Literature DB >> 17369874

X-ray microbeams: Tumor therapy and central nervous system research.

F A Dilmanian, Y Qu, S Liu, C D Cool, J Gilbert, J F Hainfeld, C A Kruse, J Laterra, D Lenihan, M M Nawrocky, G Pappas, C-I Sze, T Yuasa, N Zhong, Z Zhong, J W McDonald.   

Abstract

Irradiation with parallel arrays of thin, planar slices of X-ray beams (microplanar beams, or microbeams) spares normal tissue, including the central nervous system (CNS), and preferentially damages tumors. The effects are mediated, at least in part, by the tissue's microvasculature that seems to effectively repair itself in normal tissue but fails to do so in tumors. Consequently, the therapeutic index of single-fraction unidirectional microbeam irradiations has been shown to be larger than that of single-fraction unidirectional unsegmented beams in treating the intracranial rat 9L gliosarcoma tumor model (9LGS) and the subcutaneous murine mammary carcinoma EMT-6. This paper presents results demonstrating that individual microbeams, or arrays of parallel ones, can also be used for targeted, selective cell ablation in the CNS, and also to induce demyelination. The results highlight the value of the method as a powerful tool for studying the CNS through selective cell ablation, besides its potential as a treatment modality in clinical oncology.

Entities:  

Year:  2005        PMID: 17369874      PMCID: PMC1828126          DOI: 10.1016/j.nima.2005.03.062

Source DB:  PubMed          Journal:  Nucl Instrum Methods Phys Res A        ISSN: 0168-9002            Impact factor:   1.455


  18 in total

1.  Monte Carlo simulation of dose distributions from a synchrotron-produced microplanar beam array using the EGS4 code system.

Authors:  I Orion; A B Rosenfeld; F A Dilmanian; F Telang; B Ren; Y Namito
Journal:  Phys Med Biol       Date:  2000-09       Impact factor: 3.609

Review 2.  Research at the European Synchrotron Radiation Facility medical beamline.

Authors:  W Thomlinson; P Berkvens; G Berruyer; B Bertrand; H Blattmann; E Brauer-Krisch; T Brochard; A M Charvet; S Corde; M Dimichiel; H Elleaume; F Estève; S Fiedler; J A Laissue; J E Le Bas; G Le Duc; N Lyubimova; C Nemoz; M Renier; D N Slatkin; P Spanne; P Suortti
Journal:  Cell Mol Biol (Noisy-le-grand)       Date:  2000-09       Impact factor: 1.770

3.  Microbeam radiation therapy.

Authors:  D N Slatkin; P Spanne; F A Dilmanian; M Sandborg
Journal:  Med Phys       Date:  1992 Nov-Dec       Impact factor: 4.071

Review 4.  Medical applications of synchrotron radiation x-rays.

Authors:  R Lewis
Journal:  Phys Med Biol       Date:  1997-07       Impact factor: 3.609

5.  The use of deuteron microbeam for simulating the biological effects of heavy cosmic-ray particles.

Authors:  H J Curtis
Journal:  Radiat Res Suppl       Date:  1967

6.  The interpretation of microbeam experiments for manned space flight.

Authors:  H J Curtis
Journal:  Radiat Res Suppl       Date:  1967

7.  Neuropathology of ablation of rat gliosarcomas and contiguous brain tissues using a microplanar beam of synchrotron-wiggler-generated X rays.

Authors:  J A Laissue; G Geiser; P O Spanne; F A Dilmanian; J O Gebbers; M Geiser; X Y Wu; M S Makar; P L Micca; M M Nawrocky; D D Joel; D N Slatkin
Journal:  Int J Cancer       Date:  1998-11-23       Impact factor: 7.396

8.  Tumor response to radiotherapy regulated by endothelial cell apoptosis.

Authors:  Monica Garcia-Barros; Francois Paris; Carlos Cordon-Cardo; David Lyden; Shahin Rafii; Adriana Haimovitz-Friedman; Zvi Fuks; Richard Kolesnick
Journal:  Science       Date:  2003-05-16       Impact factor: 47.728

9.  Subacute neuropathological effects of microplanar beams of x-rays from a synchrotron wiggler.

Authors:  D N Slatkin; P Spanne; F A Dilmanian; J O Gebbers; J A Laissue
Journal:  Proc Natl Acad Sci U S A       Date:  1995-09-12       Impact factor: 11.205

10.  Could X-ray microbeams inhibit angioplasty-induced restenosis in the rat carotid artery?

Authors:  F A Dilmanian; J Kalef-Ezra; M J Petersen; G Bozios; J Vosswinkel; F Giron; B Ren; R Yakupov; G Antonakopoulos
Journal:  Cardiovasc Radiat Med       Date:  2003 Jul-Sep
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  14 in total

1.  Dose-rate plays a significant role in synchrotron radiation X-ray-induced damage of rodent testes.

Authors:  Heyu Chen; Ban Wang; Caixia Wang; Wei Cao; Jie Zhang; Yingxin Ma; Yunyi Hong; Shen Fu; Fan Wu; Weihai Ying
Journal:  Int J Physiol Pathophysiol Pharmacol       Date:  2016-12-25

2.  Microbeam radiation therapy alters vascular architecture and tumor oxygenation and is enhanced by a galectin-1 targeted anti-angiogenic peptide.

Authors:  Robert J Griffin; Nathan A Koonce; Ruud P M Dings; Eric Siegel; Eduardo G Moros; Elke Bräuer-Krisch; Peter M Corry
Journal:  Radiat Res       Date:  2012-05-18       Impact factor: 2.841

3.  Interlaced x-ray microplanar beams: a radiosurgery approach with clinical potential.

Authors:  F Avraham Dilmanian; Zhong Zhong; Tigran Bacarian; Helene Benveniste; Pantaleo Romanelli; Ruiliang Wang; Jeremy Welwart; Tetsuya Yuasa; Eliot M Rosen; David J Anschel
Journal:  Proc Natl Acad Sci U S A       Date:  2006-06-07       Impact factor: 11.205

Review 4.  Nanotube x-ray for cancer therapy: a compact microbeam radiation therapy system for brain tumor treatment.

Authors:  Lei Zhang; Hong Yuan; Christina Inscoe; Pavel Chtcheprov; Michael Hadsell; Yueh Lee; Jianping Lu; Sha Chang; Otto Zhou
Journal:  Expert Rev Anticancer Ther       Date:  2014-12       Impact factor: 4.512

5.  Image-guided microbeam irradiation to brain tumour bearing mice using a carbon nanotube x-ray source array.

Authors:  Lei Zhang; Hong Yuan; Laurel M Burk; Christy R Inscoe; Michael J Hadsell; Pavel Chtcheprov; Yueh Z Lee; Jianping Lu; Sha Chang; Otto Zhou
Journal:  Phys Med Biol       Date:  2014-02-20       Impact factor: 3.609

6.  Physiologically gated microbeam radiation using a field emission x-ray source array.

Authors:  Pavel Chtcheprov; Laurel Burk; Hong Yuan; Christina Inscoe; Rachel Ger; Michael Hadsell; Jianping Lu; Lei Zhang; Sha Chang; Otto Zhou
Journal:  Med Phys       Date:  2014-08       Impact factor: 4.071

7.  DNA damage and repair kinetics after microbeam radiation therapy emulation in living cells using monoenergetic synchrotron X-ray microbeams.

Authors:  Carl N Sprung; Marian Cholewa; Noriko Usami; Katsumi Kobayashi; Jeffrey C Crosbie
Journal:  J Synchrotron Radiat       Date:  2011-05-14       Impact factor: 2.616

8.  γ-H2AX as a marker for dose deposition in the brain of wistar rats after synchrotron microbeam radiation.

Authors:  Cristian Fernandez-Palomo; Carmel Mothersill; Elke Bräuer-Krisch; Jean Laissue; Colin Seymour; Elisabeth Schültke
Journal:  PLoS One       Date:  2015-03-23       Impact factor: 3.240

9.  Synchrotron-generated microbeam sensorimotor cortex transections induce seizure control without disruption of neurological functions.

Authors:  Pantaleo Romanelli; Erminia Fardone; Giuseppe Battaglia; Elke Bräuer-Krisch; Yolanda Prezado; Herwig Requardt; Geraldine Le Duc; Christian Nemoz; David J Anschel; Jenny Spiga; Alberto Bravin
Journal:  PLoS One       Date:  2013-01-14       Impact factor: 3.240

10.  An evaluation of dose equivalence between synchrotron microbeam radiation therapy and conventional broad beam radiation using clonogenic and cell impedance assays.

Authors:  Mohammad Johari Ibahim; Jeffrey C Crosbie; Yuqing Yang; Marina Zaitseva; Andrew W Stevenson; Peter A W Rogers; Premila Paiva
Journal:  PLoS One       Date:  2014-06-19       Impact factor: 3.240
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