1. Primary liver tumor Hepatoblastoma
M. tashvighi
Pediatric Hematology oncologist
MAHAK Pediatric Cancer Treatment and Research Center
2018

2. Primary Hepatic tumor is Rare - only 1-2% of all childhood cancers
Hepatoblastoma & hepatocellular carcinoma are the two most common malignancies that arise de novo in the liver
Hepatic tumors have a wide geographic variation in incidence:
They are seen more frequently in Asian and African childre
They are the third most common abdominal cancer in Japan.

3. The geographic variation is thought to reflect the etiologic role of environmental conditions
White males / females 1.4/0.5 per million
African American males/females 0.9/ 0.0 per million

4. Different Diagnosis Benign Malignant Hemangioendothelioma
Mesenchymal Hamartoma
Mesenchymal (mixed) Adenoma
Angiomyolipoma
Embryonal sarcoma Hamartoma
Hepatoblastoma
Hepatocellular carcinoma
Rhabdomyosarcoma Undifferentiated
Angiosarcoma Biliary cyst
Sarcoma
Teratoma
Rhabdoid tumor
Myofibroblastic tumor
Yolk sac tumor
Leiomyosarcoma
Langerhans Cell Histocytosis
AML-M7

5. Hepatoblastoma is Approximately two-thirds of liver tumors in children
Median age 1 year
Male : female ratio 1.7:1.0

6. Etiology
Unknown
Congenital anomalies which have been reported with hepatoblastoma & HCC
Patients with BeckwithWiedemann syndrome and isolated hemihyperplasia should be screened every
3 months for hepatoblastoma with measurements of α-fetoprotein (AFP) tumor markers and abdominal ultrasounds
until age 7 years
familial adenomatous polyposis
(FAP), hepatoblastoma occurs in less than 1% of members of families with FAP. Screening in these families
is controversial, but in children with APC gene (adenomatous polyposis coli) mutations it may be warranted

7. Disorders Associated with Increased Risk of Hepatoblastoma
Low-birth-weight infant
Congenital cystathioninuria and hemihyperplasia
Maternal use of hormonal therapy
Exposure to metals such as in welding and soldering fumes
Beckwith -Wiedemann syndrome
Hemihypertrophy syndromes
Li.Fraumeni syndrome
Von Gierke disease
FAB
Trisomy 18
Fetal alcohol syndrome
Gardner syndromea
Type I glycogen storage disease(Von Gierke)
Prader Willi – syndrome
wilm’s tumor (WT1)
Meckel’s diverticulum
Congenital absence of adrenal gland
Congenital absence of kidney
Umbilical hernia

8. Conditions associated with a high risk for HCC development are ;
Antitrypsin deficiency
Wilson’s disease
Hemochromatosis
Hereditary tyrosinemia
Fanconi’s anemia
Familial adenomatous polyposis
Gardener’s syndrome

9. Familial Adenomatous Polyposis FAP
Mean age 16 yr.
Mutation in APC gene (5q21)
Other manifestation;
Congenital hypertrophy of retinal epithelium(CHRPE)
Supernumerary teeth
Skull & jaw osteomas
Epidermoid cysts,fibromas, lipomas, skin, hyperpigmentation,keloids

10. Neoplasia in FAP Colon carcinoma Adrenal carcinoma
GENETIC TEST FOR FAB
Protein Truncation test(PTT)
80-90% of FAB families
100% accurate if know
Direct sequenceing
Difficult due to large gene
1/3 new mutation
Colon carcinoma
Adrenal carcinoma
Thyroid papillary carcinoma
Periampullary carcinoma
Fibrosarcoma
Gastric adenocarcinoma
Medulloblastoma
Hepatoblastoma
Astrocytoma
ETC

11. Most common sign of primary liver malignancy;
Upper abdominal mass
May have abd. Pain ,wt. loss ,anorexia ,N/V
50-70% Unresectable mass at diagnosis
Generalized abdominal enlargement
Abdominal distention
Pallor
Jaundice
Fever
Diarrhea
Constipation

12. Children with a ruptured tumor usually present with;
Vomiting
Symptoms of peritoneal irritation
Severe anemia
Rare cases manifest precocious puberty/virilization due to β-human chorionic gonadotropin (hCG) secretion by the tumor
Pediatric hepatoblastoma: diagnosis and treatment
Transl Pediatr 2014;3(4):293-29

13. DIAGNOSTIC EVALUATION
History
Physical examination
Diagnostic test:
Complete blood count
Anemia
Moderate leukocytosis is common
Thrombocytosis >500,000/mm3
Urinalysis
Liver profile and electrolytes (Bilirubin and liver enzymes are usually normal )
Fibrinogen, PT & PTT
HBsAg, HBcAg and core antibody(positive hepatitis B e Ag., higher HBV-DNA level, HBV genotype C infection, core promoter mutation are associated with a higher risk of HCC)
AFP (Low AFP levels are associated with anaplastic histology and poor outcome )
β-hCG
CEAg
elevated β-hCG level is found in the occasional patient with HCC who has associated precocious puberty. However, β-hCG levels do not necessarily reflect the clinical course of the tumor
None of the patients with hepatoblastoma were hepatitis B surface antigen positive, in contrast to 64% of the hepatocellular carcinoma group.
liver is a source of thrombopoietin production and increased thrombopoietin has been reported in hepatoblasoma

14. High AFP Hepatoblastoma Hepatocellular Carcinoma Germ cell tumors
Terato Carcinoma
Viral Hepatitis & other Active liver disease
Cirrhosis
Inflammatory Bowel Disease
Yolk Sac tumors
Pregnancy
Gastrointestinal tumors

15. some variants of both HBL ,HCC that have low or normal AFP levels
90% of children with hepatoblastomas
50% -70% of children with HCC have elevated AFP
some variants of both HBL ,HCC that have low or normal AFP levels
Rhabdoid tumor, have low AFP levels and worse prognosis
half-life of AFP is 4-9 days
levels fall to within reference range within 4-6 weeks following resection
Reference range AFP levels are high at birth and higher in premature infants
Pediatric hepatoblastoma: diagnosis and treatment
Transl Pediatr 2014;3(4):293-29

16. Radiographic evaluation of intrahepatic disease;
• Sonogram
• Abdominal CT-scan
• Abdominal -MRI
• MRI angiogram
• MRI cholangiogram
Radiographic evaluation of extrahepatic disease;
CXR-AP, lat
Chest CT-scan
Brain CT-scan
Bone scan
Bone marrow aspirate/biopsy
anatomic details are much better presented by CT [ 3] , which is currently the gold standard for the diagnosis, preoperative evaluation, and follow-up of pediatric liver tumors

17. Abdominal ultrasonography ;
large mass in liver, sometimes with satellite lesions & areas of hemorrhage within the tumor
Ultrasound,may not be as sensitive in the evaluation of the postoperative bed due to the presence of either omental flap or gas-filled loops of bowel
Percutaneous biopsy, either ultrasound or CT guidance can be used
Pediatric hepatoblastoma: diagnosis and treatment
Transl Pediatr 2014;3(4):293-29

18. The most useful diagnostic modality is multiphase CT or MRI;
Focal / Multifocal solid tumor
Hypervascular lesions in the liver with delayed contrast excretion are highly suggestive of a malignant liver tumor
Stippled or chunky calcifications detect in 40%-50% of patients, is significantly higher than in patients with benign lesions such as hemangiomas and hemangioendotheliomas
MRI is more sensitive than CT in discriminating between;
Disease recurrence
Postoperative abnormalities(fibrosis and post-treatment necrosis in the liver
Angelina Cistaro Editor
Atlas of PET/CT in Pediatric Patients

19. Positron emission tomography (PET) scanning:
Studies support a potential role for PET scanning at diagnosis & follow-up in hepatoblastoma
Several articles on the impact of PET/CT in adult HCC published, but there are no reports on the use of this imaging technique in pediatric patients
Uptake of the 18F -FDG tracer reflect the ability of HB cells to store large amounts of glycogen granules in their cytoplasm

20. lung metastases by 18 F-FDG– PET/CT was lower than that obtained with CT & for lesions below 1 cm, because of the limited resolution
18 F-FDG– PET/CT was significantly superior to bone scan in patients with bone metastases
FDG–PET/CT in the assessment of tumor response and tumor viability after interventional therapy
(transcatheter arterial chemoembolization & radiofrequency ablation)

21. PET/CT
( c , e ) fusion images show the FDG-avid peritoneal lesions

22. Conventional arteriography
Newer modalities for extent of hepatic involvement by tumor and its proximity to the portal vein
Transarterial chemoembolization is a therapeutic consideration.
Ultrasound in conjunction with color Doppler, a noninvasive modality, is especially useful in young infants

23. hepatoblastoma usually affects one or more contiguous liver segments
hepatoblastoma usually affects one or more contiguous liver segments. Occasionally, the tumor can be multifocal.
This presents a surgical challenge & liver transplantation may be required.  

24. Metastases
Hepatoblastoma, Right lobe of the liver is more commonly involved than Left
Tumor involves both lobes in 30% of patients
Metastases at diagnoses occur in 10%-20% of patients
lung being the predominant site
10-20% of patients with hepatic tumors have pulmonary metastases
Distant metastases, including brain and bone, are rare
Higher incidence of nonpulmonary metastases in congenital hepatoblastoma
Childhood Cancers: Hepatoblastoma-The Oncologist 2000;5:

25. Staging Stage I Stage II Stage III Stage IV
Complete resection of tumor by wedge resection lobectomy or
by extended lobectomy as initial treatment
Stage II
GTR with microscopic residual
Stage III
A. Gross residual tumor involving both lobes of liver
B. Regional lymph node involvement
Stage IV
Metastatic disease with complete or incomplete resection

26. In Europe, the Childhood Liver Tumor Study Group of the International Society of Pediatric Oncology (SIOPEL) has developed the preoperative evaluation of the tumor extent (PRETEXT) staging system
Segmental assessment of the extent of the tumor
main hepatic vessels
Pediatric hepatoblastoma: diagnosis and treatment
Transl Pediatr 2014;3(4):293-29

27. Hepatic segmental anatomy according to Couinaud
Hepatic segmental anatomy according to Couinaud. This method of hepatic segmentation is based on portal venous supply & hepatic venous drainage

28. PRETEXT SIOP(based on presurgical findings) Staging for Hepatoblastoma
Stage 1
Tumor involves one quadrant
Three adjoining quadrants are free of disease
Stage 2
Tumor involves two adjoining quadrants with remaining two free of disease
Stage 3
Tumor involves three adjoining quadrants or two nonadjoining quadrants.
One quadrant or two nonadjoining quadrants are free of disease
Stage 4
Tumor involves all four quadrants

29. The pathologic classifications for hepatoblastoma and HCC are :
Epithelial type (56%)
Pure fetal pattern
Embryonal pattern -Macrotrabecular type
Cholangioblastic
Small cell undifferentiated type or anaplastic
Mixed epithelial and mesenchymal type (44%)
HCC
Fibrolamellar HCC
( Histologic variant of HCC - most frequent &is commonly observed in children & adolescents- has a similar prognosis when adjusted for stage)
Hepatocellular carcinoma and the fibrolamellar variant have an unfavorable prognosis. Studies of DNA content have shown that diploid tumors with low proliferation index have a better prognosis than aneuploid tumors and high proliferative index.

31. Some histological types are associated with prognosis so;
Pre-chemotherapy specimens for the initial diagnoses and tumor classification.
tissue banking for biological studies
Well differentiated fetal histology composed only of cells resembling fetal hepatocytes with minimal mitotic activity
(COG);
pure fetal histologyand low mitotic activity may be treated exclusively with surgery, and no chemotherapy is necessary
7% of the total number of patients & showed 100% (EFS)
Most HBs are extremely heterogeneous, often with closely intermixed histological components, and only rarely composed of a single histological type

32. Small cell undifferentiated (SCU, component intermixed with other histologies ,associated with low serum AFP levels, and poor response to chemotherapy
some, but not all, of these tumors may represent INI1 negative neoplasms within the spectrum of primary rhabdoid tumors
should be submitted for molecular testing, and patients and family members referred to a genetics counselor to possible be screened for germline mutations
significance of small cell component when ad mixed with other epithelial types, and whether these small foci are sometimes INI1expressing
Hepatoblastoma State of the Art ;Pathology, Genetics, Risk Stratification, and Chemotherapy
Piotr Czauderna, Dolores Lopez Terrada

33. The most common mesenchymal elements are osteoid and cartilage
The presence of mesenchymal elements associated with improved prognosis in patients with advanced disease
osteoid made up a small component of 36% of untreated hepatoblastoma, but was increased in treated hepatoblastoma to 82% and composed up to 90% of the tumor area

34. Cytogenetic Abnormalities
Gain of chromosome 20 ,most common,
Gain of chromosome 2 or 8
Associated with FAP and trisomy 20 is a common finding in colon adenomas
Chromosomal aberration, der(4)t(1q;4q)
t(1;4)(q12;q34)
Gain of material on 1q
Studies of DNA content have shown that diploid tumors with low proliferation index have a better prognosis than aneuploid tumors & high proliferative index

35. Changes in the expression of H19 and IGF2 have also been implicated in the etiology of hepatoblastoma

36. Prognostic factor Good prognostic factor (COG) ;
Complete resection(stage I)
completely resected tumors pure fetal histology
Rate of fall alpha- fetoprotein
Large early response
(>2 log decline in AFP)strongest dependent predictor of outcome ( P<0001)
Poor prognostic factor (SIOPEL and the COG) ;
AFP<100 ng/ml or >1/000/000 ng/ml at diagnosis
and/ or with small cell undifferentiated (SCUD) histology Regardless of the PRETEXT staging system
Vascular invasion
Pediatric hepatoblastoma: diagnosis and treatment
Transl Pediatr 2014;3(4):293-29

37. Potential Prognostic Factors in Hepatoblastoma
PRE- TREATMENT
RESPONSE TO TREATMENT
PRETEXT Stage
Positive Surgical Margins
Metastasis at diagnosis
Surgical Resectability
Unresectable Vessel involvement
Tumor Relapse
Extrahepatic tumor extension
Response to
Chemotherapy
Lymph Nodes
Tumor Rupture at diagnosis
AFP level (<100, , >1 million)
Pathologic subtype (Pure Fetal
, Small Cell Undifferentiated)
Age (<1 year - >6 year)
Birth weight
Platelet Count
Co-Morbidity

38. TREATMENT Overal survival IN stage 3 & 4 is 20-30% Surgery;
complete resection can be chance of cure
Initial surgical resection-most prognostic factor
Delayed surgical resection after chemotherapy
Orthotopic liver transplantation
Chemotherapy ;
plays an important role, not only in eradicating subclinical metastases in completely resected disease,
but also may allow unresectable disease to become resectable
Transcatheter arterial chemoembolization
Tumor-free survival from hepatoblastoma could be improved to 75 % of all patients by combining surgery with chemotherapy. This figure reaches 90 % for potentially resectable (SR, standard risk) tumors

39. The European approach is different;
Timing of surgery
In the United States;
Initial surgical resection in appropriate patients is preferred
The European approach is different;
Patients are staged by PRETEXT and neoadjuvant chemotherapy is administered prior to surgery to all patients except PRETEXT stage 1
Surgery is recommended for limited metastatic disease (especially in lung) This surgery is often done at time of liver tumor resection

40. Classic reasons for unresectable ;
Extremely large tumor that may lead to excessive bleeding
Involvement of both the right and left lobes
Involvement of major hepatic veins or the inferior vena cava (IVC)
Diffuse multifocal disease
Only 30% have been considered resectable at diagnosis
In the unresectable patient Biopsy should be performed

41. Surgical Biopsy Diagnostic surgical biopsy is strongly recommended ;
Children <6 months ,
Wide range of possible tumours presenting at this age
Possible confounding effect of a physiologically elevated AFP level
Children older > 3 years of age, to distinguish hepatoblastoma from hepatocellular carcinoma
All patients with a normal serum AFP

42. Biopsy
Biopsy may not be necessary for young children (6 months to 3 years) with a very high AFP level
Avoiding a biopsy theoretically reduces the risks of tumor seeding or dissemination
The Japanese Study Group for Pediatric Liver Tumors (JPLT) strongly recommends that liver tumors of children should be treated after definitive diagnosis of a biopsy specimen, except in urgent life threatening circumstances such as tumor invasion of the right atrium or tumor rupture
Pediatric hepatoblastoma: diagnosis and treatment
Transl Pediatr 2014;3(4):293-29

43. Most common intraoperative complication ; Hemorrhage
The risk of bleeding is increased ;
Extended hepatectomy
Tumor proximity to the IVC or hepatic vessels
Air embolus
Damage to the portal vein, hepatic artery, or hepatic duct

44. Postoperative complications;
Sub phrenic abscess
Bile leak
Postoperative bleeding
Small bowel obstruction

45. Hepatic regeneration is complete by 13 months post surgery
Radical hepatic resection results in many potential postoperative complications:
• Hypovolemia
• Hypoglycemia
• Hypo albuminemia
• Hypo fibrinogenemia and deficiency of coagulation proteins
• Hyper bilirubinemia persists for 24 weeks after resection
Hepatic regeneration is complete by 13 months post surgery

46. Transcatheter arterial chemoembolization
Hepatic arterial chemoembolization involves giving chemotherapy and vascular occlusive agents via catheter into the artery supplying the tumor
Cryoablation, and more recently radiofrequency ablation, have also been used in the treatment of liver tumors in adults with little experience in children

47. ABLATION THERAPY Tumors are destroyed using ;
Heat (Radiofrequency ablation)
Cold (Cryoablation)
Chemical agents (Percutaneous ethanol instillation)
Ablative therapy is for tumors involving the liver, kidney, lung and painful tumors of bone
The goal of ablative therapy is complete tumor destruction
Ablative therapy is an alternative to surgical resection and appropriate primarily for patients with four or fewer tumors limited to the liver

48. RADIOFREQUENCY ABLATION
Generation of heat to destroy the tumor
Exposure of both normal and cancer cells to heat above 122 F° up to 14 min. )causes the cells to die, resulting in cellular destruction
Sound waves to interact with molecules in the tumor, causing them to vibrate and generate heat
Energy is delivered through a needle
Guidance provided by ultrasound, CT or MRI

49. The needle used for radiofrequency ablation is seen in the photograph on the left. On the right the needle is deployed in a tumor with a margin of liver which will also be ablated to assure destruction of the entire tumor

50. ADVERSE REACTION not uncommon ; Fatigue Muscle ache Low grade fever
Rarely Liver injury in the form of bleeding
leakage of liver fluid (bile)
Heat damage to surrounding organs ,the gall bladder or bowel
Lung surrounds the liver may be lung injury or collapse

51. Success is influenced ;
Tumor size, as larger tumors are more difficult to completely eradicate than smaller ones
Tumor location adjacent to flowing blood
initial treatment did not destroy all of the tumor, the procedure may be repeated
Destroys very little normal liver
Radiofrequency ablation does not interfere with future surgical procedures or other types of therapy
Continued monitoring with CT or MRI at 3 mo.- 6 mo.

52. CRYOABLATION
Ice ball with subzero temperatures is created by circulating liquid nitrogen in a probe that is directly inserted into the tumor
Tumor in ,liver, kidney, prostate, lung , bone

53. PERCUTANEOUS ETHANOL INSTILLATION
Alcohol destroys cells on contact through destruction of their lining membranes
More treatment sessions
Slightly less effective
often employed in conjunction with radiofrequency ablation to enhance the success of the procedure.
Vascular Interventional Radiology of the Robert Wood Johnson University Hospital and the UMDNJ- Robert Wood Johnson Medical School

54. Chemotherapy
Combination chemotherapy plays several roles in the management:
Adjuvant therapy for patients who have undergone complete resection, its use improves disease-free survival
Preoperative therapy for patients who have initially unresectable disease to shrink the primary tumor
Palliative therapy for patients with metastatic disease at diagnosis
The outcome of high risk hepatoblastomas with multi focally disseminating growth in the liver, invasion of large vessels, extrahepatic extension and metastases is still poor, especially since these tumors often rapidly develop resistance against cytotoxic drugs

55. Patients are assigned to the following risk groups(COG):
Very low-risk:
Grossly resected tumors (stage I) with PFH & an elevated AFP level > 100 ng/mL
Low-risk:
Grossly resected tumors (stage I-II) & lacking any unfavorable biologic feature ( any SCU elements or a low diagnostic AFP level < 100 ng/mL)
Intermediate-risk;
Gross residual disease/unresectable disease OR grossly resected disease with any SCU elements but no metastatic disease and no low diagnostic AFP level < 100 ng/mL
High-risk:
Metastatic disease OR low diagnostic AFP level < 100 ng/mL regardless of stage
COG AHEP0731: Phase III Study of Combination Chemotherapy in Pediatric Patients With Newly Diagnosed Hepatoblastoma

57. Children’s Hepatic Tumors International Collaboration (CHIC) Hepatoblastoma Risk Stratification;
PRETEXT
Standard risk
High risk (HR)
Very high risk (VHR)
Low risk
(primary resection at diagnosis)
Intermediate risk
Any M+ – M+
I M–
VPERF—(any AFP, any age)
VPERF + AND age <8 years (any AFP)
VPERF + AND age ≥8 years
II M–
VPERF—AND Age <3 AND AFP >1,000 ng/mL
VPERF—AND Age <3 AND AFP 100-1,000 ng/mL
Age 3-7 AND/OR VPERF +
AFP <100 ng/mL, AND/OR age ≥8 year
III M–
VPERF—AND Age<3 AND AFP >1,000 ng/mL
Age 3-7 AND/OR VPERF + AND/OR AFP 100-1,000 ng/mL
IV M–
AFP >100 ng/mL
AFP <100 ng/mL, AND/OR age ≥8 years
M+, distant metastases; VEPRF+, one or more of the following criteria; V, hepatic vein/cava involvement; P, portal vein involvement; E, contiguous extrahepatic tumor; R, rupture at diagnosis; F, multifocality; AFP, α-fetoprotein (ng/mL); PRETEXT, pretreatment extent of disease

58. Multicenter groups in CHIC are JPLT, SIOPEL, GPOH and COG;
Standard low-risk patients;
PRETEXT I, II, and III tumors
no extrahepatic features [hepatic vein/cava involvement (V), portal vein involvement (P), contiguous extrahepatic tumor (E), rupture at diagnosis (R), and multifocality (F)] or distant metastasis (M)
JPLT and COG -primary hepatectomy for PRETEXT I and II tumors
SIOPEL -preoperative chemotherapy for every patient followed by tumor resectionor liver transplantation and a short course of postoperative chemotherapy for most cases
CIHC ; initial resection for PRETEXT I or II tumors if the tumor is located at least 1 cm from the middle hepatic vein &bifurcation of the portal vein
Preoperative chemotherapy performed for other situations
Cisplatin monotherapy recently achieved similar rates of complete resection and survival among children with resectable tumors
Children’s Hepatic Tumors International Collaboration (CHIC)
regimen in European (SIOPEL) and Japanese (JPLT
GPOH (German Paediatric Oncology and Haematology Society
Children’s Oncology Group (COG)

59. High-risk (HR) patients
Unresectable tumor at diagnosis and/or associated with so-called “combi factors” without distant metastasis
Combi factor is a combination of the cross sectional imaging components
Macrovascular involvement retrohepatic vena cava or all three hepatic veins (V)
Macrovascular involvement portal bifurcation or both right and left portal veins (P)
Contiguous extrahepatic tumor (E)
Multifocal disease (F)
Spontaneous rupture (R) at diagnosis
. V, P, E, F and R where a patient is categorized as positive when at least 1 of the components is present in HR
Pediatric hepatoblastoma: diagnosis and treatment
Transl Pediatr 2014;3(4):293-29

60. High-risk (HR) patients
CHIC ;
these patients were included as high-risk patients, even if their tumor was resectable
Conventional preoperative chemotherapy used in the PLADO,and C5V trials for patients with PRETEXT IV unresectable tumors resulted in tumors that could be resected by hepatectomy in some patients; but the outcome of patients with unresectable tumors at diagnosis remained unsatisfactory.
Pediatric hepatoblastoma: diagnosis and treatment
Transl Pediatr 2014;3(4):293-29

61. Regimen 2- (C5V)(every 3-4 weeks)
Regimen 1-CCG823F (every 3-4 weeks)-(six cycles of chemotherapy)
Doxorubicin (25 mg/m2/day×3 days - > 10 kg 0.83 mg/kg/day - continuous infusion by central line)
Cisplatin( 20 mg/m2/day- ×5 days - > 10 kg ,0.66 mg/kg/day - continuous infusion)
Regimen 2- (C5V)(every 3-4 weeks)
Cisplatin (100 mg/m2 IV infused over 6 h, >1 yr. 3.3 mg/kg - day 1)
Vincristine (1.5 mg/m2 IV (max 2 mg), >1 yr mg/kg - day 3, 10, 17)
Fluorouracil (600 mg/m2 IV - day 3)

62. Regimen 3 (every 3-4 weeks)
Cisplatin (90 mg/m2 - >1 yr. - 3 mg/kg - IV infused over 6 h ), day 0
Doxorubicin( 20 mg/m2/day - >1 yr mg/kg - continuous infusion × 4 days, days 0-3)
Toxicity of this regimen was more severe
All patients will receive G-CSF and bactrim to reduce toxicity
After four cycles, surgical resection followed by four additional courses of chemotherapy
A cure rate of over 90% can be reached by conventional cisplatin and doxorubicin containing chemotherapy and radical surgery in SR-hepatoblastoma.
International Society of Paediatric Oncology intensified cisplatin (every 2 weeks) in patients with high-risk disease

63. Treatments for HBL COG and JPLT studies have approved
primary resection for children with resectable tumors, especially PRETEXT I or II
Patients with stage I PFH treated with surgery alone.
Stage I hepatoblastoma (non-pure fetal histology [PFH]), non-small cell undifferentiated [SCU]) and Stage II (non-SCU) is a highly curable disease with 2 cycles of adjuvant cisplatin, 5-fluorouracil, and vincristine (C5V)
SIOPEL studies have not permitted the used of primary resection
COG AHEP0731: Phase III Study of Combination Chemotherapy in Pediatric Patients With Newly Diagnosed Hepatoblastoma
Pediatric hepatoblastoma: diagnosis and treatment
Transl Pediatr 2014;3(4):293-29

64. Intermediate-risk group : Receive C5VD chemotherapy comprising;
Cisplatin (100 mg/m2 IV infused over 6 h, >1 yr. 3.3 mg/kg- over 6 hours on day 1)
Fluorouracil (600 mg/m2 IV - on day 2)
Vincristine (1.5 mg/m2 IV (max 2 mg), >1 yr mg/kg - IV on days 2, 9, and 16)
Doxorubicin (20 mg/m2/day - >1 yr mg/kg -IV over 15 minutes on days 1-2)
Repeats every 21 days for 6 courses in the absence of disease progression or unacceptable toxicity
Surgical resection after course 2 OR surgical resection or liver transplantation after course 4 of C5VD
COG AHEP0731: Phase III Study of Combination Chemotherapy in Pediatric Patients With Newly Diagnosed Hepatoblastoma

65. Vincristine/irinotecan upfront window treatment of high-risk hepatoblastoma:
Vincristine (1.5 mg/m2/day -IV on days 1 & 8)
Irinotecan (50 mg/m2/day -IV over 90 minutes on days 1-5)
Repeats every 21 days for 2 courses in the absence of disease progression or unacceptable toxicity
Responders ;
30% decrease in tumor burden according to RECIST criteria
90% (> 1 log10 ) decline in the AFP level
Reevaluation every 2 cycle/Until second surgery
Significant antitumor activity & acceptable toxicity in relapse hepatoblastoma
pediatr hematol oncol 2015 feb;32

66. (COG) AHEP0731
Responders were VI , receive 2 additional cycles of VI intermixed with 6 cycles of cisplatin/doxorubicin/5-fluorouracil/vincristine (C5VD)- VI in between each 2-course (C5VD)
Patients undergo tumor resection or liver transplantation after course 4 of C5VD followed by 2 courses of adjuvant C5VD.
Referral for orthotopic liver transplant (OTL) is as potentially unresectable following central surgical review and staging according to the PRE TEXT (Pretreatment Extent of Disease) grouping system
Upfront VI treatment of high risk hepatoblastoma (COG) AHEP0731- CANCER 2017 JUN15

67. ' High risk' HB SIOPEL group;
Intensive multi-agent regimen including CARBO, CDDP and DOXO, preceded by a single dose of CDDP
Pre-operative phase
alternating administration ;
Cisplatin at days 1, 29, 57 & 85
80 mg/m2 over 24 hours as a continuous i.v- ( >5kg-1.7 mg/kg: if well tolerated increase to 2.6 mg/Kg )
Administered regardless of the blood cell count
CARBO /DOXO at days 15, 43 &71
CARBO -500 mg/m2 as an i.v. infusion from hours 0-1 (>5kg mg/kg: if well tolerated increase mg/Kg)
DOXO- 60 mg/m2 /48 hours continuous - starting soon after the end of the CARBO
(>5kg mg/Kg in 48 hours continuous infusion: if well tolerated increase to 2.0 mg/Kg/48 hours)
Tumour response evaluate before days 29, 57 and 85, and just before surgery
Delayed surgery - Delayed surgery should be performed within three weeks of day 85 of the preoperative chemotherapy. However, if feasible, definitive surgery could be considered also after the second administration of the combination CARBO/DOXO (after day 43). If surgery, is not feasible after the 85th day of the pre-operative phase, but the tumour is responding to chemotherapy, the patient should be treated with, at the most, another 2 doses of CARBO/DOXO alternating with one dose of CDDP. Definitive surgery should be re-considered at the end of these further courses of chemotherapy. All patients should receive at the most 5 courses of CARBO/DOXO and 5 of CDDP alone if the tumour continues to respond to chemotherapy).
Childhoodliver tumor stratege group-HR HB Guidelines

69. ' High risk' HB Cisplatin ( 20 mg/m2/d for 5 days (days 4-9)
German Society for Pediatric Oncology
two courses- (IPA) ;
Ifosfamide (3 g/m2/ over 72 h (days 1-3)
Cisplatin ( 20 mg/m2/d for 5 days (days 4-9)
Doxorubicin ( 60 mg/m2 /over 48 h (days 9-10)
two courses of IPA, followed by a tumor resection and a 4th course of IPA
The outcome of high risk (HR) hepatoblastomas with multifocally disseminating growth in the liver, invasion of large vessels, extrahepatic extension and metastases is still poor, especially since these tumors often rapidly develop resistance against cytotoxic drugs.
2003 May-Jun;215(3):
[Differentiated treatment protocols for high- and standard-risk hepatoblastoma--an interim report of the German Liver Tumor Study HB99].

70. German group has given carboplatin and etoposide to patients who have failed IPA ;
Carboplatin (800 mg/m2)
Etoposide (400 mg/m2)
In case of tumor response, they received one or two courses of HD- chemotherapy with carboplatin (2000 mg/m2) and etoposide (2000 mg/m2) after sampling of peripheral stem cells, followed by resection of the primary tumor and metastases, whenever possible.
2003 May-Jun;215(3):
[Differentiated treatment protocols for high- and standard-risk hepatoblastoma--an interim report of the German Liver Tumor Study HB99].

71. Topotecan may prove useful in preparative regimens for autologous stem cell transplant in the treatment of hepatoblastoma.
Stem cell transplant following; thiotepa, melphalan and busulfan has been used in the treatment of microscopic residual disease with good results
ifosfamide, carboplatin, and etoposide and achieved a very good partial response prior to liver transplant.

72. Orthotropic liver transplantation has improved the outcome for some patients with unresectable tumors (PRETEXT IV tumors or tumors with portal or hepatic vein involvement)
timing of liver transplantation and the role of rescue transplantation therapy remain controversial, consultation for liver transplantation should be performed for high-risk patients during the early stages of preoperative chemotherapy
Pediatric hepatoblastoma: diagnosis and treatment
Transl Pediatr 2014;3(4):293-29

73. Very high-risk patients (metastatic HBL)
with lung metastases have a poor prognosis
Older patients (≥8 years old at diagnosis)
Patients with low AFP levels (<100 ng/mL) have unfavorable outcomes
Pediatric hepatoblastoma: diagnosis and treatment
Transl Pediatr 2014;3(4):293-29

74. Very high-risk patients (metastatic HBL)
Resection of lung metastases has been effective for some patients with metastatic tumors
CISPLAIN intensification therapy such as that used in the SIOPEL-4 protocol seems to be effective
new molecular targeting therapy using vincristine and irinotecan will be investigated by COG
liver transplantation
Transarterial embolization (TAE) is used to control peritoneal hemorrhage in patients with ruptured tumors
Pediatric hepatoblastoma: diagnosis and treatment
Transl Pediatr 2014;3(4):293-29

75. Very high-risk patients (metastatic HBL)
Malignant liver tumors, including HBL, are mainly fed by the hepatic artery
Trans arterial chemoembolization (TACE)
Cisplatin & Anthracycline are used for embolization
Effect of TACE equivalent to systemic chemotherapy
less toxic in comparison with systemic chemotherapy
Administering TACE to children is somewhat difficult and requires general anesthesia
normal liver receives blood from two sources, the hepatic artery and portal vein.
Pediatric hepatoblastoma: diagnosis and treatment
Transl Pediatr 2014;3(4):293-29

76. SIOPEL-1 ; four triweekly preoperative ,two postoperative cycles
Cisplatin
Doxorubicin
JPLT ; four preoperative & two postoperative cycles
Pirarubicin
resulted in almost similar survival rates
Pediatric hepatoblastoma: diagnosis and treatment
Transl Pediatr 2014;3(4):293-29

77. Radiotherapy is not curative
useful in shrinking unresectable disease or microscopic residual disease
Radiation dosages to 2000 cGy
Occasionally, higher doses to localized areas of tumor
Radiotherapy immediately after hepatic resection will limit hepatic regeneration

78. Criteria for judging tumor response
Complete Response ;
no evidence of disease and normal serum AFP value (for age)
Partial Response :
Any tumor volume shrinkage associated with a decreasing serum AFP value, > 1 log below the original measurement
Stable Disease ;
no tumour volume change and no change, or <l log fall of the serum AFP concentration.
Progressive Disease;
unequivocal increase in 1 or more dimensions and/or any unequivocal increase of the serum AFP concentration
Childhoodliver tumor stratege group-HR HB Guidelines

79. < 40 dB at all frequencies
toxicity
Pure tone audiometry is the method of choice in children older than 3 years of age
If a child starts to show signs of high frequency hearing loss he/she should be followed carefully
If grade 3 or 4 ototoxicity is documented, CDDP should be withdrawn
BILATERAL HEARING
LOSS GRADE
Designation
< 40 dB at all frequencies
None
> 40 dB at 8,000 Hz only 1
Mild
> 40 dB at 4,000 Hz and above 2
Moderate
> 40 dB at 2,000 Hz and above 3
Marked
> 40 dB at 1,000 Hz and above 4
Severe
a possible increase of ototoxicity in patients treated with CARBO and CDDP

80. Renal toxicity Glomerular toxicity Tubular toxicity
Nephrotoxicity of CDDP in children (as in adults) is dose-related and
Plasma creatinine measurements and creatinine clearances are not reliable in children
Careful measurement of GFR by isotope clearance is essential for accurate monitoring of renal status
Tubular toxicity
Renal loss of Magnesium and consequent Hypomagnesemia
Renal tubulopathy (careful monitoring of electrolytes)
Hypomagnesemia may persist years after stopping therapy

81. Bone marrow toxicity;
ANC >1000/mm3
platelet count > /mm3
are necessary before starting chemotherapy with Carboplatin and Doxorubicin
It is better to delay slightly the institution of chemotherapy until these criteria are met, rather than decreasing the dose
If a delay of one or more additional weeks is required, decrease dosage by 25% for the next course only, and use GCSF
ANC < 500/mm3 associated with fever and sepsis or severe infection and/or severe thrombocytopenia (< /mm3 lasting more than 5 days) associated with bleeding, decrease dosage by 25%

82. Echocardiogram should be performed when the patient is;
Cardiotoxicity;
Echocardiogram should be performed when the patient is;
normothermic
normal haemoglobin
is not being hyperhydrated
prior to administration of DOXO

83. 50% reduction of DOXO dosage if Total Bili. > 3 mg/100 ml,
Hepatic toxicity;
No standardised criteria exist for the adjustment of DOXO dosage in the presence of hepatic dysfunction
50% reduction of DOXO dosage if Total Bili. > 3 mg/100 ml,
+/-AST, ALT) are >5 times the normal value.
Neither CARBO nor CDDP doses need to be modified.
SIOEPL (Childhood liver tumors strategy group)

84. Imaging-tumor marker(AFP)
Diagnosis and treatment algorithm for hepatoblastoma
Abdominal tumor
TAE/TACE
TUMOR RUPTURE
Imaging-tumor marker(AFP)
M(+):VHR
M(-)
IR or HR LR
BIOPSY
BIOPSY
Primary resection
Pre –op CX
Pre –op CX
Post –op CX
Resection
Metastectomy
Resection/LTX
transarterial embolization (TAE) or transarterial chemoembolization (TACE)
postoperative chemotherapy (Post-op CX).
Post –op CX
CXs
CXs
Metastectomy
Resection/LTX
Recurrence /
Progression
CXs
Rescue CXs

85. Hepatoblastoma report at MPCTRC

86. sex
frequency
Percent
Female 10
43.5%
Male 13
56.5%
total 23
100%

87. Age & Sex Female Male Age 3 1 <1Y 9 1-3Y 2 3-5Y 5-10Y 10(43.5%)
13(56.5%)
Total

88. Nationality Frequency Iranian 10 Tehran 2 Alborz 1 Markazi Gilan
Kerman
Fars
kashan
Golestan
Bandar Abbas 21
Total
Frequency 21
Iranian 2
Afghan 23
Total

89. Consanguinity Frequency Consanguinity 13 No 9 Yes 1
Missing(child adopt) 23
Total

90. Family History Of Cancer
One pa. has 3 Family History Of Cancer(Liver-Skin-Uterus)
Five pa. have GI Family History Of Cancer(Pancreas-Intestine-Colon-GI)
One pa. has Family History Of (brain Cancer)
two pa. has Family History Of Leukemia

91. Signs & symptom

92. Staging Percent Frequency Staging 17.4% 4 Stage1 Stage2 46.8% 12
Stage2
46.8% 12
Stage3
34.8% 7
Stage4
100% 23
Total
1 child in Stage1 after relapse was in stage 4

93. Metastasis
relapse
Frequency
Metastasis 3 16 No - 7
Yes 23
Total

94. Total
Uni Focal
Multi Focal 16 4 12
Rt. Lobe 1
Lt. Lobe 6
Both Lobes 23 5 18

95. Lab Data After Chemotherapy Before Chemotherapy Max Min 19.8 1 21.7
5.2
WBC
36.4
6.7
16.4
8.1 Hb 94 73
91. 7
54.9
MCV
529 26
998
71.2
Plt
8950 5
201 24
SGOT
1469 11 93 10
SGPT
2133
177
798
159
ALK
15.2 .2
1.5 .3
Bill .5 17
HBsAg
249
810 .6
HBsAb .1 49
HCVAb

96. AFP Minimum =12 Maximum =120000 Mean=17464 Frequency Percent <100 9
39.0% 6
26.3%
>1000 8
34.7%
Minimum =12
Maximum =120000
Mean=17464

97. First Chemotherapy

98. Second Chemotherapy

99. Off treatment/Follow up/alive
status
Frequency
Percent
Under treatment 3
13.1%
Off treatment/Follow up/alive 9
39.1%
death 11
47.8%

100. Relapse percent Frequency Relapse 74% 17 No 26% 6 Yes 100% 23 Total
One pa. has two relapse

101. Pathology Type Type 14 4 5 23 Epithelial Mixed Epithelial& Mesenchymal
Unknown type 23
Total

102. Stage 1 Stage 3 biopsy <1 + - 100-1000 Cis/VCR Alive 3-5 ? >1000
Consanguinity
History of cancer in family
AFP
biopsy
Second look surgery
Patology
First chemo
Second chemo.
RELAPSE.
status
Cause
death
Stage 1
<1 + -
Epithelial
Cis/VCR
Alive
1-3
+/GI
Doxo/Cis
<100
hepatoblastoma
C5V
IPA
lung DC
relapse
3-5 ?
>1000 _
Stage 3
Mixed Epithelial& Mesenchymal
+/IVF
Chemo
+/Leukemia
pneumonia
Liver/
peritoneum
adopt
5-10
Electrolyte imbalance

103. biopsy stage4 Heart lung Lung Brain age History of cancer in family
Consanguinity
History of cancer in family
AFP
biopsy
Second look surgery
Patology
First chemo
Second chemo.
RELAPSE.
status
metastasis
Cause
Death
stage3
5-10 - +
Epithelial
Cis/VCR
C5V
IPA
+/liver DC
DIC/ sepsis ? +/
leukemia
<100
Mixed Epithelial& Mesenchymal
Alive
stage4
1-3
+/GI
IVC /mass in Rt.A
>1000
DOX/CIS
Lung/
adenopathy
Relapse
DIC
CIS/carbo.
Heart
hepatoblastoma
lung
Respiratory insuf.
3-5
rinotecan
Lung
Brain
Adenopathy
L.Transplant
+/brain
Sepsis/
Electrolyte imbalance

104. Global 5-year survival rates for hepatoblastoma are : Stage I/II 9060
Stage IV 20

105. 1 year EFS=25%±.2

106. A Boy<1year,Pathology: Mixed Epithelial& Mesenchymal, Stage 4,In Left Liver Lobe, Left Lobectomy
With bone marrow involve
AFP
8 Courses Chemo Out of Mahak,protocol (5FU,VCR,Carbo)
Had Autolog Transplantation In Mahak Four Years Ago In 19 Months Old , Living Now
Transplantation Protocol; Carboplatin(3 days) Etoposide(3 days) Melfalan(1 day)

107. Stay safe & have a great day!!!
THANKS FOR YOUR TIME
& ATTENTION
Stay safe & have a great day!!!
Her soul is happy