Convolutional neural networks uncover the dynamics of human visual memory representations over time.

The ability to accurately retrieve visual details of past events is a fundamental cognitive function relevant for daily life. While a visual stimulus contains an abundance of information, only some of it is later encoded into long-term memory representations. However, an ongoing challenge has been to isolate memory representations that integrate various visual features and uncover their dynamics over time.

Single genomic enhancers drive experience-dependent GABAergic plasticity to maintain sensory processing in the adult cortex.

Experience-dependent plasticity of synapses modulates information processing in neural circuits and is essential for cognitive functions. The genome, via non-coding enhancers, was proposed to control information processing and circuit plasticity by regulating experience-induced transcription of genes that modulate specific sets of synapses. To test this idea, we analyze here the cellular and circuit functions of the genomic mechanisms that control the experience-induced transcription of Igf1 (insulin-like growth factor 1) in vasoactive intestinal peptide (VIP) interneurons (INs) in the visual cortex of adult mice.

Thiamine Administration and the Prevalence of Delirium in the Intensive Care Unit: A Retrospective Before and After Interventional Study.

Background: Thiamine is an essential co-factor for aerobic intracellular respiration, nerve conduction, and muscle contraction. Thiamine deficiency is common in the intensive care unit (ICU). Delirium is a frequent unwanted symptom among critical ill patients.

Low molecular weight heparin for venous thromboembolism prophylaxis in general Intensive Care Unit patients: an anti-factor Xa level-based approach.

Background: Venous thromboembolism (VTE) in the Intensive Care Unit (ICU) is associated with significant morbidity and mortality therefore prevention is imperative to reduce its burden. VTE prophylaxis in ICU patients is primarily pharmacological using low molecular weight heparin (LMWH). Plasma anti-factor Xa (anti-FXa) levels may be used to measure LMWH activity.

Photon-Mediated Stroboscopic Quantum Simulation of a Z_{2} Lattice Gauge Theory.

Quantum simulation of lattice gauge theories, aiming at tackling nonperturbative particle and condensed matter physics, has recently received a lot of interest and attention, resulting in many theoretical proposals as well as several experimental implementations. One of the current challenges is to go beyond 1+1 dimensions, where four-body (plaquette) interactions, not contained naturally in quantum simulating devices, appear. In this Letter, we propose a method to obtain them based on a combination of stroboscopic optical atomic control and the nonlocal photon-mediated interactions appearing in nanophotonic or cavity QED setups.

Quantum simulation of lattice gauge theories in more than one space dimension-requirements, challenges and methods.

Over recent years, the relatively young field of quantum simulation of lattice gauge theories, aiming at implementing simulators of gauge theories with quantum platforms, has gone through a rapid development process. Nowadays, it is not only of interest to the quantum information and technology communities. It is also seen as a valid tool for tackling hard, non-perturbative gauge theory problems by particle and nuclear physicists.

Cold atoms meet lattice gauge theory.

The central idea of this review is to consider quantum field theory models relevant for particle physics and replace the fermionic matter in these models by a bosonic one. This is mostly motivated by the fact that bosons are more 'accessible' and easier to manipulate for experimentalists, but this 'substitution' also leads to new physics and novel phenomena. It allows us to gain new information about among other things confinement and the dynamics of the deconfinement transition.

Hypertriglyceridemia Induced Pancreatitis: plasmapheresis or conservative management?

Introduction: Hypertriglyceridemia-induced acute pancreatitis (HIAP) may result in severe morbidity and mortality. The most effective management strategy is unknown. While plasmapheresis is often performed, it is possible that a conservative approach which includes fasting, intravenous fluids and high-dose insulin, may be successful.

NDNF interneurons in layer 1 gain-modulate whole cortical columns according to an animal's behavioral state.

Processing of sensory information in neural circuits is modulated by an animal's behavioral state, but the underlying cellular mechanisms are not well understood. Focusing on the mouse visual cortex, here we analyze the role of GABAergic interneurons that are located in layer 1 and express Ndnf (L1 NDNF INs) in the state-dependent control over sensory processing. We find that the ongoing and sensory-evoked activity of L1 NDNF INs is strongly enhanced when an animal is aroused and that L1 NDNF INs gain-modulate local excitatory neurons selectively during high-arousal states by inhibiting their apical dendrites while disinhibiting their somata via Parvalbumin-expressing interneurons.

Effects of partial maize silage substitution with microalgae on viscosity and biogas yields in continuous AD trials.

The microalga Acutodesmus obliquus was investigated as a feedstock in semi-continuously fed anaerobic digestion trials, where A. obliquus was co-digested with pig slurry and maize silage. Maize silage was substituted by both 10% and 20% untreated, and 20% ultrasonicated microalgae biomass on a VS (volatile solids) basis.

Digital Quantum Simulation of Z_{2} Lattice Gauge Theories with Dynamical Fermionic Matter.

We propose a scheme for digital quantum simulation of lattice gauge theories with dynamical fermions. Using a layered optical lattice with ancilla atoms that can move and interact with the other atoms (simulating the physical degrees of freedom), we obtain a stroboscopic dynamics which yields the four-body plaquette interactions, arising in models with (2+1) and higher dimensions, without the use of perturbation theory. As an example we show how to simulate a Z_{2} model in (2+1) dimensions.

Injuries in a Developing Sport, Cachibol (Newcomb Ball).

Background: Cachibol (known as kadureshet in Hebrew) is a team ball game whose characteristics are similar to those of volleyball. The game is becoming increasingly popular, particularly among adult women and is the fastest growing female sport in Israel. Despite its growing popularity, data on the epidemiology of injuries incurred from this sport are sparse.

Quantum simulations of lattice gauge theories using ultracold atoms in optical lattices.

Can high-energy physics be simulated by low-energy, non-relativistic, many-body systems such as ultracold atoms? Such ultracold atomic systems lack the type of symmetries and dynamical properties of high energy physics models: in particular, they manifest neither local gauge invariance nor Lorentz invariance, which are crucial properties of the quantum field theories which are the building blocks of the standard model of elementary particles. However, it turns out, surprisingly, that there are ways to configure an atomic system to manifest both local gauge invariance and Lorentz invariance. In particular, local gauge invariance can arise either as an effective low-energy symmetry, or as an exact symmetry, following from the conservation laws in atomic interactions.

The laboratory profile in idiopathic intracranial hypertension.

While overweight and female gender play an undisputable role in the pathogenesis of idiopathic intracranial hypertension (IIH), the contribution of other factors is still unclear. We have evaluated the laboratory findings of patients with IIH in an attempt to find the influence of abnormalities on the disease course. Included were 82 females after menarche and males older than 18 years who were followed up for at least 1 year.

Factors associated with empyema in children with community acquired pneumonia.

Aim: Empyema is a potential complication of community acquired pneumonia but factors predicting this complication are lacking.

Methods: A retrospective study of all previously healthy pediatric patients admitted between January 2007 and July 2009 with CAP. Patients with non-lobar pneumonia, RSV bronchiolitis, underlying chronic disease, or hospital-acquired pneumonia were excluded.

Cold-atom quantum simulator for SU(2) Yang-Mills lattice gauge theory.

Non-Abelian gauge theories play an important role in the standard model of particle physics, and unfold a partially unexplored world of exciting physical phenomena. In this Letter, we suggest a realization of a non-Abelian lattice gauge theory-SU(2) Yang-Mills in (1 + 1) dimensions, using ultracold atoms. Remarkably, and in contrast to previous proposals, in our model gauge invariance is a direct consequence of angular momentum conservation and thus is fundamental and robust.

Simulating (2+1)-dimensional lattice QED with dynamical matter using ultracold atoms.

We suggest a method to simulate compact quantum electrodynamics using ultracold atoms in optical lattices, which includes dynamical Dirac fermions in 2+1 dimensions. This allows us to test the dynamical effects of confinement as well as the deformations and breaking of two-dimensional flux loops, and to observe the Wilson-loop area law.

Reevaluation of presentation and course of idiopathic intracranial hypertension--a large cohort comprehensive study.

Objectives: We analyzed the clinical and ophthalmological findings in a large group of patients with idiopathic intracranial hypertension (IIH) trying to find factors that might influence the course of the disease.

Materials And Methods: Medical records of patients with IIH were retrospectively reviewed. The patients included were women after menarche and men older than 18 years of age who were followed up for at least 1 year.

Simulating compact quantum electrodynamics with ultracold atoms: probing confinement and nonperturbative effects.

Recently, there has been much interest in simulating quantum field theory effects of matter and gauge fields. In a recent work, a method for simulating compact quantum electrodynamics (CQED) using Bose-Einstein condensates has been suggested. We suggest an alternative approach, which relies on single atoms in an optical lattice, carrying 2l + 1 internal levels, which converges rapidly to CQED as l increases.

Confinement and lattice quantum-electrodynamic electric flux tubes simulated with ultracold atoms.

We propose a method for simulating (2+1)D compact lattice quantum-electrodynamics, using ultracold atoms in optical lattices. In our model local Bose-Einstein condensates' (BECs) phases correspond to the electromagnetic vector potential, and the local number operators represent the conjugate electric field. The well-known gauge-invariant Kogut-Susskind Hamiltonian is obtained as an effective low-energy theory.

Incidence and clinical manifestations of rheumatic fever: a 6 year community-based survey.

Background: Most data on the incidence of rheumatic fever come from hospital records. We presumed that there may be cases of RF that do not require hospitalization, especially in countries with high quality community health care.

Objectives: To explore the incidence and characteristics of RF using community-based data.

Cyclopropenylcarbinol derivatives as new versatile intermediates in organic synthesis: application to the formation of enantiomerically pure alkylidenecyclopropane derivatives.

The copper-catalyzed carbomagnesiation (or hydrometalation) reaction of chiral cyclopropenylcarbinol derivatives, obtained by means of a kinetic resolution of secondary allylic alcohols, leads to an easy and straightforward preparation of enantiomerically pure alkylidenecyclopropane derivatives. The reaction mechanism is composed of a syn-carbometalation followed by a syn-elimination reaction. To gain further insight into the reaction mechanism of the carbometalation, the diastereoselective formation of cyclopropylcarbinol was also achieved and was found to be very sensitive to the nature of the organometallic species used for the addition reaction.