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==Overview==
==Overview==
==Natural History==
==Natural History==
Natural history of astrocytoma varies depending on the type of astrocytoma. Recurrence is more in high grade astrocytoma compared to low grade astrocytoma. Low grade tumors associated with epilepsy have less chance of being more malignant over time.<ref name="pmid8727811">{{cite journal| author=Piepmeier J, Christopher S, Spencer D, Byrne T, Kim J, Knisel JP et al.| title=Variations in the natural history and survival of patients with supratentorial low-grade astrocytomas. | journal=Neurosurgery | year= 1996 | volume= 38 | issue= 5 | pages= 872-8; discussion 878-9 | pmid=8727811 | doi= | pmc= | url=http://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=8727811  }} </ref>
==Complications==
==Complications==
* Astrocytoma being a space occupying lesion can have following complications depending on the location of the tumor.
:* Increased intracranial pressure
:* Cognitive dysfunction
:* Emotional disturbances
:* Behavioural complications
:* Vision disturbances
:* Muscle weakness
==Prognosis==
==Prognosis==
===Low-grade astrocytomas===
===Low-grade astrocytomas===

Revision as of 02:33, 24 August 2015

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Overview

Natural History

Natural history of astrocytoma varies depending on the type of astrocytoma. Recurrence is more in high grade astrocytoma compared to low grade astrocytoma. Low grade tumors associated with epilepsy have less chance of being more malignant over time.[1]

Complications

  • Astrocytoma being a space occupying lesion can have following complications depending on the location of the tumor.
  • Increased intracranial pressure
  • Cognitive dysfunction
  • Emotional disturbances
  • Behavioural complications
  • Vision disturbances
  • Muscle weakness

Prognosis

Low-grade astrocytomas

  • Low-grade astrocytomas (grade I [pilocytic] and grade II) have a relatively favorable prognosis, particularly for circumscribed, grade I lesions where complete excision may be possible.[2][3][4][5] Tumor spread, when it occurs, is usually by contiguous extension; dissemination to other CNS sites is uncommon, but does occur.[6][7] Although metastasis is uncommon, tumors may be of multifocal origin, especially when associated with NF1.
  • Unfavorable prognostic features for childhood low-grade astrocytomas include the following:[8][9]
  • Young age.
  • Fibrillary histology.
  • Inability to obtain a complete resection.
  • In patients with pilocytic astrocytoma, elevated MIB-1 labeling index, a marker of cellular proliferative activity, is associated with shortened PFS.[10][11] A BRAF-KIAA fusion, found in pilocytic tumors, confers a better clinical outcome.
  • Children with isolated optic nerve tumors have a better prognosis than those with lesions that involve the chiasm or that extend along the optic pathway.[12][13][14]; Children with NF1 also have a better prognosis, especially when the tumor is found in asymptomatic patients at the time of screening.
  • Grade 2 astrocytomas are defined as being invasive gliomas, meaning that the tumor cells penetrate into the surrounding normal brain. People with oligodendrogliomas (which might share common cells of origin[3]) have better prognoses than those with mixed oligoastrocytomas, who in turn have better prognoses than patients with (pure) low-grade astrocytomas. Individuals with grade 2 astrocytoma have a 5-year survival rate of about 34% without treatment and about 70% with radiation therapy. The median survival time is 4 years.

High-Grade Astrocytomas

  • Biologic markers, such as p53 overexpression and mutation status, may be useful predictors of outcome in patients with high-grade gliomas. MIB-1 labeling index is predictive of outcome in childhood malignant brain tumors.[15] Both histologic classification and proliferative activity evaluation have been shown to be independently associated with survival.[16]
  • Although high-grade astrocytomas generally carry a poor prognosis in younger patients, those with anaplastic astrocytomas in whom a gross-total resection is possible may fare better.
  • For low grade astrocytomas, removal of the tumor will generally allow functional survival for many years.
  • In some reports, the five-year survival has been over 90% with well resected tumors.
  • To date, complete resection of high grade astrocytomas is impossible because of the diffuse infiltration of tumor cells into nor
  • Radiation therapy has been shown to prolong survival and is a standard component of treatment of anaplastic astrocytoma .
  • Individuals with grade 3 astrocytoma have a median survival time of 18 months without treatment (radiation and chemotherapy).
  • Although radiotherapy rarely cures glioblastoma multiforme, studies show that it doubles the median survival of patients, compared to supportive care alone." The prognosis is worst for these grade 4 gliomas. Few patients survive beyond 3 years. Individuals with grade 4 astrocytoma have a median survival time of 17 weeks without treatment, 30 weeks with radiation, and 37 weeks with surgical removal of most of the tumor followed by radiation therapy. Long-term survival (at least five years) falls well under 3%.

References

  1. Piepmeier J, Christopher S, Spencer D, Byrne T, Kim J, Knisel JP; et al. (1996). "Variations in the natural history and survival of patients with supratentorial low-grade astrocytomas". Neurosurgery. 38 (5): 872–8, discussion 878-9. PMID 8727811.
  2. Pollack IF (1994). "Brain tumors in children". N Engl J Med. 331 (22): 1500–7. doi:10.1056/NEJM199412013312207. PMID 7969301.
  3. Pfister S, Witt O (2009). "Pediatric gliomas". Recent Results Cancer Res. 171: 67–81. doi:10.1007/978-3-540-31206-2_4. PMID 19322538.
  4. Fisher PG, Tihan T, Goldthwaite PT, Wharam MD, Carson BS, Weingart JD; et al. (2008). "Outcome analysis of childhood low-grade astrocytomas". Pediatr Blood Cancer. 51 (2): 245–50. doi:10.1002/pbc.21563. PMID 18386785.
  5. Bandopadhayay P, Bergthold G, London WB, Goumnerova LC, Morales La Madrid A, Marcus KJ; et al. (2014). "Long-term outcome of 4,040 children diagnosed with pediatric low-grade gliomas: an analysis of the Surveillance Epidemiology and End Results (SEER) database". Pediatr Blood Cancer. 61 (7): 1173–9. doi:10.1002/pbc.24958. PMID 24482038.
  6. von Hornstein S, Kortmann RD, Pietsch T, Emser A, Warmuth-Metz M, Soerensen N; et al. (2011). "Impact of chemotherapy on disseminated low-grade glioma in children and adolescents: report from the HIT-LGG 1996 trial". Pediatr Blood Cancer. 56 (7): 1046–54. doi:10.1002/pbc.23006. PMID 21319282.
  7. Mazloom A, Hodges JC, Teh BS, Chintagumpala M, Paulino AC (2012). "Outcome of patients with pilocytic astrocytoma and leptomeningeal dissemination". Int J Radiat Oncol Biol Phys. 84 (2): 350–4. doi:10.1016/j.ijrobp.2011.12.044. PMID 22401918.
  8. Stokland T, Liu JF, Ironside JW, Ellison DW, Taylor R, Robinson KJ; et al. (2010). "A multivariate analysis of factors determining tumor progression in childhood low-grade glioma: a population-based cohort study (CCLG CNS9702)". Neuro Oncol. 12 (12): 1257–68. doi:10.1093/neuonc/noq092. PMC 3018938. PMID 20861086.
  9. Mirow C, Pietsch T, Berkefeld S, Kwiecien R, Warmuth-Metz M, Falkenstein F; et al. (2014). "Children <1 year show an inferior outcome when treated according to the traditional LGG treatment strategy: a report from the German multicenter trial HIT-LGG 1996 for children with low grade glioma (LGG)". Pediatr Blood Cancer. 61 (3): 457–63. doi:10.1002/pbc.24729. PMID 24039013.
  10. Margraf LR, Gargan L, Butt Y, Raghunathan N, Bowers DC (2011). "Proliferative and metabolic markers in incompletely excised pediatric pilocytic astrocytomas--an assessment of 3 new variables in predicting clinical outcome". Neuro Oncol. 13 (7): 767–74. doi:10.1093/neuonc/nor041. PMC 3129272. PMID 21653594.
  11. Hawkins C, Walker E, Mohamed N, Zhang C, Jacob K, Shirinian M; et al. (2011). "BRAF-KIAA1549 fusion predicts better clinical outcome in pediatric low-grade astrocytoma". Clin Cancer Res. 17 (14): 4790–8. doi:10.1158/1078-0432.CCR-11-0034. PMID 21610142.
  12. Campbell JW, Pollack IF (1996). "Cerebellar astrocytomas in children". J Neurooncol. 28 (2–3): 223–31. PMID 8832464.
  13. Schneider JH, Raffel C, McComb JG (1992). "Benign cerebellar astrocytomas of childhood". Neurosurgery. 30 (1): 58–62, discussion 62-3. PMID 1738456.
  14. Due-Tønnessen BJ, Helseth E, Scheie D, Skullerud K, Aamodt G, Lundar T (2002). "Long-term outcome after resection of benign cerebellar astrocytomas in children and young adults (0-19 years): report of 110 consecutive cases". Pediatr Neurosurg. 37 (2): 71–80. doi:65108 Check |doi= value (help). PMID 12145515.
  15. Rood BR, MacDonald TJ (2005). "Pediatric high-grade glioma: molecular genetic clues for innovative therapeutic approaches". J Neurooncol. 75 (3): 267–72. doi:10.1007/s11060-005-6749-5. PMID 16195804 PMID: 16195804 Check |pmid= value (help).
  16. Pollack IF, Hamilton RL, Burnham J, Holmes EJ, Finkelstein SD, Sposto R; et al. (2002). "Impact of proliferation index on outcome in childhood malignant gliomas: results in a multi-institutional cohort". Neurosurgery. 50 (6): 1238–44, discussion 1244-5. PMID 12015841.

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