Emotion Regulation and Executive Function: Associations with Depression and Anxiety in Autism.

Background: Adolescents and young adults with autism spectrum disorder (ASD) are prone to experience co-occurring mental health conditions such as mood or anxiety disorders, as well as impairments in emotion regulation and executive functioning. However, little research has examined inter-relationships among these constructs, despite evidence of additional stressors and increased risk of internalizing disorders at this age, relative to non-autistic individuals. If either emotion regulation or executive functioning are shown to have patterns of association with mental health, this can inform mechanism-based intervention. Method: Fifty-seven autistic adolescents and adults (16-25 years) with ASD in a transition intervention completed questionnaires and clinician-administered measures at baseline. Analyses assessed whether executive functioning impairment, above and beyond emotion regulation impairment, were associated with depression and anxiety symptoms. Results: ASD characteristics, emotion regulation, anxiety, and depression were significantly correlated. ASD characteristics was a significant contributor to depression and emotion regulation impairments were significant contributors to anxiety and depression. Findings indicated that inhibition difficulties did not uniquely contribute to depression or anxiety above emotion regulation impairment. Difficulties in cognitive flexibility were associated with depression above and beyond ASD characteristics, IQ, and emotion regulation, but not associated with anxiety. Conclusions: Although preliminary, findings suggest that inflexibility and regulatory impairment should be considered in depression remediation approaches. Improving ER, on the other hand, may have broader transdiagnostic impact across both mood and anxiety symptoms in ASD.

[Prevalence of injury of the medial collateral ligament of the knee assessed by magnetic resonance]. / Prevalencia de lesión del ligamento colateral medial de la rodilla valorada por resonancia magnética.

INTRODUCTION: The medial collateral ligament (MCL) is one of the main stabilizers of the knee, but its injury occurs in conjunction with other ligaments. OBJECTIVE: To determine the prevalence of MCL lesions by magnetic resonance imaging, their degrees and associated lesions in our institution. MATERIAL AND METHODS: Retrospective study from January to April 2018 where KNEE MRIs were evaluated where the MCL lesion was presented to evaluate the degree and type of associated injuries. RESULTS: We included 368 studies, prevalence of isolated MCL lesion of 3.07%, grade I and grade II, prevalence of concomitant MCL lesions was 17.66% grade I (75%), grade II (15%) and grade III (3%). Associated injuries were medial meniscus injury (46.15%), anterior cruciate ligament injury (30.7%), isolated bone contusion (18.46%), chodral injuries (37.58%), medial vastus injury (14.51%), patellar medial retinacular injury (14.51%), vastus lateral injury (9.23%), posterior cruciate ligament injury (6.15%), lateral meniscus injury (4.61%), iliotibial band tenosynovitis (4.61%), medial facet avulsion fracture (3.07%), Pes Anserine tenosynovitis (3.07%). CONCLUSION: Prevalence of 17.66% of the MCL injuries in our hospital by magnetic resonance, the first 2 degrees predominate, with a wide spectrum of associated knee injuries.

INTRODUCCIÓN: El ligamento colateral medial (LCM) es uno de los principales estabilizadores de la rodilla, pero su lesión se presenta en conjunto con otras lesiones ligamentarias. OBJETIVO: Determinar la prevalencia de lesiones del LCM por resonancia magnética, sus grados y lesiones asociadas en nuestra institución. MATERIAL Y MÉTODOS: Estudio retrospectivo de Enero a Abril de 2018, se evaluaron resonancias magnéticas de rodilla donde se presentó lesión del LCM para evaluar grado y tipo de lesiones asociadas. RESULTADOS: Se incluyeron 368 estudios, prevalencia de lesión aislada del LCM de 3.07%, una grado I y una grado II, la prevalencia de lesiones de LCM concomitantes fue de 17.66%, grado I (75%), grado II (15%) y grado III (3%). Las lesiones asociadas fueron lesión del menisco medial (46.15%), lesión del ligamento cruzado anterior (30.7%), contusión ósea aislada (18.46%), lesiones condrales (37.58%), lesión de vasto medial (14.51%), lesión del retináculo medial patelar (14.51%), lesión del vasto lateral (9.23%), lesión del ligamento cruzado posterior (6.15%), lesión del menisco lateral (4.61%), tenosinovitis banda iliotibial (4.61%), fractura de avulsión de la faceta medial (3.07%), tenosinovitis de la Pes Anserinus (3.07%). CONCLUSIÓN: Prevalencia de 17.66% de lesiones del LCM en nuestro hospital por resonancia magnética, predominan los dos primeros grados con un espectro amplio de lesiones asociadas de la rodilla.

Prevalencia de lesión del ligamento colateral medial de la rodilla valorada por resonancia magnética / Prevalence of injury of the medial collateral ligament of the knee assessed by magnetic resonance

Resumen: Introducción: El ligamento colateral medial (LCM) es uno de los principales estabilizadores de la rodilla, pero su lesión se presenta en conjunto con otras lesiones ligamentarias. Objetivo: Determinar la prevalencia de lesiones del LCM por resonancia magnética, sus grados y lesiones asociadas en nuestra institución. Material y métodos: Estudio retrospectivo de Enero a Abril de 2018, se evaluaron resonancias magnéticas de rodilla donde se presentó lesión del LCM para evaluar grado y tipo de lesiones asociadas. Resultados: Se incluyeron 368 estudios, prevalencia de lesión aislada del LCM de 3.07%, una grado I y una grado II, la prevalencia de lesiones de LCM concomitantes fue de 17.66%, grado I (75%), grado II (15%) y grado III (3%). Las lesiones asociadas fueron lesión del menisco medial (46.15%), lesión del ligamento cruzado anterior (30.7%), contusión ósea aislada (18.46%), lesiones condrales (37.58%), lesión de vasto medial (14.51%), lesión del retináculo medial patelar (14.51%), lesión del vasto lateral (9.23%), lesión del ligamento cruzado posterior (6.15%), lesión del menisco lateral (4.61%), tenosinovitis banda iliotibial (4.61%), fractura de avulsión de la faceta medial (3.07%), tenosinovitis de la Pes Anserinus (3.07%). Conclusión: Prevalencia de 17.66% de lesiones del LCM en nuestro hospital por resonancia magnética, predominan los dos primeros grados con un espectro amplio de lesiones asociadas de la rodilla.

Abstract: Introduction: The medial collateral ligament (MCL) is one of the main stabilizers of the knee, but its injury occurs in conjunction with other ligaments. Objective: To determine the prevalence of MCL lesions by magnetic resonance imaging, their degrees and associated lesions in our institution. Material and Methods: Retrospective study from January to April 2018 where KNEE MRIs were evaluated where the MCL lesion was presented to evaluate the degree and type of associated injuries. Results: We included 368 studies, prevalence of isolated MCL lesion of 3.07%, grade I and grade II, prevalence of concomitant MCL lesions was 17.66% grade I (75%), grade II (15%) and grade III (3%). Associated injuries were medial meniscus injury (46.15%), anterior cruciate ligament injury (30.7%), isolated bone contusion (18.46%), chodral injuries (37.58%), medial vastus injury (14.51%), patellar medial retinacular injury (14.51%), vastus lateral injury (9.23%), posterior cruciate ligament injury (6.15%), lateral meniscus injury (4.61%), iliotibial band tenosynovitis (4.61%), medial facet avulsion fracture (3.07%), Pes Anserine tenosynovitis (3.07%). Conclusion: Prevalence of 17.66% of the MCL injuries in our hospital by magnetic resonance, the first 2 degrees predominate, with a wide spectrum of associated knee injuries.

Formononetin accelerates mycorrhization and increases maize production at low phosphorus application rates.

The formononetin biostimulant may be an option for reducing P fertilization once it stimulates mycelial growth of arbuscular mycorrhizal fungi and increases plant ability to take up nutrients through the roots, especially phosphorus. The objective of this study was to evaluate the effect of formononetin associated with phosphorus fertilization in maize. Field experiments were conducted in a randomized block design with a 3 × 4 factorial arrangement (0, 50 or 70, and 140 kg ha-1 P2O5; and formononetin application rates: 0, 25, 50, and 100 g ha-1), with four replications. Formononetin (100 g ha-1) increased the mycorrhizal colonization rate up to 30% in maize in the first four weeks after emergence when no P fertilizer was applied, and to 17% when 50 or 70 kg ha-1 of P2O5 were applied. The application of 50 and 100 g ha-1 of formononetin significantly increased plant height, ear height, and grain yield (22% - 76%) when no P fertilizer was applied. The use of formononetin in the field stimulates mycorrhizal colonization, has a positive effect on maize yield, and reduces the need for P fertilizer application in maize. However, this effect was evident only at low P soil contents.

Seed-Mediated Growth of Ag@Au Nanodisks with Improved Chemical Stability and Surface-Enhanced Raman Scattering.

Bimetallic Ag@Au nanoparticles (NPs) have received significant research interest because of their unique optical properties and molecular sensing ability through surface-enhanced Raman scattering (SERS). However, the synthesis of Ag@Au core-shell plasmonic nanostructures with precisely controlled size and shape remained a great challenge. Here, we report a simple approach for the synthesis of bimetallic Ag@Au nanodisks of about 13.5 nm thickness and different diameters through a seed-mediated growth process. The synthesis involves the conformal deposition of Au atoms at the corner sites of Ag nanoplate (AgNPL) seeds coupled with site-selective oxidative etching of AgNPL edges to generate Ag@Au nanodisks. The resultant Ag@Au nanodisks manifest significantly improved chemical stability and tunable localized surface plasmon resonance from the visible to the near-infrared spectral range. Moreover, in comparison to AgNPLs, the Ag@Au nanodisks showed greatly enhanced SERS performance with an enhancement factor up to 0.47 × 105, which is nearly 3-fold higher than that of the original AgNPLs (0.18 × 105). Furthermore, the Ag@Au nanodisks show a high sensitivity for detecting probe molecules such as crystal violet of concentration as low as 10-9 M and excellent reproducibility, with the SERS intensity fluctuation less than 12.5%. The synthesis route adapted for the controlled fabrication of Ag@Au nanodisks can be a potential platform for maneuvering other bimetallic plasmonic nanostructures useful for plasmonics and sensing applications.

From Intermolecular Interactions to Texture in Polycrystalline Surfaces of 1,ω-alkanediols (ω = 10-13).

Differences on herringbone molecular arrangement in two forms of long-chain 1,ω-alkanediols (CnH2n+2O2 with n = 10, 11, 12, 13) are explained from the analysis of O-H···O hydrogen-bond sequences in infinite chains and the role of a C-H···O intramolecular hydrogen-bond in stabilization of a gauche defect, as well as the inter-grooving effectiveness on molecular packing. GIXD (Glancing Incidence X-ray Diffraction) experiments were conducted on polycrystalline monophasic samples. Diffracted intensities were treated with the multi-axial March-Dollase method to correlate energetic and geometrical features of molecular interactions with the crystalline morphology and textural pattern of samples. The monoclinic (P21/c, Z = 2) crystals of the even-numbered members (n = 10, 12; DEDOL and DODOL, respectively) are diametrical prisms with combined form {104}/{-104}/{001} and present a two-fold platelet-like preferred orientation, whereas orthorhombic (P212121, Z = 4) odd-numbered members (n = 11, 13; UNDOL and TRDOL, respectively) present a dominant needle-like orientation on direction [101] (fiber texture). We show that crystalline structures of medium complexity and their microstructures can be determined from rapid GIXD experiments from standard radiation, combined with molecular replacement procedure using crystal structures of compounds with higher chain lengths as reference data.

Novel gigahertz frequency dielectric relaxations in chitosan films.

Molecular relaxations of chitosan films have been investigated in the wide frequency range of 0.1 to 3 × 10(9) Hz from -10 °C to 110 °C using dielectric spectroscopy. For the first time, two high-frequency relaxation processes (in the range 10(8) to 3 × 10(9) Hz) are reported in addition to the low frequency relaxations α and ß. These two relaxation processes are related to the vibrations of OH and NH2/NH3(+), respectively. The high-frequency relaxations exhibit Arrhenius-type dependencies in the temperature range 10 °C to 54 °C with negative activation energy; this observation is traceable to hydrogen bonding reorientation. At temperatures above the glass transition temperature (54 °C), the activation energy changes from negative to positive values due to breaking of hydrogen bonding and water loss. Upon cooling in a sealed environment, the activation energies of two relaxation processes are nearly zero. FTIR and XRD analyses reveal associated structural changes upon heating and cooling. These two new high-frequency relaxation processes can be attributed to the interaction of bound water with OH and NH2/NH3(+), respectively. A plausible scenario for these high-frequency relaxations is discussed in light of impedance spectroscopy, TGA, FTIR and XRD measurements.

Effect of doping in carbon nanotubes on the viability of biomimetic chitosan-carbon nanotubes-hydroxyapatite scaffolds.

This work describes the preparation and characterization of biomimetic chitosan/multiwall carbon nanotubes/nano-hydroxyapatite (CTS/MWCNT/nHAp) scaffolds and their viability for bone tissue engineering applications. The cryogenic process ice segregation-induced self-assembly (ISISA) was used to fabricate 3D biomimetic CTS scaffolds. Proper combination of cryogenics, freeze-drying, nature and molecular ratio of solutes give rise to 3D porous interconnected scaffolds with clusters of nHAp distributed along the scaffold surface. The effect of doping in CNT (e.g. with oxygen and nitrogen atoms) on cell viability was tested. Under the same processing conditions, pore size was in the range of 20-150 µm and irrespective on the type of CNT. Studies on cell viability with scaffolds were carried out using human cells from periosteum biopsy. Prior to cell seeding, the immunophenotype of mesenchymal periosteum or periosteum-derived stem cells (MSCs-PCs) was characterized by flow cytometric analysis using fluorescence-activated and characteristic cell surface markers for MSCs-PCs. The characterized MSCs-PCs maintained their periosteal potential in cell cultures until the 2nd passage from primary cell culture. Thus, the biomimetic CTS/MWCNT/nHAp scaffolds demonstrated good biocompatibility and cell viability in all cases such that it can be considered as promising biomaterials for bone tissue engineering.

New insights into the bactericidal activity of chitosan-Ag bionanocomposite: the role of the electrical conductivity.

The relationship between electrical conductivity, structure and antibacterial properties of chitosan-silver nanoparticles (CS/AgnP) biocomposites has been analyzed. To test the film's antimicrobial activity, Gram-positive and Gram-negative bacteria were studied. The interactions between silver nanoparticles with chitosan suggest the formation of silver ions which plays a major role in nanocomposite's bactericidal potency. In CS/AgnP biocomposites, the bactericide effectiveness increases by increasing AgnP concentrations up to 3 wt%, which is close to the electrical percolation threshold of ca. 3 wt%. As the AgnP concentration increases above this threshold, the bactericidal potency is greatly diminished. The elucidated correlation between electrical conductivity and antibacterial activity could be useful in the design of other nanocomposites that involve polymeric-based matrices.

Avaliação das alterações biomecânicas da córnea antes e após lasik em pacientes míopes e hipermetrópes utilizando Moriá® Sub-Bowman's Keratomileusis (SBK) / Differences in early biomechanical properties after myopic and hyperopic lasik using mechanical microkeratome Sub-Bowman's Keratomileusis (SBK)

OBJETIVO: Avaliar e comparar as alterações biomecânicas da córnea por meio do Ocular Response Analyzer® (ORA Reichert Ophtalmics Instruments, Buffalo, New York, USA) antes e após Lasik com Moriá ® Sub Bowman Keratomileusis (SBK) One Use Plus (OUP) em pacientes míopes e hipermetrópes. MÉTODOS: Foram estudados 33 olhos, sendo 19 olhos míopes e 14 olhos hipermetrópes submetidos à cirurgia refrativa com técnica Lasik com flap fino (100 µ) utilizando Moriá SBK OUP. O ORA foi realizado no pré-operatório e 1 mês após a cirurgia para avaliar a biomecânica da córnea. O CH (Corneal Hysteresis), CRF (Corneal Resistance Factor), IOPg (goldmann gold standard, Goldmann correlated intraocular pressure) a IOPcc (corneal compensated intraocular pressure) e mais 38 variáveis biomecânicas da córnea derivadas do sinal de resposta foram avaliados. O Teste de Kolmogorov-Smirnov foi utilizado para avaliar a distribuição normal. O teste de Wilcoxon foi utilizado para comparar as variáveis antes e após a cirurgia para cada grupo. As diferenças entre as medidas pré e pós-operatórias dos olhos míopes foram comparadas com as diferenças obtidas nos olhos hipermetrópes, utilizando-se o teste de Mann-Whitney. Foi considerado como estatisticamente significante p < 0,05%. RESULTADOS: Houve diferença significativa antes e após Lasik em olhos míopes e hipermetrópes na variável IOPg(Wilcoxon, p <0,05), porém não houve em IOPcc. Somente em olhos míopes houve diferenças significativas em CH e CRF, antes e após Lasik com Moriá SBK OUP, como também 9 parâmetros derivados do ORA Waveform_Sinal Gráfico (aspect1, h1, dive1, path1, p1area1, W11, H11, and w2 path11; Wilcoxon, p <0,05). Em olhos hipermetrópes houve diferenças antes e após Lasik das seguintes variáveis: aspect2, h2, dive2, mslew2 e H21 (Wilcoxon p<0,05).Diferenças nas variáveis IOPg e p1area, antes e após Lasik foram maiores em olhos míopes do que hipermetrópes (Mann-Whitey, p <0.05). CONCLUSÃO: Existem alterações das propriedades biomecânicas da córnea após Lasik com Moriá SBK OUP. Em geral, o impacto da biomecânica da córnea após Lasik em olhos míopes é maior do que em olhos hipermetrópes. As mudanças das variáveis relacionadas ao primeiro pico de aplanação (ORA waveform) são mais vistos em olhos míopes e as relacionadas ao segundo pico de aplanação em olhos hipermetrópes.

PURPOSE: To evaluate biomechanical changes measured with the ORA (Ocular Response Analyzer®; Reichert Ophthalmic Instruments, Buffalo, New York, USA) after Lasik with the Moria One Use Plus and to compare the biomechanics changes after myopic and hyperopic ablations. METHODS: Fourteeneyes for hyperopia (H) and 19 eyes for myopia (M) were evaluated with the ORA preoperatively and 1 month after Lasik with thin flap (100 microns) using SBK-OUP (Sub-Bowman Keratomileusis - One Use Plus, Moria®).CH (Corneal Hysteresis), CRF (Corneal Resistance Factor), IOPg (gold-standard, Goldmann correlated Intraocular pressure), IOPcc (Corneal compensated Intraocular pressure) and more 38 variables derived from the corneal biomechanical response signal of the ORA were analyzed. The Wilcoxon test was used to assess differences between the variables before and after surgery for each group and the differences between the pre and postoperative (1 month) myopic eyes were compared with those obtained in hyperopic eyes, using the Mann-Whitney test. RESULTS: There was a significant difference before and after Lasik in myopic and hyperopic eyes in IOPg (Wilcoxon, p <0.05), but not in IOPcc. Only myopic eyes showed a significant difference in CH and CRF measurements before and after LASIK, as well as 9 other biomechanical parameters (aspect1, h1, dive1, path1, p1area1, W11, H11, and w2 path11; Wilcoxon, p <0, 05), 8 of these being related to the first sign of flattening.Five parameters related to the sign of the second applanation showed significant variation only in the eyes before and after hyperopic Lasik (aspect2, h2, dive2, mslew2 and H21; Wilcoxon, p<0,05).There was a difference in both myopic and hyperopic on three parameters related to the applanation signal areas (p1area, and p2area p2area1; Wilcoxon, p <0.05). Differences in IOPg and p1area, before and after surgery were significantly higher in myopic eyes than in hyperopic eyes (Mann-Whitey, p <0.05). CONCLUSION: There are several significant differences in biomechanical parameters after Lasik with Moria OUP_SBK. Overall, the impact of myopic LASIK on corneal biomechanics is higher than of hyperopic Lasik. The parameters derived from the first sign of the ORA are more affected in myopic LASIK, whereas parameters derived from the second applanation are more affected in hyperopic LASIK.