Rhabdomyosarcoma


Introduction:
Rhabdomyosarcoma also called in short as RMS is a malignancy of mesenchymal origin. It is a tumor of muscle cells called rhabdomyoblasts. It is third most common solid tumor of childhood.

Incidence:
In the United States, about 350 new cases are diagnosed each year in children. Almost two-thirds of RMS cases develop in children under the age of 10. It accounts for more than half of soft tissue sarcomas of childhood.

Associated conditions & predisposing factors:
· Li-Fraumeni syndrome
· Neurofibromatosis type 1
· Beckwith-Wiedemann syndrome
· Cardio-facio-cutaneous syndrome
· Costello syndrome
· Maternal & paternal abuse of cocaine and marijuana

Sites:
Parameningeal- Adjacent to the base of the skull
Orbital - Around the eye
Head and neck
Arms and legs (extremities)
Urinary system and reproductive organs (bladder, vagina, prostate and paratestes sites)

Types of RMS:
Embryonal
Alveolar
Pleomorphic
Undifferentiated

Symptoms:
Rapidly enlarging firm mass
Haematuria,
Dysuria,
Vaginal mass or bleeding
Scrotal mass
Periorbital swelling
Nasal discharge
Lump in abdomen

Investigations:
CT scan or MRI of local site
Bone marrow studies
CT scan chest
Bone scan
Biopsy of the tumor
PET scan

Histopathology: Rhabdomyosarcoma is a small round blue cell tumor

Treatment:
1. Surgery: If the tumor can be completely resectable with achievement of negative margins, then surgery should be done upfront.

2. Chemotherapy: It is used as neo-adjuvant or adjuvant setting. The drugs used are
Vincristine
Ifosphamide
Etoposide
Adriamycin
Cyclophosphamide
Dactinomycin

3. Radiotherapy: It is used to minimize local recurrence in high risk cases.

Prognostic factors:
5-Year survival of RMS is increased over 70%.
Prognostic factors include
Extent of the disease
Primary tumor site:
favorable sites are the orbit, head and neck and bladder, all other sites including parameningeal tumors and non-bladder genitourinary sites are classified unfavorable.
Histology subtype: Embryonal & pleomorphic histology tumors have a more favorable outcome while alveolar & undifferentiated has unfavorable outcome.
Age: Patients under one and over 10 years of age have a somewhat less favorable prognosis.
Presence of Distant Metastasis: Metastatic at presentation has a less favorable prognosis.

Neuroblastoma


Introduction:
It is the second most common solid tumor in children after brain tumor. It occurs in the neural crest cells, called neuroblasts, of the sympathetic nervous system. It can occur in a number of anatomical sites. The majority of tumors (65%) are located in the abdomen, often in one of the two adrenal glands. However, primary tumors can occur anywhere in the body. Other common sites are the chest, neck or pelvis. It is one of the most malignant neoplasms of children & rarely seen in adults.


Incidence:
Neuroblastoma represents 7.5% of all childhood cancers. It is most commonly diagnosed between 17 months and 2 years of age.

Aetiology:
Neuroblastoma develops when normal neuroblasts (the immature cells of the sympathetic nervous system) fail to mature into nerve cells. Instead, they continue to grow leading to mass of cancer cells.

Other hypothesis is “mutations” occurring in Neuroblastoma cells.

Symptoms:
Symptoms of Neuroblastoma are dependent upon the site, metastatic disease or associated paraneoplastic syndromes,

Abdominal distention/constipation
Pain in the abdomen.
Fever, bony pain, anemia, if the disease has spread to the bone marrow, causing a decrease in red blood cells.
Bulging, darkening, proptosis or swelling of the eye, if the disease has spread to tissues and bone around the eyes.
Persistent diarrhea, high blood pressure, palpitations, reddening of the skin, sweating, involuntary movements of eyes & limbs, if there is associated paraneoplastic syndrome

Investigations:

Complete blood count
Biochemistry including serum LDH & serum ferritin
Bone marrow aspiration & Biopsy
Urinary VMA (Vanillyl mandelic acid) and HMV (Homovanillic acid)
N-myc amplification
DNA index
MIBG (131I-meta-iodobenzyl guanidine) scan
Chest X-Ray
CT Scan of primary region
MRI spine ( If neurological symptoms)
Bone scan
Biopsy of the tumor

Prognostic factors:

Age of the child
Stage of the disease
Tumor Histopathology
Myc-N Status
DNA Index (Ploidy)


Treatment:

Induction Chemotherapy: Multi-drug chemotherapy is first given to try to reduce the size of the primary and metastatic tumor(s). The drugs used are cyclophosphamide, doxorubicin, cisplatin, etoposide, Ifosphamide.

Surgery: Surgery is done to remove as much tumor as safely possible. In some locations its possible to remove whole mass

Radiation Therapy: It is usually given locally to the tumor site.

Myleoablative therapy followed by stem cell or bone marrow transplant: Intensive doses of chemotherapy to eliminate any remaining tumor cells, followed by an autologous peripheral blood stem cell transplant, or sometimes a bone marrow transplant, to restore the immune system is used in high risk disease.

Minimum residual disease therapy: Additional drugs like 13-cis-Retinoic acid, aimed at eliminating or altering minimal residual disease is given after consolidation therapy.

MIBG Therapy: It is used when surgery is not possible because of persistent bone marrow disease after induction chemotherapy.

Prognosis:

Low risk patients have a greater than 90% survival.
Intermediate risk patients have a 70-90% chance of survival.
High risk patients have a 30% chance of survival

Ewing Sarcoma


Introduction:
Bone tumors are sixth most common group of cancers in children. Two common types of primary bone cancers found in children are osteosarcoma & Ewing sarcoma. Ewing sarcoma is the second most common tumor of the bone. It most often affects bones of the pelvis, the tibia, fibula, and femur, and can also begin in the soft tissues. This disease most often occurs in second sdecade of life that is between the ages of 10 and 20.They are small round cell undifferentiated tumors.


Types:
These are the Ewing Family of tumors which include Ewing sarcoma and PNET (Primitive neuroectodermal Tumors.

Symptoms:
1. Pain at the site of tumor
2. Swelling at the site of tumor
3. Weight loss
4. Anorexia
5. fever, malaise
6. cough

Prognostic factors:
1. Site of the tumor
2. The presence of metastasis
3. Size of the tumor
4. Age
5. Erythrocyte Sedimentation rate
6. Serum LDH levels

Investigations:
1. Plain X-Ray of the local site
2. CT scan or MRI of the primary tumor
3. Chest X-Ray
4. CT of the chest
5. Bone scan
6. Bone marrow aspiration and bone marrow biopsy

Treatment:
Ewing sarcoma is treated with multimodality treatment.

1. Surgery:
The options are

Amputation
Rotationplasty
Limb salvage surgery

Surgery is not effective for treating metastatic disease.

2. Chemotherapy:
Chemotherapy uses drugs like Ifosfamide, Etoposide, Adriamycin, Vincristine, Cyclophosphamide.It may be used before surgery to shrink a tumor so that it can be removed surgically, and will be used after surgery for any remaining cancer cells.

3. Radiation therapy:
Ewing sarcoma is very sensitive to radiation.When surgery is not possible because of large tumor mass, metastatic disease, certain site of cancer then radiation therapy is an effective answer.

Retinoblastoma

Introduction
This is the most common primary tumor of the eye in children. It arises from the retina. .The retina is a layer of nerve tissue that coats the back of the eye, which is important for vision of person. Retinoblasts (immature cells of the retina) multiply during gestation and early life, to make enough cells to create the retina. As child grows, these cells mature & no longer differentiate. If these immature retinoblasts turn into cancer cells, retinoblastoma develops, the cause of which is unknown. The gene responsible is RB1 gene.

Incidence:
The annual incidence is one in 20000 children. It occurs most often in children under 4 years of age.

Types:
Hereditary:
•Hereditary form of Retinoblastoma occurs in 40%.
•May have more than one tumor
•Tumor often affects both eyes
•May have tumors in other parts of the body
•At increased risk for other cancers later in life

Non-hereditary:
•Most children with retinoblastoma (60%) do not have the genetic form.
•They develop tumor in only one eye i.e. unilateral.
•These children do not have an increased risk of developing other cancers.
•Their offspring have the same risk of developing retinoblastoma as other children in the population.

Symptoms:
•A pupil that looks white or red instead of the usual black i.e. called as white or cat’s eye reflex.
•A crossed eye i.e. strabismus.
•Poor vision
•A red, painful eye
•An enlarged pupil
•Differently colored irises

Investigations:
•Examination under general anesthesia using Retcam
•Ultrasound
•CT (CAT) scan
•MRI
•CSF examination
•Bone marrow studies
•Bone scan in advanced disease
•Chromosomal analysis (in certain cases)

Management:

1.Surgery to remove the eye, known as enucleation. This s done when there is no vision in eye to save further spread & life. Enucleation may also be recommended if the tumor does not respond to treatment.

2.Chemotherapy is used to shrink tumors in the eye. This approach is often used in children with bilateral disease (both eyes) for saving at least one eye which has less disease. It is also used in small tumors where the eye vision is present to save the eye. in combination with other measures such as

1.Photocoagulation--using laser light to destroy blood vessels supplying the tumor.
2.Thermotherapy--using heat to destroy tumor cells
3.Cryotherapy--using extreme cold to destroy tumor cells
4.Radiation Therapy—It is used for control of local disease with preservation of vision. Radiation plaque therapy and particle beam radiotherapy are used frequently.

Prognosis:
The five-year survival rate for children with retinoblastoma is more than 90%.

Brain Tumors in Children

Introduction:
Brain tumors are second most common childhood malignancy after leukemia. It contributes to 20% of pediatric cancers. With the improvement in imaging, surgical modalities, radiation therapy & chemotherapy, the outlook of children with brain tumors has improved. These combined modalities give the maximum benefit to the patients however the early diagnosis is important for good results.

Aetiology:
Though it is unclear, certain familial syndromes are associated with brain tumors showing genetic predisposition.
Neurofibromatosis
Ataxia telengiectasia
Tuberous sclerosis
Von Hipple- Lindau disease

Types:
Astrocytoma
Medulloblastoma
Ependymoma
Glioblastoma
Craniopharyngioma
Pineal gland tumors
Choroids plexus tumors
Meningioma
Neuroblastoma
Primitive neuroectodermal tumors
Rhabdoid tumors

Symptoms:
Projectile vomiting
Headache
Irritability
Unable to balance while walking
Weakness of limbs
Convulsions
Behavioral changes

Investigations:
CT/MRI –brain ( Plain & Contrast films)
CSF examination for malignant cells
Complete blood counts
Biochemistry
Chest X-Ray

Treatment:
Surgery-
Complete excision or debulking surgery should be the aim. The ventriculoperitoneal shunt (VP shunt) can be done in sick child for rapid decompression in raised intracranial tension. If the complete excision is not possible stereotactic biopsy or craniotomy with biopsy of the tumor is done.

Radiotherapy-
With the modern radiotherapy (use of linear accelerator) the radiotherapy related complications are minimized. The Radiotherapy should be avoided below 3 years as the brain is still developing. In case of spinal metastasis the RT is also given to the spine.

Chemotherapy- The use of platinum based chemotherapy after surgery and radiotherapy for minimum residual disease improved the prognosis in children with brain tumors.

Wims' tumor


Introduction:
There are variety of tumors arising from kidney in children but the most common is Wilms' tumor named after Karl Max Wilms who is the first person to review the literature & described the unique properties/ So it is named after him. It is also called as nephroblastoma. It occurs in children upto 6 years with peak at 3 years.It is extremely uncommon after 6 yrs.

Syptoms:
1. mass or Lump or distension of abdomen ( most common)
2. abdominal pain.
3. hematuria (blood in the urine or smoky urine)
4. fever
5. refusal of feeds
6. lethargy.
7. weight loss

Investigations:
The following investigations are proposed for whole work up when one suspect the Wilms tumor.
1. CT scan of abdomen & CT guided FNAC of tumor
2. X-ray chest
3. Comlete Blood Counts
4. Biochem profile

Treatment:
Treatment for wilms' tumor is multidisciplinary
It includes surgery, chemotherapy & radiotherapy

Surgery- includes radical nephrectomy with lymph node sampling

Chemotherapy- combination of drugs like Vincristine / Actinomycin- D/ Cyclophosphamide.

Radiotherapy- is given to the flank in advanced disease or to the chest if there are metastasis.

Prognosis:This is one of the most curable cancer. the cure rate is more than 80% with multimodality treatment.

Other tumors of kidney in childhood
1. Clear cell sarcoma
2. Rhabdoid tumor
3. Renal cell carcinoma
4. Primitive neuroectodermal tumor
5. Infantile osteoid producing kidney tumor.

Hodgkin’s disease in children

Introduction:

Hodgkin’s disease is a cancer of the lymphatic system. It is also called as Hodgkin’s lymphoma. Hodgkin’s disease accounts for 5% of cancers diagnosed in children. It is rare before the age of five years. The number of cases increases significantly in the second decade of life.

Symptoms:

1. enlarged lymph nodes, called lymphadenopathy
(Painless, firm, rubbery, and movable)
2. loss of appetite
3. loss of weight
4. fever
5. lethargy
6. lump in abdomen
7. pain in abdomen
8. itching
9. night sweat
10. cough or breathlessness.

Investigations:

1. X-ray Chest
2. Ultrasonography / CT scan of abdomen
3. lymph node biopsy
4. Complete Blood Count (specially ESR)
5. Biochemistry ( specific- LDH, β2 macroglobulin, serum albumin)
6. Bone marrow / Bone scan in advanced stage
7. PET scan

Treatment:

Hodgkin’s disease is treated with chemotherapy & radiotherapy. The surgery is done only for the diagnosis.

Chemotherapy:

The following drugs are used
1. Adriamycin
2. Bleomycin
3. Vinblastine
4. Dacarbazine

Radiotherapy:

Radiotherapy is used after 4 or 6 cycles of chemotherapy.

Prognosis: Excellent. 5 year survival rate is >85%.

Liver cancers in children


Introduction:

The liver is a large, very important organ situated in the right upper quadrant of abdomen. The normal functions of the liver in the body are:
To help store nutrients from food
To break down and remove harmful chemicals from the body
To build chemicals that the body needs to stay healthy


Hepatoblastoma: The most common type of liver cancer in children is Hepatoblastoma. it occurs most frequently in infants or very young children between 2 months and 2 year.


Symptoms:



  • Lump in the abdomen (most common)


  • Reduced appetite


  • lethargy


  • nausia / vomiting


  • Pain in abdomen


  • Jaundice

Investigations:


The following minima investigations are proposed to diagnose hepatoblastoma



  • Tumor markers- serum AFP


  • CT scan of abdomen with Ct guided FNAC or Biopsy


  • X-ray chest


  • Complete blood count


  • Biochem profile

Treatment:


Surgery & chemotherapy are two tratment options


Surgery: Liver resection according to the location & extent of the tumor. It will be either



  • Rt hepatectomy


  • Lt hepatectomy


  • Extended Rt or Lt hepatectomy


  • Bi or trisegmentectomy

If liver resection is not possible because of multicentric disease then liver transplant is the only treatment of option.


Chemotherapy:
Chemotherapy is given before or after surgery. Surgery is done either as a sandwitch surgery (in between cycles of chemotherapy) or it is done at the start & then chemotherapy is given. Antitumor drugs dispersed in a lipid lymphographic medium are intraarterially administered unresectable hepatoblastoma.The more information about intra-arterial chemotherapy can be read in Rare Adult & Pediatric Cancer Web Blog


The drugs used are


  • Cisplatin


  • Doxorubicin


  • Vincristine


  • 5-Fluorouracil

Other less common malignant liver tumor in children:


Hepatocellular carcinoma.