Atypical teratoid rhabdoid tumor

Atypical teratoid rhabdoid tumor

-ICD9|192



Caption = MRI of an AT/RT
ICDO = 9508/3
OMIM = 609322
DiseasesDB = 30780
MedlinePlus = 000768
eMedicineSubj = ped
eMedicineTopic = 3012
MeshID = D016543

Atypical teratoid rhabdoid tumor (AT/RT) is a rare tumor usually diagnosed in childhood. Although usually a brain tumor, AT/RT can occur anywhere in the central nervous system (CNS) including the spinal cord. About 60% will be in the posterior cranial fossa (particularly the cerebellum). One review estimated 52% posterior fossa (PF), 39% sPNET (supratentorial primitive neuroectodermal tumors), 5% pineal, 2% spinal, and 2% multi-focal.cite journal
author = Kieran MW
title = An Update on Germ Cell Tumors, Atypical Teratoid/Rhaboid Tumors, and Choroid Plexus Tumors Rare Tumors 3: Brain Tumors---Germ Cell Tumors, Atypical Teratoid/Rhabdoid Tumors, and Choroid Plexus Tumors
journal = American Society of Clinical Oncology
volume = Education Book
year = 2006
url = http://www.asco.org/portal/site/ASCO/menuitem.64cfbd0f85cb37b2eda2be0aee37a01d/?vgnextoid=09f8201eb61a7010VgnVCM100000ed730ad1RCRD&vmview=vm_session_presentations_view&confID=40&sessionID=295
accessdate = 2007-05-20
]

In the United States, three children per 1,000,000 or around 30 new AT/RT cases are diagnosed each year. AT/RT represents around 3% of pediatric cancers of the central nervous system (CNS). [ [http://www.epa.gov/envirohealth/children/child_illness/d6-graph.htm Measure D6: Types of Childhood Cancer] – 2006 Tables D6a & D6b. U.S. Environmental Protection Agency. Retrieved on 2008-04-17.] Around 17% of all pediatric cancers involve the CNS; it is the most common childhood solid tumor.Fact|date=April 2008 The survival rate for CNS tumors is around 60%; with AT/RT it is around 10%. Pediatric brain cancer is the second leading cause of childhood death, just after leukemia. Recent trends suggest that the rate of overall CNS tumor diagnosis is increasing by about 2.7% per year. As diagnostic techniques using genetic markers improve and are used more often, the proportion of AT/RT diagnoses is expected to increase.

Because it is highly malignant, AT/RT has a high mortality rate. A survey of 36 AT/RT patients at St. Jude Children's Hospital from 1984 to 2003 showed that the Two-year event-free survival (EFS) for children under three was 11%, the overall survival (OS) rate was 17%. For children aged 3 years or older the EFS was 78% and the OS 89%. [cite journal |author=Tekautz TM, Fuller CE, Blaney S, "et al" |title=Atypical teratoid/rhabdoid tumors (ATRT): improved survival in children 3 years of age and older with radiation therapy and high-dose alkylator-based chemotherapy |journal=J. Clin. Oncol. |volume=23 |issue=7 |pages=1491–9 |year=2005 |pmid=15735125 |doi=10.1200/JCO.2005.05.187 |url=http://jco.ascopubs.org/cgi/content/full/23/7/1491 See Figure 1.] Because most patients with AT/RT are less than three years old (71% in St Jude Study), the overall prognosis for AT/RT is very poor.

Current research is focusing on using chemotherapy protocols that are effective against rhabdomyosarcoma in combination with surgery and radiation therapy.

Classification

AT/RT may be related to malignant rhabdoid tumor (MRT), which occurs outside the CNS, usually in the kidney.Fact|date=April 2008 The finding that AT/RT and MRT both have deletions of the INI1 geneFact|date=April 2008 indicates that rhabdoid tumors of the kidney and brain are at least closely related. AT/RT and MRT also have similar histology and similar clinical and demographic features. Moreover, 10–15% of MRT patients have simultaneous or subsequent brain tumors, many of which are secondary or primary MRT.

igns and symptoms

Clinical signs and symptoms depend on the location of the tumor.

Since many of the tumors occur in the posterior fossa they present like other posterior fossa tumors, often with headache, vomiting, lethargy, and ataxia (unsteady gait). There is a case report of a seven-month-old child with a primarily spinal tumor that presented with progressive paraplegia and abnormal feeling in the legs. [cite journal |author=Tamiya T, Nakashima H, Ono Y, "et al" |title=Spinal atypical teratoid/rhabdoid tumor in an infant |journal=Pediatr Neurosurg |volume=32 |issue=3 |pages=145–9 |year=2000 |pmid=10867562 |url=http://content.karger.com/produktedb/produkte.asp?typ=fulltext&file=pne32145 |doi=10.1159/000028920]

Genetics

Genetic similarities have been found within rhabdoid tumors. In particular the chromosomal 22 deletion is very common in AT/RTs. The chromosome 22 area contains the hSNF5/INI1 gene that appears to function as a classic tumor suppressor gene. [cite journal |author=Chung-Lan Kao, Shih-Hwa Chiou, Yann-Jang Chen, Sher Singh, Han-Tso Lin, Ren-Shyan Liu, Chih-Wen Lo, Chi-Chang Yang, Chin-Wen Chi, Chen-hsen Lee and Tai-Tong Wong |title=Increased expression of osteopontin gene in atypical teratoid/rhabdoid tumor of the central nervous system |journal=Modern Pathology |volume=18 |issue= 6 |pages=769–778 |year=2005 |accessdate = 2008-05-05 |url=http://www.nature.com/modpathol/journal/v18/n6/full/3800270a.html |doi=10.1038/modpathol.3800270] Most rhabdoid tumors have INI1 deletions whether they occur in the CNS, kidney or elsewhere. This mutation is viewed as the "first hit" which predisposes children to malignancies. INI1/hSNF5, a component of the chromatin remodeling SWI/SNF complex, is a critical tumor suppressor biallelically inactivated in rhabdoid tumors. Identification of INI1 as a tumor suppressor has facilitated accurate diagnosis of rhabdoid tumors. The rate of transcription for SWI/SNF and HDAC complexes seem to be regulated by the INI1 gene. The SWI/SNF complex plays a role in chromatin remodeling. AT/RT is the first pediatric brain tumor for which a candidate tumor suppressor gene has been identified. A mutation or deletion in the INI1/hSNF5 gene occurs in the majority of AT/RT tumors. Up to 90% of AT/RT cases involve chromosome 22 deletion. This is mainly point mutations on the hSNF5/INI1 gene (i.e., one can diagnosis AT/RT without a chromsome 22 deletion elsewhere). The hSNF5/INI1 gene regulates 15 or so proteins in the chromintin structure. In addition, the OPN gene has a higher expression in AT/RT tumors. It is increasingly believed that the reason that all of the AT/RT cancers are not associated with the hSNF5/INI1 gene is that there are 14 additional proteins in the chromintin structure that are controlled by other genes. There are also some emerging mouse models of the AT/RT cancer as well as experimental cell lines derived from tumors. Despite these advances, the function of the gene is not yet understood. There is not enough known about the function of INI1, either as an independent modulator of gene expression or through its association with the SWI/SNF complex, to be able to use specific targeted biological agents for treatment. Prospective clinical and biologic trials are greatly needed to understand the efficacy of therapeutic interventions, as well as the role of the gene.

Risk for siblings and other members of the family

Atypical teratoid/rhabdoid tumors are very rare tumors and absolute risk to siblings is not reported in the literature. However, there have been some reports of AT/RTs presenting in two members of the same family, or one family member with a AT/RT and another with a renal rhabdoid tumor or other CNS tumor. These are suspected to arise from germ-line genetic mutations in a parent shared by affected siblings.

*A three-generation family is known in which two half-brothers were diagnosed with central nervous system atypical teratoid/rhabdoid tumors (AT/RT). The two boys, diagnosed at 2 months and 17 months of age, had a germline insertion mutation in exon 4 of the INI1 gene that was inherited from their healthy mother. A maternal uncle died in childhood from a brain tumor and a malignant rhabdoid tumor of the kidney. The identification of two unaffected carriers in a family segregating a germline mutation and rhabdoid tumor supports the hypothesis that there may be variable risks of development of rhabdoid tumor in the context of a germline mutation. There may be a developmental window in which most rhabdoid tumors occur. This family highlights the importance of mutation analysis in all patients with a suspected rhabdoid tumor. [cite journal |author=Janson K, Nedzi LA, David O, "et al" |title=Predisposition to atypical teratoid/rhabdoid tumor due to an inherited INI1 mutation |journal=Pediatr Blood Cancer |volume=47 |issue=3 |pages=279–84 |year=2006 |pmid=16261613 |doi=10.1002/pbc.20622]

*In the first case report of monozygotic twins, both with brain tumors having similar genetic alterations, authors suggest a common genetic pathway. [cite journal
last = Fernandez C, Bouvier C, Sevent N.
title = Congenital disseminated malignant rhabdoid tumor and cerebellar tumor mimicking medulloblastoma in monozygotic twins: pathologic and molecular diagnosis
journal = Am J Surg Pathol
pmid = 11812951
year = 2002
issue = 26:
pages = 266–70
doi = 10.1097/00000478-200202000-00016
volume = 26
]

*A case reported on an infant that developed both AT/RT and renal rhabdoid tumors that were identical in gross and immunologic histology. [cite journal
author = Beigel, JA, Fogelgren B, Wainwright LM, et al
title = Germ-line INI1 mutations in a patient with a central nervous system atypical teratoid tumor and renal rhabdoid tumor
journal = Genes Chromosomes Cancer
volume =
year = 2000
issue = 1
pages = 31–7
doi = 10.1002/(SICI)1098-2264(200005)28:1<31::AID-GCC4>3.0.CO;2-Y
doilabel = 10.1002/(SICI)1098-2264(200005)28:131::AID-GCC43.0.CO;2-Y
]

* A family has had multiple generations of posterior fossa tumors including rhabdoid tumors and choroid plexus carcinoma. A germ-line mutation (SMARCB1) was found in both affected and some unaffected family members. [cite journal
author=Taylor MD, Gokgoz N, Andrulis IL, Mainprize TG, Drake JM, Rutka JT
title=Familial posterior fossa brain tumors of infancy secondary to germline mutation of the hSNF5 gene
journal=Am. J. Hum. Genet.
volume=66
issue=4
pages=1403–6
year=2000
pmid=10739763
doi=10.1086/302833
url=
]

*Two sisters were diagnosed with AT/RTs fifteen days apart. A case report stated there were no karyotypic anomalies noted. [cite journal
author=Proust F, Laquerriere A, Constantin B, Ruchoux MM, Vannier JP, Fréger P
title=Simultaneous presentation of atypical teratoid/rhabdoid tumor in siblings
journal=J. Neurooncol.
volume=43
issue=1
pages=63–70
year=1999
pmid=10448873
doi=
url=http://www.kluweronline.com/art.pdf?issn=0167-594X&volume=43&page=63
]

*Three siblings had a mutation of the SMARCB1 gene and one had a choroid plexus carcinoma and two had an AT/RT. Although the mother had a normal somatic DNA it appears that the mutation was inherited from the mother's germline due to a mutation during oogenesis. [cite journal
author = Sevent N, Sheridan E, Amran D, et al
title = Constitutional mutations of the hSNF/INI1 gene predispose to a variety of cancers
journal = Am J Hum Genet
year = 1999
issue = 65
pages = 1343–48
]

*Izycka-Swieszewska et al. describe a five month-old child with an AT/RT, whose father was diagnosed with a primitive neuroectodermal tumor (PNET) of the spinal canal. FISH analysis showed significant genetic differences in the specimens which suggest that the occurrence of these virulent CNS malignancies within a single family was coincidental. [cite
author = Ewa Izycka-Swieszewska, Maria Debiec-Rychter, Bartosz Wasag, et al.
title = A unique occurrence of a cerebral atypical teratoid/rhabdoid tumor in an infant and a spinal canal primitive neuroectodermal tumor in her father
journal = Journal of Neuro-Oncology
year = February 2003
issue = 3
pages = 219-225
doi = 10.1023/A:1022532727436
]

Pathology

Pathology is the study and diagnosis of disease through examination of organs, tissues, bodily fluids and whole bodies (Autopsy). AT/RT and rhabdoid tumor share the term "rhabdoid" because under a microscope both tumors resemble rhabdomyosarcoma.

Histology

Histology is the study of the microscopic anatomy of cells and tissues of plants and animals. It is performed by examining a thin slice of tissue under a light microscope. The tumor histopathology is jumbled small and large cells. The tissue of this tumor contains many different types of cells including the rhabdoid cells, large spindled cell, epithelial and mesenchymal cells and areas resembling primitive neuroectodermal tumor Primitive neuroectodermal tumor (PNET). As much as 70% of the tumor may be made up of PNET-like cells. Ultrastructure characteristic whorls of intermediate filaments in the rhabdoid tumors (as with rhabdoid tumors in any area of the body). Ho and associates found sickle-shaped embracing cells, previously unreported, in all of 11 cases of AT/RT.cite journal |author=Ho DM, Hsu CY, Wong TT, Ting LT, Chiang H |title=Atypical teratoid/rhabdoid tumor of the central nervous system: a comparative study with primitive neuroectodermal tumor/medulloblastoma |journal=Acta Neuropathol. |volume=99 |issue=5 |pages=482–8 |year=2000 |pmid=10805090 |doi= |url=]

Immunohistochemistry

Immunohistochemistry refers to the process of localizing proteins in cells of a tissue section exploiting the principle of antibodies binding specifically to antigens in biological tissues. A tissue sample is stained to identify specific cellular proteins. Immunohistochemical staining is widely used in the diagnosis and treatment of cancer. Specific molecular markers are characteristic of particular cancer types. Immunohistochemistry is also widely used in basic research to understand the distribution and localization of biomarkers in different parts of a tissue. Proteins found in an Atypical Teratoid Rhaboid Tumor are:

*Vimentin-positive
*Cytokeratin-positive
*Neuron specific enolase-positive
*Epitelial membrane antigen-positive
*Glial fibrillary acidic protein- positive
*Synaptophysin
*Chromogranin
*Smooth muscle actin
*Desmin
*Carcinoembrionary antigen
*CD99 antigen; [ [http://www.ncbi.nlm.nih.gov/sites/entrez?db=gene&cmd=Retrieve&dopt=Graphics&list_uids=4267 CD99] ] [ [http://www.ncbi.nlm.nih.gov/entrez/dispomim.cgi?id=313470 2nd CD99 link] ]
*S-100
*neurofilaments
*AFP – not found
*HCG – negative

Cytogenetic studies

Cytogenetics is the study of a tumor’s genetic make-up. A technique called FISH may be able to help locate a mutation or abnormality that may be allowing tumor growth.cite journal
author=Bruch LA, Hill DA, Cai DX, Levy BK, Dehner LP, Perry A |title=A role for fluorescence in situ hybridization detection of chromosome 22q dosage in distinguishing atypical teratoid/rhabdoid tumors from medulloblastoma/central primitive neuroectodermal tumors |journal=Hum. Pathol. |volume=32 |issue=2 |pages=156–62 |year=2001 |pmid=11230702 |doi=10.1053/hupa.2001.21572
url=http://linkinghub.elsevier.com/retrieve/pii/S0046-8177(01)87801-1
] This technique has been shown to be useful in identifying some tumors and distinguishing two histologically similar tumors from each other (such as AT/RTs and PNETs). In particular, medulloblastmas/PNETs may possibly be differentiated cytogenetically from AT/RTs as chromosomal deletions of 17p are relatively common with medulloblastoma and abnormalities of 22q11.2 are not seen. On the other hand, chromosomal 22 deletions are very comomon in AT/RTs.

In importance of the hSNF5/INI1 gene located on chromosomal band 22q11.2 is highlighted in the summary paper form the Workshop on Childhood Atypical Teratoid Rhabdoid Tumors as the mutation’s presence is sufficient to change the diagnosis from a medulloblastoma or PNET to the more aggressive AT/RT classification. However, it should be noted that this mutation is not present in 100% of cases. Therefore, if the mutation is not present in an otherwise classic AT/RT immunohistochemical and morphologic pattern then the diagnosis remains an AT/RT.

Diagnosis

The standard work-up for AT/RT includes:

* MRI Magnetic resonance imaging of the brain and spine
* LP (Lumbar puncture) to look for M1 disease
* CT (Computed tomography) of chest and abdomen to check for a tumor
* BMA (Bone Marrow Asperant) to check for bone tumors. Often a doctor will want perform a stem cell transplant
* BX Bone marrow biopsy
* Bone scan

The initial diagnosis of a tumor is made with a radiographic study (MRI [cite journal |author=Meyers SP, Khademianc ZP, Biegeld JA, Chuange SH, Koronesb DN, Zimmerman RA |title=Primary Intracranial Atypical Teratoid/Rhabdoid Tumors of Infancy and Childhood: MRI Features and Patient Outcomes |journal=American Journal of Neuroradiology |volume=27 |issue=5 |pages=962–971 |year=2006 |month=May |url=http://www.ajnr.org/cgi/content/full/27/5/962 | accessdate = 2008-05-05 |pmid=16687525 ] or CT-). If CT was performed first, a MRI is usually performed as the images are often more detailed and may reveal previously undetected metastatic tumors in other locations of the brain. In addition, an MRI of the spine is usually performed. The AT/RT tumor often spreads to the spine. It is difficult to diagnosis AT/RT only from radiographic study; usually a pathologist must perform a cytological or genetic analysis.

Examination of the cerebrospinal fluid is important as one-third of patients will have intracranial dissemination with involvement of the cerebrospinal fluid (CSF). Large tumor cells, eccentricity of the nuclei and prominent nucleoli are consistent findings. [cite journal
author=Lu L, Wilkinson EJ, Yachnis AT
title=CSF cytology of atypical teratoid/rhabdoid tumor of the brain in a two-year-old girl: a case report
journal=Diagn. Cytopathol.
volume=23
issue=5
pages=329–32
year=2000
pmid=11074628
doi=10.1002/1097-0339(200011)23:5<329::AID-DC9>3.0.CO;2-W
doilabel=10.1002/1097-0339(200011)23:5329::AID-DC93.0.CO;2-W
] Usually only a minority of AT/RT biopsies have Rhabdoid cells, making diagnosis more difficult. Increasingly it is recommended that a genetic analysis be performed on the brain tumor, especially to find if a deletion in the INI1/hSNF5 gene is involved (appears to account for over 80% of the cases). The correct diagnosis of the tumor is critical to any protocol. Studies have shown that 8% to over 50% of AT/RT tumors are diagnosed incorrectly.Fact|date=April 2008

Differential diagnosis

The critical step in treatment planning is to determine the correct histology of the tumor. Misidentification of the tumor histology can lead to errors in treatment and prognosis. [ cite journal
author=Jay V, Edwards V, Halliday W, Rutka J, Lau R
title="Polyphenotypic" tumors in the central nervous system: problems in nosology and classification
journal=Pediatr Pathol Lab Med
volume=17
issue=3
pages=369–89
year=1997
pmid=9185218
doi=
url=
]

Atypical teratoid/rhaboid tumor closely resembles medulloblastoma, [] primitive neuroectodermal tumor, choroid plexus carcinoma, and some kinds of germ cell tumor.Fact|date=April 2008 Because rhabdoid characteristics are not the only component of AT/RT, some sections of an AT/RT may resemble other tumors. These characteristics may be present only in focal areas or may be less pronounced.

It is important to consider AT/RT when a medulloblastoma or PNET is suspected, particularly in a child under the age of one. Cytogenetic studies can assist in differentiating MB/PNETs from AT/RTs. Some kinds of germ cell tumor secrete tumor markers AFP or bHCG; AT/RTs do not.Fact|date=July 2007

Compared to medulloblastoma, AT/RT has a significantly worse prognosis. AT/RT occurs in young children (often younger than three years) who are difficult to evaluate, it is resistant to many current therapies, and its recurrence is fast.Fact|date=April 2008

Appearance on radiologic exam

AT/RTs can occur at any sites within the CNS, however, approximately 60% are located in the posterior fossa or cerebellar area. The ASCO study showed 52% posterior fossa (PF); 39% sPNET (supratentorial primitive neuroectodermal tumors); 5% pineal; 2% spinal, and 2% multi-focal.

The tumors' appearance on CT and MRI are nonspecific, tending towards large size, calcifications, necrosis (tissue death),and hemorrhage (bleeding). Radiological studies alone cannot identify AT/RT; a pathologist almost always has to evaluate a brain tissue sample. The increased cellularity of the tumor may make the appearance on an uncontrasted CT to have increased attenuation. Solid parts of the tumor often enhance with contrast MRI finding on T1 and T2 weighted images are variable. Pre-contrast T2 weighted images may show an iso-signal or slightly hyper-signal. Solid components of the tumor may enhance with contrast but do not always. MRI studies appear to be more able to pick up metastatic foci in other intracranial locations as well as intraspinal locations.

Preoperative and followup studies are needed to detect metastatic disease.

Treatment

urgical option

Surgery plays a critical role in obtaining tissue to make an accurate diagnosis. Surgery alone is not curative. In addition, 30% of the AT/RTs are located supratentorially and there is a predilection for the cerebello-pontine angle [ [http://www.utmb.edu/otoref/Grnds/Mass-CPA-040602/Mass-CPA-slides-040602.pdf PDF] which makes surgical resection difficult. One-third or more children will have disseminated disease at the time of diagnosis. Total or near-total resections are often not possible.

Chemotherapy options

Approximately 50% of the AT/RTs will transiently respond, but Chemotherapy by itself is rarely curative. There is no standard treatment for AT/RT. Various chemotherapeutic agents have been used against AT/RTs which are also used against other CNS tumors including cisplatinum, carboplatinum, cyclophosphamide, vincristine and etoposide. Some Chemotherapy protocols are listed below:

* CCG clinical trial CCG-9921 was activated in 1993 and published its results in 2005. The proposed treatments did not have different outcomes and were not an improvement on prior treatments.cite journal |author=Geyer JR, Sposto R, Jennings M, "et al" |title=Multiagent chemotherapy and deferred radiotherapy in infants with malignant brain tumors: a report from the Children's Cancer Group |journal=J. Clin. Oncol. |volume=23 |issue=30 |pages=7621–31 |year=2005 |pmid=16234523 |doi=10.1200/JCO.2005.09.095 |url=http://jco.ascopubs.org/cgi/content/abstract/23/30/7621] Geyer published a review of chemotherapy on 299 infants with CNS tumors that evaluated response rate, event-free survival (EFS), and toxicity of two chemotherapeutic regimens for treatment of children younger than 36 months with malignant brain tumors. Patients were randomly assigned to one of two regimens of induction chemotherapy (vincristine, cisplatin, cyclophosphamide, and etoposide v vincristine, carboplatin, ifosfamide, and etoposide). Intensified induction chemotherapy resulted in a high response rate of malignant brain tumors in infants. Survival was comparable to that of previous studies, and most patients who survived did not receive radiation therapy.

*Sarcoma protocols. There has been at least one report in the literature of malignant rhabdoid tumors of the CNS being treated in as a high-grade intracranial sarcoma. These three cases were treated with surgery, chemotherapy, radiotherapy and triple intrathecal chemotherapy similar to the Intergroup Rhadbdomyoscarcoma Study III guidelines. [cite web |url=http://www.cancer.gov/cancertopics/pdq/treatment/childrhabdomyosarcoma/healthprofessional/ |title=Childhood Rhabdomyosarcoma Treatment|publisher= National Cancer Institute |accessdate=2007-07-09 ]
* Intrathecal protocols. One of the difficulties with brain and spinal tumors is that the blood brain barrier needs to be crossed so that the drug can get to the tumor. One mechanism to deliver the drug is through a device called an Ommaya reservoir. This is a device which shares some characteristics with a shunt in which a tube a surgically placed in the fluid surrounding the brain and a bulb shaped reservoir attached to the tubing is placed under the skin of the scalp. When the child is to receive intrathecal chemotherapy, the drug is administered into this bulb reservoir. At other times intrathecal chemotherapeutic agents are delivered through a lumbar puncture (spinal tap). A current Pediatric Brain Tumor Consortium Protocol uses intrathecal mafosfamide, a pre-activated cyclophosphamidederivative, in addition to other modalities to try to effect this tumor. [cite journal |author=Poussaint TY, Phillips PC, Vajapeyam S, "et al" |title=The Neuroimaging Center of the Pediatric Brain Tumor Consortium-collaborative neuroimaging in pediatric brain tumor research: a work in progress |journal=AJNR. American journal of neuroradiology |volume=28 |issue=4 |pages=603–7 |year=2007 |pmid=17416804 |doi=]

* High dose chemotherapy with stem cell rescue. This therapy uses chemotherapy at doses high enough to completely suppress the bone marrow. Prior to instituting this therapy, the child has a central line placed and stem cells are gathered. After therapy these cells are given back to the child to regrow the bone marrow. Stem cell rescue or autologous bone marrow transplantation, was initially thought to be of benefit to a wide group of patients, but has declined over the history of chemotherapy protocols. A general description of stem cell rescue is available. [cite web |url=http://www.cancerbackup.org.uk/Treatments/Stemcellbonemarrowtransplants/Generalinformation |title=Stem cell and bone marrow transplants|publisher= Cancerbackup |accessdate=2007-07-09 ] In addition, there are some reports that it is effective with select cancers and this includes AT/RT. [cite web |url=http://content.nejm.org/cgi/content/abstract/348/19/1875 |publisher=NEJM|title= High-Dose Chemotherapy with Hematopoietic Stem-Cell Rescue for Multiple Myeloma |accessdate=2007-07-09]

Radiation options

The traditional practice for childhood brain tumors has been to use chemotherapy and to defer radiation therapy until a child is older than three years. This strategy is based upon observations that children under three have significant long term complications as a result of brain irradiation. However, the long term outcomes of AT/RT are so poor that some protocols call for upfront radiation therapy, often in spite of young age. [cite journal |author=Squire SE, Chan MD, Marcus KJ |title=Atypical teratoid/rhabdoid tumor: the controversy behind radiation therapy |journal=J. Neurooncol. |volume=81 |issue=1 |pages=97–111 |year=2007 |pmid=16855864 |doi=10.1007/s11060-006-9196-z]

The dose and volume of radiation had not been standardized, however, radiation does appear to improve survival. The use of radiation has been limited in children younger than three because of the risk of severe neurocognitive deficits. There are protocols using conformal, local radiation in the young child to try to cure this tumor.

External beam (conformal) radiation uses several fields that beam intersects at the tumor location; the normal brain tissue receives less radiation and hopefully is at less impact on cognitive function.
Proton beam radiation was only offered at Massachusetts General Hospital in Boston and at Loma Linda, California as of 2002. Since 2003 three or four more proton therapy centers have opened in the United States. [ [http://www.massgeneral.org/cancer/about/providers/radiation/proton/principles.asp Principles of Proton Beam Therapy] ] [ [http://neurosurgery.mgh.harvard.edu/ProtonBeam/ Proton Beam RadioTheraphy at Mass. General] ] [ [http://www.ihf-publications.org/html/images/pdfs_ref2/107-117.pdf Proton Beam Therapy Article] ] [ [http://www.nature.com/bjc/journal/v93/n8/abs/6602754a.html Proton Beam Therapy - BJC Abstract] ] [ [http://www.llu.edu/proton/patient/index.html Loma Linda Medical Center Proton Treatment Center - Overview] ] [ [http://www.llu.edu/proton/patient/sites.html#BRAIN Loma Linda overview of Childhood Brain Tumors] ]

Chromatin re-modeling agents

This protocol is still in pre-clinical evaluation. HDAC inhibitors are a new class of anticancer agents targeted directly at chromatin remodeling. These agents have been used in acute promyelocytic leukemia and have been found to affect the HDAC-mediated transcriptional repression. There is too little understanding of the INI1 deficiency to predict whether HDAC inhibitors will be effective against AT/RTs. There are some laboratory results that indicate it is effective against certain AT/RT cell lines. [cite journal |author=Zhang ZK, Davies KP, Allen J, "et al" |title=Cell cycle arrest and repression of cyclin D1 transcription by INI1/hSNF5 |journal=Mol. Cell. Biol. |volume=22 |issue=16 |pages=5975–88 |year=2002 |pmid=12138206 |doi=]

Prognosis

The prognosis for AT/RT is very poor, although there are some indications that an IRSIII-based therapy can produce long-term survival (60 to 72 months). Two-year survival is less than 20%, average survival postoperatively is 11 months, and doctors recommend palliative care, especially with younger children because of the poor outcomes.Fact|date=April 2008

Patients with metastasis (disseminated tumor), larger tumors, tumors that could not be fully removed, tumor reoccurrence, and were younger than 36 months had the worse outcomes (i.e., shorter survival times).Fact|date=April 2008

A retrospective survey from 36 AT/RT St. Jude Children's Hospital patients from 1984 to 2003 showed that the Two-year event-free survival (EFS) for children under three was 11%, the overall survival (OS) rate was 17%. For children aged 3 years or older the EFS was 78% and the OS 89%. [cite journal |author=Tekautz TM, Fuller CE, Blaney S, "et al" |title=Atypical teratoid/rhabdoid tumors (ATRT): improved survival in children 3 years of age and older with radiation therapy and high-dose alkylator-based chemotherapy |journal=J. Clin. Oncol. |volume=23 |issue=7 |pages=1491–9 |year=2005 |pmid=15735125 |doi=10.1200/JCO.2005.05.187 |url=http://jco.ascopubs.org/cgi/content/full/23/7/1491 See Figure 1.] A retrospective register at the Cleveland Children's hospital on 42 AT/RT patients found median survival time is 16.25 months and a survival rate around 33%.Fact|date=April 2008 One-quarter of these cases did not show the mutation in the INI1/hSNF5 gene.

The longest term survivals reported in the literature are:
* (a) Hilden and associates reported a child who was still free from disease at 46 months from diagnosis. [ cite journal
author=Hilden JM, Meerbaum S, Burger P, "et al"
title=Central nervous system atypical teratoid/rhabdoid tumor: results of therapy in children enrolled in a registry
journal=J. Clin. Oncol.
volume=22
issue=14
pages=2877–84
year=2004
pmid=15254056
doi=10.1200/JCO.2004.07.073
url= http://jco.ascopubs.org/cgi/content/full/22/14/2877?ck=nck
accessdate = 2007-05-23
]
* (b) Olson and associates reported a child who was disease free at five years from diagnosis based on the IRS III protocol. [ cite journal
author = Olson TA, Bayar E, Kosnic E
title = Successful treatment of disseminated central nervous system malignant rhabdoid tumors
journal = J Pediatr Hematol Oncol
volume = 17
pages = 71–75
pmid = 7743242
year = 1995
doi = 10.1097/00043426-199502000-00013
]
* (c) In 2003 Hirth reported a case who had been disease free for over six years. [cite journal
author = Hirth A, Pedersen P-H, Wester K, et al
year = 2003
title = Cerebral Atypical Teratoid/Rhabdoid Tumor of Infancy: Long-Term Survival after Multimodal Treatment, also Including Triple Intrathecal Chemotherapy and Gamma Knife Radiosurgery--Case Report (Abstract)
journal = Pediatric Hematology and Oncology 2003
volume = 20
issue = 4
pages = 327–332
doi = 10.1080/713842315
url = http://www.informaworld.com/smpp/content~content=a713842315~db=all
]
* (d) Zimmerman in 2005 reported 50-to-72 month survival rates on four patients using an IRS III-based protocol. Two of these LT survivors had been treated after an AT/RT reoccurrence. [cite journal
author=Zimmerman MA, Goumnerova LC, Proctor M, "et al"
title=Continuous remission of newly diagnosed and relapsed central nervous system atypical teratoid/rhabdoid tumor
journal=J. Neurooncol.
volume=72
issue=1
pages=77–84
year=2005
pmid=15803379
doi=10.1007/s11060-004-3115-y
url= http://www.ingentaconnect.com/content/klu/neon/2005/00000072/00000001/00003115
accessdate = 2007-05-20
]
* (e) A NYU study (Gardner 2004) has 4 of 12 longer term AT/RT survivors; the oldest was alive at 46 months after diagnosis. [cite journal
author = Gardner S, Diez B, Green A, et al
title = THER 27. INTENSIVE INDUCTION CHEMOTHERAPY FOLLOWED BY HIGH-DOSE CHEMOTHERAPY WITH AUTOLOGOUS STEM CELL RESCUE (ASCR) IN YOUNG CHILDREN NEWLY DIAGNOSED WITH CENTRAL NERVOUS SYSTEM (CNS) ATYPICAL TERATOID RHABDOID TUMORS (ATT/RT)—THE “HEAD START” REGIMENS
journal = Abstracts from the Eleventh International Symposium on Pediatric Neuro-Oncology
year = 2004
date=June 13–16
url = http://neuro-oncology.dukejournals.org/cgi/reprint/6/4/401.pdf
accessdate = 2007-06-03
]
* (f) Aurélie Fabre, 2004, reported a 16-year survivor of a soft-tissue rhabdoid tumor. [cite journal
author = Fabre A, Eyden B, Ali HH
title = Soft-Tissue Extrarenal Rhabdoid Tumor with a Unique Long-Term Survival
journal = Ultrastructural Pathology
volume = 28
issue = 1
date= January 2004
year = 2004
pages = 49–52
doi = 10.1080/01913120490275259
url = http://www.informaworld.com/smpp/content~content=a714860453~db=all
accessdate = 2007-05-28
]

Cancer treatments in long-term survivors who are children usually cause a series of negative effects on physical well being, fertility, cognition, and learning. [cite journal
author = Fouladi M, Gilger E, Kocak M, et al
title = Intellectual and Functional Outcome of Children 3 Years Old or Younger Who Have CNS Malignancies
journal = Journal of Clinical Oncology
volume = 23
number = 28
date= October 1, 2005
pages = 7152–60
doi = 10.1200/JCO.2005.01.214
url = http://jco.ascopubs.org/cgi/content/full/23/28/7152
pmid = 16192599
] [cite journal
author = Monteleone P, Meadows AT
title = Late Effects of Childhood Cancer and Treatment
journal = eMedicine from WebMD
date= June 6, 2006
year = 2006
url = http://www.emedicine.com/ped/topic2591.htm
] [cite journal
author = Foreman NK, Faestel PM, Pearson J, et al
title = Health Status in 52 Long-term Survivors of Pediatric Brain Tumors
journal = Journal of Neuro-Oncology
date= January 1999
year = 1999
volume = 41
number = 1
pages = 47–52
doi = 10.1023/A:1006145724500
url = http://www.springerlink.com/content/n651371xh3q8g42t/
] [ cite journal
author = Meyers EA, Kieran MW
title = Brief Report Psychological adjustment of surgery-only pediatric neuro-oncology patients: a retrospective analysis
journal = Psycho-Oncology
publisher = John Wiley & Sons, Ltd.
year = 2002
volume = 11
number = 1
pages = 74–79
doi = 10.1002/pon.553
url = http://www3.interscience.wiley.com/cgi-bin/abstract/89016824/ABSTRACT?CRETRY=1&SRETRY=0
]

Metastasis

Metastatic spread is noted in approximately one-third of the AT/RT cases at the time of diagnosis and tumors can occur anywhere throughout the CNS. The ASCO study of the 188 documented AT/RT cases prior to 2004 found 30% of the cases had metastasis at diagnosis. Metastatic spread to the meninges (leptomenigeal spread sometimes referred to as sugar coating) is common both initially and with relapse. Average survival times decline with the presence of metastasis. Primary CNS tumors metastasize only within the CNS.

One case of metastatic disease to the abdomen via ventriculoperitoneal shunt has been reported with AT/RT . Metastatic dissemination via this mechanism has been reported with other brain tumors including germinomas, medulloblastomas, astrocytomas, glioblastomas, ependymomas and endodermal sinus tumors. Guler and Sugita separately reported cases of lung metastasis without a shunt. [cite journal
author=Güler E, Varan A, Söylemezoglu F, "et al"
title=Extraneural metastasis in a child with atypical teratoid rhabdoid tumor of the central nervous system
journal=J. Neurooncol.
volume=54
issue=1
pages=53–6
year=2001
pmid=11763423
doi=
url=http://www.kluweronline.com/art.pdf?issn=0167-594X&volume=54&page=53
] [cite journal
author=Sugita Y, Takahashi Y, Hayashi I, Morimatsu M, Okamoto K, Shigemori M
title=Pineal malignant rhabdoid tumor with chondroid formation in an adult
journal=Pathol. Int.
volume=49
issue=12
pages=1114–8
year=1999
pmid=10632935
doi=
url=http://www.blackwell-synergy.com/openurl?genre=article&sid=nlm:pubmed&issn=1320-5463&date=1999&volume=49&issue=12&spage=1114
]

Epidemiology

An estimated 3% of pediatric brain tumors are AT/RTs although this percentage may increase with better differentiation between PNET/medulloblastoma tumors and AT/RTs.Fact|date=April 2008

As with other CNS tumors, slightly more males are affected than females (ratio 1.6:1). The ASCO study showed a 1.4:1 male to female ratio.

History

Atypical teratoid/rhabdoid tumor was first described as a distinct entity in 1987. [cite journal
author=Rorke LB, Packer RJ, Biegel JA
title=Central nervous system atypical teratoid/rhabdoid tumors of infancy and childhood: definition of an entity
journal=J. Neurosurg.
volume=85
issue=1
pages=56–65
year=1996
pmid=8683283
] Before 1978, when rhabdoid tumor was described, AT/RT likely was misdiagnosed as medulloblastoma. In some early reports the tumor was known also as malignant rhabdoid tumor (MRT) of the CNS. Between 1978 and 1987, AT/RT was usually misdiagnosed as rhabdoid tumor. However, both AT/RT and non-CNS MRT have a worse prognosis than medulloblastoma and are resistant to the standard treatment protocols for medulloblastoma.Fact|date=April 2008

By 1995, AT/RT had become regarded as a newly-defined aggressive, biologically unique class of primarily brain and spinal tumors, usually affecting infants and young children. [cite journal
author=Rorke LB, Packer R, Biegel J
title=Central nervous system atypical teratoid/rhabdoid tumors of infancy and childhood
journal=J. Neurooncol.
volume=24
issue=1
pages=21–8
year=1995
pmid=8523069
doi=
url=
] In January 2001, the U.S. National Cancer Institute and Office of Rare Diseases hosted a Workshop on Childhood Atypical Teratoid/Rhabdoid Tumors of the Central Nervous System. Twenty-two participants from 14 institutions came together to discuss the biology, treatments and new strategies for these tumors. The consensus paper on the biology of the tumor was published in Clinical Research. [cite journal |author=Biegel JA, Kalpana G, Knudsen ES, "et al" |title=The role of INI1 and the SWI/SNF complex in the development of rhabdoid tumors: meeting summary from the workshop on childhood atypical teratoid/rhabdoid tumors |journal=Cancer Res. |volume=62 |issue=1 |pages=323–8 |year=2002 |pmid=11782395 |doi= |url=http://cancerres.aacrjournals.org/cgi/pmidlookup?view=long&pmid=11782395] The workshop's recognition that CNS atypical teratoid/rhabdoid tumors (AT/RT) have deletions of the INI1 gene indicates that rhabdoid tumors of the kidney and brain are identical or closely related entities. This observation is not surprising because rhabdoid tumors at both locations possess similar histologic, clinical, and demographic features.

Research directions

Atypical teratoid rhabdoid tumor is rare and no therapy has been proven to deliver long-term survival, nor is there a set of standard protocols. Thus, most children with AT/RT are enrolled in clinical trials to attempt to find an effective cure. A clinical trial is not a treatment standard; it is research. Some clinical trials compare an experimental treatment to a standard treatment, but only if such a standard treatment exists.
* [http://www.pbtc.org/public/PBTC001_patient_abstract.htm Pilot Study of Systemic and Intrathecal Chemotherapy followed by Conformal Radiation for Infants with Embryonal Intracranial Central Nervous System Tumors, A Pediatric Brain Tumor Consortium Protocol] . This [http://www.pbtc.org/public/PBTC001_HP_abstract.htm study (PBTC-001)] is run out of the nine institutions associated with the Pediatric Brain Tumor consortium and uses combined modalities including intrathecal mafosfamide, systemic chemotherapy (vincristine, cyclophosphamide, cisplatinum and oral etoposide) and possibly the use of craniospinal or conformal radiation.
* [http://www.virtualtrials.com/trialdetails.cfm?id=9600209 Head Start Chemotherapy Protocol] . This chemotherapy protocol is for children <10 years old with newly diagnosed high grade primary brain tumors with intent to eliminate irradiation and shorten the treatment time to 6 months. The therapy consists of 3-5 cycles of intensive chemotherapy followed by a single myeloblative chemotherapy with stem cell rescue. Dr. Jonathan Finlay of New York University Medical Center is the contact person although run at a few hospitals in the county (contact information is listed on the site).
* [http://clinicaltrials.gov/show/NCT00003141 Phase I Pilot Study of Intensive Chemotherapy with Peripheral Blood Stem Cell Rescue in Infants with Malignant Brain or Spinal Cord Tumors] This study uses cisplatinum, cycophosphamide, vincristine and etoposide followed by carboplatinum and thiopeta and then stem cell rescue. There are to be three cycles of carboplatinum and thiopeta with stem cell rescue.
* [http://www.clinicaltrials.gov/show/NCT00084838 Intrathecal and Systemic Chemotherapy Combined With Radiation Therapy in Treating Young Patients With Newly Diagnosed Central Nervous System Atypical Teratoid/Rhabdoid Tumors] Children's Hospital of Philadelphia

References

External links

* [http://cms.clevelandclinic.org/childrenshospital/body.cfm?id=471 The Rhabdoid Registry]
* cite journal
title = Central Nervous System Atypical Teratoid/Rhabdoid Tumor: Results of Therapy in Children Enrolled in a Registry
journal = Journal of Clinical Oncology
volume = 22
issue = 14
pages = 2877–84
date = 2004-07-15
url = http://jco.ascopubs.org/cgi/content/full/22/14/2877?ck=nck
doi = 10.1200/JCO.2004.07.073
accessdate = 2007-05-23
author = Hilden JM, Meerbaum S, Burger P, et al
pmid = 15254056

* [http://de.wikipedia.org/wiki/AT/RT German AT/RT Wiki Article]
*cite journal
year = 2002
title = The role of INI and the SWI/SNF complex in the development of rhabdoid tumors: Meeting Summary from the workshop on childhood atypical teratoid rhabdoid tumors
journal = Cancer Research 2002
issue = 63:
pages = 323–28
url = http://cancerres.aacrjournals.org/cgi/content/abstract/62/1/323
author = Beigel J, Kalpana G, Knudsen E, et al.
pmid = 11782395

*cite journal
author = Huret J, Sevenet N
title = Rhabdoid predispostion syndrome
year = 2002
journal = Atlas of Genetics and Cytogenetics in Oncology and Haematology
url = http://www.infobiogen.fr/services/chromcancer/Kprones/rhabdKpronID10051.html


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