Modal mineralogy of planetary surfaces from visible and near-infrared spectral data

Real planetary surfaces are composed of several to many different minerals and ices. Deconvolving a reflectance spectrum to material abundance in an unambiguous way is difficult, because the spectra are complex nonlinear functions of grain size, abundance, and material opacity. Multiple scattering models can provide approximate solutions to the radiative transfer in a particulate medium. The paper examines the different approaches which deal with the theory of radiative transfer on atmosphereless bodies. We present the relative merits of two scattering theories based on the equivalent slab model: the extensively used Hapke theory [1] and the Shkuratov theory [2]. The performances of the two models for determining mineral abundance in multicomponent mixtures are also evaluated using laboratory data. Finally, one application on real planetary surfaces will be shown

How Much Do Benzodiazepines Matter for Electroconvulsive Therapy in Patients With Major Depression?

BACKGROUND: Electroconvulsive therapy (ECT) is one of the most effective treatments for major depressive disorder (MDD), especially in cases of treatment-resistant MDD. Because of their pharmacological profiles, benzodiazepines (BZDs) are suspected to decrease the efficacy of ECT. This study investigated the effect of BZDs on ECT-induced clinical outcomes and ECT course parameters in patients with MDD. METHOD: The impact of BZDs on severity of depression (Montgomery-Asberg Depression Rating Scale scores) and on ECT course parameters (seizure threshold, clinical and electroencephalographic seizure duration) was investigated in 70 patients with MDD who received an ECT course using dose-titration method (22 received concomitant BZDs). RESULTS: Lower remission rates (52.0%) and smaller decreases in Montgomery-Asberg Depression Rating Scale scores were observed in the non-BZD group than in the BZD group (81.2%, P = 0.02). There were no significant differences between the 2 groups regarding seizure duration and seizure threshold. LIMITATIONS: This was a retrospective study. Impact of BZDs on anxiety and cognition was not assessed. CONCLUSIONS: Benzodiazepines increased the clinical efficacy of ECT when delivered using dose-titration method and bitemporal stimulation. Further studied are needed to understand the interaction between BZDs and ECT on clinical outcomes

The Cortical States of Wakefulness

Cortical neurons process information on a background of spontaneous, ongoing activity with distinct spatiotemporal profiles defining different cortical states. During wakefulness, cortical states alter constantly in relation to behavioral context, attentional level or general motor activity. In this review article, we will discuss our current understanding of cortical states in awake rodents, how they are controlled, their impact on sensory processing, and highlight areas for future research. A common observation in awake rodents is the rapid change in spontaneous cortical activity from high-amplitude, low-frequency (LF) fluctuations, when animals are quiet, to faster and smaller fluctuations when animals are active. This transition is typically thought of as a change in global brain state but recent work has shown variation in cortical states across regions, indicating the presence of a fine spatial scale control system. In sensory areas, the cortical state change is mediated by at least two convergent inputs, one from the thalamus and the other from cholinergic inputs in the basal forebrain. Cortical states have a major impact on the balance of activity between specific subtypes of neurons, on the synchronization between nearby neurons, as well as the functional coupling between distant cortical areas. This reorganization of the activity of cortical networks strongly affects sensory processing. Thus cortical states provide a dynamic control system for the moment-by-moment regulation of cortical processing

TREATMENT OF SHIZOPHRENIC PATIENTS AND rTMS

Introduction: Schizophrenia (SCH) is a heterogeneous syndrome characterized by positive and negative symptoms. Despite appropriate medication, about 1/4 of patients suffer for refractory positive and/or negative symptoms, which are associated with functional handicap, increase of duration and of the number of hospitalizations. Numerous studies have suggested that the pathophysiology of auditory hallucinations (AH) is related to a hyper activity of the left temporoparietal cortex (TPC). On the other hand, negative symptoms are associated with a prefrontal hypoactivity and the efficiency of pharmacological treatments is frequently partial. Repetitive transcranial magnetic stimulation (rTMS) is a non-invasive brain stimulation tool with excellent tolerability and safety. Given its hypothesized mechanisms of action and the clinical beneficial effects obtained in several types of pathology (Aleman et al. 2007), the efficacy of rTMS has been investigated for drug-resistant SCH symptoms. Objective: Our objective is to expose the knowledge concerning the rTMS use in the treatment of these symptoms and to purpose a critical analysis of these data. Method: a systematic review of the literature has been conducted using NIH Pubmed. The following search terms were used: TMS - rTMS - Schizophrenia - negative symptoms - hallucinations. Results: Concerning the treatment of AH, 16 publications and 4 meta analyses were selected. For the negative symptoms, we retained 16 studies and 3 meta analyses. The most extensively investigated application for rTMS in SCH is the use of low-frequency stimulation to the left TPC with the aim to improve AH symptomatology. When compared to sham, this type of acute course of rTMS has been proven to induce a substantial and significant reduction in AH. But this effect does not seem long-lasting and maintenance protocols must be developed. Concerning negative symptoms, the results are less solid but we find some works which demonstrate an improvement of these symptoms while various stimulation parameters were used. Recently, new parameters of stimulation in particular the theta burst stimulation have permitted us to obtain larger effects with longer duration. The interest of these new parameters will be discussed here. Conclusion: Overall, rTMS studies have demonstrated some promise in the treatment of SCH. However, more research is required to enhance rTMS efficacy and increase its beneficial effect duration and to test new therapeutic strategies in this topic

TREATMENT OF SHIZOPHRENIC PATIENTS AND rTMS

Introduction: Schizophrenia (SCH) is a heterogeneous syndrome characterized by positive and negative symptoms. Despite appropriate medication, about 1/4 of patients suffer for refractory positive and/or negative symptoms, which are associated with functional handicap, increase of duration and of the number of hospitalizations. Numerous studies have suggested that the pathophysiology of auditory hallucinations (AH) is related to a hyper activity of the left temporoparietal cortex (TPC). On the other hand, negative symptoms are associated with a prefrontal hypoactivity and the efficiency of pharmacological treatments is frequently partial. Repetitive transcranial magnetic stimulation (rTMS) is a non-invasive brain stimulation tool with excellent tolerability and safety. Given its hypothesized mechanisms of action and the clinical beneficial effects obtained in several types of pathology (Aleman et al. 2007), the efficacy of rTMS has been investigated for drug-resistant SCH symptoms. Objective: Our objective is to expose the knowledge concerning the rTMS use in the treatment of these symptoms and to purpose a critical analysis of these data. Method: a systematic review of the literature has been conducted using NIH Pubmed. The following search terms were used: TMS - rTMS - Schizophrenia - negative symptoms - hallucinations. Results: Concerning the treatment of AH, 16 publications and 4 meta analyses were selected. For the negative symptoms, we retained 16 studies and 3 meta analyses. The most extensively investigated application for rTMS in SCH is the use of low-frequency stimulation to the left TPC with the aim to improve AH symptomatology. When compared to sham, this type of acute course of rTMS has been proven to induce a substantial and significant reduction in AH. But this effect does not seem long-lasting and maintenance protocols must be developed. Concerning negative symptoms, the results are less solid but we find some works which demonstrate an improvement of these symptoms while various stimulation parameters were used. Recently, new parameters of stimulation in particular the theta burst stimulation have permitted us to obtain larger effects with longer duration. The interest of these new parameters will be discussed here. Conclusion: Overall, rTMS studies have demonstrated some promise in the treatment of SCH. However, more research is required to enhance rTMS efficacy and increase its beneficial effect duration and to test new therapeutic strategies in this topic

Spectral and stratigraphic mapping of hydrated sulfate and phyllosilicate-bearing deposits in northern Sinus Meridiani, Mars

We present detailed stratigraphic and spectral analyses that focus on a region in northern Sinus Meridiani located between 1°N to 5°N latitude and 3°W to 1°E longitude. Several stratigraphically distinct units are defined and mapped using morphologic expression, spectral properties, and superposition relationships. Previously unreported exposures of hydrated sulfates and Fe/Mg smectites are identified using MRO CRISM and MEX OMEGA near‐infrared (1.0 to 2.5 µm) spectral reflectance observations. Layered deposits with monohydrated and polyhydrated sulfate spectral signatures that occur in association with a northeast‐southwest trending valley are reexamined using highresolution CRISM, HiRISE, and CTX images. Layers that are spectrally dominated by monohydrated and polyhydrated sulfates are intercalated. The observed compositional layering implies that multiple wetting events, brine recharge, or fluctuations in evaporation rate occurred. We infer that these hydrated sulfate‐bearing layers were unconformably deposited following the extensive erosion of preexisting layered sedimentary rocks and may postdate the formation of the sulfate‐ and hematite‐bearing unit analyzed by the MER Opportunity rover. Therefore, at least two episodes of deposition separated by an unconformity occurred. Fe/Mg phyllosilicates are detected in units that predate the sulfateand hematite‐bearing unit. The presence of Fe/Mg smectite in older units indicates that the relatively low pH formation conditions inferred for the younger sulfate‐ and hematitebearing unit are not representative of the aqueous geochemical environment that prevailed during the formation and alteration of earlier materials. Sedimentary deposits indicative of a complex aqueous history that evolved over time are preserved in Sinus Meridiani, Mars

Multiple Two-Photon Targeted Whole-Cell Patch-Clamp Recordings From Monosynaptically Connected Neurons in vivo

Although we know a great deal about monosynaptic connectivity, transmission and integration in the mammalian nervous system from in vitro studies, very little is known in vivo. This is partly because it is technically difficult to evoke action potentials and simultaneously record small amplitude subthreshold responses in closely (<150 μm) located pairs of neurons. To address this, we have developed in vivo two-photon targeted multiple (2–4) whole-cell patch clamp recordings of nearby neurons in superficial cortical layers 1–3. Here, we describe a step-by-step guide to this approach in the anesthetized mouse primary somatosensory cortex, including: the design of the setup, surgery, preparation of pipettes, targeting and acquisition of multiple whole-cell recordings, as well as in vivo and post hoc histology. The procedure takes ~4 h from start of surgery to end of recording and allows examinations both into the electrophysiological features of unitary excitatory and inhibitory monosynaptic inputs during different brain states as well as the synaptic mechanisms of correlated neuronal activity

Recovery of surface reflectance spectra and evaluation of the optical depth of aerosols in the near-IR using a Monte-Carlo approach: Application to the OMEGA observations of high latitude regions of Mars

We present a model of radiative transfer through atmospheric particles based on Monte Carlo methods. This model can be used to analyze and remove the contribution of aerosols in remote sensing observations. We have developed a method to quantify the contribution of atmospheric dust in near-IR spectra of the Martian surface obtained by the OMEGA imaging spectrometer on board Mars Express. Using observations in the nadir pointing mode with significant differences in solar incidence angles, we can infer the optical depth of atmospheric dust, and we can retrieve the surface reflectance spectra free of aerosol contribution. Martian airborne dust properties are discussed and constrained from previous studies and OMEGA data. We have tested our method on a region at 90{\deg}E and 77{\deg}N extensively covered by OMEGA, where significant variations of the albedo of ice patches in the visible have been reported. The consistency between reflectance spectra of ice-covered and ice-free regions recovered at different incidence angles validates our approach. The optical depth of aerosols varies by a factor 3 in this region during the summer of Martian year 27. The observed brightening of ice patches does not result from frost deposition but from a decrease in the dust contamination of surface ice and (to a lower extent) from a decrease in the optical thickness of atmospheric dust. Our Monte Carlo-based model can be applied to recover the spectral reflectance characteristics of the surface from OMEGA spectral imaging data when the optical thickness of aerosols can be evaluated. It could prove useful for processing image cubes from the Compact Reconnaissance Imaging Spectrometer for Mars (CRISM) on board the Mars Reconnaissance Orbiter (MRO)