High resolution imaging of 2D distribution of lithium in thin samples measured with multipixel detectors in sandwich geometry.

A method that enables visualization of lateral distribution of Li in thin films is described. The method is based on the simultaneous detection of the reaction products of the 6Li(n,α)t nuclear reaction with thermal neutrons measured with two multipixel detectors in a sandwich geometry with a sample. Here, the principle and basic methodological parameters of the method, including tests with thin polymers with known Li microstructure, are discussed.

Evidence for M1 scissors resonances built on the levels in the quasicontinuum of 163Dy.

Spectra of two-step gamma cascades following the thermal 162Dy(n,gamma)163Dy reaction have been measured. Distinct peaklike structures observed at the midpoints of these spectra are interpreted as a manifestation of the low-energy isovector M1 vibrational mode of excited 163Dy nuclei.

[Neutron capture therapy in the treatment of glioblastoma multiforme. Initial experience in the Czech Republic]. / Neutronová záchytová terapie v lécbe glioblastoma multiforme. První zkusenosti v Ceské republice.

BACKGROUND: Glioblastoma multiforme is the most frequent primary brain tumor in adults. Despite advances in surgery, radiotherapy and chemotherapy, its treatment remains unsatisfactory with very limited overall survival. In the year 2001, in cooperation with Department of Neurosurgery, Nemocnice Na Homolce and Nuclear Research Institute in Rez, we have started to treat glioblastoma patients with boron neutron capture therapy (BNCT). METHODS AND RESULTS: Cells of malignant brain tumors, especially that of glioblastomas, are able to accumulate boron compounds. If BNCT should be successful, it is necessary to reach selective accumulation of sufficient amount of 10B in the tumor and low accumulation in the normal brain tissue. After BSH administration, radiation with low energy thermal neutrons is delivered. It results in nuclear capture and fission reactions with subsequent selective damage of tumor cells. At the time of analysis 9 patients have been enrolled. Therapy was completed in 5 patients. Treatment has been very well tolerated. We observed minimal acute toxicity associated with radiation and no laboratory abnormalities after administrations of BSH. Unfortunately treatment results were quite unsatisfactory. The median time to progression and overall survival were shorter then expected with conventional treatment. CONCLUSIONS: BNCT is very well tolerated with only a modest toxicity. In contrast to standard radiation, BNCT patients receive only one dose of radiation. Nevertheless, in this small pilot study first results were inferior when compared either to outcomes of conventional therapy or to results reported from other BNCT groups. It might be explained that lower dose of radiation had been used. Further study will show whether the higher dose radiation can improve treatment results.