Literature DB >> 16773216

Intracranial thermotherapy using magnetic nanoparticles combined with external beam radiotherapy: results of a feasibility study on patients with glioblastoma multiforme.

Klaus Maier-Hauff1, Ronny Rothe, Regina Scholz, Uwe Gneveckow, Peter Wust, Burghard Thiesen, Annelie Feussner, Andreas von Deimling, Norbert Waldoefner, Roland Felix, Andreas Jordan.   

Abstract

We aimed to evaluate the feasibility and tolerability of the newly developed thermotherapy using magnetic nanoparticles on recurrent glioblastoma multiforme. Fourteen patients received 3-dimensional image guided intratumoral injection of aminosilane coated iron oxide nanoparticles. The patients were then exposed to an alternating magnetic field to induce particle heating. The amount of fluid and the spatial distribution of the depots were planned in advance by means of a specially developed treatment planning software following magnetic resonance imaging (MRI). The actually achieved magnetic fluid distribution was measured by computed tomography (CT), which after matching to pre-operative MRI data enables the calculation of the expected heat distribution within the tumor in dependence of the magnetic field strength. Patients received 4-10 (median: 6) thermotherapy treatments following instillation of 0.1-0.7 ml (median: 0.2) of magnetic fluid per ml tumor volume and single fractions (2 Gy) of a radiotherapy series of 16-70 Gy (median: 30). Thermotherapy using magnetic nanoparticles was tolerated well by all patients with minor or no side effects. Median maximum intratumoral temperatures of 44.6 degrees C (42.4-49.5 degrees C) were measured and signs of local tumor control were observed. In conclusion, deep cranial thermotherapy using magnetic nanoparticles can be safely applied on glioblastoma multiforme patients.

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Year:  2006        PMID: 16773216     DOI: 10.1007/s11060-006-9195-0

Source DB:  PubMed          Journal:  J Neurooncol        ISSN: 0167-594X            Impact factor:   4.130


  29 in total

1.  Salvage therapy in patients with glioblastoma: is there any benefit?

Authors:  Peter Hau; Ulrike Baumgart; Katharina Pfeifer; Anne Bock; Tanya Jauch; Jörg Dietrich; Klaus Fabel; Oliver Grauer; Caecilia Wismeth; Monika Klinkhammer-Schalke; Michael Allgäuer; Gerhard Schuierer; Horst Koch; Juergen Schlaier; Winfried Ulrich; Alexander Brawanski; Ulrich Bogdahn; Andreas Steinbrecher
Journal:  Cancer       Date:  2003-12-15       Impact factor: 6.860

2.  Relationship between thermal dose and outcome in thermoradiotherapy treatments for superficial recurrences of breast cancer: data from a phase III trial.

Authors:  M Sherar; F F Liu; M Pintilie; W Levin; J Hunt; R Hill; J Hand; C Vernon; G van Rhoon; J van der Zee; D G Gonzalez; J van Dijk; J Whaley; D Machin
Journal:  Int J Radiat Oncol Biol Phys       Date:  1997-09-01       Impact factor: 7.038

3.  Magnetic fluid hyperthermia (MFH)reduces prostate cancer growth in the orthotopic Dunning R3327 rat model.

Authors:  Manfred Johannsen; Burghard Thiesen; Andreas Jordan; Kasra Taymoorian; Uwe Gneveckow; Norbert Waldöfner; Regina Scholz; Martin Koch; Michael Lein; Klaus Jung; Stefan A Loening
Journal:  Prostate       Date:  2005-08-01       Impact factor: 4.104

4.  A phase 3 trial of local chemotherapy with biodegradable carmustine (BCNU) wafers (Gliadel wafers) in patients with primary malignant glioma.

Authors:  Manfred Westphal; Dana C Hilt; Enoch Bortey; Patrick Delavault; Robert Olivares; Peter C Warnke; Ian R Whittle; Juha Jääskeläinen; Zvi Ram
Journal:  Neuro Oncol       Date:  2003-04       Impact factor: 12.300

5.  Inductive heating of ferrimagnetic particles and magnetic fluids: physical evaluation of their potential for hyperthermia.

Authors:  A Jordan; P Wust; H Fähling; W John; A Hinz; R Felix
Journal:  Int J Hyperthermia       Date:  1993 Jan-Feb       Impact factor: 3.914

Review 6.  Recent developments in modeling heat transfer in blood perfused tissues.

Authors:  H Arkin; L X Xu; K R Holmes
Journal:  IEEE Trans Biomed Eng       Date:  1994-02       Impact factor: 4.538

7.  Survival benefit of hyperthermia in a prospective randomized trial of brachytherapy boost +/- hyperthermia for glioblastoma multiforme.

Authors:  P K Sneed; P R Stauffer; M W McDermott; C J Diederich; K R Lamborn; M D Prados; S Chang; K A Weaver; L Spry; M K Malec; S A Lamb; B Voss; R L Davis; W M Wara; D A Larson; T L Phillips; P H Gutin
Journal:  Int J Radiat Oncol Biol Phys       Date:  1998-01-15       Impact factor: 7.038

8.  Recursive partitioning analysis of prognostic factors in three Radiation Therapy Oncology Group malignant glioma trials.

Authors:  W J Curran; C B Scott; J Horton; J S Nelson; A S Weinstein; A J Fischbach; C H Chang; M Rotman; S O Asbell; R E Krisch
Journal:  J Natl Cancer Inst       Date:  1993-05-05       Impact factor: 13.506

9.  Sensitivity of hyperthermia trial outcomes to temperature and time: implications for thermal goals of treatment.

Authors:  J R Oleson; T V Samulski; K A Leopold; S T Clegg; M W Dewhirst; R K Dodge; S L George
Journal:  Int J Radiat Oncol Biol Phys       Date:  1993-01-15       Impact factor: 7.038

Review 10.  Gene therapy for human malignant brain tumors.

Authors:  Nikolai G Rainov; Huan Ren
Journal:  Cancer J       Date:  2003 May-Jun       Impact factor: 3.360
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  147 in total

Review 1.  Magnetomotive molecular nanoprobes.

Authors:  Renu John; Stephen A Boppart
Journal:  Curr Med Chem       Date:  2011       Impact factor: 4.530

2.  EGFRvIII antibody-conjugated iron oxide nanoparticles for magnetic resonance imaging-guided convection-enhanced delivery and targeted therapy of glioblastoma.

Authors:  Costas G Hadjipanayis; Revaz Machaidze; Milota Kaluzova; Liya Wang; Albert J Schuette; Hongwei Chen; Xinying Wu; Hui Mao
Journal:  Cancer Res       Date:  2010-07-20       Impact factor: 12.701

3.  Mitigation of eddy current heating during magnetic nanoparticle hyperthermia therapy.

Authors:  Robert V Stigliano; Fridon Shubitidze; James D Petryk; Levan Shoshiashvili; Alicia A Petryk; P Jack Hoopes
Journal:  Int J Hyperthermia       Date:  2016-07-20       Impact factor: 3.914

Review 4.  A review on numerical modeling for magnetic nanoparticle hyperthermia: Progress and challenges.

Authors:  Izaz Raouf; Salman Khalid; Asif Khan; Jaehun Lee; Heung Soo Kim; Min-Ho Kim
Journal:  J Therm Biol       Date:  2020-06-17       Impact factor: 2.902

5.  Nanoimmunoliposome delivery of superparamagnetic iron oxide markedly enhances targeting and uptake in human cancer cells in vitro and in vivo.

Authors:  Chengli Yang; Antonina Rait; Kathleen F Pirollo; John A Dagata; Natalia Farkas; Esther H Chang
Journal:  Nanomedicine       Date:  2008-07-26       Impact factor: 5.307

Review 6.  Cancer therapy with iron oxide nanoparticles: Agents of thermal and immune therapies.

Authors:  Frederik Soetaert; Preethi Korangath; David Serantes; Steven Fiering; Robert Ivkov
Journal:  Adv Drug Deliv Rev       Date:  2020-06-27       Impact factor: 15.470

Review 7.  Nanoparticle-Based Therapies for Wound Biofilm Infection: Opportunities and Challenges.

Authors:  Min-Ho Kim
Journal:  IEEE Trans Nanobioscience       Date:  2016-03-02       Impact factor: 2.935

Review 8.  Nanoparticles for imaging and treating brain cancer.

Authors:  Joseph D Meyers; Tennyson Doane; Clemens Burda; James P Basilion
Journal:  Nanomedicine (Lond)       Date:  2013-01       Impact factor: 5.307

Review 9.  Handling of iron oxide and silver nanoparticles by astrocytes.

Authors:  Michaela C Hohnholt; Mark Geppert; Eva M Luther; Charlotte Petters; Felix Bulcke; Ralf Dringen
Journal:  Neurochem Res       Date:  2012-12-06       Impact factor: 3.996

10.  Electron microscopy localization and characterization of functionalized composite organic-inorganic SERS nanoparticles on leukemia cells.

Authors:  Ai Leen Koh; Catherine M Shachaf; Sailaja Elchuri; Garry P Nolan; Robert Sinclair
Journal:  Ultramicroscopy       Date:  2008-10-02       Impact factor: 2.689
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