Volume 7, Issue 1 (Suppl)

J Clin Exp Pathol

ISSN: 2161-0681 JCEP, an open access journal

Pediatric Pathology & Laboratory Medicine 2017

March 15-16, 2017

Page 29

conference

series

.com

March 15-16, 2017 London, UK

12

th

International Conference on

Pediatric Pathology & Laboratory Medicine

Neuroblastoma pathology: An update

N

euroblastoma is often used as an omnibus term for all types of peripheral neuroblastic tumors including neuroblastoma,

ganglioneuroblastoma, and ganglioneuroma. Tumors in this group are biologically diverse: Molecular/genomic properties

of individual cases are closely related to their unique clinical behaviors. Biologically favorable tumors have a potential of

spontaneous regression or tumor maturation and are often associated with a hyperdiploid pattern (whole chromosomal

gains without structural abnormalities). Biologically favorable tumors have a potential of spontaneous regression or tumor

maturation and are often associated with a hyperdiploid pattern (whole chromosomal gains without structural abnormalities).

For neuroblastoma clinical trials, the children’s oncology group utilizes their risk-grouping system for patient stratification

and protocol assignment based on the combination of clinical stage, age at diagnosis, International Neuroblastoma Pathology

Classification,

MYCN

status, DNA index, and segmental chromosomal aberrations. Estimated survival rate for the non-high-

risk patients is ~90% with surgery alone (low risk) or with biopsy/surgery and moderate chemotherapy (intermediate risk). In

contrast, estimated survival rate for the high-risk patients remains as low as 45~50% even after intensive treatment followed

by stem-cell transplantation. Continuous efforts are being made for discovery of actionable/druggable targets in high-risk

neuroblastomas. Those potential targets include:

ALK

activating mutation/amplification (dysregulating cell signaling and

leading to uncontrolled proliferation of neuroblasts);

TERT

rearrangement and

ATRX/DAXX

mutation (preventing neuroblasts

from telomere-mediated senescence); and MYC family protein overexpression- a new concept of highly aggressive "MYC

family-driven neuroblastomas" with augmented expression of MYCN or MYC protein, also morphologically characterized by

nucleolar hypertrophy (promoting MYC/MAX heterodimer formation for activating down-stream gene targets).

Biography

Hiroyuki Shimada has completed his MD and PhD from the Yokohama City University, School of Medicine and Ohio State University College of Medicine, respectively. He

is a Professor of Pathology at the University of Southern California Keck School of Medicine, Founder of International Neuroblastoma Pathology Classification and Director

of COG Neuroblastoma Pathology Reference Laboratory. He has been reviewing ~700 neuroblastoma cases per year from US, Canada, Australia and New Zealand and

participating in various clinical and translational research activities in the field of Pediatric Oncology. He has authored/co-authored more than 180 papers.

hshimada@chla.usc.edu

Hiroyuki Shimada

1,2

1

University of Southern California, USA

2

Children’s Hospital Los Angeles, USA

Hiroyuki Shimada, J Clin Exp Pathol 2017, 7:1 (Suppl)

http://dx.doi.org/10.4172/2161-0681.C1.030