Antineoplastic Medications
Objectives
1. List the types of drugs used to treat neoplastic disease or cancer.
2. Identify the major adverse reactions associated with antineoplastic agents.
3. Develop a teaching plan for a patient taking an antineoplastic drug.
Key Terms
alkylating agents (ĂL-k-lā-tĭng, p. 201)
antibiotic preparations (ăn-tĭ-bī-ŎT-ĭk, p. 201)
antimetabolites (ăn-tĭ-mě-TĂB-ō-līts, p. 201)
Biologic Response Modifiers (BĪ-ō-LŎJ-ĭk, p. 202)
chemotherapeutic agents (kē-mō-thěr-ă-PŪ-tĭk, p. 200)
male or female hormones (HŎR-mōnz, p. 201)
malignancy (mă-LĬG-năn-sē, p. 200)
metastasis (mă-TĂS-tă-sĭs, p. 200)
mitotic inhibitors (mī-TŎT-ĭkĭn-HĬB-ĭ-tŏrs, p. 202)
neoplasms (NĒ-ō-plăz mz, p. 200)
Overview
http://evolve.elsevier.com/Edmunds/LPN/
Licensed practical and vocation nurses (LPNs/LVNs) often do not play a direct role in giving medications for cancer. There are many types of cancer and patients who have cancer are very commonly seen in areas in which LPNs/LVNs work. Every nurse should have some familiarity with the most common drugs given to fight cancer and a general awareness of why they might be ordered. Nurses are also frequently involved in administering other drugs to the cancer patient to fight the side effects of the very toxic cancer drugs.
Most cells in the body grow slowly at a rate that can be predicted. When cell growth becomes rapid and uncontrolled, neoplasms (abnormal growths or tumors that may be benign or malignant) may be found. These cells often have the ability to travel throughout the body, spreading this unusually rapid cell growth into other areas (metastasis). Cancer cells rob other tissues of the nutrients (substances that support life and growth) required for normal health. We call this out-of-control cell growth malignancy or cancerous growth. The causes of cancer are many—chemical, physical, hereditary, or biological. Some types of cancer are increased by patient behavior or lifestyle, such as lung cancer caused by smoking. Thus risk for developing some types of cancer may be reduced by changing eating habits, exercise, exposure to sun, or other types of behavior.
Antineoplastic agents, also called chemotherapeutic agents, are used to treat cancerous or malignant diseases. They slow cell growth or delay the spread of the malignant cells into other parts of the body. To achieve a cure, every malignant cell must be removed, destroyed, or crippled. Antineoplastic (anticancer) agents are most often used with other forms of treatment such as surgery and radiation. Drug therapy is rigorous, often requiring multiple drugs, intensive courses of high doses, and repeated courses of medicine if they are to be effective.
The following types of medications are used to treat neoplastic diseases: alkylating agents, antibiotic preparations, antimetabolites, hormones, natural products, and biologic response modifiers.
The types and sites of malignancies vary, and some agents are more effective than others in treating certain types of malignancies. The ideal antineoplastic agent damages the malignant cells of the patient while keeping the normal cells as healthy as possible.
Normal cells in the body do not all grow at the same rate. The cells in the gastrointestinal (GI) tract, bone marrow, hair follicles, lymph tissue, mouth, and testes or ovaries are rapidly dividing and growing. Antineoplastic drugs affect rapidly growing tumor cells, but also affect all other rapidly growing normal cells, thus producing many of the adverse reactions caused by these drugs (diarrhea, alopecia [hair loss], infertility, and the like).
There are many new, highly toxic products on the market in cancer treatment, including interferon, mitotane, and asparaginase. Antineoplastic drugs are strong and may be toxic; they are only ordered by a cancer or oncology specialist. Many drugs require intravenous (IV) administration. Even small dosage errors could have significant negative effects on the patient. Adverse reactions are common with this group of medications, and patients must be watched carefully for the development of toxicities. Hospitals may vary in whether they allow LPNs/LVNs to administer these drugs, so it is important to know institutional policy and stay within the authorized scope of practice.
Safety is a particular issue with oncology drugs. They are already toxic products and any errors in medication selected, dosage, or administration may be overwhelming to an ill patient.
Lifespan Considerations
Lifespan ConsiderationsAction and Uses
The five major types of antineoplastic agents may be used in combination or alone. There are often specific research protocols or rules that govern the use of these medications. It is important for the nurse to accurately report all reactions and adverse effects the patient might have so the action of the drug can be understood.
Alkylating agents are used to interfere with the normal process of cell division. They are some of the most widely used antineoplastic drugs. These drugs attach physically to deoxyribonucleic acid (DNA) in the tumor cell, a process called alkylation. As they do this, they change the structure of DNA in cancer cells and prevent it from functioning normally. There are different alkylating agents and they all attach to DNA in different ways. Working together, they are able to kill the cell or stop the production of new tumor cells. Although the alkylation occurs in the cancer cells, the killing action does not occur until the affected cell tries to divide.
This alkylating effect occurs in rapidly growing malignant cells, but it also occurs in some normal cells. Within the body, normal rapidly growing cells such as blood cells, white blood cells (WBCs) and epithelial cells lining the GI tract are also damaged. Thus as soon as the alkylating medications are given, red blood cells, WBCs, and platelets begin dying. These patients experience anemia and higher risk of infection. The death or damage to cells lining the GI tract produces nausea, vomiting, and diarrhea.
Specific antibiotic preparations are used, not for their antiinfective properties, but to delay or prevent cell division of the malignant cells. This action is caused by interference with DNA and ribonucleic acid synthesis. These antitumor antibiotics are obtained from bacteria and have the ability to kill cancer cells. These chemicals are more toxic than other antibiotics and their use is limited to use in treating very specific cancers.
Because the antitumor antibiotics interact with DNA in a way similar to the alkylating agents, their general actions and side effects are similar to those of the alkylating agents. However, all the antitumor antibiotics must be given intravenously or put directly into a cavity of the body using a catheter.
Antimetabolites disrupt normal cell functions by interfering with various metabolic functions of the cells and interrupt critical cell pathways in cells. Cells that are rapidly growing require large amounts of nutrients to build nucleic acids and proteins. These drugs resemble the essential building blocks of the cells but when the cancer cell attempts to use these chemicals as building blocks, the cancer cells slow their growth or die. This action is most effective in cells that are the most rapidly dividing—cancer cells, as well as normal hair and skin cells.
Some tumors may depend on male or female hormones, the chemicals produced by the sex glands. In patients who have these types of tumors, various hormones that counteract the effects of the hormones used by the tumors may be effective in treatment. The mechanism of action is unclear. Administering high doses of specific hormones or hormone antagonists can block the receptors in reproductive tissue tumors and slow tumor growth. An example is the use of tamoxifen to slow specific types of breast cancers that depend on estrogen for growth. Administration of the female hormone estrogen also slows the growth of prostate cancer.
In general, hormones and hormone antagonists produce few of the cytotoxic side effects seen with other antineoplastic drugs. However, as these medications may be given in high doses and for long periods, they may produce other unpleasant side effects. They rarely produce cures but may slow the growth of the cancer.
There are a variety of other primary plant extracts or alkaloids that are used as antineoplastics. These chemicals have been isolated from a number of plants, including common flowers and shrubs. Although these chemicals are structurally different, they all have the ability to stop cell division. As a group, they may be called mitotic inhibitors.
Taxoids and topoisomerase inhibitors are other groups of medications that have biologic properties helpful in treating cancer. They often have significant adverse effects.
Biologic response modifiers are relativity new immunologic drugs that do not kill tumor cells directly themselves, but instead stimulate the body’s immune system to help it fight the cancer. They may also be helpful in minimizing the toxic effects of other antineoplastics. Specifically, some drugs work to prevent anemia, stimulate platelet production, or help prevent severe thrombocytopenia. Thus the quality of life of these patients may be better when these drugs are given.
See Figure 14-1 to see where major antineoplastic drugs act on the cells.
Cell division or replication proceeds in a cycle. In sequence, the cycle involves G1 (gap1), S (DNA synthesis), G2 (gap 2), and M (mitosis). Differentiated cells may enter a resting state called GO. Growth factors may stimulate resting cells to reenter the cell cycle. Proteins called cyclins (A,B,D,E) promote cell progress through the cycle. Two check points in the cycle which often malfunction in cancer cells are those which control entry into the critical phases of DNA synthesis and mitosis. Cell cycle-specific drugs act primarily during the designated phase of the cycle. Cell cycle-nonspecific drugs act throughout the cell cycle.
A mix of other drugs, most of which have been developed in the last few years, now make up the largest category of antineoplastic drugs, the miscellaneous agents. These products are used for treatment of a wide variety of conditions. Many of them have unlabeled uses, whereas, for others, clinical trials are being done to determine if they are effective and safe. Many of these drugs are being evaluated further.
Clinical Goldmine
Use of Natural Products
Green tea has been investigated for use as a medicinal antioxidant to provide a protective effect against cancer cells. Antioxidants are viewed as helpful because of their ability to eliminate free radicals—substances that remain after normal metabolism of a chemical leaving residue that may damage the cell. (Think of the sparks that fly off from a burning log). Both green tea and, to a lesser extent, black tea have been found to have some antioxidant activity.
Adverse Reactions
The action of the antineoplastic agents on normal cells causes many of the adverse reactions experienced by patients on chemotherapy. Some of these reactions depend on the dose given. Nausea, vomiting, anorexia, and diarrhea are seen with almost all products. Other common reactions include alopecia (hair loss) and bone marrow depression. (Patients with bone marrow depression are more likely to get infections and may show bruising or bleeding.) Renal toxicity, hepatic toxicity, ototoxicity, ocular effects, peripheral neurotoxicity, and hypersensitivity are common among these drugs, and patients must be monitored carefully.
Clinical Pitfall
Antineoplastic Agents
These are some of the most dangerous drugs given to patients. However, they may save the patient’s life, so the benefit outweighs the risk. The nurse always watches the patient and looks for changes that might be the onset of serious adverse reactions.
Some reactions are so severe that the patient feels worse with therapy than with the malignancy. There may be no cure for the adverse effects except to stop therapy and not treat the malignancy. Knowledge about the most common adverse effects will help the nurse develop a care plan to prevent or reduce as many symptoms as possible.
Drug Interactions
Most antineoplastic drugs interact with other medications the patient may be taking. It is very important to consult the manufacturer’s guidelines before starting treatment.
Nursing Implications and Patient Teaching
n Assessment
Learn everything possible about the patient’s history, the type of malignancy and current status, medications taken, surgeries, allergies, and response. Many patients have numerous hospital admissions for treatment of a malignancy. Old hospital records should be read whenever possible to find accurate information and avoid the need for the patient to repeat information. The patient who comes into the hospital several times should be asked about progress since the last hospitalization. It is important to find out about the patient’s emotional and physical responses to the illness, as well as cultural beliefs, spiritual and family support, and acceptance of the problem.
n Diagnosis
What other problems does this patient have that may interfere with treatment? Are there adverse effects or disease progression that must be treated? Is the patient fearful or worried? Is money an issue?
