to the individual

with cancer. However, there may be risks. Even with animal testing and laboratory studies, it

is difficult to determine what side effects may occur in individuals undergoing clinical

trials for cancer. It is important to discuss all potential risks and benefits carefully with

a healthcare provider before making a decision to enroll in a clinical trial.
 

Other therapies:

Photodynamic therapy: Photodynamic therapy (PDT) is another type of cancer treatment that

uses lasers. In PDT, a drug called a photosensitizer or photosensitizing agent is injected

into a patient and absorbed by cells all over the individual's body. After a couple of days,

the agent is found mostly in cancer cells. Laser light is then used to activate the agent and

destroy cancer cells. Because the photosensitizer makes the skin and eyes sensitive to light

for approximately six weeks, individuals undergoing PDT are advised to avoid direct sunlight

and bright indoor light during that time.

Perillyl alcohol: Perillyl alcohol is a naturally occurring chemical with anticancer

activity. Perillyl alcohol is found in lavender, cherries, and mint. The use of perillyl

alcohol for cancer treatments is in phase I clinical trials.

Laetrile: Laetrile is a substance derived from a chemical called amygdalin, which is found in

the seeds of apricots, plums, and bitter almonds. Laetrile is publicized as an antineoplastic

(prevents the development of a tumor or neoplasm) drug, although there is no supporting

evidence.

Pain control:

Pain may be acute or chronic. Acute pain is severe and lasts a relatively short time. It is

usually a signal that body tissue is being injured in some way, and the pain generally

disappears when the injury heals. Chronic or persistent pain may range from mild to severe,

and it is present to some degree for long periods of time. Some individuals with chronic pain

that is controlled by medicine can have breakthrough pain. This occurs when moderate to

severe pain "breaks through" or is felt for a short time. Breakthrough pain may occur several

times a day, even when the proper dose of medicine is given for chronic and persistent pain.

Pain may be caused by the cancer itself. Whether the individual has pain and the amount of

pain they have may depend on the type of cancer, the stage (extent) of the disease, and the

individual's pain threshold (tolerance for pain). Most of the pain comes when a tumor presses

on bones, nerves, or body organs. Pain can also be caused by the treatment or procedures for

diagnosing cancer.

Cancer pain is usually treated with analgesic (pain relieving) drugs, both prescription and

non-prescription, and with non-drug treatments such as relaxation techniques, biofeedback,

imagery, and others. Healthcare providers recommend asking a doctor or pharmacist for advice

before taking any medicine for pain.

Pain will generally be graded on a Pain Intensity Scale. Using a pain scale is helpful in

describing how much pain a patient is feeling. Using the Pain Intensity Scale, individuals

answer questions and assign a number from zero to 10 according to their pain level. No pain

gets a zero, while a 10 is the highest level of pain imaginable. Questions can include the

severity of pain, how pain changes with medication, and how bad the pain is during the day

and night. If one medicine or treatment does not work for the pain, there is almost always

another one that can be tried. Changes may also be made in the frequency and dosages to help

increase the pain relief.

Medications for pain: The type of medicine and the method by which the medicine is given

depend on the type and cause of pain. Non-opiate (non-narcotic) pain medications are given

for mild to moderate pain. These drugs can generally be purchased over-the-counter (OTC) and

may include acetaminophen, aspirin, and nonsteroidal anti-inflammatory drugs (NSAIDs), such

as ibuprofen (Motrin®). It is best to check with a healthcare professional before taking any

OTC medication. NSAIDs can slow blood clotting, especially if the individual is on

chemotherapy due to drug interactions.

For moderate to severe pain, opiate (narcotic) medications may be given. These drugs include

morphine (MS Contin®), fentanyl (Duragesic®), hydromorphone (Dilaudid®), and oxycodone

(Percocet®, Oxycontin®). Individuals must have a prescription for these medications, and the

medications are generally time released, meaning their effects last more than a few hours.

Nonopiods may be used along with opioids for moderate to severe pain. Opiate medications may

cause side effects such as drowsiness and constipation. Their use may also cause addiction,

both physical and psychological, in a short length of time. For breakthrough pain,

immediate-release opiates may be given, such as oral morphine (Oramorph®) or oxycodone

(Roxicodone®). A prescription is required for these medicines. A short-acting opioid, which

relieves breakthrough pain quickly, needs to be used with a long-acting opioid for persistent

pain. It is important to tell a doctor or pharmacist if taking any OTC medication, as some

OTC medicines may contain acetaminophen (Tylenol®). Some prescription pain medications, such

as oxycodone/acetaminophen combination (Percocet®) or hydrocodone/acetaminophen (Lortab®,

Vicodin®) may also contain acetaminophen, thereby increasing the potential for acetaminophen

induced liver toxicity.

Individuals who take opiates for pain sometimes find that over time they need to take larger

doses. This may be due to an increase in the pain or the development of drug tolerance. Drug

tolerance occurs when the body gets used to the medicine and does not relieve the pain as

well as it once did. Many individuals do not develop a tolerance to opiates. If tolerance

does develop, usually small increases in the dose or a change in the kind of medicine will

help relieve the pain. Increasing the doses of opiates to relieve increasing pain or to

overcome drug tolerance does not always lead to addiction. Alcohol should be avoided when

taking medications for pain due to a potential for interactions. Using alcohol in combination

with pain medications can lead to overdose symptoms such as weakness, difficulty in

breathing, confusion, anxiety, or more severe drowsiness or dizziness. It is recommended to

use caution when driving automobiles or operating heavy machinery when taking opiate pain

medications. Medications for pain may also cause nausea and vomiting in sensitive

individuals.

For tingling and burning pain associated with some cancers, antidepressant medications (such

as amitriptyline or Elavil®) or anticonvulsant medications (such as gabapentin or Neurontin®)

may be used. Both these medications may cause drowsiness and sedation.

For pain caused by swelling, steroid medications, including prednisone (Deltasone®), may be

used. Side effects of steroid medications include edema (swelling) and a decline in immune

system function.

Pain medications may be given by several different routes, including orally (by mouth),

topically (on the skin), and rectally (into the anus as a suppository). Pain medications may

also be given by injection, including: subcutaneous (SC) injection or injected just under the

skin using a small needle), intravenous (IV) or injected directly into the vein through a

needle, and intrathecal and epidural injections that are placed directly into the fluid

around the spinal cord (intrathecal) or into the space around the spinal cord (epidural).

Patient-controlled analgesia (PCA) pumps may also be used. PCA pumps help control the amount

of pain medicine an individual takes. When pain relief is needed, the individual can receive

a preset dose of pain medicine by pressing a button on a computerized pump that is connected

to a small tube placed in the body using a minor surgical technique.

Non-drug treatments for pain: Non-drug treatments are now widely used to help manage cancer

pain. There are many techniques that are used alone or along with medicine. Some individuals

find they can take a lower dose of medicine with such techniques. These methods include:

acupuncture, art therapy, focusing, healing touch, prayer, psychotherapy, transcutaneous

electrical nerve stimulation (TENS), and yoga. See the "Integrative Therapies" section of

this monograph for more information on these techniques.

Support groups:

Resources exist that provide cancer patients and their loved ones with an opportunity to

learn ways of coping with the uncertainty that cancer brings and links to support groups that

give them a chance to meet others who face similar issues. Support groups offer patients and

loved ones emotional support, an opportunity to learn ways of coping with the uncertainty and

changes in their lives, a chance to meet others who face similar issues, and a time to

explore issues faced by all cancer survivors. Support groups for cancer patients can be

located by asking a healthcare provider, such as a doctor or social worker, for more

information.

Integrative Therapies
Strong scientific evidence:

Vitamin A: Vitamin A is a fat-soluble vitamin that is derived from two sources: preformed

retinoids and provitamin carotenoids. Retinoids, such as retinal and retinoic acid, are found

in animal sources such as livers, kidneys, eggs, and dairy produce. Carotenoids, like

beta-carotene (which has the highest vitamin A activity), are found in plants such as dark or

yellow vegetables and carrots.

The prescription drug All-Trans-Retinoic Acid (ATRA, Vesanoid®) is a vitamin A derivative

that is an established treatment for acute promyelocytic leukemia and improves median

survival in this disease. Treatment should be under strict medical supervision. Vitamin A

supplements should not be used simultaneously with ATRA due to a risk of increased toxicity.

Good scientific evidence:

Psychotherapy: Psychotherapy is an interactive process between a person and a qualified

mental health professional (psychiatrist, psychologist, clinical social worker, licensed

counselor, or other trained practitioner). There is good evidence that psychotherapy can

enhance cancer patients' quality of life by reducing emotional distress and aiding in coping

with the stresses and challenges of cancer. Therapy may be supportive-expressive therapy,

cognitive therapy, or group therapy. Studies conflict on whether therapy improves

self-esteem, death anxiety, self-satisfaction, etc. While some patients seek psychotherapy in

hopes of extending survival, there is no conclusive evidence of effects on medical prognosis.

Unclear or conflicting scientific evidence:

Acupuncture: Acupuncture, or the use of needles to manipulate the "chi" or body energy,

originated in China over 5,000 years ago. There has been limited research on acupuncture for

cancer pain, and the research that was done was shown to have mixed results. More studies are

needed to determine potential benefits. Evidence from several small studies supports the use

of acupuncture at a specific point on the wrist (P6), which helps reduce the nausea and

vomiting associated with chemotherapy.

Aloe: Transparent gel from the pulp of the meaty leaves of Aloe vera has been used topically

for thousands of years to treat wounds, skin infections, burns, and numerous other

dermatologic conditions. Preliminary research suggests that aloe may help prevent or aid in

the regression of cancerous tumors. Additional research is needed in this area. Caution is

advised when taking aloe supplements, as numerous adverse effects including a laxative

effect, cramping, dehydration, and drug interactions, are possible. Aloe should not be used

if the patient is pregnant or breastfeeding, unless otherwise directed by a doctor.

American pawpaw: Evidence supporting the use of the American pawpaw (Asimina triloba) tree

for the treatment of cancer in humans is largely anecdotal and subjective. Use in humans has

reported minimal side effects, and evidence from animal and in vitro studies suggests that

American pawpaw extract does have some anticancer activity. Pawpaw standardized extract has

been used for 18 months in patients with various forms of cancer. No well-designed studies on

the long-term effects of pawpaw extracts have been conducted. Pawpaw should not be used if

the patient is pregnant or breastfeeding, unless otherwise directed by a doctor.

Antineoplastons: Antineoplastons are a group of naturally occurring peptide fractions

isolated from human blood and urine. Antineoplastonswere observed by Stanislaw Burzynski, MD,

PhD in the late 1970s and found to be absent in the urine of cancer patients. There is

inconclusive scientific evidence regarding the effectiveness of antineoplastons in the

treatment of cancer. Several preliminary human studies (case series, phase I/II trials) have

examined antineoplaston types A2, A5, A10, AS2-1, and AS2-5 for a variety of cancer types. It

remains unclear if antineoplastons are effective, or what doses may be safe. Until better

research is available, no clear conclusion can be drawn.

Arabinoxylan: Arabinoxylan is made by altering the outer shell of rice bran using enzymes

from Hyphomycetes mycelia mushroom extract. Arabinoxylan has been found to improve immune

reactions in diabetes and cancer patients. Arabinoxylan products may contain high calcium and

phosphorus levels, which may be harmful for patients with compromised renal (kidney)

function.

Aromatherapy: Healing with fragrant oils has been used for thousands of years. Aromatherapy

is often used in people with chronic illnesses (frequently in combination with massage), with

the intention to improve quality of life or well-being. There is not enough scientific

evidence in this area to form a firm conclusion about the effectiveness of aromatherapy.

Essential oils are not for internal use.

Art therapy: Art therapy involves the application of a variety of art modalities including

drawing, painting, clay, and sculpture. Art therapy enables the expression of inner thoughts

or feelings when verbalization is difficult or not possible. Limited evidence suggests that

family caregivers of cancer patients may benefit from art therapy to help them cope with the

stress of care giving. Possible benefits include reduced stress, lowered anxiety, increased

positive emotions, and increased positive communication with cancer patients and healthcare

professionals. Art therapy may also reduce pain and other symptoms in cancer patients. More

studies are needed to determine how best to use this form of intervention with this

population.

Astragalus: Astragalus (Astragalus membranaceus) has been used in Chinese medicine for

centuries for its immune enhancing properties. Although early laboratory and animal studies

report increased immune cell function and reduced cancer cell growth associated with the use

of astragalus, there is no reliable human evidence in these areas. A recent study reports

that astragalus-based Chinese herbal medicine may increase effectiveness of platinum-based

chemotherapy (such as platinol or Cisplatin®) when combined with chemotherapy. Astragalus is

also sometimes used with the intention to reduce side effects of cancer treatments, such as

fatigue and weight loss. Due to a lack of well-designed research, a firm conclusion cannot be

drawn.

Bee pollen: Bee pollen is considered a highly nutritious food because it contains a balance

of vitamins, minerals, proteins, carbohydrates, fats, enzymes, and essential amino acids.

Research has found that bee pollen may reduce some adverse effects of cancer treatment, but

additional studies are needed before a firm recommendation can be made. Caution is advised

when taking bee pollen supplements as allergic reactions may occur in sensitive individuals.

Bee pollen should not be used if the patient is pregnant or breastfeeding, unless otherwise

directed by a doctor.

Bitter melon: Bitter melon (Momordica charantia) is used in the traditional Ayurvedic form of

medicine from India for lowering blood sugar levels. Research has also found that bitter

melon extracts may be beneficial in cancer therapies. MAP30, a protein isolated from bitter

melon extract, is reported to possess anti-cancer effects in laboratory studies. Potential

anti-cancer effects have not been studied appropriately in humans. Caution is advised when

taking bitter melon supplements, as numerous adverse effects including blood sugar lowering

and drug interactions are possible. Bitter melon should not be used if the patient is

pregnant or breastfeeding, unless otherwise directed by a doctor.

Black tea: Black tea (Camellia sinensis) is from the same plant as green tea, but processed

differently and contains more caffeine than green tea. Several studies have explored a

possible association between regular consumption of black tea and rates of cancer in

populations. This research has yielded conflicting results, with some studies suggesting

benefits and others reporting no effects. Laboratory and animal studies report that

components of tea, such as polyphenols, have antioxidant properties and effects against

tumors. Effects in humans remain unclear, and these components may be more common in green

tea rather than in black tea. Some animal and laboratory research suggests that components of

black tea may actually be carcinogenic, or cancer causing although effects in humans are not

clear. Overall, the relationship of black tea consumption and human cancer remains

undetermined.

Bromelain: Bromelain is a sulfur-containing proteolytic digestive enzyme that is extracted

from the stem and the fruit of the pineapple plant (Ananas comosus). There is not enough

information to recommend for or against the use of bromelain in the treatment of cancer,

either alone or in addition to other therapies. Caution is advised when taking bromelain

supplements, as numerous adverse effects including blood thinning and drug interactions are

possible.

Cat's claw: Originally used in Peru, the use of cat's claw (Uncaria tomentosa) has been said

to date back to the Inca civilization, possibly as far back as 2,000 years. Cat's claw has

anti-inflammatory properties, and several low-quality studies suggest it may slow tumor

growth; however, this research is early and has not identified specific types of cancer that

may benefit. A few studies suggest that cat's claw may also boost the immune system. Caution

is advised when taking cat's claw supplements, as numerous adverse effects including blood

thinning and drug interactions are possible. Cat's claw should not be used if the patient is

pregnant or breastfeeding, unless otherwise directed by a doctor.

Copper: Copper is a mineral that occurs naturally in many foods, including vegetables,

legumes, nuts, grains and fruits, as well as shellfish, avocado, and beef (organs such as

liver). Preliminary research reports that lowering copper levels theoretically may arrest the

progression of cancer by inhibiting blood vessel growth (angiogenesis). Copper intake has not

been identified as a risk factor for the development or progression of cancer. Copper is

potentially unsafe when used orally in higher doses than the recommended dietary allowance

(RDA). Copper supplements should not be used if the patient is pregnant or breastfeeding,

unless otherwise directed by a doctor.

Cranberry: Several laboratory studies have reported positive effects of proanthocyanidins,

flavonoid components of cranberry (Vaccinium macrocarpon) and other fruits such as

blueberries, grape seed, and pomegranate, on health. Based on a small amount of laboratory

research, cranberry has been proposed for cancer prevention, but studies are needed in humans

before a recommendation can be made.

Echinacea: The evidence from a small number of randomized trials evaluating efficacy of

Echinacea in the treatment of radiation-induced leukopenia (decrease in white blood cells) is

equivocal. Studies have used the combination product Esberitox®, which includes extracts of

Echinacea (Echinacea purpurea and pallida) root, white cedar (Thuja occidentalis) leaf, and

wild indigo (Baptisia tinctoria) root.

Essiac®: Essiac® contains a combination of herbs, including burdock root (Arctium lappa),

sheep sorrel (Rumex acetosella), slippery elm inner bark (Ulmus fulva), and Turkish rhubarb

(Rheum palmatum). The original formula was developed by the Canadian nurse Rene Caisse

(1888-1978) and is thought to be effective in cancer therapies, although there is currently

no evidence for any type of cancer. Different brands may contain variable ingredients, and

the comparative effectiveness of these formulas is not known. None of the individual herbs

used in Essiac® have been tested in rigorous human cancer trials, although some components

have anti-tumor activity in laboratory studies. Caution is advised when taking Essiac®

supplements, as numerous adverse effects, including drug interactions, are possible. Essiac®

should not be used if the patient is pregnant or breastfeeding, unless otherwise directed by

a doctor.

Focusing: Focusing (experiential therapy) is a method of psychotherapy that involves being

aware of one's feelings surrounding a particular issue and understanding the meaning behind

words or images conveyed by those feelings. Early evidence suggests that focusing may improve

the mood and body attitude of cancer patients. Firm recommendations cannot be made until

well-designed clinical trials are available.

Garlic: Preliminary human studies suggest that regular consumption of garlic (Allium sativum,

particularly aged garlic) may reduce the risk of developing several types of cancer. Some

studies use multi-ingredient products so it is difficult to determine if garlic alone may

play a beneficial role. Further well-designed human clinical trials are needed to conclude

whether eating garlic or taking garlic supplements may prevent or treat cancer. Caution is

advised when taking garlic supplements, as numerous adverse effects, including an increased

risk of bleeding and drug interactions, are possible.

Ginseng: Several human studies suggest that Asian ginseng (Panax ginseng) may reduce the risk

and progression of various organ cancers, especially if ginseng powder or extract is used.

Results may have been affected by other lifestyle choices in people who use ginseng, such as

exercise or dietary habits. Asian ginseng is also reported to help protect against radiation

damage, increase immunity and well-being, and decrease fatigue. Additional trials are

necessary before a clear conclusion can be reached. Caution is advised when taking ginseng

supplements, as numerous adverse effects including an increased risk of drug interactions are

possible. Ginseng should not be used if the patient is pregnant or breastfeeding, unless

otherwise directed by a doctor.

Green tea: Green tea is made from the dried leaves of Camellia sinensis, a perennial

evergreen shrub. Green tea has a long history of use in health and longevity, dating back to

China approximately 5,000 years ago. Although used for centuries to help prevent diseases,

the relationship of green tea consumption and human cancer remains inconclusive. Evidence

from well-designed clinical trials is needed before a firm recommendation can be made in this

area.

Healing touch (HT): Preliminary data suggests HT may be of benefit in cancer patients for

inducing relaxation and improving quality of life. However, due to weaknesses in design and

the small number of studies, data are insufficient to make definitive recommendations.

Studies with stronger designs are needed.

Hoxsey formula: "Hoxsey formula" is a misleading name, because it is not a single formula,

but rather it is a therapeutic regimen consisting of an oral tonic and topical (on the skin)

preparations. The tonic is individualized for cancer patients based on general condition,

location of cancer, and previous history of treatment. An ingredient that usually remains

constant for every patient is potassium iodide. Other ingredients are then added and may

include licorice, red clover, burdock, stillingia root, berberis root, pokeroot, cascara,

Aromatic USP 14, prickly ash bark, and buckthorn bark. A red paste may be used, which tends

to be caustic (irritating), and contains antimony trisulfide, zinc chloride, and bloodroot. A

topical yellow powder may be used, and contains arsenic sulfide, talc, sulfur, and a "yellow

precipitate." A clear solution may also be administered, and contains trichloroacetic acid.

There are no well-designed human studies available evaluating the safety or effectiveness of

Hoxsey formula. Caution is advised when taking the Hoxsey formula supplements, as numerous

adverse effects including an increased risk of drug interactions are possible. Hoxsey formula

should not be used if the patient is pregnant or breastfeeding, unless otherwise directed by

a doctor.

Hydrazine sulfate: Hydrazine is an industrial chemical marketed as having the potential to

repress weight loss and cachexia (muscle wasting) associated with cancer, and to improve

general appetite status. In large randomized controlled trials, hydrazine has not been found

effective for improving appetite, reducing weight loss, or improving survival in adults. The

National Cancer Institute (NCI) sponsored studies of hydrazine sulfate that claimed efficacy

in improving survival for some patients with advanced cancer. Trial results found that

hydrazine sulfate did not prolong survival for cancer patients. The U.S. Food and Drug

Administration (FDA) has received requests from individual physicians for approval to use

hydrazine sulfate on a case-by-case "compassionate use" basis on the chance that patients

with no other available effective therapy might benefit. The overall controversy in the use

of hydrazine sulfate is ongoing, and relevance to clinical practice is unknown. The use of

hydrazine sulfate needs to be evaluated further before any recommendations can be made. Side

effects have been reported, including nausea, vomiting, stomach cramping, and diarrhea.

Lycopene: High levels of lycopene are found in tomatoes and in tomato-based products.

Tomatoes are also sources of other nutrients such as vitamin C, folate, and potassium.

Several laboratory and human studies examining tomato-based products and blood lycopene

levels suggest that lycopene may be associated with a lower risk of developing cancer and may

help stimulate the immune system. However, due to a lack of well-designed human research

using lycopene supplements, this issue remains unclear.

Maitake mushroom: Maitake is the Japanese name for the edible fungus Grifola frondosa.

Maitake has been used traditionally both as a food and for medicinal purposes. Early studies

in the laboratory as well as in humans suggest that beta-glucan extracts from maitake may

increase the body's ability to fight cancer. These studies have not been well designed, and

better research is needed before the use of maitake for cancer can be recommended.

Melatonin: There are several early-phase and controlled human trials of melatonin in patients

with various advanced stage malignancies, including brain, breast, colorectal, gastric,

liver, lung, pancreatic, and testicular cancer, as well as lymphoma, melanoma, renal cell

carcinoma, and soft-tissue sarcoma. Currently, no clear conclusion can be drawn in this area.

There is not enough definitive scientific evidence to discern if melatonin is beneficial

against any type of cancer, whether it increases (or decreases) the effectiveness of other

cancer therapies, or if it safely reduces chemotherapy side effects. Melatonin is not to be

used for extended periods of time. Caution is advised when taking melatonin supplements, as

numerous adverse effects including drug interactions are possible.

Mistletoe: Mistletoe is one of the most widely used unconventional cancer treatments in

Europe. Extracts have been studied for a variety of human cancers including bladder, breast,

cervical, CNS, colorectal, head and neck, liver, lung, lymphatic, ovarian, and renal (kidney)

cancers as well as melanoma and leukemia. Efficacy has not been conclusively proven for any

one condition, and in fact some studies have shown a lack of efficacy in certain preparations

for a variety of cancers. Larger, well-designed clinical trials are needed. Caution is

advised when taking mistletoe supplements, as numerous adverse effects including nausea,

vomiting, and drug interactions are possible. Mistletoe should not be used if the patient is

pregnant or breastfeeding, unless otherwise directed by a doctor.

Moxibustion: Moxibustion is a healing technique employed across the diverse traditions of

acupuncture and oriental medicine for over 2,000 years. Moxibustion uses the principle of

heat to stimulate circulation and break up congestion or stagnation of blood and chi.

Moxibustion is more closely related to acupuncture as it is applied to specific acupuncture

points. More studies are needed.

Oleander: Laboratory studies of oleander (Nerium oleander) suggest possible anti-cancer

effects, although reliable research in humans is not currently available. There are reports

that long-term use of oleander may have positive effects in patients with leiomyosarcoma,

Ewing's sarcoma, prostate, or breast cancer. More research is needed.

Omega-3 fatty acids: Omega-3 fatty acids are essential fatty acids found in some plants and

fish. There should be a balance of omega-6 and omega-3 fatty acids for health. Randomized

controlled trials are necessary before a clear conclusion can be drawn. Caution is advised

when taking omega-3 supplements, as numerous adverse effects including an increase in

bleeding and drug interactions are possible. Omega-3 supplements should not be used if the

patient is pregnant or breastfeeding, unless otherwise directed by a doctor.

Prayer: Initial studies in patients with cancer (such as leukemia) report variable effects on

disease progression or death rates when intercessory prayer is used. Better quality research

is necessary before a firm conclusion can be drawn. Prayer helps give individuals suffering

from cancer a sense of hope.

Reishi mushroom: Reishi (Ganoderma lucidum) has been shown to have antineoplastic and

immunomodulatory effects in animal studies. One clinical trial and two case reports exist on

advanced cancer patients using Ganopoly®, a Ganoderma lucidum polysaccharide extract. Results

show improved quality of life and enhanced immune responses, which are typically reduced or

damaged in cancer patients receiving chemotherapy and/or radiation therapy. Well-designed

long-term studies are needed to confirm these results and potential side effects.

Seaweed: Bladderwrack (Fucus vesiculosus) is a brown seaweed that grows on the northern

coasts of the Atlantic and Pacific oceans, and the North and Baltic seas. Bladderwrack

appears to suppress the growth of various cancer cells in animal and laboratory studies.

Currently, there are no reliable human studies available to support a recommendation for use

in cancer. Bladderwrack should not be used if the patient is pregnant or breastfeeding, or

has hyperthyroidism (increased thyroid hormone), unless otherwise directed by a doctor.

Selenium: Selenium is a trace mineral found in soil, water, and some foods, and it is an

essential element in several metabolic pathways. Several studies suggest that low levels of

selenium (measured in the blood or in tissues such as toenail clippings), may be a risk

factor for developing cancer, particularly prostate cancer. Population studies suggest that

people with cancer are more likely to have low selenium levels than healthy matched

individuals, but in most cases it is not clear if the low selenium levels are a cause or

merely a consequence of disease. It remains unclear if selenium is beneficial in the

treatment of any type of cancer.

Shark cartilage: For several decades, shark cartilage has been proposed as a cancer

treatment. Studies have shown shark cartilage or the shark cartilage product AE-941

(Neovastat®) to block the growth of new blood vessels, a process called "anti-angiogenesis,"

which is believed to play a role in controlling growth of some tumors. There have also been

several reports of successful treatments of end-stage cancer patients with shark cartilage,

but these have not been well-designed or included reliable comparisons to accepted

treatments.

Many studies have been supported by shark cartilage product manufacturers, which may

influence the results. In the United States, shark cartilage products cannot claim to cure

cancer, and the U.S. Food and Drug Administration (FDA) has sent warning letters to companies

that promote products in this way. Without further evidence from well-designed human trials,

it remains unclear if shark cartilage is of any benefit in cancer and patients are advised to

check with their doctor and pharmacist before taking shark cartilage.

Shiitake mushroom: Shiitake (Lentinus edodes) has been taken by mouth for boosting the immune

system, decreasing cholesterol levels, and for anti-aging. Lentinan, derived from shiitake,

has been injected as an adjunct treatment for cancer and HIV infection. Laboratory, animal,

and human studies of lentinan have shown positive results in cancer patients when used in

addition to chemotherapy drugs. Further well-designed clinical trials on all types of cancer

are required to confirm these results.

Soy: Soy (Glycine max) contains compounds that have been effective against tumors. Genistein,

an isoflavone found in soy, has been found in laboratory and animal studies to possess

anti-cancer effects, such as blocking new blood vessel growth (anti-angiogenesis), acting as

a tyrosine kinase inhibitor (a mechanism of many new cancer treatments), or causing cancer

cell death (apoptosis). Until reliable human research is available, it remains unclear if

dietary soy or soy isoflavone supplements are beneficial, harmful, or neutral in people with

various types of cancer. Caution is advised when taking soy supplements, as numerous adverse

effects including an increased risk of drug interactions are possible.

Transcutaneous electrical nerve stimulation (TENS): Transcutaneous electrical nerve

stimulation (TENS) is a non-invasive technique in which a low-voltage electrical current is

delivered through wires from a small power unit to electrodes located on the skin. Although

TENS has been used with some success in pain associated with cancer, there is not enough

reliable evidence to draw a firm conclusion in this area.

Thiamin (Vitamin B1): Thiamin deficiency has been observed in some cancer patients, possibly

due to increased metabolic needs. It is not clear if lowered levels of thiamin in such

patients may actually be beneficial. Currently, it remains unclear if thiamin supplementation

plays a role in the management of any particular type(s) of cancer.

Traditional Chinese medicine (TCM): The ancient Chinese philosophy of Taoism provided the

basis for the development of Chinese medical theory. TCM uses over 120 different herbs in

cancer treatment, dependent upon the type and cause of the cancer. Studies have reported

significant benefits include reducing tumors, reducing treatment side effects, and improved

response to treatment. More studies of stronger design are needed before TCM can be

recommended with confidence as an adjunct to cancer treatment, although centuries of

traditional use in cancer cannot be discounted.

Turmeric: Turmeric (Curcuma longa) is commonly used for its anti-inflammatory properties.

Several early animal and laboratory studies report anti-cancer (colon, skin, breast)

properties of curcumin. Many mechanisms have been considered, including antioxidant activity,

anti-angiogenesis (prevention of new blood vessel growth), and direct effects on cancer

cells. Currently, it remains unclear if turmeric or curcumin has a role in preventing or

treating human cancers. There are several ongoing studies in this area. Caution is advised

when taking turmeric supplements, as numerous adverse effects including an increased risk of

bleeding and drug interactions are possible.

Vitamin C (ascorbic acid): Dietary intake of fruits and vegetables high in vitamin C has been

associated with a reduced risk of various types of cancer in population studies (particularly

cancers of the mouth, esophagus, stomach, colon, or lung). However, it is not clear that it

is specifically the vitamin C in these foods that is beneficial, and vitamin C supplements

have not been found to be associated with this protective effect. Experts have recommended

increasing dietary consumption of fruits and vegetables high in vitamin C, such as apples,

asparagus, berries, broccoli, cabbage, melon (cantaloupe, honeydew, watermelon), cauliflower,

citrus fruits (lemons, oranges), fortified breads/grains/cereal, kale, kiwi, potatoes,

spinach, and tomatoes. Vitamin C has a long history of adjunctive use in cancer therapy, and

although there have not been any definitive studies using intravenous (or oral) vitamin C,

there is evidence that it has benefit in some cases. Better-designed studies are needed.

Large doses (greater than 2 grams) may cause diarrhea and gastrointestinal upset.

Vitamin E: There is no reliable scientific evidence that vitamin E is effective as a

treatment for any specific type of cancer. Caution is merited in people undergoing treatment

with chemotherapy or radiation, because it has been proposed that the use of high-dose

antioxidants may actually reduce the anti-cancer effects of these therapies. This remains an

area of controversy and studies have produced variable results. Patients interested in using

high-dose antioxidants such as vitamin E during chemotherapy or radiation should discuss this

decision with their medical oncologist or radiation oncologist. Caution is advised when

taking vitamin E supplements, as numerous adverse effects including an increased risk of

bleeding and drug interactions are possible.

Yoga: Yoga is an ancient system of relaxation, exercise, and healing with origins in Indian

philosophy. Several studies in cancer patients report enhanced quality of life, lower sleep

disturbance, decreased stress symptoms, and changes in cancer-related immune cells after

patients received relaxation, meditation, and gentle yoga therapy. Yoga is not recommended as

a sole treatment for cancer, but may be helpful as an adjunct therapy.

Fair negative scientific evidence:

Integrative therapies used in cancer therapies that have fair negative scientific evidence

include: apricot (Prunus armeniaca), beta-carotene, flaxseed and flaxseed oil (Linum

usitatissimum), hypnotherapy, and iridology.

Traditional or theoretical uses which lack scientific evidence:

Integrative therapies with historical or theoretical uses in cancer but lack sufficient

clinical evidence include: acerola (Malpighia glabra, Malpighia punicifolia), aconite

(Aconitum napellus), African wild potato (Hypoxis hemerocallidea), alfalfa (Medicago sativa),

andrographis (Andrographis paniculata Nees, Kan Jang®, SHA-10), l-arginine, ashwagandha

(Withania somnifera), asparagus (Asparagus officinalis), barley (Hordeum vulgare), bilberry

(Vaccinium myrtillus), boron, bupleurum (Bupleurum falcatum), chicory (Cichorium intybus),

DHEA, feverfew (Tanacetum parthenium), garcinia (Garcinia cambogia), hydroxycitric acid, holy

basil (Ocimum sanctum), kava kava (Piper methysticum), licorice (Glycyrrhiza glabra), neem

(Azadirachta indica), ozone therapy, PC-SPES, podophyllum (Podophyllum peltatum), pycnogenol

(Pinus pinaster), rehmannia (Rehmannia glutinosa), spiritual healing, sweet almond (Prunus

amygdulus dulcis), thymus extract, watercress (Nasturtium officinale), and yew (Taxus sp.).

Prevention
Chemical exposure reduction: If the individual works with chemicals, such as is the case with

hairdressers, printers, and painters, they should follow all safety instructions to avoid

exposure. If an individual has their own well for water, they may wish to have it tested for

contaminants such as lead and arsenic. Local health departments can be a source of water

testing.

Exercise and weight control: Controlling weight and exercising regularly can reduce the risk

of developing cancer. The American Cancer Society recommends at least 30 minutes of physical

activityfive or more days a week if the individual can tolerate it.

Fruits, vegetables and whole grains: Fruits, vegetables, and whole grains contain vitamins,

minerals, fiber, and antioxidants, which may help protect from developing various types of

cancer. Eating five or more servings of fresh fruits and vegetables every day is important

for health. A variety of produce should be included in the individual's diet such as kale,

chard, spinach, dark green lettuce, peppers, and squashes.

Limit alcohol consumption: Consuming moderate to heavy amounts of alcohol, such as more than

one drink a day for women and two for men, may increase the risk of developing certain

cancers, such as colon and breast cancer. This is particularly true if the individual has a

close relative, such as a parent, child, or sibling with cancer.

Limit fat, especially saturated fat: People who eat high-fat diets may have a higher rate of

cancer, such as colon cancer. It is important to limit saturated fats from animal sources

such as red meat. Other foods that contain saturated fat include milk, cheese, ice cream,

coconut and palm oils. It is best to restrict the total fat intake to about 30% of the daily

calories, with no more than 10% coming from saturated fats.

Screening tests: It is best to follow the early detection screening guidelines to help find

colon, breast, prostate, and other cancers.

Smoking cessation: Smoking can increase the risk of cancers such as lung and bladder.

Vitamins and minerals: Calcium, magnesium, pyridoxine (vitamin B6), and folic acid may help

reduce the risk of colorectal cancer. Good food sources of calcium include skim or low-fat

milk and other dairy products, shrimp, and soy products such as tofu and soy milk. Magnesium

is found in leafy greens, nuts, peas, and beans. Food sources of vitamin B6 include grains,

legumes, peas, spinach, carrots, potatoes, dairy foods, and meat. Folic acid is found in dark

leafy greens such as spinach and lettuce, and in legumes, melons, bananas, broccoli, and

orange juice.