====== Secondary glioblastoma ====== 

===== Epidemiology =====

Less common than primary [[Glioblastoma]].

===== Etiology =====

Secondary [[glioblastoma]] arise from malignant degeneration of [[WHO grade II]] or III [[astrocytoma]]s. 

===== Clinical features =====

Patients are younger and have a slower clinical course. 

===== Diagnosis =====


The diagnosis of secondary glioblastoma requires clinical (neuroimaging) or histological (bioptic) evidence of an evolution from a less malignant astrocytoma.

Its definition continues to evolve, complicating its clinical management. Investigation of epidemiology and survival patterns may help provide needed insights.
----

[[TP53 mutation]]s are present in > 90% of the less malignant precursors. Malignant degeneration is characterized by allelic loss of [[chromosome 19]]q and [[chromosome 10]]q. [[MGMT promoter methylation]] is more common in secondary than in primary Glioblastoma (giving a more favorable response to alkylating chemotherapy agents 

Genetic sequencing of 200 glioblastomas uncovered [[IDH1]] and IDH2 as recurrently mutated in 5% of [[primary glioblastoma]] and a majority (60–90%) of [[secondary glioblastoma]]s.

Have a lesser degree of necrosis, are preferentially located in the frontal lobe, and carry a significantly better prognosis. 
----
Histologically, primary and secondary glioblastomas are largely indistinguishable, but they differ in their genetic and epigenetic profiles. Decisive genetic signposts of secondary glioblastoma are [[IDH1 mutation]]s, which are absent in primary glioblastomas and which are associated with a [[hypermethylation]] phenotype. IDH1 mutations are the earliest detectable genetic alteration in precursor low-grade diffuse astrocytomas and in oligodendrogliomas, indicating that these tumors are derived from neural precursor cells that differ from those of primary glioblastomas. 

Ohgaki et al. conclude that this genetic alteration is a definitive diagnostic molecular marker of secondary glioblastomas and more reliable and objective than clinical criteria. Despite a similar histologic appearance, primary and secondary glioblastomas are distinct tumor entities that originate from different precursor cells and may require different therapeutic approaches
((Ohgaki H, Kleihues P. The definition of primary and secondary glioblastoma.
Clin Cancer Res. 2013 Feb 15;19(4):764-72. doi: 10.1158/1078-0432.CCR-12-3002.
Epub 2012 Dec 3. Review. PubMed PMID: 23209033.
)).
----

----
In 2007 Ohgaki and Kleihues stated that [[TP53]] mutations were the most frequent and earliest detectable genetic alteration, already present in 60% of precursor [[low grade astrocytoma]]s. The mutation pattern is characterized by frequent G:C-->A:T mutations at CpG sites. During progression to glioblastoma, additional mutations accumulate, including loss of heterozygosity 10q25-qter ( approximately 70%), which is the most frequent genetic alteration in both primary and secondary glioblastomas. Primary and secondary glioblastomas also differ significantly in their pattern of [[promoter methylation]] and in expression profiles at [[RNA]] and protein levels. This has significant implications, particularly for the development of novel, targeted therapies
((Ohgaki H, Kleihues P. Genetic pathways to primary and secondary glioblastoma. 
Am J Pathol. 2007 May;170(5):1445-53. Review. PubMed PMID: 17456751; PubMed
Central PMCID: PMC1854940.
)).
----
The age at GB diagnosis is significantly lower (46.22 vs 60.25 years) for group B. The distribution among type of GB (glioblastoma, [[giant cell glioblastoma]], or [[gliosarcoma]]) was significantly different, with no diagnosis of giant cell GB in Group B. Compared to Group A, Group B exhibited a higher proportion of females, not married, smaller tumors, no GTR, and no radiation (all p < 0.05). GB-related observed survivals were comparable. Cox regression with inclusion of co-variates reveal no significant influence of GB group on observed survival. Regarding group B, mean age was 40.197 for diagnosis of initial lower grade glioma. The most common initial ICD-O-3 pathology was [[oligodendroglioma]], NOS; astrocytoma, NOS; astrocytoma, anaplastic; and mixed glioma.

The [[SEER]]-18 registry was queried for patients with GBs. Patients were further classified into two GB groups: Group A - those with GB as the only primary tumor, and Group B - those with GB as a 2nd primary or subsequent tumor and with history of lower grade gliomas. Demographics and clinical factors were compared between group A and B. Appropriate statistics were employed to calculate incidences and differences among factors and GB-related survivals between the groups.

Overall, Group B develops GBs at an earlier age, but observed survival remains similar to those with GBs as the only primary. Moreover, this subset also exhibit different proportions of the types of GBs, and well as differences in other key clinical factors (namely, gender and tumor size at presentation). Prior treatments for lower grade gliomas likely explain some of the differences noted regarding management course after diagnosis of GB
((Nguyen HS, Best B, Doan NB, Gelsomino M, Shabani S, Awad AJ, Kaushal M,
Mortazavi MM. Glioblastoma in the setting of prior lower grade gliomas - insights
from SEER database. Oncotarget. 2018 Sep 7;9(70):33271-33277. doi:
10.18632/oncotarget.26014. eCollection 2018 Sep 7. PubMed PMID: 30279958; PubMed 
Central PMCID: PMC6161794.
)).


===== Biomarker for secondary glioblastoma =====
[[Biomarker for secondary glioblastoma ]]