Stefan A. Loening scite author profile

The aim of this pilot study was to evaluate whether the technique of magnetic fluid hyperthermia can be used for minimally invasive treatment of prostate cancer. This paper presents the first clinical application of interstitial hyperthermia using magnetic nanoparticles in locally recurrent prostate cancer. Treatment planning was carried out using computerized tomography (CT) of the prostate. Based on the individual anatomy of the prostate and the estimated specific absorption rate (SAR) of magnetic fluids in prostatic tissue, the number and position of magnetic fluid depots required for sufficient heat deposition was calculated while rectum and urethra were spared. Nanoparticle suspensions were injected transperineally into the prostate under transrectal ultrasound and flouroscopy guidance. Treatments were delivered in the first magnetic field applicator for use in humans, using an alternating current magnetic field with a frequency of 100 kHz and variable field strength (0-18 kA m À1). Invasive thermometry of the prostate was carried out in the first and last of six weekly hyperthermia sessions of 60 min duration. CT-scans of the prostate were repeated following the first and last hyperthermia treatment to document magnetic nanoparticle distribution and the position of the thermometry probes in the prostate. Nanoparticles were retained in the prostate during the treatment interval of 6 weeks. Using appropriate software (AMIRA), a non-invasive estimation of temperature values in the prostate, based on intra-tumoural distribution of magnetic nanoparticles, can be performed and correlated with invasively measured intra-prostatic temperatures. Using a specially designed cooling device, treatment was well tolerated without anaesthesia. In the first patient treated, maximum and minimum intraprostatic temperatures measured at a field strength of 4.0-5.0 kA m À1 were 48.5 C and 40.0 C during the 1st treatment and 42.5 C and 39.4 C during the 6th treatment, respectively. These first clinical experiences prompted us to initiate a phase I study to evaluate feasibility, toxicity and quality of life during hyperthermia using magnetic nanoparticles in patients with biopsy-proven local recurrence of prostate cancer following radiotherapy with curative intent. To the authors' knowledge, this

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Presentation of a new magnetic field therapy system for the treatment of human solid tumors with magnetic fluid hyperthermia

Jordan

Scholz

Maier-Hauff³

et al. 2001

Journal of Magnetism and Magnetic Materials

682

383

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Magnetic #uid hyperthermia (MFH) selectively heats up tissue by coupling alternating current (AC) magnetic "elds to targeted magnetic #uids, so that boundaries of di!erent conductive tissues do not interfere with power absorption. In this paper, a new AC magnetic "eld therapy system for clinical application of MFH is described. With optimized magnetic nanoparticle preparations it will be used for target-speci"c glioblastoma and prostate carcinoma therapy.

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Thermotherapy of Prostate Cancer Using Magnetic Nanoparticles: Feasibility, Imaging, and Three-Dimensional Temperature Distribution

Gneveckow²,

et al. 2007

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Betaine Improves the PCR Amplification of GC-Rich DNA Sequences

Henke

Herdel

Jung

et al. 1997

Nucleic Acids Research

435

233

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Betaine improves the co-amplification of the two alternatively spliced variants of the prostate-specific membrane antigen mRNA as well as the amplification of the coding cDNA region of c-jun. It is suggested that betaine improves the amplification of these genes by reducing the formation of secondary structure caused by GC-rich regions and, therefore, may be generally applicable to ameliorate the amplification of GC-rich DNA sequences.

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Stefan A. Loening

Clinical hyperthermia of prostate cancer using magnetic nanoparticles: Presentation of a new interstitial technique

Presentation of a new magnetic field therapy system for the treatment of human solid tumors with magnetic fluid hyperthermia

Thermotherapy of Prostate Cancer Using Magnetic Nanoparticles: Feasibility, Imaging, and Three-Dimensional Temperature Distribution

Betaine Improves the PCR Amplification of GC-Rich DNA Sequences

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