Retinoblastoma

Dr.Shah-Noor Hassan FCPS,FRCS
Vitreo-Retina Consultant
Bangladesh Eye Hospital

The first description: was by Peter Pawius of
Amsterdam.
In 1805, William Hey coined the term fungus
haematodes
In 1809, the Scottish surgeon James Wardrop
concluded that: tumor arose from the retina
In 1836, Langenbech, Robin, and Nystin of Paris
confirmed by microscopic studies.
In 1864, Virchow named it a glioma of the retina

In 1891, Flexner of Johns Hopkins was first to notice
rosettes within the tumor
in 1897, Wintersteiner proposed the name
neuroepithelioma
Veorhoff : coin the term retinoblastoma
In 1970, Tso and colleagues established: tumor
arises from photoreceptor precursors

Retinoblastoma is a rare childhood cancer.
third most common cancer overall affecting
children
3% of all cancers in children younger than 15
years of age
National Cancer Institute [NCI], 2007
most common intraocular malignant neoplasm
in children (Castillo and Kaufman, 2003).

BEFORE 50 YRS:-
- 1 in 34,000 live births
RECENTLY
- 11 cases per million children < 5 yrs of age
-affects 1 in every 15,000 to 20,000 live births.
-About 5000 new cases worldwide yrly
-Incidence of heritable retinoblastoma: constant
-striking geographic differences in the incidence of
the nonheritable dz

The increased incidence in the poorer, tropical
and subtropical regions of the world is due to
- Viral etiology : human papilloma virus
- Diet deficient in fruits and vegetables in
pregnant mothers
- Advanced paternal age.

Poor prognosis
Mortality >50%
Delayed detection
Advanced dz
High risk cases

arises from a multipotential precursor cell that
could develop into almost any type of inner or
outer retinal cell

changes in or absence of a gene called RB1.
located on chromosome 13
RB1 produces a tumor suppressor protein
prevents a retinal cell from becoming
cancerous

Only one functioning RB1 gene in a retinal cell
is necessary to prevent the cell from becoming
cancerous.
If both RB1 genes in a retinal cell become non-
functional, then a retinal cell can become
cancerous and retinoblastoma can result

In 1971, Knudson proposed the two hit
hypothesis.
Two chromosomal mutations are needed for
development of retinoblastoma

Autosomal dominant with incomplete penetrance
and variable expressivity

Refers to the frequency that a heritable dz is
manifest in offspring of affected individuals
Inheritance of single inactive allele of rb1 gene-
predisposition to cancer- dominant trait
Second inactivating mutation must occur in at
least one retinoblast for RB to occur(recessive
trait)

in pedigrees, the tumor appears to be
dominant:
 probability that at least one will get the
required mutation to develop a tumor is at least
90%.
Rest 10% are carriers
90%

Refers to the variability of clinical
manifestations in affected individuals
E.g. patients with heritable RB who develop
only unilateral eye dz manifest reduced
expressivity.
Reduced penetrance and expressivity tend to
segregate in same families

very early in life (>90% before 5 yrs)
RB in the adult is not observed except
- when it arises from a related, benign lesion
termed retinoma
- rare persistence of embryonal retinal cell
Non-heritable dz: average 24 months
Heritable dz: presents between newborn to
1 yr

Genetically-related second cancers can
occur in survivors of bilateral or heritable
RB
5% chance in first 10 years of follow-up,
18% during the first 20 years, and
26% within 30 years.
5
51% cumulative risk over 50 years
75% of all SMNs occur in radiated areas

osteogenic sarcoma,
spindle cell sarcoma,
chondrosarcoma,
rhabdomyosarcoma
neuroblastoma,
glioma,
leukemia,
sebaceous cell
carcinoma,
squamous cell
carcinoma, and
malignant
melanoma.

classification

Shortcomings:
Anterior tumors were classified in a more
advanced group
Doesn’t take into account RD and SR
seeding
Vitreous seeding places the eye in the last
5b group

In 2003, the ABC classification proposed by
the European Congress of Ophthalmology
was accepted by the xth International RB
symposium
The International classification is based
both on
-the natural history of retinoblastoma
-the likelihood of salvaging the eye when
systemic chemotherapy is used as the
primary treatment

3 mm or smaller in greatest dimension confined
to retina
> 3mm from fovea and > 1.5 mm from disc.

Any tumor size and location with no vitreous or
subretinal seeding

Discrete tumor
SRF, past or present, upto one quadrant of retina
Local SR seeding, past or present, less than 5 mm
from the tumor

Massive or diffuse tumor
SRF upto total RD
Diffuse SR seeding, may include SR plaques or tumor
nodules.
Diffuse or massive viteous seedings, greasy seeds or
avascular tumor masses.

Tumor touching the lens
Neovascular glaucoma
Tumor anterior to anterior vitreous face
involving ciliary body or anterior segment
Diffuse infiltrating RB
Opaque media from hemorrhage
Tumor necrosis with aseptic orbital cellulitis
Phthisis bulbi

Stage 1: intraocular RB
Stage 2: stage of glaucoma
Stage 3: orbital dz
Stage 4: stage of metastasis

Presenting
features

1. Leucocoria 56%
2. Strabismus 20%
3. Red painful eye 7%
4. Poor vision 5%
5. Asymptomatic 3%
6. Orbital Cellulitis 3%
7. Unilateral Mydriasis 2%
8. Heterochromia Iridis 1%
9. Hyphema 1%
56%
20%
7%
5%
3%
3%
2%
1%3%
IIIIIIIVVVIVIIVIIISlice 9

EUA: complete ophthalmic evaluation
including a dilated fundus examination
360 degree scleral depression is mandatory.
visualization of the tumor by an IO is
diagnostic in over 90% of cases.

The intraocular pressure is measured
Corneal diameter measured
anterior segment is examined for
neovascularization, pseudohypopyon, hyphema,
and signs of inflammation using hand held slit
lamp examination
Staging of the tumor is done.
Careful retinal drawing with colored pencils

G/E: to r/o 13 q deletion RB syndrome
low set and posteriorly rotated ears,
simian crease in the palms,
broad thumbs,
hypertelorism,
telecanthus

As good as CT in its ability to detect
calcification
Measures the height of each discrete tumor in
millimeters
rounded or irregular intraocular mass with high
internal reflectivity

To know
Extraocular extension
optic nerve invasion
extent of recurrent dz
Trilateral RB syndrome
Subarachnoid seeding
Involvement of brain

•MRI is not as
specific because of
its lack of
sensitivity in
detecting
calcification
•CT scan
involves
exposing the
child to a low
dose of
radiation

useful in documenting the size and location
of tumors
Helps the family accept the reality of a
tumor.
Comparison images are useful in follow-up
examinations

minimally dilated feeding vessels in the arterial
phase, blotchy hyperfluorescence in the venous
phase and late staining
To confirm a questionable area of recurrent RB
in a previously treated lesion or scar
Differentiates from presumed retinoma

Carried out only if the treating physician
suspects extraocular or metastatic
retinoblastoma
Lumbar puncture for CSF analysis
Bone marrow aspiration and biopsy
(aspiration from more than one site because
bone marrow involvement can be uneven)
typically taken from illiac crest
Bone scan if clear evidence of metastasis.

FNAB:
Limited to exceptional cases in which
- diagnosis cannot be achieved by any other
means
- If pt. demands pathological verification of
diagnosis before consenting for surgery
Specular microscopy:
- helps in differentiating Kps from RB cells

Flexner-Wintersteiner
rosettes-the cells
surround the central
lumen
characterized by a single
row of columnar cells
with eosinophilic
cytoplasm and
peripherally situated
nuclei

Homer Wright
rosette –without
features of retinal
differentiation.
Lumen is filled with
eosinophilic
cytoplasmic processes
Fleurette- represent
photoreceptor diff
Flower like str
They are curvilinear
clusters of cells
composed of rod and
cone segments

Treatment

Treat the child and not only the eye.
primary goal: save life.
secondary goal: Salvage of the organ (eye)
Tertiary goal: function (vision)

Pediatric ophthalmologist
Pediatric surgeon
Pediatric hematologist
Radiation oncologist
Neurologist
Pediatric nurse specialist
Rehabilitation specialist
Psychologist
Social workers
Geneticist

- focal
Cryotherapy
laser photocoagulation,
transpupillary thermotherapy,
transcleral thermotherapy,
plaque brachytherapy,
-Local
external beam radiotherapy,
enucleation, and
-systemic
Chemotherapy

small equatorial and peripheral retinal
tumors
Upto 4 mm in basal diameter and 2 mm in
thickness
Triple freeze thaw cryotherapy is applied at
4-6 week intervals
Cryotherapy produces a scar much larger
than the tumor

small posterior tumors: 4 mm in basal
diameter and 2 mm in thickness.
delimit the tumor and coagulate the blood
supply to the tumor
less often employed now with the advent of
thermotherapy.

Green laser better absorbed by the nonpigmented
RB
Starts concurrently with beginning of 2
nd
or 3
rd
cycle
of chemoreduction
First burns are placed at the edge of the lesion with
half spot on and half off the tumor
Once outlined entire lesion is covered with burns
Goal: 30% overlap
Three different sessions

focused heat generated by infrared radiation is
applied to tissues at subphotocoagulation levels
to induce tumor necrosis.
Goal: achieve a slow and sustained temperature
range of 40 to 60 degree C within the tumor

The tumor is heated until it turns a subtle gray.
Penetration upto 3.9mm in the tissue
M/A
- Cytolysis
- Mitochondrial damage
-Vascular occlusion
Complete tumor regression can be achieved in over
85% of tumors using 3-4 sessions of thermotherapy

The major application of thermotherapy is as
an adjunct to chemoreduction.
The application of heat amplifies the cytotoxic
effect of platinum analogues.
This synergistic combination with
chemoreduction protocol is termed
chemothermotherapy.

4500 cGy
4-6 weeks( daily doses of 200 cGy or altenate doses of
400 cGY
A wedge is used to block the posterior surface of the
lens
Anterior + lateral portals
Experienced centre

Dry eye
Cilia loss
Retinopathy
Papillopathy
Cataract
Neurocognitive
deficits
Phthisis
Secondary sarcoma
Bony hypoplasia of the
midface

No EBRT: 6%
Prior EBRT : 35%
Hence avoided in bilateral and familial cases

Indications
Primary or secondary treatment
Solitary tumors height < 6mm
Local/over the surface seedings
CI
Diffuse seedings
Dense VH
Infiltration of optic disc/ant. Segment
Functional blindness

Isotopes
Iodine
ruthenium
Success
90% of eyes when used as a primary treatment.
In recurrence after chemoreduction, complete
control of the tumor is achieved in 96% of
cases.

protons cause little damage to tissues they pass
through
able to deliver more radiation to the tumor and
damage nearby normal tissues less.
The machines needed to make protons are
expensive

A type of 3-D radiation therapy
uses a computer to make pictures of the size
and shape of the tumor.
Thin beams of radiation of different intensities
(strengths) are aimed at the tumor from many
angles.
causes less damage to healthy tissue near the
tumor.

uses a rigid head frame attached to the skull to
aim high-dose radiation beams directly at the
tumors
causing less damage to nearby healthy tissue.
also called stereotactic external-beam radiation
and stereotaxic radiation therapy

Chemoreduction: defined as the process of reduction in
the tumor volume with chemotherapy
Goals
- Reduce tumor size
- Allow focal methods
photocoagulation
cryotherapy
plaque brachytherapy
- Avoid enucleation
- Avoid EBRT
.

Gallie and colleagues added cyclosporin A to the
regimen in an effort to competitively inhibit the
multiple drug resistance

Myelosuppression, even AML known with
etoposide (hence few centres have dropped
etoposide from the regimen)
febrile episodes,
Hepatic toxicity
Neurotoxicity (vincristine) and
non-specific gastrointestinal toxicity.

Group A: excellent visual acuity 100% eyes
salvaged
Group B: 95% visual acuity ranged from 6/60 to
6/6 depending upon the location of the tumor.
Group C: 90% of the eyes salvaged
Group D: 47 % without the use of external
beam radiotherapy
Group E: only 2 %salvaged

Carboplatin: retinoblastoma with vitreous
seeds ( group C and D)
penetrate the sclera and achieve effective
concentrations in the vitreous cavity.
2ml containing 20mg of the drug.
Avoid systemic toxicity
This modality is currently under trial.
Long term results awaited
Adr: extensive orbital soft tissue scarring

chemotherapy directly into the ophthalmic
artery.
delivery of high concentrations of
chemotherapy to the eye (and to the cancer)
with far lower concentrations to the patient
than systemic administration
Melphalan with/without carboplatin

require treatment with cryotherapy,
thermotherapy, plaque radiotherapy, external
beam radiotherapy, or enucleation.
24% of patients.
in those who present as infants and with family
history of retinoblastoma.

Regression
patterns

typedescription consolidation
0 Completely disappears without RPE changesno
I Entire lesion calcifies
‘Rock salt’ look with RPE changes
Probably yes
II Homogenous semi-translucent, gray ‘fish
flesh’ lesion
yes
IIICombination of I and II, most commonyes
IV Flat scar with significant RPE changesYes, three
complete laser
coverages

1
st
container
of fixative
2
nd
container
of formalin
Petri dish

Following enucleation, an orbital implant is
placed to provide
a more natural cosmetic appearance of the
patient's artificial eye
to enable motility of the prosthesis.
growth of the socket

MRI done yrly
If heritable dz diagnosed before 1 yr then MRI done 6
monthly to look for midline PNET

Anterior chamber infiltration
Ciliary body infiltration
Trabecular meshwork infiltration
Massive choroidal infiltration
Retrolaminar optic nerve invasion
Optic nerve invasion upto transection
Scleral infiltration
Extrascleral extension
Orbital invasion

Anterior chamber infiltration
Ciliary body infiltration
Trabecular meshwork infiltration
Massive choroidal infiltration
Retrolaminar optic nerve invasion
Optic nerve invasion upto transection
Scleral infiltration
Extrascleral extension
Orbital invasion
Adjuvant chemo
6 cycles ?
Adjuvant chemo
12 cycles and
radiotherapy

If the chance of salvaging useful vision is not good,
heroic treatment approaches are unwarranted.

Group A: local therapy, photo or cryo.
Group B: three to four cycles of chemotherapy
of 2 or 3 drugs plus local consolidation therapy
Group C: 6 cycles of chemotherapy plus focal
consolidation

Unilateral: if the child and not the eye is taken
into consideration: enucleation
Bilateral RB:
6 cycles of chemotherapy
+
three cycles of local subtenon carboplatin
+
local consolidation therapy.
Local treatment may be delayed until the
chemoreduction aimed at the fellow eye has its
effect
Group D
eye
other
eye

Local chemotherapy
Brachytherapy for local seedings
EBRT for diffuse seeds
Intravitreal chemotherapy
thiopeta, melphalan

Unilateral
Bilateral
optic nerve
invasion:
enucleation
chemotherapy( 6
cycles) f/by
enucleation
enucleation f/by
chemotherapy
for other eye
stage.
CT /MRI
No optic
nerve
invasion

a. Primary Orbital Retinoblastoma
b. Secondary Orbital Retinoblastoma
c. Accidental Orbital Retinoblastoma
d. Overt Orbital Retinoblastoma
e. Microscopic Orbital RB

High dose chemotherapy(neoadjuvant chemo)
Enucleation after >3 cycles
Orbital EBRT
Continued chemo for 12 cycles

develop in fewer than 10% of patients in advanced
countries.
major contributor to retinoblastoma related mortality
in developing nations.

Bones or bone
marrows
Meninges
Central nervous
tissue
Paranasal sinuses
Salivary glands
Lymph node
Subcu tissue
liver
Spleen
Pleura
testes

High dose chemotherapy
Bone marrow transplant
Total body irradiation
Intrathecal chemotherapy
The three year disease-free survival was 67% with this
therapy
if required

Presence was first recognized by Jacobiec et al
in 1977
Recogized as one of the group of primitive
neural ectodermal tumor(PNET)
2-3% of heritable dz
Fever, meningeal irritation, seizures, headache,
papilloedema

MRI 6 monthly for 3 yrs in patients diagnosed
having bilateral RB
Chemo: vincristine, cyclophospamide
Sxcal resection

Genetic counseling is the process of providing
individuals and families with information on the
nature, inheritance, and implications of genetic
disorders to help them make informed medical and
personal decisions

It is also recommended that siblings
continue to undergo periodic retinal
examinations under anesthetic until they
are three years of age.
The retinal examinations can be avoided if
DNA testing indicates that the patient has a
non-inherited form of retinoblastoma or if
the sibling has not inherited the RB1 gene
change/deletion

Apoptosis: way body gets rid of abnormal cells
that might become cancerous or cause other
problems.

Nutlin-3

In combination with topotecan, the
topoisomerase I inhibitor (also induces p53)
exert a synergistic response
Tried successfully in mouse and testtubes
Local delivery of this two-drug targeted
treatment was even more effective.

Rational: prevent the growth of tumors by
blocking the formation of new blood
vessels that feed the tumors
bevacizumab induced a 75% reduction in
the growth of the retinoblastomas
without producing significant systemic
toxicity (animal study)
Lee SY, Kim DK, Cho JH, Koh JY, Yoon
YH
2008-07, Arch Ophthalmol., 126(7):953-8.

technique for correcting defective genes
responsible for disease development
normal" gene is inserted into the genome to replace
an "abnormal,"
A carrier molecule called a vector is used

5% in 1896, 81% in 1967
95% in developed countries
Only 50% worldwide
Success story
From 95% mortality to 95% survival
Attributed to
Early diagnosis
Correct diagnosis
Newer treatment modalities

Metastasis
Pineoloblastoma
Second cancers

THANK YOU

Thank you


Local surgical techniques including laser
photocaogulation or cryotherapy applied directly to
the residual tumor mass following tumor volume
reduction by primary systemic chemotherapy

Tumor confined to retina
Mutations (perhaps loss of suppressor gene
PNET)
Cells grow without extracellular matrix
dependence
Enough cells divisions and mutations occur
to acquire task of cancer cell

No mutational hotspots
10-15% large deletions
5% chromosomal aberrations
80% small mutations in exons and spice sites
Promoter mutations very rare
Epigenetic changes in tumor

 vitamin D receptors in retinoblastoma
 The mechanism of action : increased p53-related
gene expression resulting in increased apoptosis.
Conclusion : 16,23-D 3 and 1a-OH-D2 are effective
in tumor reduction in two mouse models of RB
with low toxicity
Albert D.M.; Nickells R.W.; Gamm D.M.; Zimbric
M.L.; Schlamp C.L.; Lindstrom M.J.; Audo I.
Source: Ophthalmic Genetics, Volume 23, Number 3,
September 2002 , pp. 137-156(20)

-Time period examined: 5,10 yrs
-Survival from RB alone or from both RB and
second primary neoplasms
-If EBR had been used in the treatment
- Whether or not there was a delay in
receiving medical attention
- Multiple episodes of recurrent disease is a
bad prognostic sign
More cell divisions; achieve enabling
mutations that allow clone of cells to
survive outside the eye.

 Age at diagnosis
 Delay in diagnosis
 Massive tumor
 Neovascular
glaucoma
 Orbital extension
Adjuvant chemo doesn’t
help
Aggressive management
may improve the
prognosis

Indications:
Unilateral: group D and group E
Bilateral: group E
In case the disease is symmetrical or almost so, then it
is reasonable to delay enucleation until response to
primary chemotherapy is evaluated in both eyes.

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