The quantized orbital angular momentum (OAM) of photons offers an additional degree of freedom and topological protection from noise. Photonic OAM states have therefore been exploited in various applications ranging from studies of quantum entanglement and quantum information science to imaging. The OAM states of electron beams have been shown to be similarly useful, for example in rotating nanoparticles and determining the chirality of crystals. However, although neutrons--as massive, penetrating and neutral particles--are important in materials characterization, quantum information and studies of the foundations of quantum mechanics, OAM control of neutrons has yet to be achieved. Here, we demonstrate OAM control of neutrons using macroscopic spiral phase plates that apply a 'twist' to an input neutron beam. The twisted neutron beams are analysed with neutron interferometry. Our techniques, applied to spatially incoherent beams, demonstrate both the addition of quantum angular momenta along the direction of propagation, effected by multiple spiral phase plates, and the conservation of topological charge with respect to uniform phase fluctuations. Neutron-based studies of quantum information science, the foundations of quantum mechanics, and scattering and imaging of magnetic, superconducting and chiral materials have until now been limited to three degrees of freedom: spin, path and energy. The optimization of OAM control, leading to well defined values of OAM, would provide an additional quantized degree of freedom for such studies.
Positive and negative symptoms of psychosis may be common in patients with chronic post-traumatic stress disorder (PTSD), but few studies have investigated the use of antipsychotic agents in these patients. This preliminary study examined the potential efficacy of risperidone in treating psychotic symptoms associated with chronic PTSD. In a 5-week, prospective, randomized, double-blind, placebo-controlled trial, adjunctive risperidone treatment was assessed in 40 combat veterans with chronic PTSD and comorbid psychotic features. Most patients were receiving antidepressants and some other psychotics with doses of concurrent medications held constant for at least 1 month prior to and during the study. Thirty-seven patients completed at least 1 week of treatment with risperidone or placebo. The Positive and Negative Syndrome Scale (PANSS) and the Clinician Administered PTSD Scale (CAPS) were used to assess symptoms. The PANSS was the primary outcome measure. At treatment endpoint, risperidone-treated patients showed a significantly greater decrease from baseline, albeit modest, in psychotic symptoms (PANSS total scores) than placebo-treated patients (P < 0.05). CAPS ratings declined significantly in both groups but did not differ significantly between groups. However, CAPS re-experiencing subscale scores had greater improvement in the risperidone-treated patients at week 5 (P < 0.05, completer analysis) with a trend towards greater improvement versus placebo a endpoint (P < 0.1, LOCF). Risperidone was well tolerated with minimal extrapyramidal symptoms. These preliminary results support studying the potential efficacy of risperidone for treating global psychotic symptoms associated with chronic PTSD with a suggestion that core re-experiencing symptoms may also be responsive. Further research using randomized, controlled trial designs in larger patient groups are needed to define more adequately the role of risperidone and other atypical agents in PTSD.
Background: The nuclear lamina is a protein meshwork lining the inner nuclear membrane, which contains a polymer of nuclear lamins associated with transmembrane proteins of the inner nuclear membrane. The lamina is involved in nuclear structure, gene expression, and association of the cytoplasmic cytoskeleton with the nucleus. We previously identified a group of 67 novel putative nuclear envelope transmembrane proteins (NETs) in a large-scale proteomics analysis. Because mutations in lamina proteins have been linked to several human diseases affecting skeletal muscle, we examined NET expression during differentiation of C2C12 myoblasts. Our goal was to identify new nuclear envelope and lamina components whose expression is coordinated with muscle differentiation.
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