Module 5A: Responses To Malignancies In Children PDF

Summary

This document describes the responses to malignancies in children, specifically focusing on cellular aberrations such as leukemia, osteosarcoma, and Wilm's tumor. It provides an overview of the normal cell cycle and how it differs in cancerous cells. The document covers several learning outcomes for students in nursing.

Full Transcript

FAR EASTERN UNIVERSITY
INSTITUTE OF HEALTH SCIENCES AND NURSING
FIRST SEMESTER – AY 2024-205

NUR 1210 – NCM 109 CARE OF THE MOTHER AND CHILD AT RISK OR WITH PROBLEM

Module 5A: RESPONSES TO MALIGNANCIES IN CHILDREN

INTRODUCTION
The terms malignant and cancerous describe cells that are growing and proliferating in a
disorderly,
chaotic fashion. In adults, cancer usually occurs in the form of a solid tumor. In children, the most
frequent type of cancer is that of immature white blood cell (WBC) overgrowth, or leukemia.
Many parents assume that a diagnosis of cancer means their child’s life will be very limited.
Because
of the tremendous advances in cancer research and treatment over the past 20 years, however, the
prognosis for children and the chances for a cure improve daily. Up to 95% of children with the most
common form of leukemia, for example, can expect to be cured. To help both parents and children
adjust to this serious illness, however, nursing support is necessary from the time of diagnosis
throughout the long-term therapy required. Because decreasing the incidence of cancer is important
to
the nation, 2020 National Health Goals related to malignancies and children address this concern.

LEARNING OUTCOMES
After the successful completion of the module the student should be able to:
1. Integrate concepts, theories and principles of sciences and humanities in the formulation and
application of appropriate care during childbearing and childrearing years.
2. Formulate with the client a plan of care to address needs/problems of at-risk/high risk mother
and child
3. Implement safe and quality nursing interventions to address needs/problems of at-risk/high risk
mother and child
4. Manage resources (human, physical, financial, time) efficiently and effectively
5. Use of appropriate technology to perform safe and efficient nursing activities
6. Customize nursing interventions based on Philippine culture and values
7. Conduct individual/group health education activities based on the priority learning needs of
at-risk/high risk mother and child
8. Evaluate with the client the health outcomes of nurse-client working relationship
9. Document client’s responses/nursing care services and outcomes of nursing care rendered
10. Adhere to established norms of conduct based on the Philippine Nursing Law and other legal,
regulatory, and institutional requirements relevant to safe nursing practice

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TOPIC OUTLINE
I. Cellular Aberrations
A. Leukemia
B. Osteogenesis Sarcoma
C. Wilm’s tumor

CONTENT
NEOPLASIA
All body tissue undergoes continuing growth to develop into and maintain that specific type of
tissue. Normally, the body is able to balance the proliferation necessary to replace old cells that die
plus produce new cells for physical growth needs. Cancerous, or malignant, tissue however, is unable
to maintain this balance and begins to proliferate in disorderly, chaotic ways.
The word neoplasm means “new growth,” although it is typically used to refer to a new abnormal
growth that does not respond to normal growth-control mechanisms. Whether this process is one that
produces a solid tumor or one that involves blood-forming elements, growth begins insidiously and
usually has been happening for some time before the parents or child realize it is present. Even after
they are aware a change exists some time may pass before they realize the few symptoms, they feel
are serious enough to require health care.
Although cancer in children is rare compared to unintentional injury or infection, it is a leading
cause of death among children younger than 15 years of age. Fortunately, the overall survival rate for
children with cancer today has improved. The overall 5-year survival rate is 83%, and for acute
lymphoblastic leukemia (the most common form of childhood cancer). The 5-year survival rate is 90%.

CELL GROWTH
The normal cell cycle consists of two main divisions: an interphase (resting) phase and a mitosis
(dividing) phase. The interphase has four separate stages GO, GI,, S, and G2. The time span of a
cell’s life varies based on the type of tissue involved. The rate of the cycle is slowed or increased by
outside stimuli, such as hypoxia, genetic and immunologic factors, and physical and chemical agents.
Normally, an organ has some cells in both resting and active cells.
Cells have the ability to recognize their own type, possibly by recognizing surface enzymes or
glucose particles on cell membranes. As a result, cells of like type do not migrate away from each
other but instead recognize and adhere to each other to form a solid mass. In contrast, neoplastic
cells seem to lose this ability to adhere to one another (they are autonomous cells). The reason for
this is not well documented but may be related to decreased calcium in the cell membrane or to an
increased negative charge that repels other cells rather than bonds them together.
Another feature of healthy cells is that they appear to be able to recognize when they are being
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crowded for the space they must occupy and, at that point, are able to halt growth to reduce
overcrowding. Neoplastic cells do not respond to this communication or cannot receive it, so, despite
how crowded they become, they continue to grow. By the time a tumor mass is detected by palpation,
it is probably about 30 times the size of its original aberrant cell.

Phases of the Cell Cycle

Phase Activity
G Gap, or the phase between mitosis and synthesis
G0 Cell at rest. Cells remain in this state until some stimulant, such as death
of surrounding cells, triggers the cell to enter an active phase; it is difficult
to destroy cells in this resting state.
G1 Period until DNA stabilization is complete; it remains difficult to destroy
cells in this phase
S (synthesis) Period (6-8 hrs) during which DNA and chromosomes are duplicated or a
cell readies itself for division into two daughter cells.
G2 Cell doubling in size as preparations for dividing into two daughter cells; if
protein synthesis can be stopped at this point so that the cell cannot
reach a “critical mass,” mitosis (cell division) cannot take place.
M (mitosis) Period of cell division into two like daughter cells

NEOPLASTIC GROWTH
Neoplasms are either benign (growth is limited) or malignant (cancerous or with unlimited growth).
Even when a tumor is benign, however, it doesn’t mean it is completely harmless because it can
cause damage by pressing on adjacent tissue. For example, brain tumor in children are often benign,
but they may cause life-threatening neurologic complications by compressing other areas of the brain.

CAUSES OF NEOPLASTIC GROWTH
The exact origin of neoplastic growth is unknown, and any growth may actually involve more than
one cause. As more and more evidence is compiled on the nature of genes, specific markers in tumor
that apparently fail to suppress, or stimulate, cancer-causing genes are being identified: almost all
childhood cancers have such markers or a genetic trigger or predisposition to cancer.
In adults, tumors may grow because normal cell growth has been altered by environmental
exposures, such as chronic exposure to chemical irritants or cigarette smoke. In adults, the skin,
bladder, lungs, and intestines involve organs exposed to such outside influences and irritation and
thus become common sites for abnormal growths. In children, in contrast, tumors most frequently
occur in organs unexposed to the environment such as leukemia of the bone marrow,
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nephroblastoma of the kidney (Wilm tumor), tumors of the brain, or neuroblastoma in the abdomen,
and because many tumors occur in children younger than 5 years of age who haven’t had long-term
exposure to environmental carcinogens, this cause of tumors is probably not a great influence in
childhood cancer.
Somatic mutation theory postulates that an accumulation of mutations in the cell is what ultimately
results in the transformation to a neoplastic state. This theory explains why the growth of neoplastic
cells is not reversible (the cells cannot return to a normal state because they are intrinsically changed
at the genomic level) and why neoplasms occur in some people but not in others (both an intrinsic and
extrinsic factor, or an inherited tendency and an environmental insult, must be present). It is difficult to
document this process, however, because if there is a lengthy time span between these steps, the
cause-and-effect relationship is difficult to trace and in general is more pertinent to adult cancers in
which decades of time contribute the amount of potential mutations.
In other cancers, oncogenic viruses (cancer-causing virus) such as HPV may be directly
responsible for tumor growth. According to this viral theory, oncogenic viruses have the ability to
change the structure of DNA or RNA in cells. C-type RNA viruses, for example, have been implicated
in leukemia. The Epstein-Barr virus (EBV) is associated with Burkitt lymphoma. This theory is
supported by the fact that an immunodeficient state appears to increase the risk for development of a
neoplastic growth. In some children, because of their genetics, tumor suppressor cells may not be
present, allowing abnormal growth stimulated by viruses to continue

I. A. LEUKEMIA
♦ Is the distorted and uncontrolled proliferation of WBCs
♦ Is the most frequently occurring type of cancer in children.

Risk Factors
1. Radiation (Atomic bomb explosions, radiation therapy as treatment for cancer & other
conditions, diagnostic X-rays)
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2. Smoking
3. Exposure to benzene in the workplace (chemical industry), found in cigarette smoke and
gasoline
4. Chemotherapy
5. Human T-cell leukemia virus type I (HTLV-I)
6. Viruses have also been linked to some forms of leukemia
7. Some people have a genetic predisposition towards developing leukemia.
8. Chromosomal abnormalities or certain other genetic conditions have a greater risk of
leukemia.
9. Children born to mothers who use fertility drugs to induce ovulation are more than twice as
likely to develop leukemia during their childhoods than other children.

Pathophysiology of Leukemia
Most blood cells develop from cells in the bone marrow called stem cells. Bone marrow is
the soft material in the center of most bones. Stem cells mature into different kinds of blood
cells. Leukemia, a group of cancers that usually begins in the bone marrow and results in high
numbers or unrestricted proliferation if immature WBCs in the blood- forming tissues of the
body. These white blood cells are not fully developed and are called blasts or leukemia cells.
Leukemia, results from mutations in the DNA. Certain mutations can trigger leukemia by
activating oncogenes or deactivating tumor suppressor genes, and thereby disrupting the
regulation of cell death, differentiation or division. These mutations may occur spontaneously
or as a result of exposure to radiation or carcinogenic substances.
In lymphoblastic or lymphocytic leukemias, the cancerous change takes place in a type of
marrow cell that normally goes on to form lymphocytes, which are infection-fighting immune
system cells. Most lymphocytic leukemias involve a specific subtype of lymphocyte, the β cell.
In myeloid or myelogenous leukemias, the cancerous change takes place in a type of
marrow cell that normally goes on to form red blood cells, some other types of white cells, and
platelets.
♦ Goal of therapy is complete cure, complete remission or absence of leukemia cells

Forms of Leukemia:
1. Acute lymphoblastic leukemia (ALL)
♦ Malignant proliferation of lymphoblast (immature lymphocytes), thus, the production of
RBCs and platelets decline.
♦ Most common among children 2 to 6 yrs old
Children younger than 1 yo or older is not as good as in those between 2 and 10 years
of age
♦ Incidence is slightly higher in boys than in girls

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♦ First symptom are those associated with decreased RBC production (anemia) such as
pallor; low-grade fever, and lethargy. Low thrombocyte (platelet) count leads to
petechiae and bleeding from oral mucous membranes and easy bruising on arms and
legs. Spleen and liver begin to enlarge from infiltration of abnormal cells, abdominal
pain, vomiting and anorexia occur. As abnormal lymphocytes invade the bone
periosteum, child experiences bone and joint pain. CNS invasion leads to symptoms
such as headache or unsteady gait.
♦ On PA,: painless, generalized swelling of lymph nodes is revealed.
♦ Bone marrow aspiration to determine type of leukemia, Lumbar puncture to assess CNS
Involvement. Bone marrow aspiration – findings of 25% blast cell confirms the
diagnosis. Site: illac crest
♦ Bone scan to assess bone involvement.
♦ Chest x-ray to detect mediastinal involvement
♦ Renal, liver & spleen scans to assess leukemic infiltrates.
♦ Lymph node Biopsy to diagnose certain types of leukemia
♦ Blood Chemistry tests to determine the degree of liver and kidney damage or the effects
of chemotherapy on the patient.
♦ MRI of brain
♦ Ultrasound of kidneys, spleen, and liver
♦ CT scans of lymph nodes in the chest
2. Chronic lymphocytic leukemia (CLL)
♦ affects lymphoid cells and usually grows slowly.
♦ People diagnosed with the disease are over age 55.
♦ It almost never affects children.

3. Acute myelogenous leukemia (AML)
♦ Malignant disorder that involves the over proliferation of granulocytes (neutrophils,
basophils, and eosinophils)
♦ Granulocytes grow so rapidly that they are forced out into the bloodstream while still in
the blast stage: these immature cells are not able to carry out normal immune function
and put the child at risk for infection. The over proliferation of granulocytes limits the
production of RBCs and platelets.
♦ Often seen in adults and accounts for 20% of all childhood leukemias
♦ It is incurable, but there are many effective treatments.
4. Chronic myeloid leukemia (CML)
♦ affects myeloid cells and usually grows slowly at first; It mainly affects adults.

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Nursing Diagnoses
1. Risk for infection related to non-functioning WBCs and Immunosuppressive effects of
therapy
2. Risk for deficient fluid volume related to increased chance of hemorrhage from poor platelet
production.
3. Pain related to invasion to leukocytes
4. Ineffective health maintenance related to long term therapy for leukemia.

Therapeutic Management
♦ The goal of treatment is to destroy signs of leukemia in the body and make symptoms go
away. This is called a remission and to prevent a relapse
A. Watchful Waiting
♦ People with chronic lymphocytic leukemia who do not have symptoms may be able to put
off having cancer treatment. By delaying treatment, they can avoid the side effects of
treatment until they have symptoms.
♦ Regular checkups (such as every 3 months) then start treatment if symptoms occur.
B. Chemotherapy
♦ Chemotherapy uses drugs to destroy leukemia cells either by killing the cells or by
stopping them from dividing but the drug can also harm normal cells that divide rapidly

Chemotherapy is delivered in several different ways:
a. By mouth (as pills patient can swallow)
b. Into a vein (IV)
c. Through a catheter (a thin, flexible tube)
♦ The tube is placed in a large vein, often in the upper chest. A tube that stays in
Place is useful for patients who need many IV treatments. The health care
professional injects drugs into the catheter, rather than directly into a vein. This
method avoids the need for many injections, which can cause discomfort and
injure the veins and skin.
d. Intrathecal chemotherapy
♦ used because many drugs given by IV or taken by mouth can't pass through the
tightly packed blood vessel walls found in the brain and spinal cord. This
network of blood vessels is known as the blood-brain barrier. Intrathecal
chemotherapy is given in two ways:
d.1. Into the spinal fluid: The doctor injects the drugs into the spinal fluid.
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d.2. Under the scalp: Children and some adult patients receive chemotherapy
through a special catheter called an Ommaya reservoir. The doctor places
the catheter under the scalp. The doctor injects the drugs into the catheter.
This method avoids the pain of injections into the spinal fluid.
♦ Chemotherapy is usually given in cycles. Each cycle has a treatment period
followed by a rest period. There may be 1 week of chemotherapy followed by 3
weeks of rest. The 4 weeks make up one cycle. The rest period gives your body
a chance to build new healthy cells.

Side effects:
a. Blood cells: When chemotherapy lowers the levels of healthy blood cells, you're
more likely to get infections, bruise or bleed easily, and feel very weak and tired.
b. Cells in hair roots: Chemotherapy may cause hair loss. If you lose your hair, it will
grow back, but it may be somewhat different in color and texture.
c. Cells that line the digestive tract: Chemotherapy can cause poor appetite, nausea
and vomiting, diarrhea, or mouth and lip sores
d. Sperm or egg cells: Some types of chemotherapy can cause infertility
Children: Most children treated for leukemia appear to have normal fertility when
they grow up. However, depending on the drugs and doses used and the age of the
patient, some boys and girls may be infertile as adults.

Adult men: Chemotherapy may damage sperm cells. Men may stop making sperm.
Adult women: Chemotherapy may damage the ovaries (irregular menstrual periods
or experience menopause such as hot flashes and vaginal dryness

Combination Chemotherapy
♦ involves treating a patient with a number of different drugs simultaneously. The drugs
differ in their mechanism and side-effects. The biggest advantage is minimizing the
chances of resistance developing to any one agent. Also, the drugs can often be
used at lower doses, reducing toxicity.
♦ Combined modality chemotherapy is the use of drugs with other cancer treatments,
such as radiation therapy, surgery and/or hyperthermia therapy.

Neoadjuvant Chemotherapy
♦ given prior to a local treatment such as surgery
♦ designed to shrink the primary tumor.
♦ also given to cancers with a high risk of micrometastatic disease.

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Adjuvant Chemotherapy
♦ given after a local treatment (radiotherapy or surgery).
♦ can be used when there is little evidence of cancer present, but there is risk of
recurrence.
♦ also useful in killing any cancerous cells that have spread to other parts of the body.

Maintenance Chemotherapy
♦ a repeated low-dose treatment to prolong remission.
♦ Salvage chemotherapy or palliative chemotherapy
♦ given without curative intent, but simply to decrease tumor load and increase life
expectancy

The treatment of childhood ALL usually has 3 phases.
1. Induction therapy: This is the first phase of treatment. Its purpose is to kill the leukemia
cells in the blood and bone marrow.
♦ Achieving a complete remission or absence of leukemia cells
♦ 3-6 weeks or 1 month
♦ The child receives a variety of chemotherapeutic agents to induce remission.
2. Sanctuary / Consolidation / Intensification therapy:
♦ This is the second phase of therapy. It begins once the leukemia is in remission.
a. Preventing leukemia cells from invading or growing in the CNS
b. Extended for 2-3 weeks during the phase of consolidation to combat
involvement of the CNS & other vital organs.
3. Maintenance therapy:
♦ This is the third phase of treatment. Its purpose is to kill any remaining leukemia cells
that may regrow and cause a relapse.
♦ Often the cancer treatments are given in lower doses than those used for induction
and consolidation/intensification therapy. This is also called the continuation
therapy phase.
a. Administering delayed Intensive therapy
b. Maintaining the original remission
c. Administered for several years after diagnosis to sustain remission.
♦ Bone marrow biopsy and aspirates are done throughout all phases to see how well
the leukemia is responding to treatment.

C. Radiation therapy
♦ a cancer treatment that uses high-energy x-rays or other types of radiation to kill cancer
cells or keep them from growing.
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♦ Radiation is aimed at the spleen, the brain, or other parts of the body where leukemia
cells have collected.
♦ This type of therapy takes place 5 days a week for several weeks. The radiation
treatments are given once or twice a day for a few days, usually before a stem cell
transplant.

There are two types of radiation therapy.
a. External radiation therapy
♦ series of daily radiation exposures as patient is left alone in a room using a
machine outside the body to send radiation toward the cancer.
♦ Keep skin dry, cornstarch is the only topical application allowed
♦ Avoid: strong sunlight; extremes of temperature; tight constricting clothing; strong
alcohol mouthwash; fatigue; crowded places; Talcum and lotions

b. Internal radiation therapy
♦ uses a radioactive substance (radium, indium, celsium) sealed in needles, seeds,
wires, or catheters that are placed directly into or near the cancer.
♦ Unsealed Internal Radiation (radio-isotope/radionuclide) where source of
radiation is given orally, intravenously or instilled in cavity

Principles of Internal Radiation Therapy
1. Time – the shortest possible (not more than 30 minutes per shift)
2. Distance – as far as possible (can spend more time at distance of 20 feet)
3. Shielding – protection lead apron

Disadvantages:
1. Radiation to the abdomen can cause nausea, vomiting, and diarrhea
2. The skin in the area being treated may become red, dry, and tender
3. Patient may lose hair in the treated area

D. Cobalt Therapy
♦ A linear accelerator can be used to deliver cobalt therapy to larger tumors.
♦ Aims gamma rays at cancerous cells / malignant cells without destroying nearby healthy
tissue. These rays attack cancer from several directions as cobalt ions deteriorate.
Healthy cells harmed by cobalt therapy typically regenerate and return to normal.

E. Stem Cell Transplant
♦ Allows treatment with high doses of drugs, radiation, or both. The high doses destroy
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both leukemia cells and normal blood cells in the bone marrow. After high-dose
chemotherapy, radiation therapy, or both healthy stem cells is delivered through a large
vein. New blood cells develop from the transplanted stem cells. The new blood cells
replace the ones that were destroyed by treatment. Stem cells may come from the
patient or from a donor
♦ From you: An autologous stem cell transplant uses your own stem cells. Before you get
the high-dose chemotherapy or radiation therapy, your stem cells are removed. The
cells may be treated to kill any leukemia cells present. Your stem cells are frozen and
stored. After you receive high-dose chemotherapy or radiation therapy, the stored stem
cells are thawed and returned to you.

♦ From a family member or other unrelated donor: An allogeneic stem cell transplant uses
healthy stem cells from a donor. Your brother, sister, or parent may be the donor.
Sometimes the stem cells come from a donor who isn't related. Doctors use blood tests
to learn how closely a donor's cells match your cells.
♦ From your identical twin: If you have an identical twin, a syngeneic stem cell transplant
uses stem cells from your healthy twin.

Stem cells come from a few sources.
1. From the blood (peripheral stem cell transplant)
2. From the bone marrow (bone marrow transplant)
3. Umbilical cord blood. Cord blood is taken from a newborn baby and stored in a freezer.
(Umbilical cord blood transplant)

♦ After a stem cell transplant, you may stay in the hospital for several weeks or months. You'll
be at risk for infections and bleeding because of the large doses of chemotherapy or
radiation you received. In time, the transplanted stem cells will begin to produce healthy
blood cells.

Drug of Choice
a. Vincristine –anti neoplastic
b. Prednisone – anti inflammation
c. L- Asparaginase – decrease the level of asparagine (an amino acid necessary for tumor
growth)
d. Doxorubicin – Anti neoplastic
e. Methotrexate – Anti neoplastic
f. Allopurinol – used to treat gout or kidney stones, and to decrease levels of uric acid
During the treatment a high level of uric acid is excreted because so many cells are
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destroyed by chemotherapy. This can lead to plugging of kidney glomeruli and loss of
kidney function
g. Keep child well hydrated – helps maintain safe uric acid excretion

F. Targeted therapy
♦ a treatment that uses drugs or other substances that block the growth of leukemia cells
to identify and block the action of an abnormal protein that stimulates the growth of
leukemia cells without harming normal cells.
♦ Side effects include swelling, bloating, and sudden weight gain, anemia, nausea,
vomiting, diarrhea, muscle cramps, or a rash.

G. Biological Therapy
♦ Treatment that improves the body's natural defenses against the disease.
♦ Monoclonal antibody is given by IV infusion. This substance binds to the leukemia cells
that kills the leukemia cells, others help the immune system destroy leukemia cells,
while another kind slows the growth of leukemia cells
♦ Biological therapies commonly cause a rash or swelling where the drug is injected,
headache, muscle aches, fever, or weakness.

H. Nutrition and Physical Activity
♦ Right amount of calories to maintain a good weight
♦ Enough protein to keep up the strength
♦ Side effects of treatment (poor appetite, nausea, vomiting, or mouth sores) can make it
hard to eat well.
I. Walking, yoga, and other activities to keep patient strong and energized
J. Exercise may reduce nausea and pain, help relieve stress

Nursing Management
1. Monitor child for reactions to medications
2. Monitor for infections.
3. Monitor for hemorrhage.
4. Monitor for of complications.
5. Monitor for the concerns & anxiety about the diagnosis of cancer & its related treatments.
6. Monitor for emotional responses such as anger, denial & grief.
7. Monitor disruptions in family planning.

Side Effects and Nursing Management
1. Nausea and vomiting
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♦ small frequent, high calorie, high potassium, high protein diet; foods should be easy to
swallow; frequent mouth care; pleasant environment; or NGT, IV, hyper alimentation.
2. Stomatitis
♦ soft toothbrushes, frequent mouth care; oral salt mouth gargle, avoid commercial
mouthwash that contain high alcohol; avoid hot drinks or food; bland foods is best.
3. Alopecia
♦ advise short hair before treatment; gentle combing, use wig or scarf when necessary;
4. Diarrhea
♦ low residue diet; increase fluids; avoid hot or cold drinks and food
5. Infections
♦ avoid uncontrolled crowds and sources of infection; balanced diet; skin care.
♦ Standard treatments involve chemotherapy and radiotherapy, bone marrow transplant

I. B. OSTEOGENIC SARCOMA
 a primary malignant tumour of the long bone involving rapidly growing bone tissue
(mesenchymal-matrix forming cells). More commonly occur in boys characterized by the direct
formation of immature bone or osteoid tissue by the tumour cells :
 Osteosarcoma and in children who have had radiation for other malignancies as a later life
effect.
 Most common sites of occurrence are the distal femur, the proximal tibia and the proximal
humerus
 Osteogenic sarcoma
 Metastasis is common due to high vascular system of bones. Metastasis common in the lungs,
brain and other bone tissue

Incidence of Osteogenic sarcoma
 Most common primary malignant bone tumour
 Vast majority are metastatic
 More rarely Osteogenic sarcoma may arise in the soft tissue
 Twice as common in males
 More than 75% occur in patients younger than 20 years (with peaks at 10-14 for girls and
15-18 for boys) but a second smaller peak also occurs in the elderly
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 Tends to occur in the:
♦ Shin (near the knee) = 19%
♦ Thigh (near the knee) = 42%
♦ Upper arm (near the shoulder) = 10%
♦ Skull and jaw = 8%
♦ Pelvis = 8%

Predisposing Factors:
1. Rapid bone growth
 Osteosarcoma usually develops from osteoblasts (the cells that make growing bone),
it most commonly affects teens who are experiencing a growth spurt
2. Common in females 10-14 years
3. Twice as common in males between the ages of 15 – 18 years
4. Slightly higher incidence in blacks than in whites
5. Genetic predisposition
 Bone dysplasias, including Paget disease, fibrous dysplasia, & retinoblastoma

Precipitating Factors:
1. Radiation
 especially post-radiotherapy for a solid organ tumour in childhood
2. Environmental factors
a. Exposure to radiation
b. Water fluoridation

Clinical Manifestations
1. Patient limps
2. Muscle atrophy
3. Decreased joint range of motion
4. Pathologic fracture
5. Swelling or Mass (may be tender and warm, Increased skin vascularity over the mass)
6. Pain, particularly pain with activity
7. Dull aching unilateral bone pain for several months
8. Night pain may awaken patient from sleep
9. May be misdiagnosed associated with minor injury
10. Uncommon features
 Fever  Weight loss
 Night sweats  Lymphadenopathy

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NUR 1210 – NCM 109 CARE OF THE MOTHER AND CHILD AT RISK OR WITH PROBLEM
Diagnostic Examinations
1. X-rays
 uses invisible electromagnetic energy beams to produce images of internal tissues,
bones, and organs onto film
2. Bone scans
 a nuclear imaging method to evaluate any degenerative and/or arthritic changes in the
joints
 to detect bone diseases and tumors
 to determine the cause of bone pain or inflammation
 to rule out any infection or fractures
3. Magnetic resonance imaging (MRI)
 uses a combination of large magnets, radiofrequencies, and a computer to produce
detailed images of organs and structures within the body.
 to rule out any associated abnormalities of the spinal cord and nerves
4. Computed tomography scan
 a diagnostic imaging procedure that uses a combination of x-rays and computer
technology to produce cross-sectional images (often called slices), both horizontally
and vertically, of the body
 shows detailed images of any part of the body, including the bones, muscles, fat, and
organs

Laboratory Examinations
1. Complete Blood Count (CBC)
 a measurement of size, number, and maturity of different blood cells in a specific volume
of blood
2. Blood tests (including blood chemistries)
3. Biopsy of the tumor

The Enneking Staging System or Musculoskeletal Tumour Society Staging System:
(Used for planning treatment)
1. Tumour grade (histologic grade of the tumor)
I = low grade
II = high grade
2. Tumour extension (anatomic location of the tumor)
A = intraosseous involvement only
B = intra- and extraossseous extension
3. Presence of distant metastases (III)
Low-grade tumor, intracompartmental - I-A
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NUR 1210 – NCM 109 CARE OF THE MOTHER AND CHILD AT RISK OR WITH PROBLEM
Low-grade tumor, extracompartmental - I-B
High-grade tumor, intracompartmental - II-A
High-grade tumor, extracompartmental - II-B

 Any tumor with evidence of metastasis - III

Goal of Treatment
1. To slow, stop, or eliminate the cancer
2. Relieve symptoms and side

Medical Management:
1. Chemotherapy
 the use of medical drugs to kill cancer cells and shrink the cancer to minimize chances
of the cancer coming back
 may be given before (neoadjuvant) or after (adjuvant) surgery
Common chemotherapy medicines include:
a. Cisplatin d. Doxorubicin (Adriamycin)
b. Cyclophosphamide (Cytoxan) e. High-dose methotrexate w/ Leucovorin
c. Carboplatin (Paraplatin) f. Ifosfamide (Ifex)

Short-term effects include:
a. Anemia f. Liver damage
b. Abnormal bleeding g. Bladder inflammation
c. Kidney damage h. Increased risk of infection
d. Risk for other cancers i. Heart and skin problems
e. Hearing loss j. Menstrual irregularities

2. Radiation
3. Rehabilitation (Physical and Occupational therapy)
4. Psychosocial adapting
5. Antibiotics (to prevent and treat infections)
6. Continued follow-up care
 to determine response to treatment, detect recurrent disease, and manage the side
effects of treatment
7. Prosthesis fitting and training

Surgical Management
1. Wide Resection
 the entire malignant tumor has been surgically excised, and no microscopic evidence of
tumor cells at the resection margins remains
2. Limb-Salvage/Sparing surgery
 remove the tumor while saving the affected limb to preserve function
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NUR 1210 – NCM 109 CARE OF THE MOTHER AND CHILD AT RISK OR WITH PROBLEM
Complications:
a. Infection c. Non-union
b. Prosthetic loosening d. Local tumor recurrence
3. Rotationplasty
 foot being turned around and reattached to allow the ankle joint to be used as a knee
4. Bone / Skin Grafts
5. Reconstructions
6. Amputation
 usually takes at least 3 to 6 months until a young person learns to use a prosthetic leg or
arm
a. Autologous bone graft
 bone from same individual
 chin, iliac crest, fibula, ribs, mandible, skull
b. Allograft (Prosthetic device)
 from another human (Cadaver)
7. Physical therapy and rehabilitation for 6 to 12 months following surgery usually enable the
child to walk initially with a walker or crutches and then without any assistive devices

Early complications after surgery:
a. Infection
b. Slow healing of the surgical wound
c. Metal prosthetic device or the bank bone may need to be replaced in the long term

Late problems might include:
a. Fracture of the bank bone
b. Failure of the bank bone to heal to the child's bone (might require more surgery)

Radiation therapy
1. Adjuvant chemotherapy
 Postoperative chemotherapy
 Mode of treatment is for about five weeks, different combination drugs are used for the
treatment
2. Neo-adjuvant
 Preoperative Chemotherapy
 preferred especially when a limb sparing procedure is being contemplated

Nursing Management

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NUR 1210 – NCM 109 CARE OF THE MOTHER AND CHILD AT RISK OR WITH PROBLEM
1. Supportive environment
2. Comfort of client (Rest, proper ventilation, massage)
3. Fluids for hydration
4. Small frequent feeding and ice chips for nausea and vomiting
5. Balanced meal for anemia
6. Accurate Intake and output monitoring while on chemotherapy
7. Care of chemotherapeutic drugs
8. Diversional care
9. Spiritual care
10. Continued follow-up care
11. Teach patient how to use assistive devices safely and how to strengthen unaffected
extremities

12. Monitor full cycles of chemotherapy
13. Monitor IV antibiotics, fever and neutropenia
14. Assist in passive ROM and consider some restrictions

Complications
 Pathologic fractures
 Lung metastasis
 Limb removal

Prognosis
1. Recurrence of osteosarcoma in more than 90% of patients is located in the lung
2. A 5-year survival rate of 20% to 45% following complete resection of metastatic pulmonary
lesions
3. 10% to 15% following complete resection of metastases in other sites
4. Survival rates of 60% to 80% are possible if it hasn't spread beyond the tumor, depending
on the success of chemotherapy
5. Combined neoadjuvant treatment gives a cure rate of 60%–70% for patients with
nonmetastatic osteosarcoma of the extremities and of about 30% for tumours of the axial
skeleton
6. Osteosarcoma that has spread cannot always be treated as successfully
7. A child whose osteosarcoma is located in an arm or leg generally has a better prognosis
than one whose disease involves the ribs, shoulder blades, spine, or pelvic bones

1. C. NEPHROBLASTOMA (WILMS’ TUMOR)
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NUR 1210 – NCM 109 CARE OF THE MOTHER AND CHILD AT RISK OR WITH PROBLEM
♦ Nephroblastoma (nephro) kidney, blasto-bud, oma-tumor
♦ A malignant tumor that rises from the metanephric mesoderm cells of the upper pole of the
kidney
♦ Most common intraabdominal and kidney tumor of childhood early life.
♦ a rare type of kidney cancer
♦ It causes a malignant tumor on one or both kidneys that rises from the metenephic mesoderm
cells of the upper pole of the kidney; survival rate are greater than 90%.
♦ Metastatic spread by the bloodstream is most often to the lungs, regional lymph nodes, liver,
bone, and, eventually, brain

♦ Discovered early in life (6 months to 5 years; peak at 3 to 4 years), although it apparently arises
from an embryonic structure present in the child before birth
♦ Mass seemed to appear overnight because tumors can hemorrhage into themselves, doubling
their size in a matter of hours

Risk Factor:
1. People of African descent
2. Children between 3 to 3.5 years old
3. A genetic predisposition to Wilms' Tumor in individuals with aniridia (Lack of color in the iris)

Clinical Manifestations:
1. Abnormally large abdomen 4. Abdominal pain
2. Blood in the urine 5. Nausea and vomiting
3. Fever for no reason 6. High blood pressure in some cases

Diagnostic and Laboratory Procedures
1. CT scan or Ultra sound – reveals the primary tumor and any points of metastasis.
2. Kidney function studies – Assess function of the kidneys before surgery
3. Blood urea nitrogen
4. Bone surveys and Bone marrow aspirations – to rule out metastasis
5. Excisional biopsy – confirm histologic type

Children’s Oncology Group (COG) Staging System
♦ used most often to describe the extent of spread of Wilms tumors.
♦ This system describes Wilm’s tumor stages using Roman numerals I through V

Stage I (40% to 45%)
♦ Tumor was contained within one kidney and was completely removed by surgery
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NUR 1210 – NCM 109 CARE OF THE MOTHER AND CHILD AT RISK OR WITH PROBLEM
♦ Tissue layer surrounding the kidney (the renal capsule) was not broken during surgery
♦ Cancer had not grown into blood vessels in or next to the kidney
♦ Tumor was not biopsied before surgery to remove it

Stage II (20%)
♦ Tumor has grown beyond the kidney, either into nearby fatty tissue or into blood vessels
in or near the kidney, but was completely removed by surgery without any apparent
cancer left behind
♦ Lymph nodes do not contain cancer
♦ Tumor was not biopsied before surgery.

Stage III (20% to 25%)
♦ Refers to Wilm’s tumors that may not have been completely removed. The cancer
remaining after surgery is limited to the abdomen (belly). One or more of the following
features may be present:
a. Cancer has spread to lymph nodes (bean-sized collections of immune cells) in the
abdomen or pelvis but not to more distant lymph nodes, such as those inside the chest.
b. Cancer has invaded nearby vital structures so the surgeon could not remove it
completely.
c. Deposits of tumor (tumor implants) are found along the inner lining of the abdominal
space.
d. Cancer cells are found at the edge of the sample removed by surgery, indicating that
some of the cancer still remains after surgery.
e. Cancer cells “spilled” into the abdominal space before or during surgery.
f. Tumor was removed in more than one piece – for example, the tumor was in the kidney
and in the nearby adrenal gland, which was removed separately.
g. A biopsy of the tumor was done before it was removed with surgery.

Stage IV (10%)
♦ Cancer has spread through the blood to organs away from the kidneys such as the
lungs, liver, brain, or bone, or to lymph nodes far away from the kidneys.

Stage V (5%)
♦ Tumors are found in both kidneys at diagnosis.

Therapeutic Management:
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NUR 1210 – NCM 109 CARE OF THE MOTHER AND CHILD AT RISK OR WITH PROBLEM
♦ The Goal of treatment is to remove the primary (main) tumor even if the cancer has spread
to distant parts of the body; The lungs are the most common site of metastasis

The main types of treatment that can be used for Wilms tumor are:
1. Surgery
♦ The affected kidney & the mass are removed as soon as diagnosis has been confirmed
2. Chemotherapy
♦ Drug of choice are:
a. Antinomycin D
b. Vincristine
c. Doxorubicin (Adriamycin)
♦ They have been proven to be effective especially if there are metastasis.
♦ Late effects may include:
a. Reduced kidney function
b. Heart or lung problems after receiving certain chemotherapy drugs or radiation
therapy to these parts of the body
c. Slowed or delayed growth and development
d. Changes in sexual development and ability to have children (especially in girls)
3. Radiation Therapy
4. Biologic therapies to boost your body's own ability to fight cancer

Nursing Care Management
1. All unnecessary handling of the abdomen are prohibited avoided as it can cause the
disease to spread.
2. A sign “DO NOT palpate abdomen” must be placed on the chart’s cover and on the crib of
the child.
3. The nurse monitors GI activity
a. Bowel movements c. Vomiting
b. Bowel sounds d. Distention
4. Offer play therapy to children to help them adjust from the surgery and hair loss.
5. Instruct to avoid contact sports or any other high- risk activity to prevent injury to the organ.
6. Prevent UTI with good hygiene, especially in girls
7. Prompt detection and treatment of any genitourinary signs and symptoms is mandatory.

Prognosis
1. The overall 5-year survival is estimated to be approximately 90%
2. Early removal tends to promote positive outcomes

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NUR 1210 – NCM 109 CARE OF THE MOTHER AND CHILD AT RISK OR WITH PROBLEM
II. Nursing Process of a child with malignancy
A. Assessment
The symptoms of malignancy in children are often insidious and difficult to identify because
headaches or pain at a particular body site can often be explained away by other factors, such as a
sports injury or fatigue. Weight loss, however, is a symptom of some forms of childhood cancer, and
unintentional weight loss is never normal in healthy children. Therefore, at every healthcare visit, plot
and analyze a child’s height and weight carefully to document evidence of this important finding

B. Nursing Diagnosis
Nursing diagnoses established for the child with a malignancy address specific symptoms caused
by the malignancy itself, side effects of therapy, or coping abilities of the child and family.
Example include:
Pain related to neoplastic process in bone
Imbalanced nutrition , less than body requirements, related to mucositis from radiation therapy
Risk for infection related to immunosuppressive effects of chemotherapy
Disturbed body image related to loss of hair after radiation treatment or chemotherapy
Compromised family coping, related to long-term chemotherapy regimen

C. Outcome Identification and Planning
When a neoplasm (abnormal growth that does not respond to normal growth-control mechanisms)
is first diagnosed in their child, parents may be able to deal only with short-term outcomes and plans.
They may concentrate on learning about the effect or toxic properties of a particular chemotherapeutic
drug prescribed for their child, or they may ask how long the child’s surgical incision will be. Dealing
with such specifics help them to control their anxiety because it prevents them from dealing with the
overall picture or prognosis – that their child has a potentially life-threatening illness.
Be certain the family has an overall picture of the treatment protocol. Explain measures they
will need to take to make their child more comfortable during therapy such as not forcing food if their
child is nauseated and playing games or reading stories while an intravenous chemotherapy agent is
administered.

Parents are usually eager for results of diagnostic tests. They may need support while waiting
until all the findings have been assembled for an accurate assessment of staging and prognosis.
Establishing a primary relationship with both the child and the parents is important so that, no matter
how many hospitalizations are necessary, they know a support person is waiting to help them through
this long-term illness. Be certain the child’s siblings are considered in planning care, because the
treatment will be long-term, putting stress on the entire family.
Parents can be expected to experience grief if they learn their child’s prognosis is poor and
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NUR 1210 – NCM 109 CARE OF THE MOTHER AND CHILD AT RISK OR WITH PROBLEM
move through stages of denial, anger, bargaining, depression, and, hopefully, acceptance. During
planning, be certain to take into account their current stage of grief so planning can be successful.
Organizations that may be helpful for referral are the Philippine Cancer Society, Inc.
Amuma Cancer Support Group Foundation Inc....
Cancer Institute Foundation, Inc.
Cancer Warriors Foundation.
Philippine Society of Pediatric Oncology

D. Implementation
Nursing interventions for a child with cancer include supporting the child and parents from
the time of diagnosis through procedures such as surgery, radiation therapy, chemotherapy, and
continued health supervision. Increasingly, cancer treatment is offered on an ambulatory basis to
keep hospitalization to a minimum, so many nursing interventions include teaching the parents how to
give care or monitor for side effects while at home. Nursing play a critical role in ensuring that the
parents are aware of signs and symptoms, and of steps to take, should the child develop emergent
issues such as bleeding or fever while at home.
Keep in mind that the stress of long-term treatment can put the child and family at risk for
developmental or family coping problems. You can be a positive force in encouraging healthy
adaptation to the demands of the child’s illness and in reassessing the situation periodically during
therapy to be for certain the child is receiving appropriate stimulation for developmental growth.
Providing comfort and alleviating pain are often primary concerns in oncology nursing.

E. Outcome Evaluation
Because cancer therapy includes long-term care, children need to be evaluated periodically to be
certain projected outcomes are being met and are still current. Some examples indicating outcome
achievement are:
child keeps all appointments for chemotherapy treatments
child maintains passing grades in school despite interruptions for therapy
parents state they are able to keep anxiety at an acceptable level between clinic appointments
Children with cancer need much of the same well-child maintenance care that all children do, with
one exception. While they are undergoing chemotherapy, which causes a decreased immune
response,
they should not receive routine vaccines. The siblings in the home can receive all non-live vaccines
and
the entire family (including the child undergoing treatment) are encouraged to receive a yearly flu
vaccine.
Follow-up visits are usually anxiety filled for both the parents and the child. The child seems well,
but parents may be apprehensive while a health care provider palpates the child’s abdomen or blood

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NUR 1210 – NCM 109 CARE OF THE MOTHER AND CHILD AT RISK OR WITH PROBLEM
specimens are obtained. Some parents may find the strain of returning for follow-up visits too great
and
miss appointments (not knowing seems better than to be told bad news). Such parents need help in
understanding that initial remissions can be maintained and second remissions can be achieved so
maintenance therapy must be continued. Because a child who is treated for cancer is at risk for
developing long-term complications from therapy, they should have appropriate follow-up and
screening
according to the children’s oncology group guidelines. If a child dies, parents may feel a need to
return
to the healthcare agency for support. This provides an opportunity to evaluate their adjustment and
refer
to a social work professional if concerns are identified. Siblings should also be assessed by a provider
to assure they are coping in a developmentally appropriately way with the death of a brother or sister.

LEARNING RESOURCES:

Silbert-Flagg, Pillitteri (2018). Maternal & child health nursing (8th ed) Philadelphia: Lippincott,
Williams and Wilkins.
Hockenberry/ Wilson/ Rodgers (2019). Wong’s nursing care of infants and children (2nd ed) Elsevier
Singapore

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