Comparación dosimétrica en radiocirugía intracraneal entre Cyberknife y un bisturí de rayos gamma y su puesta en marcha Centroamérica. Dosimetry comparison in intracranial radiosurgery between Cyberknife and a gamma ray system as well as its start up in C

Authors

  • Eduardo Lovo , Centro de Radiocirugía Robótica. Centro Internacional de Cáncer, San José Costa Rica, Centroamérica.
  • Alejandro Blanco , Centro de Radiocirugía Robótica. Centro Internacional de Cáncer, San José Costa Rica, Centroamérica.
  • Julio Arguello , Centro de Radiocirugía Robótica. Centro Internacional de Cáncer, San José Costa Rica, Centroamérica.
  • Tatiana Soto , Centro de Radiocirugía Robótica. Centro Internacional de Cáncer, San José Costa Rica, Centroamérica.
  • Fidel Campos , Centro de Radiocirugía Robótica. Centro Internacional de Cáncer, San José Costa Rica, Centroamérica.
  • Víctor Caceros , Centro de Radiocirugía Robótica. Centro Internacional de Cáncer, San José Costa Rica, Centroamérica.
  • Kaory Barahona , Centro de Radiocirugía Robótica. Centro Internacional de Cáncer, San José Costa Rica, Centroamérica.
  • William Reyes , Centro de Radiocirugía Robótica. Centro Internacional de Cáncer, San José Costa Rica, Centroamérica.
  • Ricardo Mejías , Centro de Radiocirugía Robótica. Centro Internacional de Cáncer, San José Costa Rica, Centroamérica.

DOI:

https://doi.org/10.59156/revista.v34i04.164

Keywords:

Brain, Metastases, Brain Tumors, Radiosurgery, Neurosurgery, Gamma Knife, Linear Accelerators, Cyberknife

Abstract

Introduction: The match between Cyberknife and Infini here described in this article is the first in Latinamerica. Both machines have proven to be the best for intracranial radiosurgery, we describe our initial experience with Cyberknife in Central America and how it was incorporated in an existing gamma ray program by ways of dosimetry comparisons.
Methods: During 2019 comparative plans were made and a total of 180 patients received intracranial radiosurgery with both technologies, patients were treated for tumors, vascular anomalies, and functional pathology.
Results: Basic dosimetry analysis regarding dose gradient the Infini proved superior to Cyberknife in all plans. For a sphere using the 4 mm collimator in Infini and the 5 mm in Cyberknife along with an isocentric plan using the -Trigeminal Path- dose gradient was 1.5 for Infini and 1.66 for Cyberknife. For the pathology cases Infini was 3 mm and for Cyberknife 3.8 mm on mean. Giving a Gradient Score Index (GSI) if Infini would be 100, Cyberknife would be 87.3. Cyberknife showed better conformality and coverage for all pathology targets (97% versus 96%). From January 2019 to January 2020, 180 intracranial radiosurgeries were done, 60 with Cyberknife and 120 with Infini, 60 patients received 146 sessions with Cyberknife, fractionated scheme 39 (65%) and 21 (35%) single dose. The median dose for tumors was 15 Gy (12.5 a 25 Gy) for single session and 21 Gy (18 y 35) for fractionated scheme. No patient experienced a higher toxicity tan grade two.
Conclusions: In its first year Cyberknife has shown to be safe in treating intracranial pathology. Infini had a better dose gradient than Cyberknife. Longer clinical and radiological follow-up is needed to verify its comparative effectiveness.

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Published

2020-11-17

Issue

Vol. 34 No. 04 (2020): Revista Argentina de Neurocirugía

Section

Artículo Original

How to Cite

[1]
Lovo, E. et al. 2020. Comparación dosimétrica en radiocirugía intracraneal entre Cyberknife y un bisturí de rayos gamma y su puesta en marcha Centroamérica. Dosimetry comparison in intracranial radiosurgery between Cyberknife and a gamma ray system as well as its start up in C. Revista Argentina de Neurocirugía. 34, 04 (Nov. 2020). DOI:https://doi.org/10.59156/revista.v34i04.164.