Difference between revisions of "Glioblastoma"

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File:Glioblastoma-radiation_changes_HE.jpg | Radiation changes in a recurrent GBM (WC/jensflorian)
File:Glioblastoma-radiation_changes_HE.jpg | Radiation changes in a recurrent GBM (WC/jensflorian)
File:GBM_nested_epithelial.jpg | Nested epitheloid appearance in a GBM specimen (WC/jensflorian)
File:GBM_nested_epithelial.jpg | Nested epitheloid appearance in a GBM specimen (WC/jensflorian)
Image:Glioblastoma_%281%29.jpg | Glioblastoma - pseudopalisading of tumour cells (WC)
Image:Glioblastoma_-_high_mag.jpg | Glioblastoma with fragment of near-normal white matter - high mag. (WC)
Image:Anaplastic_astrocytoma_-_very_high_mag_-_cropped.jpg | Anaplastic astrocytoma - very high mag. (WC)
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Revision as of 09:06, 14 April 2022

Glioblastoma
Diagnosis in short

Glioblastoma. H&E stain.

LM astrocytic differentiation, nuclear atypia, necrosis, microvascular proliferation, +/-pseudopalisading necrosis
Subtypes gliosarcoma
LM DDx anaplastic astrocytoma
IHC GFAP +ve, IDH-1 -ve/+ve
Site brain, spinal cord

Radiology intra-axial
Prognosis very poor
Clin. DDx metastatic brain tumours

Glioblastoma a very common malignant primary brain tumour in adults. It has a very poor prognosis.

It was previously known as glioblastoma multiforme, abbreviated GBM.

General

  • Median survival is measured in months.[1]
  • Only about 5% can expect to survive more than three years.[2]
  • Current classification recognizes three types:
    • Glioblastoma, IDH-wildtype (aka primary GBM, ICD-O: 9440/3).
    • Glioblastoma, IDH-mutant (aka secondary GBM, ICD-O: 9445/3).
    • Glioblastoma, NOS (lack of molecular data).

Macroscopy

Features:

  • Usu. in white matter.
    • central necrotic core.
    • ill-defined borders.
    • yellowish to dark-brown changes.
    • midline shift due to tumor mass.
  • In the corpus callosum as bihemispheric "butterfly glioma"

Microscopic

Features:

  • Astrocytic tumour with:
    • Nuclear atypia.
    • Necrosis.
    • Endothelial proliferation (AKA microvascular proliferation).
    • +/-"Pseudopalisading necrosis" - tumour cells lined-up like a picket fence around necrotic areas.

Glioblastoma variants:

  • Giant cell glioblastoma (ICD-O: 9441/3)
    • Bizarre multinucleated giant cells.
    • Reticulin may be abundant.
    • Mean age 44 years, outcome somewhat better than conventional GBM.
    • IDH-wildtype, but frequent p53 mutations.
  • Epitheloid glioblastoma (ICD-O: 9440/3) [3]
    • Closely packed epithelioid to rhabdoid cells, often dicohesive.
    • Xanthomaous changes less common than in PXA.
    • Children and young adults, outcome particularly poor.
    • Up to 50% BRAF V600E mutations.
  • Gliosarcoma (ICD-O: 9442/3)


Morphological patterns in Glioblastoma:

  • Lipidized (foamy)cells [4]
  • Adipocyte-like maturation [5]
  • Rhabdoid glioblastoma (focal loss of INI-1) [6]
  • Melanotic glioblastoma [7]
  • Glioblastoma with oligodendroglial component (no improved survival) [8]
  • Granular cell Glioblastoma [9]
  • Glioblastoma with primitive neuronal component.[10]
    • formerly known as: PNET-like component.
    • have a tendency to CSF dissemination.[11]
  • Small cell glioblastoma.
  • Ependymal-like growth patterns.
  • Glioneuronal tumor with neuropil-like islands.[12]

Images


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IHC

  • GFAP +ve (cytoplasm).
  • MAP2 +ve.
  • IDH-1 -ve (95%).
    • +ve if developed from lower grade astrocytoma (secondary GBM) -> classify tumor as Glioblastoma, IDH-mutant.
  • WT-1 +ve (cytoplasm).
  • p53 +ve (70%).
  • Neurofilament -ve.
  • Synaptophysin -ve (residual Cortex may be +ve).
  • panCK -ve (except for GBM with epithelial component).
  • ATRX: +ve (no loss, nuclei)
    • -ve if developed from lower grade astrocytoma (secondary GBM).
  • EMA: Dot-like expression less common than in ependymomas.
  • MIB-1 usu. 15-30%, but varies greatly.

Molecular

  • IDH1/2 sequencing in cases below 55 years is mandatory to separate between Glioblastoma, IDH-wildtype and Glioblastoma IDH-mutant.
    • In cases above 55 years, negative IDH1 R132H immunohistochemistry may be sufficient.
  • 70% of IDH-wildtype glioblastoma show chr.7 gain and chr.10 loss.[13]
  • Most common alterations (TCGA[14])
    • Tp53 (42% of the tumors mutated)
    • PTEN (33%).
    • NF1 (21%).
    • EGFR (18%).
    • RB1 (11%).
    • PI3K-pathway genes (7-10%).
  • Pediatric glioblastoma
    • are morphologically indistinct from adult GBM.
    • show frequent H3F3A mutations and PDGFRA mutations (Note: H3F3A K27M mutations are classified as K27 mutated midline glioma).
    • Consider Epithelioid GBM, when BRAF V600E mutated.
  • Diagnostic/therapeutic relevant markers:

See also

References

  1. Jubelirer, SJ.. "A review of the treatment and survival rates of 138 patients with glioblastoma multiforme.". W V Med J 92 (4): 186-90. PMID 8772403.
  2. Krex, D.; Klink, B.; Hartmann, C.; von Deimling, A.; Pietsch, T.; Simon, M.; Sabel, M.; Steinbach, JP. et al. (Oct 2007). "Long-term survival with glioblastoma multiforme.". Brain 130 (Pt 10): 2596-606. doi:10.1093/brain/awm204. PMID 17785346.
  3. te journal | last1 = Kleinschmidt-DeMasters | first1 = BK. | last2 = Aisner | first2 = DL. | last3 = Birks | first3 = DK. | last4 = Foreman | first4 = NK. | title = Epithelioid GBMs show a high percentage of BRAF V600E mutation. | journal = Am J Surg Pathol | volume = 37 | issue = 5 | pages = 685-98 | month = May | year = 2013 | doi = 10.1097/PAS.0b013e31827f9c5e | PMID = 23552385 }}
  4. Kepes, JJ.; Rubinstein, LJ. (May 1981). "Malignant gliomas with heavily lipidized (foamy) tumor cells: a report of three cases with immunoperoxidase study.". Cancer 47 (10): 2451-9. PMID 7023643.
  5. Rickert, CH.; Riemenschneider, MJ.; Schachenmayr, W.; Richter, HP.; Bockhorn, J.; Reifenberger, G.; Paulus, W. (Jul 2009). "Glioblastoma with adipocyte-like tumor cell differentiation--histological and molecular features of a rare differentiation pattern.". Brain Pathol 19 (3): 431-8. doi:10.1111/j.1750-3639.2008.00199.x. PMID 18691268.
  6. Hiroyuki, M.; Ogino, J.; Takahashi, A.; Hasegawa, T.; Wakabayashi, T. (Feb 2015). "Rhabdoid glioblastoma: an aggressive variaty of astrocytic tumor.". Nagoya J Med Sci 77 (1-2): 321-8. PMID 25797998.
  7. Jaiswal, S.; Agrawal, V.; Vij, M.; Sahu, RN.; Jaiswal, AK.; Behari, S.. "Glioblastoma with melanotic differentiation.". Clin Neuropathol 29 (5): 330-3. PMID 20860897.
  8. Hegi, ME.; Janzer, RC.; Lambiv, WL.; Gorlia, T.; Kouwenhoven, MC.; Hartmann, C.; von Deimling, A.; Martinet, D. et al. (Jun 2012). "Presence of an oligodendroglioma-like component in newly diagnosed glioblastoma identifies a pathogenetically heterogeneous subgroup and lacks prognostic value: central pathology review of the EORTC_26981/NCIC_CE.3 trial.". Acta Neuropathol 123 (6): 841-52. doi:10.1007/s00401-011-0938-4. PMID 22249618.
  9. Schittenhelm, J.; Psaras, T.. "Glioblastoma with granular cell astrocytoma features: a case report and literature review.". Clin Neuropathol 29 (5): 323-9. PMID 20860896.
  10. Louis, DN.; Perry, A.; Reifenberger, G.; von Deimling, A.; Figarella-Branger, D.; Cavenee, WK.; Ohgaki, H.; Wiestler, OD. et al. (Jun 2016). "The 2016 World Health Organization Classification of Tumors of the Central Nervous System: a summary.". Acta Neuropathol 131 (6): 803-20. doi:10.1007/s00401-016-1545-1. PMID 27157931.
  11. Perry, A.; Miller, CR.; Gujrati, M.; Scheithauer, BW.; Zambrano, SC.; Jost, SC.; Raghavan, R.; Qian, J. et al. (Jan 2009). "Malignant gliomas with primitive neuroectodermal tumor-like components: a clinicopathologic and genetic study of 53 cases.". Brain Pathol 19 (1): 81-90. doi:10.1111/j.1750-3639.2008.00167.x. PMID 18452568.
  12. Ishizawa, K.; Hirose, T.; Sugiyama, K.; Kageji, T.; Nobusawa, S.; Homma, T.; Komori, T.; Sasaki, A.. "Pathologic diversity of glioneuronal tumor with neuropil-like islands: a histological and immunohistochemical study with a special reference to isocitrate dehydrogenase 1 (IDH1) in 5 cases.". Clin Neuropathol 31 (2): 67-76. PMID 22385787.
  13. Ceccarelli, M.; Barthel, FP.; Malta, TM.; Sabedot, TS.; Salama, SR.; Murray, BA.; Morozova, O.; Newton, Y. et al. (Jan 2016). "Molecular Profiling Reveals Biologically Discrete Subsets and Pathways of Progression in Diffuse Glioma.". Cell 164 (3): 550-63. doi:10.1016/j.cell.2015.12.028. PMID 26824661.
  14. Verhaak, RG.; Hoadley, KA.; Purdom, E.; Wang, V.; Qi, Y.; Wilkerson, MD.; Miller, CR.; Ding, L. et al. (Jan 2010). "Integrated genomic analysis identifies clinically relevant subtypes of glioblastoma characterized by abnormalities in PDGFRA, IDH1, EGFR, and NF1.". Cancer Cell 17 (1): 98-110. doi:10.1016/j.ccr.2009.12.020. PMID 20129251.
  15. Quillien, V.; Lavenu, A.; Karayan-Tapon, L.; Carpentier, C.; Labussière, M.; Lesimple, T.; Chinot, O.; Wager, M. et al. (Sep 2012). "Comparative assessment of 5 methods (methylation-specific polymerase chain reaction, MethyLight, pyrosequencing, methylation-sensitive high-resolution melting, and immunohistochemistry) to analyze O6-methylguanine-DNA-methyltranferase in a series of 100 glioblastoma patients.". Cancer 118 (17): 4201-11. doi:10.1002/cncr.27392. PMID 22294349.
  16. Masui, K.; Mischel, PS.; Reifenberger, G. (2016). "Molecular classification of gliomas.". Handb Clin Neurol 134: 97-120. doi:10.1016/B978-0-12-802997-8.00006-2. PMID 26948350.