Breast Cancer II

http://www.apjohncancerinstitute.org/cancer/breast-c.htm

Probability of Breast Cancer in American WomenEstimates state that 13.4 percent of women born now in the United States will develop breast cancer at some time in their lives. This estimate is based on cancer statistics for the years 1999 through 2001. This estimate means that, if the current rate stays the same, women born now have an average risk of 13.4 percent (often expressed as “1 in 7”) of being diagnosed with breast cancer at some time in their lives. On the other hand, the chance that they will never have breast cancer is 86.6 percent (expressed as “6 in 7”). In the 1970s, the lifetime risk of being diagnosed with breast cancer in the United States was just under 10 percent (often expressed as “1 in 10”). Since then, the estimated lifetime risk has risen gradually.
13.2 percent for 1996 through 1998 (“1 in 7.55,” often expressed as “1 in 8”)
13.4 percent for 1997 through 1999 (“1 in 7.45,” often expressed as “1 in 7”)
13.5 percent for 1998 through 2000 (“1 in 7.40,” often expressed as “1 in 7”)
13.4 percent for 1999 though 2001 (“1 in 7.47,” often expressed as “1 in 7”) Because of rounding up or down to the nearest whole number, a small change in the actual risk (an increase from “1 in 7.55” to “1 in 7.47”) led to the change from “1 in 8” to “1 in 7.”This slight increase may be explained by a variety of factors. Experts believe the rise is partly due to better detection tools, which find more cases, and partly to the fact that women are living to an older age, when their risk increases (2). In addition, statistical methods have changed as statisticians work to improve the way they do these calculations. Also, the geographic areas where statistics are collected have expanded, resulting in more complete information. It is also possible that changes over the years in the lifestyle of American women (for example, having their first pregnancy at an older age, having fewer children, and using hormonal therapy to treat symptonns of menopause) may have increased the chance of developing breast cancer.The estimated probability of being diagnosed with breast cancer for specific age groups and for specific time periods is generally more informative than lifetime probabilities. Estimates by decade of life are less influenced by changes in life expectancy and incidence rates. The SEER report estimates the risk of developing breast cancer in 10-year age intervals (1). The calculations factor in the proportion of women who live to each age. In other words, they take into account that not all women live to older ages, when breast cancer risk becomes the greatest. A woman’s chance of being diagnosed with breast cancer is:
from age 30 to age 40 . . . . . . 0.44 percent (often expressed as “1 in 227”)
from age 40 to age 50 . . . . . . 1.49 percent (often expressed as “1 in 67”)
from age 50 to age 60 . . . . . . 2.79 percent (often expressed as “1 in 36”)
from age 60 to age 70 . . . . . . 3.38 percent (often expressed as “1 in 26”) These probabilities are averages for the whole population. An individual woman’s breast cancer risk may be higher or lower, depending on a variety of factors, including her family history, reproductive history, race/ethnicity, and other factors that are not yet fully understood.A team of physicians who specialize in breast cancer will be involved in your care, specifically surgical oncologists, medical oncologists and radiation oncologists. An important concept to keep in mind as you consider treatment options is the difference between local and systemic treatments. Local treatments are procedures performed on the breast and surrounding areas, such as surgery and radiation oncology. Systemic treatments, such as chemotherapy and hormone therapy, are used to treat breast cancer cells that may have spread to other parts of the body. Local and systemic treatments are often combined to ensure the best outcome possible, and your priorities are an essential part of making the best treatment choice.
SurgeryThe first step in treating the most common types of breast cancer is surgery, and your first decision will probably include a fundamental choice between breast conservation and removal of the breast. The surgical procedures are: lumpectomy (also called wide excision or partial mastectomy) with axillary lymph node dissection, total or simple masectomy, and modified radical masectomy, which includes axillary dissection. Lumpectomy is considered a partial mastectomy and conserves varying degrees of breast tissue. Total mastectomy removes the entire breast. Modified radical mastectomy removes the entire breast and some axillary lymph nodes, but the pectoralis (chest) muscle stays in place.
Before surgery, tests such as a chest X-ray, a complete blood chemistry, and a urinalysis must be performed to determine your body's ability to tolerate surgery and anesthesia.
Surgical TreatmentLumpectomy and Axillary Lymph Node Dissection, plus RadiationIf your cancer is diagnosed at an early stage, a lumpectomy or wide excision with axillary lymph node dissection may be offered as a treatment choice. The goal of this surgery is to remove the entire lump and some normal tissue surrounding the lump, but preserve the breast. Radiation follows lumpectomy and axillary lymph node dissection and is an integral part of breast conserving treatment. The two treatments combined, surgery and radiation, have proven to be as effective as the modified radical mastectomy.
Not all women, however, are candidates for breast conserving treatment; acceptable cosmetic results may not be possible for women whose breast cancers are multicentric (found in more than one area of the breast) or who have a large breast cancer and relatively small breasts. Also, it is extremely important for candidates who choose breast conservation to accept that radiation is integral to successful treatment. Willingness to accept radiation treatment following lumpectomy and axillary node dissection, and an understanding that regular follow-up is a lifetime commitment, are essential elements for making this choice. For women who choose not to have radiation, modified radical mastectomy is the treatment of choice. Lumpectomy is removal of the cancer with surrounding normal tissue. This normal tissue is called the “margin.” After the lumpectomy, surgeons check the pathology report to be sure that the margins, or edges, of the lumpectomy are clear of cancer cells. If the margin is not clear, a re-excision will be scheduled. Cancer cells on the margin are more likely in women with invasive lobular cancer, because of the finger-like projections, and in women who have ductal carcinoma in situ, because the surgeon cannot feel the cancer cells. Breast surgeons at Continuum Cancer Centers of New York aim for five millimeter to 10 millimeter margin widths. Mastectomy is the removal of all the breast tissue. In the case of an invasive cancer (not in the case of ductal carcinoma in situ), both lumpectomy and mastectomy are accompanied by either sentinel node biopsy, or a full axillary node dissection (see below).
Lumpectomy is almost always followed by radiation. The purpose of the radiation is to decrease the recurrence of breast cancer in the remaining breast tissue. A 2002 New England Journal of Medicine report* discussed the 20-year follow-up of a trial comparing mastectomy, lumpectomy, and lumpectomy plus radiation. The authors found that the recurrence rate of breast cancer in the affected breast after lumpectomy and radiation was 14 percent, whereas if no radiation was given, it was 39 percent. When a recurrence is found, a mastectomy is usually performed. In some cases, however, a second lumpectomy is done. Mastectomy has a very small local recurrence rate (about 4 percent). This is because some breast tissue may remain on the skin when the breast tissue is removed from under it.
Although the local recurrence rates are different between lumpectomy and mastectomy, the survival rate for women undergoing either of these procedures is the same. The New England Journal report showed that the 20-year survival for women undergoing mastectomy, lumpectomy, or lumpectomy with radiation was exactly the same. This conclusion has been supported many times in other reports, including another 20-year follow-up from Italy.**Lymph nodes are small lima bean-shaped structures which contain white blood cells called lymphocytes. There are lymph nodes in many locations in the body, including the axilla (or armpit), which contains about 30 lymph nodes. In the past 10-15 years, lymph nodes were removed from the axilla to check for spread of the breast cancer. However, a new technique called sentinel node biopsy is now used, which checks for the spread of cancer by removing only one or two nodes. The sentinel node is the first or primary node to receive lymphatic drainage from the breast. The surgeon finds this lymph node by using a radioactive compound called Technicium. Technicium is injected into the skin of the breast, over the area of the cancer, on either the day before or the morning of surgery. The lymphatics of the breast carry the Technicium to the sentinel node, and the surgeon finds the node by using a Geiger counter. In a lumpectomy, the sentinel node is removed through a small incision in the axilla. In a mastectomy, the sentinel node is removed through the mastectomy incision.
The sentinel node is often tested by frozen section during surgery. If the sentinel node is clear of cancer cells, no other lymph nodes will be removed from the axilla. If the sentinel node contains cancer cells, a full-node dissection will be performed, since more nodes may be affected. Approximately 10 percent of sentinel nodes found to be negative by the pathologist on the frozen section will contain cancer cells on the final pathology report. If this occurs, further surgery to remove additional nodes may be required, and will be scheduled as soon as possible.Making Choices The choice that most women with breast cancer face is to undergo either breast conserving treatment (only the lump is removed followed by radiation) or modified radical mastectomy. Research involving thousands of women over many years has shown that for women with early stage breast cancers, there is no difference in survival between these two options. Sometimes breast cancers do recur in the lumpectomy breast, but mastectomy can be performed at that time. For most women who undergo breast conserving treatment, the outcome is the same as those who had mastectomy in the first place.Nonetheless, making a decision between breast conserving treatment, lumpectomy with axillary lymph node dissection plus radiation, or modified radical mastectomy is a very personal one. If you choose a mastectomy, or our oncologist recommends that you have a mastectomy, then you may wish to consider reconstructive surgery. Reconstruction can be performed immediately, it can be delayed, or you may not wish to undergo reconstruction at all. It is important to remember that no decision must be made overnight. You need to give yourself a chance to discuss these options with family members, with your physicians and with friends. When you have additional questions, please contact the surgeon and other members of the interdisciplinary healthcare team during your decision-making process. After SurgeryAfter a Lumpectomy with Sentinel Node BiopsyLumpectomies with axillary node dissection are usually performed with local anesthesia and sedation. Patients are usually sent home the same or next day after surgery, once the effects of the anesthetic have worn off. A followup appointment will be scheduled within 7 to 10 days after your surgery.After a Total Mastectomy and Sentinel Node BiopsyIf you have a Total Mastectomy and Sentinel Node Biopsy, two drainage tubes will be in place to drain fluids that may collect in the operative areas--one to drain the chest area and the other to drain where the sentinel node was removed. Should the drainage tube(s) not be removed during your hospital stay, you and a family member or friend will receive simple instructions before you are discharged on how to care for the tubes at home. After you wake up from a Sentinel Node Biopsy, you may experience some discomfort around your chest and under your arm. Your doctor will order pain medication that will control your discomfort. You'll be encouraged to get out of bed the same day as surgery, as soon as the anesthetic has worn off, and at that time you should be able to eat regular food. Expect to stay in the hospital overnight. If you are having breast reconstruction, the stay is two to four nights.Prior to leaving the hospital, we will give you a temporary prosthesis, or breast form. It provides symmetry without putting pressure on the surgical area. Once you have healed, usually 4-6 weeks after your surgery, we will give you a prescription to purchase a permanent prosthesis or breast form.A followup appointment will be scheduled within 7 to 10 days after your surgery to remove the drainage tube under your arm. At this visit, the surgeon will provide information on your pathology and future treatments.
Adjuvant TherapyAfter the primary tumor has been treated, we then consider adjuvant therapy. Adjuvant means "in addition to," and these therapies are given in addition to surgery, or surgery plus radiation, to decrease the risk of the breast cancer returning. Our intent is to choose an adjuvant therapy that has the best chance to kill any breast cancer cells lingering throughout the body, or to block the hormonal receptors of either the remaining cancer cells or normal breast cells. We determine the therapy that best kills the cancer cells, while preventing as much as possible the onset of disrupting side effects. Adjuvant therapies include radiation, chemotherapy, and hormonal therapies.Radiation OncologyAdvanced Breast Cancer Continuum Cancer Centers of New York uses an interdisciplinary approach to advanced breast cancer. When cancer begins, it is a single, genetically abnormal cell. The cell divides and becomes two cells, which divide into four cells, then eight cells, and so on. Eventually, the single cell becomes a mass of cells and develops a blood supply to nourish its continued growth. At some point, cells break off from the primary mass and move through the blood supply or nearby lymph system to other parts of the body, a complicated process called metastasis.For some women, we diagnose breast cancers and treat before metastasis occurs. For other women, we plan treatment knowing that the breast cancer has metastasized. Generally, as the tumor grows, the chance of metastasis increases. Based on research, oncologists estimate that fewer than 10 percent of women diagnosed with breast cancers smaller than one centimeter in diameter will have metastases at the time of diagnosis. That number rises to 80 percent if the cancer is diagnosed when it is larger than five centimeters in diameter.We know that breast cancer most often spreads through the blood or lymphatic systems to areas that are nourished by those systems. Breast cancer may spread to bones, liver, lung, and brain, but also to the opposite breast, adrenal glands, spleen, and ovaries. Generally, a recurrence of the disease is detected when symptoms are apparent. Even though there are tests that may detect a metastatic recurrence before the onset of symptoms, research has shown that they do not improve the response to treatments used for advanced disease, nor do they prolong life.Once metastatic disease is detected, in our interdisciplinary approach we may recommend that a woman undergo surgery to remove the metastases, or have chemotherapy or radiation to control it. Signs and symptoms of a recurrence may include:
a lump under the arm or around the surgical area;
bone pain or fractures, which may signal bone metastases;
headaches or seizures, which may signal brain metastases;
chronic coughing or wheezing, which may signal lung metastases. Other symptoms may be related to the location of metastases and may include changes in vision, an alteration in energy levels, a feeling of "unwellness," or extreme fatigue.Our overall goal in caring for women with more advanced disease is to is to achieve a remission or slow the growth of the tumor, which we know can improve symptoms, quality of life, and overall survival. Since metastatic breast cancer is not considered curable, the patient and our physicians must find a balance between treating the disease and achieving a good quality of life. It should be noted that some women live years after a recurrence of breast cancer and may undergo treatment many more times before dying from the disease. For some women, we approach breast cancer as a chronic disease.
INTEGRATIVE THERAPYTHE SCIENTIFICALLY FORMULATED AMINO ACID THERAPY
(Keep in mind, CAAT is much more than just a “diet”; it is an amino acid, carbohydrate, & glucose REDUCTION protocol which strategically uses the chemical reactions of amino acids, foods, and nutritional supplements to impair the development of cancer cells, thus starving them to death.) Clinical trials have already been done with humans using amino acid depravation formulas, and with much success. (Journal American Medical Association. 1967; 200:211)
CAAT is a course of therapy to control a patient’s amino acid intake. This is achieved by taking certain foods out of a persons’ daily food plan for a short time and by replacing them with a scientifically supported formula of amino acids. It is also important to emphasize that the food plan that accompanies the amino acid formula needs to be followed so not to offset any of the benefits we are creating by depriving the cancer cells the nutrients they need to grow. Also, it is important to realize that the patient does not need to abandon their conventional cancer treatment, (surgery, chemotherapy, radiation, hormone treatments) nor is it recommended that they do so unless it has already failed them. CAAT works synergistically with chemotherapy and/or radiation to enhance their benefits (see study by Dr. Marco Rabinowitz of the National Cancer Institute). His report on amino acid deprivation, such as with Controlled Amino Acid Therapy (CAAT), proven to inhibit phosphofructokinase which shuts down the energy supply to cancer cells, simultaneously enhancing the benefits of chemotherapy while lessening their toxic side effects. CAAT has also proven to work successfully alone.
Phase 1: CAAT Formulation
The most important component of CAAT is the scientifically formulated amino acids. Based on the specific formula for each cancer, it consists of separate amino acids, citric acid, and small amounts of sodium benzoate. Each formula replaces most of the regular daily proteins found in meats, dairy, fish, beans and nuts, which cancer cells can derive their energy from. The CAAT formula taken two times per day will nourish the healthy cells while causing the cancer cells to starve to death. Of course each individual has specific needs concerning their diet, and this is explained in the second phase of the protocol as well as with a specialist at the Institute when beginning the CAAT therapy.
Phase 2: Daily Food Intake
DISCLAIMER: The following food program SHOULD NOT be consumed without the amino acid formula and without consent from your doctor and our Institute.
Breakfast:*1/2 Grapefruit or 1-orange or 6-ounces of fresh orange juice.Whey Enhanced Protein (Vanilla Flavor – Vitamin Shoppe Brand) approximately10 – 12 grams of protein – read label carefully, based on 150 lb. person ].A serving of Grits (Butter, cinnamon and other spices are okay).1 cup of green or black tea (Fructose is sweetener of choice).* Do Not have ½ grapefruit if taking Chemotherapy
Explanation: ½ Grapefruit or 1 orange or 6 ounces of fresh orange juice are rich in the natural nutrients called Limonene and Citric Acid. Limonene helps shut down the Ras cancer gene which is over active in 90 percent of all cancers. Citric Acid helps shut down glycolosis which in turn helps starve cancer cells to death.
Whey Enhanced Protein (Vanilla Flavor – Vitamin Shoppe Brand) Phosphorus is a nutrient that cancer cells must utilize in order to grow and reproduce. This brand of whey protein is very low in phosphorous and contains no additional vitamins, so when using approximately 10 – 12 grams of protein per 150 lb. person, it helps to protect normal cells, maintain a normal appetite, and also helps to fight edema. (Edema is the swelling or water build up in the legs or other sites in the body)Whey protein is included in the daily menu of all advanced or metastatic cancer patients. When treating cancers that are stable or have regressed in size, patients then have the option of including other protein foods at their breakfast meals such as cottage cheese, yogurt, or soy foods. Eggs are allowed in the diets of patients with lymphoma and brain cancers.
Grits or Cream of Wheat or 1 slice of white toast or ½ plain bagel or ½ English muffin (Butter is okay)Grits or white rice is the preferred carbohydrate food at each meal. The other choices are options once the patient’s cancer is stable or reduced in size. Unrefined carbohydrates are included in the CAAT menu instead of whole grains to deprive cancer cells of a certain B-complex vitamin called Pyridoxine (Vitamin B-6). Cancer cells require this vitamin to manufacture certain amino acids that we keep away from through CAAT’s amino acid reduction formula and diet.Grits is the preferred carbohydrate food at all meals instead of rice, corn, or pasta because it helps deplete Tryptophan in the body, which is essential for the growth and spreading of cancer cells.
1 cup of green or black tea, using fructose as the sweetener of choice. These teas are rich sources of several compounds that help shut down glycolosis and cut off the energy supply to cancer cells. Also, green or regular tea helps to prevent certain hormones and tumor growth factors from stimulating cancer cells to grow and metastasize to other parts of the body. Brassica teas can also be taken because they contain sulphorane, a nutrient that inhibits cancer growth, and also shuts down the cancer genes.* Why we use fructose as the sweetener of choice will be explained in detail at the end of this phase of the CAAT protocol.
Lunch:
Amino acid formula (4 level plastic scoops) mixed with any of the following: Water & Fructose; Sugar free Kool-Aid; Diet ginger ale; Fresh lemonade & Fructose; Chicken or Beef broth; V8 juice.Generous amounts of One cooked vegetable or a combination of the following: asparagus, broccoli, cabbage, brussell sprouts, spinach, squash, string beans.One serving (1/2 cup)of fresh fruit. Choice of: pear, orange, blueberries, raspberries, strawberries.1 serving (moderate) of grits or corn or rice or pasta (Add tomato sauce or butter)1 tablespoon of coconut oil8 to 10 black or green olives2 tablespoons of vinegar (minimum of 5% acidity) add to vegetables or food1 cup of green or black tea (Fructose as desired)
Explanation:
This Amino Acid Reduction Formula (4 level plastic scoops may vary) combined with the special diet, allows the CAAT Protocol to reduce certain amino acids in the daily diet of the cancer patient, and is designed to replace most of the animal protein in the diet. Cancer cells require the amino acids glycine, serine, glutamic acid, and aspartic acid to synthesize DNA, build new blood vessels or duplicate its entire contents of proteins. Also, cancer cells require these and certain other amino acids in order to synthesize other proteins that act as growth promoting hormones or tumor growth factors. CAAT impairs the synthesis of a protein called elastin, which is absolutely essential to the manufacture of new blood vessels. The Amino Acid Reduction Formula, diet, certain phytochemicals and herbs work efficaciously to attack cancer cells at each and every biological front.
The generous amounts of one cooked vegetable or a combination of such helps keep normal cells healthy. They are low in carbohydrates and proteins, and high in phytochemicals, compounds which help fight cancer. Patients are allowed to eat these vegetables and salads whenever desired.
The 8 to 10 olives are rich in squalene and oleic acid, nutrients that have been reported to inhibit certain cancer growth factors. The calories in olives also help control body weight and increases ketones in the blood. Ketones help fight cancer by impairing glycolosis – a process in which cancer cells depend almost exclusively upon for their daily supply of energy. Vinegar (and fructose) are two natural products that increase the production of both ACETIC ACID and CITRIC ACID in the body.
Acetic acid and citric acid also help fight cancer by shutting down the process of glycolosis.Normal cells derive most of their daily energy supply from acetic acid and citric acid, where as cancer cells derive most of their daily energy from glycolosis.
Dinner:
Amino acid formula (4 plastic level scoops) mixed with any of the following: Water & fructose; Sugar free Kool–Ade; Diet Ginger Ale; Fresh lemonade & Fructose; Chicken or Beef broth; V8 Juice.Generous amounts of One cooked vegetable or a combination of the following: asparagus, broccoli, cabbage, brussel sprouts, spinach, squash, string beans.One serving (1/2 cup) of stewed plums with fresh cream & fructose; use 4-ounces of orange juice if plums are not in season.Avacado salad with lettuce, tomatoes, celery, onions, with lemon juice and coconut oil or olive oil.2 tablespoons of vinegar (minimum of 5% acidity) add to vegetables or food.1 serving of grits or corn or pasta or rice (Add garlic and butter or tomato sauce)1 cup of green or black tea (Fructose as desired)
Mid Evening Snack: Ketogenic Cocktail – 2 ounces of fresh cream, ½ ounce each of both coconut & olive oil, 1 tablespoon of Fructose.Sugar free Jell-O with whipped cream & Fructose or 1 plum or 4 ounces of orange juice.
Explanation: The sugar free jell-o helps to appease the appetite. Plums contain quinlic acid, which is converted into benzoic acid in the body and which in turn helps to deplete the availability of the amino acid Glycine (Glycine is essential to the synthesis of DNA for cancer cells) and the proteins that cancer cells require to build new blood vessels and their tumor growth factors. If underweight take two ounces of light cream and one ounce of olive oil/coconut oil as needed to maintain weight.
Optional Meal:
3 to 4 ounces of Veal, Fish of choice, Beef, Chicken breast, and 1-slice of white bread.
Consume this meal with a minimum of 3 hours before or after taking the amino acids.
Explanation: If the patient is 10 or more pounds underweight or if their albumin levels are below normal is when the optional meal is allowed. This meal should be eaten a minimum of 3 hours before or after taking the amino acids. CAAT provides sufficient protein to maintain the health of normal cells and adequate amounts of calories to maintain desired body weight. Any proteins taken in excess of amounts recommended in the diet will counter act the benefits of the CAAT protocol.
Special Diets: A special diet will be created for any cancer patient whose ability to consume food and liquids has placed them in a critical situation. When a patient is using a feeding apparatus, or they have become too weak or lethargic to eat and drink the daily minimum amount for survival, we will break up the total breakfast, lunch, and dinner over a period of every 2 hours during the entire day until the patient is capable of returning to a daily diet as outlined above.
Carbohydrate and glucose reduction in this diet: CAAT’S dietary menu provides approximately 20 percent of its calories in the form of carbohydrates. Calories need not be a focal point or counted daily. It is recommended that all patients combat their cancers by keeping their body weight at normal or slightly below normal levels. A patient’s desired body weight is regulated by their rate of metabolism, which in turn is regulated by their blood levels of thyroxine, cortisone, insulin, and the amounts of fats and oils in the diet. Studies with human cancer patients and laboratory animals show that reducing the calories of carbohydrates (glucose) in their daily diet by only 10 percent reduced the size of cancerous tumors. When carbohydrate (glucose) calories were reduced 40 percent, the cancers disappeared. It is recommended that those patients who are obese gradually and systematically lose their excess weight to increase the efficiency of the CAAT protocol. Those patients who are underweight shoudn’t gain weight unless they are more than 10 pounds below normal levels. When a patient is underweight due to anorexia or cachexia, such illnesses must be addressed before the CAAT protocol can begin.
Why we use Fructose and Vinegar to treat cancer:
Nobel Prize winner Dr. Otto Warburg discovered more than 50 years ago that all cancer cells produce inordinate amount of lactic acid but he couldn’t explain why.
In 2001 our Institute published the first study to show that cancer cells produce excess amounts of lactic acid because they could not access the oxygen in compartments in the cells called the mitochondria. This provided evidence that cancer cells depend almost exclusively upon glycolosis or the metabolism of glucose as their major source of energy.
Dr. Spitz and Dr. Lee with other cancer researchers published studies showing that when cancer cells are deprived glucose, their energy supply is cut off which causes these cancer cells to commit suicide.
Therefore shutting down glycolosis would be one means of destroying cancer cells because energy can only be derived from glucose through the metabolic process called glycolosis.
Recently our Cancer Institute discovered that both acetic acid and citric acid could inhibit the activity of a key enzyme in glycolosis called phosphofructokinase, which in turn shuts down the process of glycolosis. Our cancer Institute is the first to introduce both fructose and vinegar as treatments for cancer because they either contain or produce acetic acid.
In conclusion, fructose and vinegar are added as supplements to the CAAT protocol because of their acetic acid properties that help shut down glycolosis, shutting off cancer cells energy supply and causing them to die off.
Phase 3: Nutritional Supplements
Nutritional supplements are based on each unique situation. For example, slow-growing cancers produce low levels of toxic free radicals. Tumor cells that grow aggressively produce large amounts of toxic free radicals. The patient will be instructed whether or not to take anti-oxidants (in a nutritional supplement), and at what dosage, according to the levels of toxic free radicals produced in the cancerous cells.
An example of how nutritional supplements can help manipulate cancer cells involves vitamin B-6 (pyroxidine) There are four amino acids essential to the synthesis of DNA. However, those amino acids cannot be synthesized without a certain enzyme, which includes vitamin B-6 among other components. Any supplement containing vitamin B-6 SHOULD NOT be taken during the first 2 months of the CAAT protocol.
The patient will be instructed as to which nutritional supplements or phytochemicals should be purchased and at what dosage strength. Keep in mind that each supplement only complements the CAAT protocol. However, when they are combined they augment the therapeutic benefits of the aminoacid, carbohydrate, and glucose reduction diet.
Parsley: Contains ingredients that can help shut down certain enzymes called Epithelial Growth Factors, which stimulate the growth and spread of cancer. ( CAAT’S amino acid reduction diet works in the same manner )
Vitamin D: Helps activate in many kinds of cancers enzymes called Phosphotases, which literally shut down the activities of other enzymes called Kinases, which are essential to the growth and reproduction of cancer cells.
Green Tea Extract: Phytochemicals in tea help shut down glycolosis (cancer cell’s main supplier of energy) and thereby help to starve cancer cells to death. These effects help complement the effects of CAAT’S carbohydrate reduction.
Anti-Oxidants: The controversy as to whether or not to treat cancer with anti-oxidants is slowly resolving with the current understanding of how they affect the activity of genes and enzymes in cancer cells. The prevailing data shows that the benefits or lack of benefits depend upon the oxidative state the cancer cells are in. Anti-oxidants taken when the cells are in a very high oxidative state may prevent cancer cells from entering apoptosis ( apoptosis is when a cancer cell commits suicide) When oxidative stress in cancer cells is only slightly above normal, anti-oxidants are then expected to stop their growth and reproduction.
Blood Chemistry: Blood tests are usually taken every 6 to 8 weeks, depending upon the results of each test. Not only is it important to monitor the tumor markers but equally important to keep abreast of the overall health of normal tissues and organs. For example, it is important to learn of the health of the kidneys and liver, whether the body is producing sufficient red and white blood cells, etc. Low albumin levels most often indicate insufficient intake of proteins in the diet and this problem would have to be addressed. CAAT is designed to attack cancer but keep the normal cells and tissues functioning harmoniously.
Whey Protein: This protein food is recommended at the breakfast meal to help meet the daily needs of amino acids for the normal cells of the body, and to help keep albumin levels normal and to help prevent edema. We recommend Whey protein purchased from the Vitamin Shoppe because it is the only brand that we have seen with no phosphorous or additional vitamins added to it.
Grits: Grits are also recommended at the breakfast meal in place of whole grains because it is low in vitamin B-6. Cancer cells require B-6 to manufacture the amino acid Glycine, which is required for DNA synthesis. Grits, instead of whole grains, therefore helps prevent cancer cells from manufacturing DNA and building new blood vessels.
Calcium D-Glucurate: This phytochemical helps the body to retain a compound called Glucuronic acid. This is necessary to eliminate both estrogen and testosterone from the body. This is why Calcium D-Glucurate is added to the regiments of patients with breast & prostate cancers. Calcium D-Glucurate is not to be confused with calcium carbonate, which is nothing more than a calcium supplement.
D-Limonene: This phytochemical found mostly in citrus fruits blocks the process called Isoprenylation, which is necessary for tumor growth factors such as the RAS gene, Epithelial Growth factor, Tyrosine Kinase, and Insulin-Like-Growth-factor, to send their signals into the nucleus of a cancer cell and directs them to grow and divide into more cancer cells.
Tocotrienols: This member of the Vitamin E family also helps shut down Isoprenylation and assists D-Limonene in blocking the actions of the various tumor growth factors. More specifically, tocotrienols shut down an enzyme called HMG-2, which is essential to the synthesis of the building blocks that form the Isoprenylation process.
Niacin: This B-Complex vitamin works with D-limonene and the Tocotrienols to shut down the process of Isoprenylation, which as mentioned above prevents the cancer promoting RAS genes from sending signals into the nucleus of the cell. Niacin also helps deplete thee amino acid Glycine, which cancer cells need to synthesize DNA. And by reducing cholesterole in the body, Niacin helps lower the production of estrogen and testosterone.
Choline: This B-complex vitamin is included in our supplement list to help the liver metabolize Niacin and other compounds and to help fight fatigue that accompanies most forms of cancer.
Selenium: Numerous studies show that this mineral can interfere with the activity of certain genes that promote the growth of cancer and to induce cancer cells to commit suicide (apoptosis)
Perilla Oil: This oil is rich in Alpha Linolenic Acid which can inhibit the growth of cancer cells in several ways. One way is to inhibit the synthesis in the body of a tumor growth promotin hormone called Prostaglandin-2, also, Alpha Linolenic Acid inhibits the actions of certain genes that promote the growth of cancer cells. Linolenic acid is not to be confused with linoleic acid, which is a bad fat that stimulates the growth of cancer cells. This bad fat, linoleic acid, is found in all vegetable oils and nuts (With the exception of coconut oil). Olive oil has the least amount of this bad fat.
Super Miraforte: This herb impairs the synthesis of estrogen from testosterone in the body and is included in the regiments of women with breast cancer.Licorice Root Extract & Pantothenic Acid: This herb and vitamin are added to the regiment when it is desirable to produce steroid like actions in the body. Also used to help patient’s gain weight and to inhibit the growth of lymphomas and leukemia’s.
Resveratrol: This phytochemical blocks the actions of a number of a number of cancer promoting genes thereby causing cancer cells to enter into apoptosis (cell death) and is included in the treatment of all cancers.
Indole-3 Carbinol & D.I.M.: These two phytochemicals block the actions of both estrogen and testosterone and are included in the regiments of both breast and prostate gland cancer.
Melatonin: Numerous studies show that this hormone blocks the synthesis of the cancer promoting chemicals in the body called Leukotrienes, and is included in the treatment of all cancers.
Artho Pro System: This combination of herbs and phytochemicals inhibits the synthesis of the cancer promoting hormone called Prostaglandin-2 and the Leukotriens and replaces the drug celebrex when liver problems are present. The Prostaglandin hormone is over active in most cancers and stimulates cancer growth. The body manufactures the Prostaglandin hormone from the bad fat, Linoleic acid, mentioned above.
Licorice Root Extract & Pantothenic Acid: This HERB and VITAMIN are added to the regiment when it is desirable to produce steroid like actions in the body. Used also to help patients gain weight and ti inhibit the growth of Lymphomas and Leukemias.