Limor Rubin, Stabler, Collin T, Schumacher-Klinger, Adi , Marcinkiewicz, Cezary , Lelkes, Peter I, ו Lazarovici, Philip . 2021.
“Neurotrophic Factors And Their Receptors In Lung Development And Implications In Lung Diseases.”. Cytokine & Growth Factor Reviews, 59, Pp. 84–94. doi:10.1016/j.cytogfr.2021.01.008.
תקציר Although lung innervation has been described by many studies in humans and rodents, the regulation of the respiratory system induced by neurotrophins is not fully understood. Here, we review current knowledge on the role of neurotrophins and the expression and function of their receptors in neurogenesis, vasculogenesis and during the embryonic development of the respiratory tree and highlight key implications relevant to respiratory diseases.
Limor Rubin, Stabler, Collin T, Schumacher-Klinger, Adi , Marcinkiewicz, Cezary , Lelkes, Peter I, ו Lazarovici, Philip . 2021.
“Neurotrophic Factors And Their Receptors In Lung Development And Implications In Lung Diseases.”. Cytokine & Growth Factor Reviews, 59, Pp. 84–94. doi:10.1016/j.cytogfr.2021.01.008.
תקציר Although lung innervation has been described by many studies in humans and rodents, the regulation of the respiratory system induced by neurotrophins is not fully understood. Here, we review current knowledge on the role of neurotrophins and the expression and function of their receptors in neurogenesis, vasculogenesis and during the embryonic development of the respiratory tree and highlight key implications relevant to respiratory diseases.
Recent excavations at Tel Gezer have systematically revealed a broad exposure west of the Iron Age gate complex (popularly referred to as the “Solomonic Gate”). This report focuses on the occupation layers of the 10th century BCE (our Strata 8 and 7, dated by 14C and ceramic analyses). Stratum 8 represents a unique period of Gezer’s history when the city experienced a major shift in urban planning, as evidenced by a monumental administrative building and casemate fortifications that are associated with the Iron Age gate. This city was intensely destroyed, probably as a result of Sheshonq’s campaign. Stratum 7, which was also destroyed, exhibits a major shift to domestic quarters.
Maria Pigg, Nixdorf, Donald R, Law, Alan S, Renton, Tara , Sharav, Yair , Baad-Hansen, Lene , ו List, Thomas . 2021.
“New International Classification Of Orofacial Pain: What Is In It For Endodontists?”. J Endod, 47, 3, Pp. 345-357. doi:10.1016/j.joen.2020.12.002.
תקציר Pain is a common symptom in endodontic conditions, but differential diagnostic procedures are often needed to exclude other pain origins. Thus, general dentists and endodontists need to be aware of alternative painful orofacial conditions and be able to identify them. The new International Classification of Orofacial Pain (ICOP) is the first comprehensive classification that uniquely deals with orofacial pain. The ICOP is a hierarchical classification modeled on the International Classification of Headache Disorders and covers pain in dentoalveolar and anatomically related tissues, muscle pain, temporomandibular joint pain, neuropathic pain affecting cranial nerves, pain resembling primary headaches, and idiopathic pain in the orofacial region. A description of each condition is given, and structured diagnostic criteria for each condition are proposed based on research data when available. This narrative review aims (1) to give an overview and brief explanation of the ICOP system, (2) to describe and give examples of how it can be of use to general dentists and endodontists with special attention to differential diagnosis of tooth pain, and (3) to highlight how endodontic research can contribute to validation and improvement of the classification. A comparison to other classification and diagnostic systems is also included.
Pasquale Patrizio, Alexandrova, Stoyana , Komsky-Elbaz, Alisa , Roth, Zvi , Zhang, John J. , ו Arav, Amir . 2021.
“A New Simplified Method For Sperm Preparation (E.sep) Without Centrifugation: Icsi Outcome Using In Vitro Matured Bovine And Human Oocytes.”. Fertility And Sterility, 116, 3, S, Pp. E159.
BACKGROUND: in dentistry, clinical problems could be resolved using many therapeutic approaches that may results in very different therapies. In order to choose the best option, a good evaluation of therapy long-term survival and success rate is mandatory. The routine use of a decision support analysis software is nowadays limited due to the lack of software's flexibility especially when a variety of possible therapeutic option are present. The aim of this research was to develop a new algorithm model for a Decision Support System software to give diagnosis support in dentistry. METHODS: Beta tests were designed to study the computer software in different clinical situations based on clinical data. The therapeutic options can be conservative/endodontic or extractive/prosthetic therapies. In two of clinical situation selected could be possible to choose both therapies. RESULTS: in clinical situations tested, the DDS software correctly identified the several therapeutic options. When multiple treatments were possible the beta test showed an output mask that correctly showed a range of options with their corresponding survival and success rate. CONCLUSIONS: The software architecture proposed by the authors is technically feasible, can support the clinician choices based on scientific evidence and up-to-date references and gain informed consent based on data easily understandable for the patient.
Einat Nissim-Eliraz, Nir, Eilam , Marsiano, Noga , Yagel, Simcha , ו Shpigel, Nahum Y. 2021.
“Nf-Kappa-B Activation Unveils The Presence Of Inflammatory Hotspots In Human Gut Xenografts”. Plos One, 16, 5, Pp. e0243010. doi:10.1371/journal.pone.0243010.
תקציר The single-epithelial cell layer of the gut mucosa serves as an essential barrier between the host and luminal microflora and plays a major role in innate immunity against invading pathogens. Nuclear factor kB (NF-κB), a central component of the cellular signaling machinery, regulates immune response and inflammation. NF-κB proteins are activated by signaling pathways downstream to microbial recognition receptors and cytokines receptors. Highly regulated NF-κB activity in intestinal epithelial cells (IEC) is essential for normal gut homeostasis; dysregulated activity has been linked to a number of disease states, including inflammatory bowel diseases (IBD) such as Crohn's Disease (CD). Our aim was to visualize and quantify spatial and temporal dynamics of NF-κB activity in steady state and inflamed human gut. Lentivirus technology was used to transduce the IEC of human gut xenografts in SCID mice with a NF-κB luminescence reporter system. NF-κB signaling was visualized and quantified using low resolution, intravital imaging of the whole body and high resolution, immunofluorescence microscopic imaging of the tissues. We show that NF-κB is activated in select subset of IEC with low "leaky" NF-κB activity. These unique inflammatory epithelial cells are clustered in the gut into discrete hotspots of NF-κB activity that are visible in steady state and selectively activated by systemic LPS and human TNFα or luminal bacteria. The presence of inflammatory hotspots in the normal and inflamed gut might explain the patchy mucosal lesions characterizing CD and thus could have important implications for diagnosis and therapy.
Despite the plethora of research on environmental participatory processes, the forms of nongovernmental organization (NGO) involvement in these processes, and the influence of their involvement on participation outcomes, are still under-conceptualized. This article aims to develop a conceptual typology for NGO roles in environmental participatory processes and to suggest how these roles might be associated with participation outcomes. Following a review of public participation literature and NGO capacities, we present four prototypes of NGO roles along two axes: orientation axis and nature of involvement axis. The prototypes include Entrepreneur, Service-Provider, Enabler, and Partner. We then offer an empirical illustration of the typology using eight case studies across the globe and discuss how the four NGO roles might be associated with outcomes of participatory processes. The framework acknowledges the complex, sometimes limited, contribution of NGOs to participatory processes and suggests practical implications.
Amir Arnon, Landau, Serge Yan , Izhaki, Ido , Malkinson, Dan , Levy-Paz, Yaniv , Deutch-Traubman, Tova , Voet, Hillary , Segev, Ori , ו Dovrat, Guy . 2021.
“A Nirs-Aided Methodology To Elucidate The Nutrition Of The Endangered Mountain Gazelle (Gazella Gazella) Using Samples Of Rumen Contents From Roadkills”. Remote Sensing, 13, 21. doi:10.3390/rs13214279.
תקציר The populations of the endangered mountain gazelle (Gazella gazella), which inhabit large parts of Israel, across various ecosystems and climatic conditions, shrunk drastically over the last decades. To date, data on gazelle nutrition, how these relate with individual characteristics and respond to seasonal and environmental changes, have not been available. We analyzed 110 samples from gazelle rumen contents collected throughout the country from occasional fatalities, mainly roadkills, and tested the feasibility of using them for near-infrared spectrometry (NIRS) calibrations. Although NIR calibrations for crude protein, in vitro dry matter digestibility, and ash were reasonable, we found that using calibrations based on local forage and feed plant species performed better, and used these to estimate several nutritional constituents in gazelle rumens, using NIRS. We tested how constituents relate to the sex, age-class, and weight of the individual gazelle, and to season and ecosystem type, and found that season plays a major role in gazelle nutrition. Winter is the most propitious season, when crude protein, ash and digestibility are highest, and acid detergent fiber (ADF), neutral detergent fiber (NDF), and the carbon to nitrogen (C:N) ratio are lowest. Autumn, being the harshest season, mirrors winter conditions, and summer and spring show intermediate levels. Yet the relative changes between seasons were mild: about 30%, for crude protein, digestibility, and ash, and 14-22% for ADF, NDF, and C:N ratio. Ecosystem type affected several constituents, and nutrition was slightly better in Mediterranean than in dry ecosystems. Gazelle sex, weight, and age-class had minor effects on nutrition. Overall, it seems that the adaptation of gazelles to their environment is germane to keeping relatively steady nutrition throughout the year. Our results, which do not show a dramatic decline in the quality of gazelle nutrition during any season or among the climatic regions that were studied, suggest that nutrition is not a major driver of the survival of gazelles in the populations surveyed.
Shai-lee Yatziv, Strumza, Noga , Minert, Anne , Baron, Mark , ו Devor, Marshall . 2021.
“A Nodal Point For Brain-State Transitions: The Mesopontine Tegmental Anesthesia Area (Mpta) In Mice”. Experimental Brain Research, 239, 11, Pp. 3255–3266. doi:10.1007/s00221-021-06204-7.
Publisher's Version Shai-Lee Yatziv, Strumza, Noga , Minert, Anne , Baron, Mark , ו Devor, Marshall . 2021.
“A Nodal Point For Brain-State Transitions: The Mesopontine Tegmental Anesthesia Area (Mpta) In Mice”. Exp Brain Res, 239, 11, Pp. 3255-3266. doi:10.1007/s00221-021-06204-7.
תקציר The mesopontine tegmental anesthesia area (MPTA) was identified in rats as a singular brainstem locus at which microinjection of minute quantities of GABAergic agents rapidly and reversibly induces loss-of-consciousness and a state of general anesthesia, while lesioning renders animals insensitive to anesthetics at normal systemic doses. Obtaining similar results in mice has been challenging, however, slowing research progress on how anesthetics trigger brain-state transitions. We have identified roadblocks that impeded translation from rat to mouse and tentatively located the MPTA equivalent in this second species. We describe here a series of modifications to the rat protocol that allowed us to document pro-anesthetic changes in mice following localized stereotactic delivery of minute quantities (20 nL) of the GABA-receptor agonist muscimol into the brainstem mesopontine tegmentum. The optimal locus identified proved to be homologous to the MPTA in rats, and local neuronal populations in rats and mice were similar in size and shape. This outcome should facilitate application of the many innovative gene-based methodologies available primarily in mice to the study of how activity in brainstem MPTA neurons brings about anesthetic loss-of-consciousness and permits pain-free surgery.
Erin M. Rock, Limebeer, Cheryl L. , Sullivan, Megan T. , DeVuono, Marieka V. , Lichtman, Aron H. , Di Marzo, Vincenzo , Raphael Mechoulam, , ו Parker, Linda A.. 2021.
“N-Oleoylglycine And N-Oleoylalanine Do Not Modify Tolerance To Nociception, Hyperthermia, And Suppression Of Activity Produced By Morphine”. Frontiers In Synaptic Neuroscience, 13. doi:10.3389/fnsyn.2021.620145.
Publisher's Version Erin M Rock, Limebeer, Cheryl L, Sullivan, Megan T, DeVuono, Marieka V, Lichtman, Aron H, Di Marzo, Vincenzo , Raphael Mechoulam, , ו Parker, Linda A. 2021.
“N-Oleoylglycine And N-Oleoylalanine Do Not Modify Tolerance To Nociception, Hyperthermia, And Suppression Of Activity Produced By Morphine.”. Frontiers In Synaptic Neuroscience, 13, Pp. 620145. doi:10.3389/fnsyn.2021.620145.
תקציר The endogenous amide N-Oleoylglycine (OlGly) and its analog N-Oleoylalanine (OlAla), have been shown to interfere with the affective and somatic responses to acute naloxone-precipitated MWD in male rats. Here we evaluated the potential of a single dose (5 mg/kg, ip) which alleviates withdrawal of these endogenous fatty acid amides to modify tolerance to anti-nociception, hyperthermia, and suppression of locomotion produced by morphine in male Sprague-Dawley rats. Although rats did develop tolerance to the hypolocomotor and analgesic effects of morphine, they did not develop tolerance to the hyperthermic effects of this substance. Administration of neither OlGly nor OlAla interfered with the establishment of morphine tolerance, nor did they modify behavioral responses elicited by morphine on any trial. These results suggest that the effects of OlGly and OlAla on opiate dependence may be limited to naloxone-precipitated withdrawal effects.
Erin M Rock, Limebeer, Cheryl L, Sullivan, Megan T, DeVuono, Marieka V, Lichtman, Aron H, Di Marzo, Vincenzo , Raphael Mechoulam, , ו Parker, Linda A. 2021.
“N-Oleoylglycine And N-Oleoylalanine Do Not Modify Tolerance To Nociception, Hyperthermia, And Suppression Of Activity Produced By Morphine.”. Frontiers In Synaptic Neuroscience, 13, Pp. 620145. doi:10.3389/fnsyn.2021.620145.
תקציר The endogenous amide N-Oleoylglycine (OlGly) and its analog N-Oleoylalanine (OlAla), have been shown to interfere with the affective and somatic responses to acute naloxone-precipitated MWD in male rats. Here we evaluated the potential of a single dose (5 mg/kg, ip) which alleviates withdrawal of these endogenous fatty acid amides to modify tolerance to anti-nociception, hyperthermia, and suppression of locomotion produced by morphine in male Sprague-Dawley rats. Although rats did develop tolerance to the hypolocomotor and analgesic effects of morphine, they did not develop tolerance to the hyperthermic effects of this substance. Administration of neither OlGly nor OlAla interfered with the establishment of morphine tolerance, nor did they modify behavioral responses elicited by morphine on any trial. These results suggest that the effects of OlGly and OlAla on opiate dependence may be limited to naloxone-precipitated withdrawal effects.
X. Ma, Viennot, J. J. , Kotler, S. , Teufel, J. D. , ו Lehnert, K. W.. 2021.
“Non-Classical Energy Squeezing Of A Macroscopic Mechanical Oscillator”. Nature Physics, 17, 3, Pp. 322-326. doi:10.1038/s41567-020-01102-1.
Publisher's Version תקציר Optomechanics and electromechanics have made it possible to prepare macroscopic mechanical oscillators in their quantum ground states1, in quadrature-squeezed states2 and in entangled states of motion3. However, the effectively linear interaction between motion and light or electricity precludes access to the broader class of quantum states of motion, such as cat states or energy-squeezed states. Strong quadratic coupling of motion to light could allow a way around this restriction4–6. Although there have been experimental demonstrations of quadratically coupled optomechanical systems5,7,8, these have not yet accessed non-classical states of motion. Here we create non-classical states by quadratically coupling motion to the energy levels of a Cooper-pair box qubit. Through microwave-frequency drives that change the state of both the oscillator and qubit, we then dissipatively stabilize the oscillator in a state with a large mean phonon number of 43 and sub-Poissonian number fluctuations of approximately 3. In this energy-squeezed state, we observe a striking feature of the quadratic coupling: the recoil of the mechanical oscillator caused by qubit transitions, closely analogous to the vibronic transitions in molecules9,10.
Jessica Attia, Nir, Sivan , Mervinetsky, Evgeniy , Balogh, Dora , Gitlin-Domagalska, Agata , Alshanski, Israel , Reches, Meital , Hurevich, Mattan , ו Yitzchaik, Shlomo . 2021.
“Non-Covalently Embedded Oxytocin In Alkanethiol Monolayer As Zn2+ Selective Biosensor”. Scientific Reports, 11, 1. doi:10.1038/s41598-021-85015-w.
תקציר
Peptides are commonly used as biosensors for analytes such as metal ions as they have natural binding preferences. In our previous peptide-based impedimetric metal ion biosensors, a monolayer of the peptide was anchored covalently to the electrode. Binding of metal ions resulted in a conformational change of the oxytocin peptide in the monolayer, which was measured using electrochemical impedance spectroscopy. Here, we demonstrate that sensing can be achieved also when the oxytocin is non-covalently integrated into an alkanethiol host monolayer. We show that ion-binding cause morphological changes to the dense host layer, which translates into enhanced impedimetric signals compared to direct covalent assembly strategies. This biosensor proved selective and sensitive for Zn2+ ions in the range of nano- to micro-molar concentrations. This strategy offers an approach to utilize peptide flexibility in monitoring their response to the environment while embedded in a hydrophobic monolayer.
Kshitij Kumar Yadav, Cuccia, Nicholas L. , Virot, Emmanuel , Rubinstein, Shmuel M. , ו Gerasimidis, Simos . 2/4/2021.
“A Nondestructive Technique For The Evaluation Of Thin Cylindrical Shells' Axial Buckling Capacity”. Journal Of Applied Mechanics, 88, 5, Pp. 051003. .
Publisher's Version The axial buckling capacity of a thin cylindrical shell depends on the shape and the size of the imperfections that are present in it. Therefore, the prediction of the shells buckling capacity is difficult, expensive, and time consuming, if not impossible, because the prediction requires a priori knowledge about the imperfections. As a result, thin cylindrical shells are designed conservatively using the knockdown factor approach that accommodates the uncertainties associated with the imperfections that are present in the shells; almost all the design codes follow this approach explicitly or implicitly. A novel procedure is proposed for the accurate prediction of the axial buckling capacity of thin cylindrical shells without measuring the imperfections and is based on the probing of the axially loaded shells. Computational and experimental implementation of the procedure yields accurate results when the probing is done in location of highest imperfection amplitude. However, the procedure overpredicts the capacity when the probing is done away from that point. This study demonstrates the crucial role played by the probing location and shows that the prediction of imperfect cylinders is possible if the probing is done at the proper location.
