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Targeted Modulation (targeted + modulation)
Selected AbstractsRepetitive transcranial magnetic stimulation improve tinnitus in normal hearing patients: a double-blind controlled, clinical and neuroimaging outcome studyEUROPEAN JOURNAL OF NEUROLOGY, Issue 1 2010R. A. Marcondes Background and purpose:, Tinnitus is a frequent disorder which is very difficult to treat and there is compelling evidence that tinnitus is associated with functional alterations in the central nervous system. Targeted modulation of tinnitus-related cortical activity has been proposed as a promising new treatment approach. We aimed to investigate both immediate and long-term effects of low frequency (1 Hz) repetitive transcranial magnetic stimulation (rTMS) in patients with tinnitus and normal hearing. Methods:, Using a parallel design, 20 patients were randomized to receive either active or placebo stimulation over the left temporoparietal cortex for five consecutive days. Treatment results were assessed by using the Tinnitus Handicap Inventory. Ethyl cysteinate dimmer-single photon emission computed tomography (SPECT) imaging was performed before and 14 days after rTMS. Results:, After active rTMS there was significant improvement of the tinnitus score as compared to sham rTMS for up to 6 months after stimulation. SPECT measurements demonstrated a reduction of metabolic activity in the inferior left temporal lobe after active rTMS. Conclusion:, These results support the potential of rTMS as a new therapeutic tool for the treatment of chronic tinnitus, by demonstrating a significant reduction of tinnitus complaints over a period of at least 6 months and significant reduction of neural activity in the inferior temporal cortex, despite the stimulation applied on the superior temporal cortex. [source] Delivery of bioactive, gel-isolated proteins into live cellsELECTROPHORESIS, Issue 9 2003Jennifer E. Taylor Abstract The delivery of proteins into live cells is a promising strategy for the targeted modulation of protein-protein interactions and the manipulation of specific cellular functions. Cellular delivery can be facilitated by complexing the protein of interest with carrier molecules. Recently, an amphipatic peptide was identified, Pep-1 (KETWWETWWTE WSQPKKKRKV), which crosses the plasma membrane of many cell types to carry and deliver proteins as large as antibodies. Pep-1 effectively delivers proteins in solution; but Pep-1 is not suitable for delivering sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) isolated proteins because Pep-1 complexes with cargo proteins are destroyed by SDS. Here, we report cellular delivery of SDS-PAGE-isolated proteins, without causing cellular damage, by using a nonionic detergent, Triton X-100, as carrier. To determine the specificity of our method, we separated antibodies against different intracellular targets by nonreducing SDS-PAGE. Following electrophoresis, the antibody bands were detected by zinc-imidazole reverse staining, excised, in-gel refolded with Triton X-100, and eluted in detergent-free phosphate-buffered saline. When overlaid on cultured NIH 3T3 cells, the antibodies penetrated the cells localizing to their corresponding intracellular targets. These results are proof-of-principle for the delivery of gel-isolated bioactive proteins into cultured cells and suggest new ways for experimental protein therapy and for studying protein-protein interactions using gel-isolated protein. [source] CD 95 mediated apoptosis in embryogenesis: implication in tooth developmentORTHODONTICS & CRANIOFACIAL RESEARCH, Issue 3 2006E Matalová Structured abstract Authors,,, Matalová E, ,etková J, Blackburn J, Mí,ek I, Sharpe PT Introduction,,, Understanding of apoptotic mechanisms involved in tissue shaping is of particular interest because of possible targeted modulation of the development of organ structures such as teeth. Research of CD 95 mediated apoptosis has been focused particularly on cell death in the immune system and related disorders. However, CD 95 mediated apoptosis is also involved in embryogenesis of many organs as the kidney, the lung, the intestine and tissue networks such as the nervous system. Design,,, Narrative review. Results,,, This review briefly summarizes the current knowledge of CD 95 mediated apoptosis in embryogenesis with possible implication in tooth development. CD 95 receptor and CD 95 ligand are found at early stages of tooth development. The data suggest some positive correlations with dental apoptosis distribution, particularly in the primary enamel knot where apoptosis occurs during elimination of this structure. CD 95 deficient (lpr) adult mouse tooth phenotype, however, did not show any alterations in final tooth pattern and morphology. Conclusion,,, To date studies of apoptotic machinery during tooth development show spatial localization of many of the components together with precise and localized timing of cell death. There is still much to be learned about the regulation and importance of apoptosis in tooth development. Nevertheless, the involvement of apoptotic regulatory mechanisms interplaying with other molecules participates to the cellular cross-talk in developing tissues, which opens possible targeted modulations as suggested, e.g. for future molecular dentistry. [source] |