Emotion dysregulation represents a core symptom of borderline personality disorder (BPD). Deficits in emotion perception are thought to underlie this clinical feature, although studies examining ...emotion recognition abilities in BPD have yielded inconsistent findings. Method The results of 10 studies contrasting facial emotion recognition in patients with BPD (n = 266) and non-psychiatric controls (n = 255) were quantitatively synthesized using meta-analytic techniques.
Patients with BPD were less accurate than controls in recognizing facial displays of anger and disgust, although their most pronounced deficit was in correctly identifying neutral (no emotion) facial expressions. These results could not be accounted for by speed/accuracy in the test-taking approach of BPD patients.
Patients with BPD have difficulties recognizing specific negative emotions in faces and may misattribute emotions to faces depicting neutral expressions. The contribution of state-related emotion perception biases to these findings requires further clarification.
Graphene integrated photonics provides several advantages over conventional Si photonics. Single layer graphene (SLG) enables fast, broadband, and energy-efficient electro-optic modulators, optical ...switches and photodetectors (GPDs), and is compatible with any optical waveguide. The last major barrier to SLG-based optical receivers lies in the current GPDs' low responsivity when compared to conventional PDs. Here we overcome this by integrating a photo-thermoelectric GPD with a Si microring resonator. Under critical coupling, we achieve >90% light absorption in a ~6 μm SLG channel along a Si waveguide. Cavity-enhanced light-matter interactions cause carriers in SLG to reach ~400 K for an input power ~0.6 mW, resulting in a voltage responsivity ~90 V/W, with a receiver sensitivity enabling our GPDs to operate at a 10
bit-error rate, on par with mature semiconductor technology, but with a natural generation of a voltage, rather than a current, thus removing the need for transimpedance amplification, with a reduction of energy-per-bit, cost, and foot-print.
Small hydroelectric power plants (SHP) have been considered as an alternative for the generation of electricity with reduced environmental impacts. Nevertheless, no studies have addressed changes in ...a particular kind of river macrohabitat commonly affected by SHPs, the knickzones. This study aimed to assess the impact of a SHP construction on the aquatic macroinvertebrate fauna associated with two basaltic knickzones located in Sapucaí-Mirim River, Southeast Brazil. The first, considered as a functional knickzone, follows the natural dynamics of the river flow and preserves the original rock substrate. The second, considered as non-functional knickzone, was permanently flooded after the SHP construction and the consolidated rock substrate was changed by fine sediment. Sampling was carried out in two seasonal periods and the data were analysed through multivariate analysis. It was observed differences in composition and structure of the macroinvertebrates community between the knickzones and periods. The functional knickzone exhibited a much higher richness, 72 taxa compared to 44 in the non-functional, as well as a large number of exclusive taxa (38, being only nine exclusive to the non-functional). Diversity, equitability and density mean values were also higher in the functional knickzone. The limnological parameters varied significantly between dry and rainy seasons but not between the distinct knickzones. This kind of macrohabitats and its potential role for the rivers biodiversity is practically unknown. In the scenery of fast SHP expansion, further studies and protection measures are necessary.
Exposure to psychostimulants, including both abused and therapeutic drugs, can occur first during human adolescence. Animal modeling is useful not only to reproduce adolescent peculiarities but also ...to study neurobehavioral adaptations to psychostimulant consumption. Human adolescence (generally considered as the period between 9/12 and 18 years old) has been compared with the age window between postnatal days (pnd) 28/35 and 50 in rats and mice. These adolescent rodents display basal hyperlocomotion and higher rates of exploration together with a marked propensity for sensation-seeking and risk-taking behaviors. Moreover, peculiar responses to psychostimulants, including enhanced locomotor sensitization, no drug-induced stereotypy and reduced place conditioning have been described in adolescent rodents. During this age window, forebrain dopamine systems undergo profuse remodeling, thus providing a neuro-biological substrate to explain behavioral peculiarities observed during adolescence, as well as the reported vulnerabilities to several drugs. Further, methylphenidate (MPH, better known as Ritalin®), a psychostimulant extensively prescribed to children and adolescents diagnosed with attention-deficit/hyperactivity disorder (ADHD), raises concerns for its long-term safety. Using magnetic resonance techniques, MPH-induced acute effects appear to be different in adolescent rats compared to adult animals. Moreover, adolescent exposure to MPH seems to provoke persistent neurobehavioral consequences: long-term modulation of self-control abilities, decreased sensitivity to natural and drug reward, enhanced stress-induced emotionality, together with an enhanced cortical control over sub-cortical dopamine systems and an enduring up-regulation of Htr7 gene expression within the nucleus accumbens (NAcc). In summary, additional studies in animal models are necessary to better understand the long-term consequences of adolescent MPH, and to further investigate the safety of the prescription and administration of such pharmacological treatment at early life stages.
The integration of optoelectronic devices, such as transistors and photodetectors (PDs), into wearables and textiles is of great interest for applications such as healthcare and physiological ...monitoring. These require flexible/wearable systems adaptable to body motions, thus materials conformable to non‐planar surfaces, and able to maintain performance under mechanical distortions. Here, fibre PDs are prepared by combining rolled graphene layers and photoactive perovskites. Conductive fibres (~500 Ωcm‐1) are made by rolling single‐layer graphene (SLG) around silica fibres, followed by deposition of a dielectric layer (Al2O3 and parylene C), another rolled SLG as a channel, and perovskite as photoactive component. The resulting gate‐tunable PD has a response time~9ms, with an external responsivity~22kAW‐1 at 488nm for a 1V bias. The external responsivity is two orders of magnitude higher, and the response time one order of magnitude faster, than state‐of‐the‐art wearable fibre‐based PDs. Under bending at 4mm radius, up to~80% photocurrent is maintained. Washability tests show~72% of initial photocurrent after 30 cycles, promising for wearable applications.
The article presents the development of fibre‐based photodetectors using rolled graphene layers and perovskites, achieving high external responsivity (∼22 kAW‐1 at 488 nm) and fast response times (∼9 ms). These photodetectors maintain performance after 30 wash cycles (∼72% photocurrent), suitable for wearable applications.