Is Cancer in Us?

Friday, December 15, 2023

Part III Management of the Side Effects of Chemotherapy and Radiotherapy

Chapter 2

Drugs and Potential Drugs as Chemoprotectors

In this chapter, we will discuss drugs and potential drugs (often referred to as agents) that may be used before chemotherapy to reduce the side effects. These drugs/agents are often referred to as chemoprotectors. Examples of chemoprotectors are listed below based on the individual targets to be protected.

1. Drugs to Increase White Blood Cell Count

Filgrastim

Filgrastim is a 175-amino acid human granulocyte colony-stimulating factor (G-CSF) manufactured by recombinant DNA technology in E Coli. It is a glyprotein naturally produced by a number of different tissues to stimulate the bone marrow cells to produce granulocytes and release them into the blood.

Filgrastim is used to stimulate the proliferation and differentiation of neutrophils, which are the most abundant type of WBCs. It is marketed as Neupogen® by Amgen, as Religrast® by Reliance Biopharmaceuticals, and as ShilgrastTM by Raichem Lifesciences.

Sargramostim

Sargramostim is a WBC stimulant sold as Leukine® by Genzyme. It is a human granulocyte macrophage colony stimulating factor (GM-CSF) produced by recombinant DNA technology in a yeast, S. cerevisiae. Sargramostim is a glycoprotein having 127 amino acids. Its amino acid sequence is different from the natural human GM-CSF by a substitution of leucine at position 23. It was originally approved by the FDA in March, 1991 for use following autologous bone marrow transplantation (BMT) and was approved in December 1991 to prevent death following BMT engraftment delay or failure. In September of 1995, it was subsequently licensed to shorten the time for neutrophil recovery to prevent early death from life- threatening infections following chemotherapy for older patients suffering from acute myelogenous leukemia (AML).

Disclaimer: This blog is written solely for informational purposes. It does not constitute the practice of any medical, nursing or other medical professional health care advice, diagnosis, or treatment. All contents posted are extracted from the book, "SIDE EFFECTS OF CHEMOTHERAPY AND RADIOTHERAPY", prepared by Dr. Jiajiu Shaw, Dr. Frederick Valeriote, and Dr. Ben Chen.

Monday, December 4, 2023

Part III Management of the Side Effects of Chemotherapy and Radiotherapy

Chapter 1

How to Cope with the Side Effects

Dealing with Type 3 Side Effects

Liver and Kidney Injuries

Liver is the most critical organ in the body’s metabolism and detoxification. In addition, it is a vital organ capable of regenerating some of the lost tissue. For liver injury, some drugs may be helpful in protecting liver. For example, amifostine (Trade name Ethyol®) is indicated to reduce the cumulative renal toxicity associated with repeated administration of cisplatin in patients with advanced ovarian cancer. Other than amifostine, some natural products, such as milk thistle, may be useful in protecting or improving liver health.

Kidney toxicity is also referred to as nephrotoxicity, which is one of the most common toxicity resulted from chemotherapy. There are two important indicators of nephrotoxicity: BUN and creatinine. When kidney is damaged, blood levels of BUN and creatinine are usually elevated. Because urea is a waste form of nitrogen in the body, elevated BUN levels indicate that there is extra nitrogenous waste in the blood stream not properly filtered off by the kidney. As to creatinine, it is produced from creatine, an important molecule in energy production of muscle. Creatine is constantly converted into creatinine, which is constantly filtered off by the kidneys and disposed of in the urine.

In other words, kidney is critical in filtering off both BUN and creatinine to remove waste from the body. Therefore, when kidney function is affected by chemotherapy, blood levels of both BUN and creatinine are elevated.

Peripheral Neuropathy

Neuropathy means disease or dysfunction of the nerves, which can be a side effect of chemotherapy. For peripheral neuropathy, the most commonly affected areas are the tips of fingers and toes. Common symptoms of peripheral neuropathy include tingling, burning, numbness/pain in the affected areas, and loss of balance, although sometimes other areas may also be affected. Massage one’s hands and feet may help improve blood circulation and temporarily relieve the pain. For a patient with peripheral neuropathy, he/she should see a doctor about any neuropathy symptoms to prevent further nerve damage.

Monday, July 11, 2022

Part III Management of the Side Effects of Chemotherapy and Radiotherapy

Chapter 1

How to Cope with the Side Effects

Dealing with Type 2 Side Effects

Anemia (lower levels of red blood cells)

As mentioned before, both chemotherapy and radiotherapy can lower RBC count and result in anemia. Generally, the RBC count for a healthy adult is about 5 x 10⁶/µL. Because chemotherapy or radiotherapy could damage bone marrow, which produces RBCs, RBCs are not replaced at the same rate as they are being destroyed. As a result, the RBC count becomes much lower than that in a healthy person, a situation referred to as anemia.

If patients become anemic due to cancer therapies, they will have reduced blood levels of RBCs, which carry oxygen from the lungs to the body’s muscles and other organs. As a result, patients can become tired more easily; patients may also feel dizzy or light-headed when they quickly stand up from a crouching position. Although a normal healthy body can replenish lower levels of RBCs, it does take time. In addition, multiple treatments of chemotherapy or radiotherapy can hamper the reproduction process of RBCs. During the cancer therapy, when the RBC count is significantly below acceptable levels, it could cause a physician to temporarily suspend the chemotherapy or radiotherapy. In more serious conditions, blood transfusion or treatment by a specific bone marrow stimulating drug(s) may become necessary. Some of these drugs will be briefly described in the following sections.

Otherwise, what can a patient do? First, a patient should watch the diet. For example, eat nutritious food including liver, red meat, and green vegetables (such as spinach) to supplement iron in blood, which is important for maintaining RBC levels. Most of the body's iron is bound to hemoglobin in RBCs. When red blood cells die, the released iron is carried by transferrin (iron-binding plasma glycoprotein) to the bone marrow, to make new RBCs.

Iron pills can be very useful for treating anemia, but they should be taken under the prescription of the physician because of the potential side effects. When too much iron is taken, it could slowly accumulate and could become toxic in different organs, including the liver and heart.

In addition to iron supplement, patients should take some other dietary supplements, such as vitamin C, which is important for iron absorption, and vitamin B₁₂, which is important in maintaining normal RBC formation. Furthermore, patients should rest often to conserve energy and not to conduct any vigorous exercises.

Leukopenia (low WBC count)

There are reports about a natural chemical, hesperidin, which may be helpful in increasing WBC count. Hesperidin is abundant in the peels of citrus fruit, including orange, lemon, and grapefruit. One can be creative in using the peel by blending the peel in juice or in food for easier consumption.

Thrombocytopenia (low platelet count)

Although it does not happen for all chemotherapeutic agents, thrombocytopenia does happen to many patients. Thrombocytopenia is not uncommon for acute leukemia patients treated with radiotherapy; under serious condition, it could even be life-threatening. Similar to anemia and neutropenia, thrombocytopenia is usually temporary. When the platelet count is low (between 15,000 and 30,000 per µL), unexplained bruises may happen. When the platelet count is even lower (under 10,000 per µL), a patient may need a platelet transfusion.

As a patient, one must be careful in daily activities and try to avoid any injury because the bleeding might take much longer than normal to stop. In addition, patients need to be careful in conducting any physical activities to avoid cutting/bleeding.

Hair Loss

Not all chemotherapy drugs cause hair loss. Some people may lose all the hair on their heads and other body hair, while others may not lose much hair. For many people, hair loss may be a difficult aspect to deal with. In this case, using a wig to cover the head could make a patient feel more comfortable. Several weeks after the therapy, the hair should begin to grow back; the new hair may be slightly different in color and texture. Usually, the new hair will be thin and soft, like baby’s hair, but will often return to its original color and texture after several months.

Diarrhea or Constipation

Crypt cells in the intestine are likely to be attacked by chemotherapy drugs and may result in diarrhea. Some chemotherapeutic drugs may cause constipation. Patients with constipation should consider taking a stool softener, such as Colace® or Senekot®. Also, drinking a lot of liquid may help prevent constipation. If a patient has several watery stools or constipation, the patient may want to call his/her doctor or nurse.

Mouth Sores

Because epithelial cells in the mouth and esophagus are fast dividing, they are easily damaged by chemotherapy and radiotherapy. As a result, mouth sores occur often with chemotherapy and radiotherapy. For a patient to assuage that, rinse the mouth often with salty water. If a patient develops painful mouth sores and the situation is not relieved, one should call his/her physician or health practitioner and a special mouth rinse may be prescribed for the patient. If a commercial mouth wash is used, avoid those that may be irritating to the mouth.

Saturday, February 19, 2022

Part III Management of the Side Effects of Chemotherapy and Radiotherapy

Part III

Chapter 1

How to Cope with the Side Effects

Coping with the Side Effects

Before, during, and after radiotherapy or chemotherapy, there are some prescription drugs and natural products that can be used to reduce specific side effects induced by the therapy. In addition, there are also some activities that patients can do to reduce the discomfort from cancer therapies. Let’s look at them according to the types of side effects.

Dealing with Type 1 Side Effects

In general, patients should first consult their doctors to find out what medications are expected to work best for their situations. Other activities are described under individual side effects below.

Fever and Infection

Chemotherapy often lowers WBC count in the blood resulting in neutropenia. Because white blood cells are very important in fighting against infection, when a patient’s WBC count is lower than normal level, the patient is more susceptible to infection.

To reduce the chance of infection, patients should avoid going to public areas, such as theater and shopping mall. Also, avoid close contact with anyone who is ill. Wash hands frequently and when washing hands, use appropriate hand soap especially when the hands are visibly soiled. In recent years, alcohol-based hand sanitizer is becoming popular and it can be very effective in reducing the number of germs. In addition, do not eat raw food including fish, beef, oyster, and food containing raw egg. Thoroughly wash the vegetables and fruits for salad. Wash the cutting board especially after cutting raw meat, poultry, or fish. A patients should call his doctors if the body temperature reaches 101 °F (or 38.3 °C) or higher.

Flu-Like Symptoms

After a chemotherapy treatment, some people may experience flu-like symptoms such as pains and muscle aches. If not serious, patients can take over-the-counter medications such as Tylenol or Advil to relieve the pain. However, if the symptom persists, patients should contact their doctors for prescription drugs. In many states and Washington D.C., marijuana may be prescribed by physicians for pain management.

Nausea and Vomiting

For the management of nausea, patients should try not to skip meals. An empty stomach can worsen the symptom. Eat small and light meals. Drink lots of fluids, such as water, tea, and juice. Acupressure is being used by some people to reduce nausea basically by pressing a specific acupressure point near the base of the arm. There are special wristbands available for such an acupressure; the wristband usually has a knob to apply pressure to the correct spot. Further, there are some anti-nausea over-the-counter drugs available to prevent and treat nausea and vomiting due to chemotherapy.

Fatigue

Fatigue is a common symptom for people treated for cancer. For some, the fatigue may last a long time after treatment, and it can discourage them from physical activity. However, proper exercise can actually help patients reduce fatigue. Physical therapy can also help patients maintain strength in the muscles, which could help fight the sense of depression that sometimes comes with physical fatigue.

Most cancer drugs can reduce the RBC count and may cause anemia, which can make patients feel tired easily. Most people have to make some adjustment in work and family responsibilities. For anemia patients, it’s a good idea to plan their major activities and try to maintain their regular daily activities as much as possible. The fatigue should gradually go away after the patients recover from chemotherapy.

Doing regular exercise such as yoga, taichi, and walking may be helpful in relaxation. If necessary, physicians can prescribe iron supplement or other newer drugs to boost the blood cells. These include Epogen (by Amgen), Neupogen (by Amgen), and Leukine (by Berlex), which function as colony-stimulating factors because of their ability to stimulate the formation of blood cells in the bone marrow.

Appetite and Taste Changes

During chemotherapy, one may lose appetite and becomes more sensitive to odors. As a patient becomes healthier, his/her appetite will improve. Again, one should try to stay with healthful food (low fat, low calorie, and high fiber) and drink a lot of liquid. Also, it’s a good idea to avoid spicy food. For some people, eating too much spicy food can result in diarrhea.

With a loss of appetite, important nutrients may be lacking. Suitable dietary supplement products may be used to supply needed nutrition.

Menopause

Depending on a woman’s age and the type of chemotherapy administered, chemotherapy may temporarily stop the periods. As a result, one may experience symptoms such as hot flashes, decreased libido, vaginal dryness, mood changes, and sleeping disturbances. If a patient experiences any of these symptoms, she should call her doctor or nurse about suitable treatment for the symptoms. Meanwhile, consider eating soy products (such as soy milk and tofu) which may reduce hot flashes. Wear light cotton pajamas to help prevent overheating when sleeping. Use vaginal moisturizers or other water based lubricants as needed.

Wednesday, February 2, 2022

New US Patent Issued

A new U.S. patent related to radiotherapy and chemotherapy has just been issued to us.

Title: Small Molecules and Methods of Reducing Injuries Caused by Radiation or Chemicals

Patent No.: 11,236,056

Date of patent: February 1, 2022

If you are interested in learning more, please visit the US Patent and Trademark Office at

https://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO2&Sect2=HITOFF&p=1&u=%2Fnetahtml%2FPTO%2Fsearch-bool.html&r=1&f=G&l=50&co1=AND&d=PTXT&s1=%22shaw,+jiajiu%22&OS=%22shaw,+jiajiu%22&RS=%22shaw,+jiajiu%22

It is very much appreciated that you spend your time reading my blog. In addition to sharing the technical/non-technical info about cancer, I am still doing research on improving methods of treating cancer. The issuance of this patent is just another small step forward. There is still a long way to go in order to continue the development of this agent.

Again, thank you very much for your attention.

Thursday, December 30, 2021

Part III Management of the Side Effects of Chemotherapy and Radiotherapy

Part III

Chapter 1

How to Cope with the Side Effects

Three Types of Side Effects

In general, side effects from chemotherapy and radiotherapy can be divided into three types. The first is a set of physiological responses, which are acute and the least concerning, including appetite loss, nausea and vomiting, weakness and fatigue, as well as flu-like symptoms; all of these can be managed by specific actions.

Fig. 3.1 Common cell types in a cell renewal system

The second type of side effects is more severe and may damage cells in renewal tissues. There are a number of such cell renewal tissues in the body encompassing the hematopoietic system, the gastrointestinal tract, skin, hair, gonads, and cornea. Fig. 3.1 shows the common cell types in a cell types in a cell renewal system. The first and basic cell type is the stem cell – destroy all of these and the tissue gradually disappears. These cells are especially sensitive to both radiation and chemotherapeutic agents, and more so when they are proliferating. If over 99.9% of the stem cells are destroyed, the renewal tissue can’t recover by itself and the host will die. If stem cells are not totally destroyed, stem cell transplant and some protective agents can ameliorate some of the damage. The “committed” stem cells and differentiating cells (which may require proliferation) are also sensitive to chemotherapy and radiotherapy since they are proliferating just like the cancer cells. Finally, the differentiated cells such as platelets and red blood cells are resistant to chemotherapy. However, since the differentiated cells have a specific half-life, they are “used up” and may not be replaced as the stem cells and differentiating precursor cells have been destroyed.

The third type of side effects is direct damage to cells in major organs such as liver, heart, and brain. These are non-proliferating cells, and like the differentiated cells discussed above and relatively insensitive. However, some drugs do have selective toxicity to specific organs such as anthracyclines and cardiac toxicity.

Monday, December 20, 2021

Part III Management of the Side Effects of Chemotherapy and Radiotherapy

Part III

Chapter 1

How to Cope with the Side Effects

The major side effects of chemotherapy and radiotherapy include tissue/organ injury which occasionally may be fatal. In addition, these side effects may prevent doctors from delivering the prescribed dose of therapy according to the predetermined schedule in the cancer treatment plan. It is important to understand that the expected outcome from therapy is based on delivering treatment at the dose and schedule according to the well-designed and predetermined treatment plan. In other words, not only are the side effects of chemotherapy or radiotherapy undesirable, they may also limit a patient’s ability to accept the complete therapeutic regimen (both dose and schedule) to achieve the best outcome.

Saturday, November 27, 2021

Radiotherapy and Its Side Effects: Chapter 3 - Modern Technologies in Radiotherapy

PART II

Chapter 3

Modern Technologies in Radiotherapy (Cont'd)

4. Improvement of radiotherapy by using radiomitigators

Different from radioprotectors, which need to be administered either before or during radiotherapy, radiomitigators can be administered after radiation treatment. Radiomitigation can also be very useful in term of national defense with the increasing global threat of terrorists, such as potential radiological attack by dirty bombs.

Currently, there is not an FDA approved radiomitigator. However, there are a number of drug candidates under investigation as radiomitigator.

Monday, November 15, 2021

Radiotherapy and Its Side Effects: Chapter 3 - Modern Technologies in Radiotherapy

PART II

Chapter 3

Modern Technologies in Radiotherapy (Cont'd)

Special Announcement related to this topic, radioprotectors.

We have just been allowed a patent by the US Patent and Trademark Office (US PTO). This patent is related to a new radioprotector. Further details will be announced after this patent is officially issued in the near future.

Saturday, November 6, 2021

Radiotherapy and Its Side Effects: Chapter 3 - Modern Technologies in Radiotherapy

PART II

Chapter 3

Modern Technologies in Radiotherapy (Cont'd)

3. Improvement of radiotherapy by using radioprotectors

Radioprotection is another important approach in radiotherapy. Basically, a therapeutic agent, radioprotector, is administered to a patient before the patient is treated by radiotherapy. In other words, radioprotectors protect normal tissues against radiation-induced side effects. Ideally, radioprotectors produce or stimulate certain biological reactions/products which then counteract the adverse effects caused by radiation.

Unfortunately, there has not been any significantly improved radioprotector since the discovery and approval of a popular broad-spectrum radioprotective drug, amifostine (Fig. 2.3), by the FDA. Interestingly, amifostine was originally approved to reduce the cumulative renal toxicity associated with repeated administration of cisplatin in patients with advanced ovarian cancer and non-small cell lung cancer. However, while nephroprotection was observed, amifostine also formed chelation with cisplatin and reduced its anticancer activity. Therefore, its indication for chemoprotection in cisplatin treatment in non-small cell lung cancer was withdrawn in 2005.

Fig. 2.3. Structure of amifostine (WR2721) and its metabolite

More details about amifostine and other radioprotectors are described in Part III.

Saturday, October 16, 2021

Radiotherapy and Its Side Effects: Chapter 3 - Modern Technologies in Radiotherapy

PART II

Chapter 3

Modern Technologies in Radiotherapy (Cont'd)

2. Improvement of radiotherapy by using radiosensitizers

A radiosensitizer (also referred to as a radiosensitizing agent) is a pharmaceutical agent that makes tumor cells more sensitive to radiation, thus, increasing the efficiency of radiotherapy. For example, oxygen is known to increase tumor sensitivity to radiation by forming free radicals that can damage DNA.

As a solid tumor continues to grow, some cancer cells outgrow their blood supply and become sufficiently removed from their capillaries to become hypoxic (lack of oxygen). As a result, cancer cells survive by another mechanism called glycolysis. Glycolysis is a process in which glucose is converted into pyruvate by an oxygen-independent metabolic pathway; the process produces energy which is then stored in the form of ATP (adenosine triphosphate) for anaerobic cancer cells. In the presence of oxygen, ATP is formed through oxidative phosphorylation.

The process of glycolysis further results in excess lactic acid, which makes solid tumor more acidic (pH can be as low as 6.2). In general, cancer cells under acidic condition (mainly due to hypoxia) are more resistant to killing by radiotherapy and some cancer drugs.

Currently, there are a number of agents being investigated as potential radiosensitizers. Some examples of radiosensitizers are shown in Part III.

© Jiajiu Shaw, 2021

Disclaimer: This blog is written solely for informational purposes. It does not constitute the practice of any medical, nursing or other medical professional health care advice, diagnosis, or treatment. All contents posted are extracted from the book, "SIDE EFFECTS OF CHEMOTHERAPY AND RADIOTHERAPY", prepared by Dr. Jiajiu Shaw, Dr. Frederick Valeriote, and Dr. Ben Chen.

Saturday, August 21, 2021

Radiotherapy and Its Side Effects: Chapter 3 - Modern Technologies in Radiotherapy

PART II

Chapter 3

Modern Technologies in Radiotherapy (Cont'd)

1. Improvements on the technical aspects of radiotherapy

Generally, radiation oncologists attempt to reduce the injury to normal tissues surrounding the target tumor by limiting (or blocking) the radiation field. In recent years, a number of significant technical developments and modifications in radiotherapy have been developed in order to increase the efficacy of radiotherapy and/or reduce radiotherapy-induced injury. These technology improvements include using multiple ports, higher radiation doses, interstitial brachytherapy, stereotactic radiosurgery, and TomoTherapy. In general, therapists use these approaches in attempts to increase the radiation dose to the tumor tissue while decreasing the dose to the surrounding normal tissue(s). The main goals are to enhance/maintain the therapeutic effect while minimizing the damages to normal tissues.

A representative example of these newer technologies is stereotactic radiotherapy. Stereotactic radiotherapy utilizes small fractions of high-dose radiation (as compared to conventional dose) from different angles to destroy tumor tissue. By giving multiple radiation doses from different angles, it can improve the radiotherapy outcome while minimizing potential side effects on normal tissues, especially the skin. Stereotactic radiotherapy is now frequently used to treat brain tumors and other types of solid tumors.

A specific form of stereotactic radiotherapy used for brain tumors is called stereotactic surgery, which utilizes high dose radiation (x-ray or gamma ray) to precisely focus on the specific area in the brain to destroy tumor tissues in the brain, very similar to surgery, thus often referred to as radiation surgery. In this treatment, the dose and the treatment area have to be precisely coordinated to ensure that normal tissues in the proximity suffer the least damage by the high dose radiation. It is also called fractionated stereotactic radiosurgery wherein the total dose of radiation is divided into several doses and delivered in several days.

Another popular new technology is called TomoTherapy. It is a computed tomograph (CT)-guided intensity modulated radiation therapy (IMRT) that delivers radiation to the tumor slice-by-slice, which is different from other forms of external beam radiation therapy in which the entire tumor volume is irradiated. TomoTherapy is essentially an image-guided radiation therapy (IGRT). The “beam on” time for TomoTherapy (3 to 5 minutes) is similar to normal radiotherapy. However, it does require additional daily CT to precisely locate the tumor because tumor size and position may shift due to the shrinkage over time. The daily CT will help the operator in directing the radiation beam to modify the treatment (adaptive radiotherapy). TomoTherapy has been used in many solid tumors including prostate cancer, lung cancer, as well as head and neck cancer.

In recent years, stereotactic radiotherapy is being combined with TomoTherapy. Right before the radiotherapy procedure, a patient is positioned on an examination table and a high-resolution CT scan is used to determine the precise location, size, and shape of the tumor. The data is then transferred to the computing system wherein an exact treatment plan is defined in real time. Once the patient is positioned, the radiation source is rotated and/or orientated by a computer to different positions/angles, and a predetermined dose of radiation is targeted at the tumor while sparing the healthy tissues. Commercially, several advanced radiotherapy systems utilizing similar principle have been developed and used. Examples of modern radiotherapy systems include Discovery CT590 RT and Optima CT580 made by GE Healthcare, and CyberKnife® made by Accuray. The most recent comprehensive radiosurgery system, Edge™, is made by Varian Medical Systems. Edge™ is just entering the market and there are only few units installed in the United States. It is a dedicated system for performing advanced radiosurgery using new real-time tumor tracking technology.

Saturday, July 24, 2021

Radiotherapy and Its Side Effects: Chapter 3 - Modern Technologies in Radiotherapy

PART II

Chapter 3

Modern Technologies in Radiotherapy

Many approaches have been employed by the medical/pharmaceutical community to enhance the therapeutic effect of radiotherapy and/or to protect normal tissues or ameliorate tissue injury induced by radiotherapy. In general, there are four major approaches: (1) improvements/modifications on technical aspects of radiotherapy, (2) use of radiosensitizers to enhance the killing of radio-resistant cancer cells, (3) use of radioprotective agents to protect normal tissues and/or reduce the side effects, and (4) use of radiomitigators to speed up the recovery of normal tissues from injury induced by radiotherapy.

Saturday, June 5, 2021

Radiotherapy and Its Side Effects: Chapter 2 - Side Effects of Radiotherapy

PART II

Chapter 2

Side Effects of Radiotherapy (Cont'd)

Additional information about the side effects of radiotherapy

Because a human body is a delicate and complicated biological system, and the inter-communication among different organs are even more complex, some side effects are inter-connected and may not be clearly separated from one another. Let’s use some examples for further illustration.

Cancer patients treated by high dose radiation onto specific organ may suffer organ damages in addition to other side effects (hair loss, diarrhea, etc.). Let’s look at the radiotherapy on liver cancer as a specific example. Patients with liver cancer, when treated by ionizing radiation, may suffer from liver damage and/or liver function reduction.

There are several reasons why organ damages occur after radiation therapy. The obvious reason is that liver cells damaged by DNA will result in the damage of liver tissue through mechanisms such as programmed cell death (apoptosis). The other important reason is that certain cytokines, such as TNF-a, in liver and blood are often markedly induced by radiation therapy. As described before, abnormally elevated levels of TNF-a will kill the surrounding cells (no matter cancer cells or normal cells), and will cause certain liver damage.

Our experimental results showed that radiation in mouse liver induced liver damage (reflected by elevated serum levels of both aspartate transaminase (AST) and alanine transaminase (ALT), and the liver damage is in correlation with increased levels for serum TNF-a induced by irradiation. Pre-treatment of mice with a small-molecule TNF-a modulator UTL-5d (Fig. 2.2) effectively reduced TNF-a secretion and resulted in marked reduction of ALT/AST levels. This implies that TNF-a may play an important role in damaging the liver and UTL-5d compound may be a potential agent for radioprotection.

Fig. 2.2 Structure of UTL-5d

In order to reduce the side effects induced by radiotherapy, there are several general strategies being employed as described in the next chapter.

Saturday, May 8, 2021

Radiotherapy and Its Side Effects: Chapter 2 - Side Effects of Radiotherapy

PART II

Chapter 2

Side Effects of Radiotherapy (Cont'd)

4. Other side effects of radiotherapy

The medium- and long-term side effects of radiotherapy that one can see or feel depend on the tissues/organs that receive the radiation. With today’s technological improvement, these side effects can be significantly reduced.
Because radiotherapy is being used in different types of cancers and every patient’s situation is different, the side effects could vary from patient to patient. Some of the more common side effects from radiotherapy are described below:

Fatigue or tiredness

Fatigue is among the most common symptoms of radiotherapy. Lack of energy and an overtired feeling are common symptoms. Depending on the type of cancer and the regimen of the radiation treatment, the degree of fatigue may be different. Usually, patients should gradually recover from the lack of energy several weeks after the completion of radiotherapy.

Dryness

Radiotherapy on patients with head and neck cancer often causes the release of free radicals in saliva glands, resulting in lack of saliva (abnormal dryness of the mouth or xerostomia). Radiation therapy may also cause dry eye (xerophthalmia). Similarly, vaginal mucosa may be dry after pelvic irradiation.

Fibrosis

Fibrosis is the development of excessive fibrous connective tissue in an organ or tissue. As a reactive response to the high radiation energy, irradiated tissues tend to be inflamed and gradually become less elastic. Overtime, certain irradiated area may gradually become fibrosis. This happens more often for lung cancer patients being treated with radiotherapy.

Cancer (secondary malignancy)

Because radiation can alter certain DNA, it is also a potential cause of cancer, albeit a low probability. Some patients may develop secondary malignancies several years after receiving a course of radiation treatment. In most cases, this risk is greatly outweighed by the reduction of the primary cancer.

Friday, March 26, 2021

Radiotherapy and Its Side Effects: Chapter 2 - Side Effects of Radiotherapy

PART II

Chapter 2

Side Effects of Radiotherapy (Cont'd)

3. Activation of immunologic responses

In addition to producing the direct DNA damage, radiation can also produce a lot of free radicals, including reactive oxygen species (ROS), and cause indirect damages to normal tissues/organs. The delicate immune system can also be disturbed by this oxidative stress, causing extraordinary number of immunological responses, including the abnormal release of many cytokines.

Cytokines are regulatory proteins released by cells of the immune system. It has been reported that a number of cytokines may be induced by radiation, including tumor necrosis factor alpha (TNF-α), IL-1, IL-4, IL-5, IL-6, IL-8, IL-10, and transforming growth factor beta (TGF-β). The alteration of cytokine levels in blood, skin, or other tissues can cause a number of pharmacological responses.

Saturday, February 27, 2021

Radiotherapy and Its Side Effects: Chapter 2 - Side Effects of Radiotherapy

PART II

Chapter 2

Side Effects of Radiotherapy (Cont'd)

2. Damage to cell renewal

The following side effects are under a class called cell renewal effects.

Damage to bone marrow

Bone marrow is the flexible tissue in the hollow interior of bones. It is responsible for the production of blood cells, including RBCs, WBCs, and platelets. If a person is exposed to a high dose of radiation for too long (especially on pelvis, chest and other bones), one can suffer bone marrow damage. As a result of radiotherapy, a patient may suffer from low WBC count (neutropenia or leukopenia), low RBC count (anemia), and/or low platelet count (thrombocytopenia). As explained in the previous chapter, neutropenia may increase a patient’s chance of infection, anemia may cause fatigue, and thrombocytopenia can increase a patient’s risk of bruising and bleeding.

On the other hand, radiation damage to bone marrow is not completely negative. For patients that require bone marrow transplantation, a high dose TBI becomes a positive tool in that unhealthy bone marrow cells are “wiped out” by high-dose radiation before a patient receives healthy bone marrow cells or cord blood cells.

Hair loss (alopecia)

Radiotherapy often causes hair loss on the body part being treated [35, 36]. However, hair loss from radiotherapy is usually limited to the area treated by the radiation. For patients who receive radiotherapy for brain cancer, the most pronounced side effect may be hair loss. In this case, radiation-induced hair loss could be permanent; this is different from chemotherapy on other part of the body wherein hair loss is more likely temporary.

Anemia

Depending on the dose and the time of treatment, radiotherapy may or may not cause anemia for cancer patients. Many patients experience anemia atsome point during treatment; in serious situations, it may cause aplastic anemia.

Aplastic anemia is when the hematopoietic stem cells in bone marrow are seriously damaged. As a result, all blood cells are not adequately produced, and could be fatal in some cases. One of the most important pioneers in radioactivity, Marie Curie, died from aplastic anemia which was believed to have resulted from her long-term exposure to the radioactive materials she studied.

Diarrhea

When the lining of mouth, stomach, and intestines are injured by radiotherapy, it may cause diarrhea. It is common to have diarrhea during or after radiotherapy treatment on the stomach or abdomen. The diarrhea can gradually get worse as the treatment goes on. Once the treatment ends, the diarrhea normally goes away gradually over a couple of weeks, but for some people it may take a little bit longer.

Skin damage

Radiotherapy can induce tanned (hyperpigmentation), irritated, peeling or burned skin. Because recent radiotherapy technology utilizes higher radiation doses, skin damage becomes a problem that happens more often. On the other hand, in the most recent radiosurgery, such as stereotactic radiotherapy, because radiation is applied from different direction, skin damage is significantly reduced.