MURIN: Multimodal Retinal Imaging and Navigated-laser-delivery for dynamic and longitudinal tracking of photodamage in murine models

IntroductionLaser-induced photodamage is a robust method for investigating retinal pathologies in small animals. However, aiming of the photocoagulation laser is often limited by manual alignment and lacks real-time feedback on lesion location and severity. Here, we demonstrate MURIN: MUltimodal Retinal Imaging and Navigated-laser-delivery, a multimodality OCT and SLO ophthalmic imaging system with an image-guided scanning laser lesioning module optimized for the murine retina. The proposed system enables targeting of focal and extended area lesions under OCT guidance to benefit visualization of photodamage response and the precision and repeatability of laser lesion models of retinal injury.MethodsMURIN optics were optimized for simultaneous near-infrared and visible wavelength imaging/laser lesioning. Custom LabView control software was developed to steer the photocoagulation laser and automatically deliver laser pulses to targets-of-interest. In vivo retinal imaging was performed in transgenic Müller glia-tdTomato reporter mice (Rlbp1:CreER; Rosaai14, 5 animals, 10 eyes) and microglia-GFP/Müller glia-tdTomato reporter mice (Cx3cr1GFP; Rlbp1:CreER; Rosaai14, 9 animals, 15 eyes) to visualize cellular changes in the retina after laser lesion delivery.ResultsReal-time MURIN imaging concurrent with laser lesioning allowed us to visualize lesion formation dynamics and any corresponding changes in retinal morphology. We observe increasing fluorescence photoconversion on SLO and scattering contrast on OCT. Significant morphological changes are visible on MURIN after high-severity photodamage. OCT cross-sections show the spatial extent of the lesions contract over time from diffusion areas of increased scattering to granular scatterers and corresponding SLO images show a radial pattern surrounding severe focal lesions, which may be a result of a change in Müller cell shape or orientation in response to injury. The inner plexiform layer is distorted and increased RPE thickness and scattering are observed, all of which are confirmed on corresponding hematoxylin and eosin (H&E) histology and differential interference contrast (DIC) microscopy.DiscussionMURIN as a unique imaging platform that enables combined SLO and OCT imaging with an integrated image-guided laser lesioning module. This technology has clear benefits over existing multimodal imaging and laser lesioning systems by enabling simultaneous multimodal imaging, independent and precise control of Iridex laser pulse parameters and patterns, and real-time OCT and SLO visualization of lesion formation

ZENK activation in the nidopallium of black-capped chickadees in response to both conspecific and heterospecific calls

Neuronal populations in the songbird nidopallium increase in activity the most to conspecific vocalizations relative to heterospecific songbird vocalizations or artificial stimuli such as tones. Here, we tested whether the difference in neural activity between conspecific and heterospecific vocalizations is due to acoustic differences or to the degree of phylogenetic relatedness of the species producing the vocalizations. To compare differences in neural responses of black-capped chickadees, Poecile atricapillus, to playback conditions we used a known marker for neural activity, ZENK, in the caudal medial nidopallium and caudomedial mesopallium. We used the acoustically complex ‘dee’ notes from chick-a-dee calls, and vocalizations from other heterospecific species similar in duration and spectral features. We tested the vocalizations from three heterospecific species (chestnut-backed chickadees, tufted titmice, and zebra finches), the vocalizations from conspecific individuals (black-capped chickadees), and reversed versions of the latter. There were no significant differences in the amount of expression between any of the groups except in the control condition, which resulted in significantly less neuronal activation. Our results suggest that, in certain cases, neuronal activity is not higher in response to conspecific than in response to heterospecific vocalizations for songbirds, but rather is sensitive to the acoustic features of the signal. Both acoustic features of the calls and the phylogenetic relationship between of the signaler and the receiver interact in the response of the nidopallium.Publisher PDFPeer reviewe

Blood Myo-Inositol Concentrations in Preterm and Term Infants

© 2020, The Author(s), under exclusive licence to Springer Nature America, Inc. Objective: To describe relationship between cord blood (representing fetal) myo-inositol concentrations and gestational age (GA) and to determine trends of blood concentrations in enterally and parenterally fed infants from birth to 70 days of age. Design/Methods: Samples were collected in 281 fed or unfed infants born in 2005 and 2006. Myo-inositol concentrations were displayed in scatter plots and analyzed with linear regression models of natural log-transformed values. Results: In 441 samples obtained from 281 infants, myo-inositol concentrations varied from nondetectable to 1494 μmol/L. Cord myo-inositol concentrations decreased an estimated 11.9% per week increase in GA. Postnatal myo-inositol concentrations decreased an estimated 14.3% per week increase in postmenstrual age (PMA) and were higher for enterally fed infants compared to unfed infants (51% increase for fed vs. unfed infants). Conclusions: Fetal myo-inositol concentrations decreased with increasing GA. Postnatal concentrations decreased with increasing PMA and were higher among enterally fed than unfed infants

Displacement Behaviour Is Associated with Reduced Stress Levels among Men but Not Women

Sex differences in the ability to cope with stress may contribute to the higher prevalence of stress-related disorders among women compared to men. We recently provided evidence that displacement behaviour--activities such as scratching and face touching--represents an important strategy for coping with stressful situations: in a healthy population of men, displacement behaviour during a social stress test attenuated the relationship between anxiety experienced prior to this test, and the subsequent self-reported experience of stress. Here, we extend this work to look at physiological and cognitive (in addition to self-reported) measures of stress, and study both men and women in order to investigate whether sex moderates the link between displacement behaviour and the response to stress. In a healthy study population, we quantified displacement behaviour, heart rate and cognitive performance during the Trier Social Stress Test, and used self-report questionnaires to assess the experience of stress afterwards. Men engaged in displacement behaviour about twice as often as women, and subsequently reported lower levels of stress. Bivariate correlations revealed that for men, higher rates of displacement behaviour were associated with decreased self-reported stress, fewer mistakes in the cognitive task and a trend towards lower heart rate; no relationships between displacement behaviour and stress measures were found for women. Moreover, moderation analyses revealed that high rates of displacement behaviour were associated with lower stress levels in men but not in women, and that high displacement behaviour rates were associated with poorer cognitive performance in women, but not men. These results point to an important sex difference in coping strategies, and highlight new avenues for research into sex biases in stress-related disorders