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1. An extratropical driver of evaporation in the tropical and subtropical oceans

Author

Yaari-Sadeh, T. and Raveh-Rubin, S.

Abstract

Ocean evaporation in the subtropics and tropics is the main supplier of moisture to the tropics, and is of fundamental importance to the global hydrological cycle, influencing atmospheric and oceanic dynamics and thermodynamics. Ocean evaporation (turbulent latent heat flux) varies on a range of time scales, from the diurnal to longer climatic scales. While previous studies characterize its variability over seasonal-interannual to decadal time scales, here we focus on the subseasonal, and particular daily-weekly scales, and aim to understand the drivers of this variability. We first show that latent heat flux variability entails transient evaporation hotspots, regionally exceeding 250 W/m2, which build up the long-term climatology. We then show indications for the mechanisms governing this variability, and especially the extreme evaporation hotspots. Namely, it is dry air intrusions from the wake of midlatitude cyclones that reach the low latitudes. The relatively dry and cold airmass over the subtropical and tropical oceans dominate the occurrence and variability of intense latent heat flux in these regions. Moreover, the variability and extremes of tropical latent heat flux are governed by extratropical dynamics on this scale, thereby creating extratropical-tropical interaction., The 28th IUGG General Assembly (IUGG2023) (Berlin 2023)

Published
2023
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4. Transforming the metasearch concept into a friendly user experience.

Author

Sadeh T

Abstract

Research environments generally require users to locate information in a variety of resources. In an attempt to improve the sometimes frustrating user experience in such environments, the library community has embraced the concept of metasearching: a process in which a user searches simultaneously in numerous information resources. User experience is often dictated by the underlying technology. Faced with a number of challenges typical of the metasearch environment, user-interface designers need to find creative solutions for transforming metasearching into a friendly user experience. Through meticulous planning, a team of interface-design experts, a marketing manager, developers, and a focus group designed a user interface that addresses many of these challenges. Ultimately, what determines the success of a metasearch system is whether the users find it friendly, easy to use, and appropriate for their needs. [ABSTRACT FROM AUTHOR]

Published
2007
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6. A model of scientists' information seeking and a user-interface design

Author

Sadeh, T.

Subjects
ZA4050, Z665
Abstract

Information systems that are available today do not optimally address the information-seeking behaviour of scholars, particularly those who belong to scientific communities; as a result, scholarly discovery is often cumbersome and incomplete. The hypothesis of this study is that an information-seeking system that is designed to address the nature of scholarly materials and the information seeking behaviour of scholars, particularly the members of one scientific community, will increase the effectiveness of the scholars’ searches and enable them to find and obtain relevant materials with greater ease and precision than current practices do.\ud \ud The information-seeking behaviour and search practices deployed by high-energy physics (HEP) researchers are explored through a series of interviews and observations. More than 2,100 responses obtained from a HEP survey are also examined; in particular, the participants’ open-ended responses are analysed. On the basis of qualitative and quantitative research regarding the characteristics of HEP scientists and their information-seeking practices, a set of six personas, representing typical members of the HEP community, is constructed.\ud \ud An original model is developed that leverages existing models of information behaviour, information seeking, and information searching and reflects the full spectrum of active information-seeking and information-searching practices of HEP scholars and the nature of the data that these researchers seek. The model is then evaluated by means of seven scenarios involving the personas constructed\ud earlier.\ud \ud On the basis of the information-seeking model, a software user interface is designed as the future interface for the HEP INSPIRE information system. The user-interface design is corroborated through the model, and the personas are used to evaluate the design. Methods are suggested for long-term quantitative and qualitative monitoring of the ways in which this design supports HEP researchers. It is argued that the proposed user interface, which provides an information environment that accommodates the information-seeking practices of the HEP community in a friendly and efficient manner, will support HEP academic research—and research of other scholarly communities that share some of the HEP community’s characteristics—by shortening the search process and improving the findability of quality materials.\ud \ud This thesis contributes to the body of information-science knowledge in the novel modelling of information-seeking behaviour of a well-defined scientific community, the use of personas for the modelling, and the concretization of the\ud model into a new user-interface design.

16. Increased risk of exposure to hepatitis B infection among butchers sharing knives.

Author

Mevorach, Dror, Brezis, Mayer, Mevorach, D, Brezis, M, Ben Yishai, F, Sadeh, T, Shouval, D, and Eliakim, R

Subjects
*HEPATITIS B transmission, *BUTCHERS, *DISEASES, *COMPARATIVE studies, *FOOD handling, *HEPATITIS B, *RESEARCH methodology, *MEDICAL cooperation, *RESEARCH, *OCCUPATIONAL hazards, *ENVIRONMENTAL exposure, *EVALUATION research, *RELATIVE medical risk, *CROSS-sectional method, *CASE-control method
Abstract

Examines the risk of exposure of hepatitis B infection among butchers sharing knives. Suggestion that in butcheries that have a hepatitis B surface antigen (HBsAg) positive worker, other employees are at high risk of hepatitis B infection; Transmission of hepatitis B virus through accidental injury by shared sharp instruments.

Published
1999
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17. Factors affecting intensive care length of stay in critically ill pediatric patients with burn injuries.

Author

Lerner RK, Gibori A, Hubara E, Sadeh T, Rubinstein M, Paret G, and Pessach IM

Subjects
Humans, Child, Male, Female, Child, Preschool, Adolescent, Israel epidemiology, Infant, Retrospective Studies, Cohort Studies, Burns therapy, Length of Stay statistics & numerical data, Intensive Care Units, Pediatric statistics & numerical data, Critical Illness
Abstract

Background: Burns in children are often complex injuries, leading to prolonged length of stay (LOS) and significant morbidity. LOS in pediatric intensive care units (PICUs) is a key measure for evaluating illness severity, clinical outcomes, and quality of care. Accurate prediction of LOS is vital for improving care planning and resource allocation. There is limited data for predicting LOS in severely burned children in PICU. This study aims to identify significant factors associated with prolonged PICU stays and offer a simple LOS-predicting model., Methods: This historical cohort study included all patients < 18 years, admitted for severe burn injuries to Israel's largest tertiary hospital PICU, from 2015 to 2020. Statistical analyses were conducted to identify factors linked to prolonged LOS and a predictive model was designed., Results: The study included 39 pediatric burn patients and identified several factors associated with longer PICU stays. Patients with LOS of ˃7 days (i.e.-"long LOS") had significantly higher %TBSA (33.11 ± 17.87% vs. 16.67 ± 7.98%, p < 0.001. During the first 24 and 48 h, the "long LOS" group had lower minimal systolic blood pressure (SBP) (70.67 ± 17.49 mmHg vs. 84.38 ± 16.73 mmHg, p = 0.015 and 69.39 mmHg ± 16.44 vs. 81.10 mmHg ± 19.67, p = 0.018). Although serum lactate levels were higher in the "long LOS" group, the difference was not significant, and platelet counts in this group were significantly lower during the first 48 h (184 K/µL vs. 264.5 K/µL, p = 0.003). A predictive model based on %TBSA, SBP, lactate, and platelet count was developed, demonstrating 100% specificity and positive predictive value for predicting LOS over 7 days in severely burned children., Conclusions: Key clinical indicators at PICU admission in severely burned children were associated with LOS > 7 days. The resulting predictive model, although requiring further validation in multi-site studies, offers a promising tool for enhancing care planning in this population., Competing Interests: Declarations. Conflict of interests: The authors declare no competing interests., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published
2024
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18. The future, before, and after: Bayesian and multivariate analyses reveal shared and unique neural mechanisms of imagining and remembering the same unique event.

Author

Raz I, Gamoran A, Nir-Cohen G, Trzewik M, Salti M, Sadeh T, and Gilead M

Subjects
Humans, Male, Female, Young Adult, Adult, Multivariate Analysis, Brain Mapping methods, Mental Recall physiology, Default Mode Network physiology, Default Mode Network diagnostic imaging, Memory, Episodic, Imagination physiology, Bayes Theorem, Magnetic Resonance Imaging methods, Brain physiology, Brain diagnostic imaging
Abstract

Research shows that the brain regions that subserve our ability to remember the past are also involved in imagining the future. Given this similarity in brain activity, it remains unclear how brain activity distinguishes imagination from memory. In the current work, we scanned participants using functional magnetic resonance imaging before and after they performed a highly unique and elaborate activity wherein they went skydiving for the first time in their lives. Multivariate pattern analysis, Bayesian inference, and a tightly controlled experimental design were used to identify the neural activity that differentiates between memory and imagination of the same events. The results showed that large swaths of the default mode network exhibited identical patterns of activity in recollection and imagination; several frontal areas were involved in imagination (but not in recollection). Representational similarity analysis revealed that the left ventral precuneus exhibited different patterns of memory and imagination. Further examination revealed that this subarea may be especially important for recollection of specific episodes. These results advance our understanding of how the critical distinction between the past and future might be manifested in the brain., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2024
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19. Detecting recollection: Human evaluators can successfully assess the veracity of others' memories.

Author

Gamoran A, Lieberman L, Gilead M, Dobbins IG, and Sadeh T

Subjects
Humans, Female, Male, Adult, Recognition, Psychology physiology, Young Adult, Memory physiology, Machine Learning, Mental Recall physiology
Abstract

Humans have the highly adaptive ability to learn from others' memories. However, because memories are prone to errors, in order for others' memories to be a valuable source of information, we need to assess their veracity. Previous studies have shown that linguistic information conveyed in self-reported justifications can be used to train a machine-learner to distinguish true from false memories. But can humans also perform this task, and if so, do they do so in the same way the machine-learner does? Participants were presented with justifications corresponding to Hits and False Alarms and were asked to directly assess whether the witness's recognition was correct or incorrect. In addition, participants assessed justifications' recollective qualities: their vividness, specificity, and the degree of confidence they conveyed. Results show that human evaluators can discriminate Hits from False Alarms above chance levels, based on the justifications provided per item. Their performance was on par with the machine learner. Furthermore, through assessment of the perceived recollective qualities of justifications, participants were able to glean more information from the justifications than they used in their own direct decisions and than the machine learner did., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published
2024
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20. Intentional forgetting needs intentional remembering.

Author

Singer A, Darchi S, Levy D, and Sadeh T

Subjects
Humans, Mental Recall physiology, Consciousness, Cues, Memory, Episodic
Abstract

Episodic memories may become suppressed, both incidentally and intentionally. Incidental suppression is a result of a competition induced by interfering items or responses. In contrast, intentional suppression is said to result from conscious attempts to suppress certain memory items, and should thus not depend on competition induced by interfering items or responses. However, intentional suppression is typically engendered using the Think/No-Think paradigm, in which participants are required to retrieve some target items and to suppress others. Therefore, rather than intentional suppression, forgetting in this paradigm may reflect incidental suppression of No-Think items induced by interference via prior retrieval of the Think items. To distinguish between these possibilities, we tested participants ( n = 40) using an adjusted suppression paradigm, which did not include the Think condition (ExcludeThink paradigm) and compared it with the standard suppression paradigm (IncludeThink paradigm; n = 39) which included a think condition. We found that suppression was not observed in the ExcludeThink paradigm, but only in the IncludeThink paradigm. These results indicate that interference via prior retrieval is necessary to induce forgetting. (PsycInfo Database Record (c) 2024 APA, all rights reserved).

Published
2024
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21. Retrieval of temporal structure at recall can occur automatically.

Author

Sadeh T and Moscovitch M

Subjects
Humans, Attention, Mental Recall, Memory, Episodic
Abstract

Temporal-structure, namely, the order in which events unfold over time, is one of the fundamental principles of episodic memory organization. A seminal empirical demonstration of the prominence of temporal structure in memory organization is the Temporal Contiguity Effect (TCE), whereby the proximity between two items at encoding predicts the likelihood of those two items being retrieved consecutively during recall. Recent studies have found that TCE occurs under a wide variety of conditions in which strategic control processes at encoding are reduced or even eliminated. This suggests that the encoding of temporal structure occurs automatically. Extending these findings, in the current study we asked whether the retrieval of temporal structure, as reflected by indices of the TCE, is influenced by strategic control processes at retrieval. To manipulate participants' ability to rely on strategic control processes, we compared standard recall performance (Full Attention condition) to a condition in which attention was divided between recall and a concurrent task (Divided Attention condition), which has been shown to disrupt such control processes. Across two experiments-one with standard encoding conditions and one with continual distraction during encoding-we found no differences in any index of the TCE between the two conditions. These results are all the more striking considering that in both experiments, dividing attention negatively affected overall recall performance compared to the Full Attention condition. Thus, while recall performance is reduced when disrupting strategic processes, the ability to use temporal structure to drive recall is not affected., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published
2024
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22. Contextual reinstatement affects semantic organization.

Author

Vaknin D, Raz-Groman Z, Scheuer A, and Sadeh T

Abstract

The Context Dependency Effect is the well-established finding in which memory performance is enhanced under conditions in which the encoding and retrieval contexts overlap (i.e., Same-Context) and diminished when the overlap between encoding and retrieval contexts is low (i.e., Different-Context). Despite much research on context-dependent memory, most prior work examined only mean performance levels. The current experiment examined the influence of context change, manipulated by using three different pieces of background music, on semantic organization during free recall. Recall driven by semantic organization captures an important, ecologically valid aspect of memory retrieval: because narratives of real-life events are typically comprised of semantically related concepts (e.g., "sea," "bathing suit," and "sand" when recalling a trip to the beach), their recall is likely driven by semantic organization. Participants in the current study were tested in the same or different context as the material was learned. The results showed that although the mean number of correctly recalled items was numerically greater in the Same-Context condition compared to the Different-Context condition, the Context Dependency Effect was not significant. In contrast, however, semantic clustering-an established measure of semantic organization-was greater in the Different-Context condition compared to the Same-Context condition. Together, these results suggest that when contextual cues at recall are relatively meager, participants instead use semantic information as cues to guide memory retrieval. In line with previous findings, temporal organization, patterns of errors, and serial position analyses showed no differences between the two context conditions. The present experiment provides novel evidence on how external context change affects recall organization., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Vaknin, Raz-Groman, Scheuer and Sadeh.)

Published
2023
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23. Thrombocytopenia and Bloodstream Infection: Incidence and Implication on Length of Stay in the Pediatric Intensive Care Unit.

Author

Kassif Lerner R, Levinkopf D, Zaslavsky Paltiel I, Sadeh T, Rubinstein M, Pessach IM, Keller N, Lerner-Geva L, and Paret G

Abstract

The incidence and prognosis of thrombocytopenia in critically ill patients with bloodstream infection (BSI) is not well delineated in the pediatric intensive care unit (PICU) setting. We assessed these variables in our PICU and sought to determine whether thrombocytopenia could serve as a prognostic marker for length of stay (LOS). The study was conducted at the medical PICU of a university hospital, on all critically ill pediatric patients consecutively admitted during a 3-year period. Patient surveillance and data collection have been used to identify the risk factors during the study period. The main outcomes were BSI incidence and implication on morbidity and LOS. Data from 2,349 PICU patients was analyzed. The overall incidence of BSI was 3.9% (93/2,349). Overall, 85 of 93 patients (91.4%) with BSI survived and 8 patients died (8.6% mortality rate). The overall incidence of thrombocytopenia among these 93 patients was 54.8% (51/93) and 100% (8/8) for the nonsurvivors. Out of the 85 survivors, 27 thrombocytopenic patients were hospitalized for >14 days versus 14 of nonthrombocytopenic patients ( p  = 0.007). Thrombocytopenia was associated with borderline significance with an increased LOS (adjusted odds ratio = 3.00, 95% confidence interval: 0.93-9.71, p  = 0.066). Thrombocytopenia is common in critically ill pediatric patients with BSI and constitutes a simple and readily available risk marker for PICU LOS., Competing Interests: Conflict of Interest None declared., (Thieme. All rights reserved.)

Published
2021
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24. It's about time: Delay-dependent forgetting of item- and contextual-information.

Author

Gamoran A, Greenwald-Levin M, Siton S, Halunga D, and Sadeh T

Subjects
Hippocampus, Humans, Memory, Memory, Long-Term, Mental Recall, Recognition, Psychology
Abstract

Once fiercely rejected, the notion of delay-dependent forgetting from long-term memory has recently resurfaced. By this notion, the duration of the study-test delay predicts the magnitude of memory degradation. Our Representation Theory of Forgetting adopts the notion of delay-dependent forgetting, alongside interference due to similarity of representations as an additional cause of forgetting-rather than its sole cause, as has been largely argued in the past. This theory maintains that the causes of forgetting depend on the underlying memory representations. Because hippocampus-based memory representations are relatively distinct from one another, by the virtue of being associated with distinct contexts, they are not as likely as non-hippocampus representations to be forgotten due to interference from similar memories. Instead, as neurobiological evidence suggests, these representations may be forgotten over the passage of time. Thus, contextual-information should be particularly sensitive to delay-dependent forgetting in comparison to item-information. In the current study we tested this hypothesis by comparing the effects of short study-test delay (~2 min) to long delay (~15 min) on forgetting. In three experiments using three different memory paradigms, we obtained various measures of item- and contextual-information. Results converged to support our predictions: whereas most measures of contextual-information showed forgetting over time, item-information was less affected by delay and, at times, was not affected at all. Finally, different patterns of time-dependent forgetting of contextual-information were observed in recall and recognition, in line with the different roles of context in these tests. Our results provide novel evidence for the specific effects of delay on hippocampus-based, contextual memory representations., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2020
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25. Scale-invariant Characteristics of Forgetting: Toward a Unifying Account of Hippocampal Forgetting across Short and Long Timescales.

Author

Sadeh T and Pertzov Y

Subjects
Humans, Memory, Long-Term, Mental Recall, Models, Neurological, Hippocampus physiology, Memory physiology, Time Factors
Abstract

After over 100 years of relative silence in the cognitive literature, recent advances in the study of the neural underpinnings of memory-specifically, the hippocampus-have led to a resurgence of interest in the topic of forgetting. This review draws a theoretically driven picture of the effects of time on forgetting of hippocampus-dependent memories. We review evidence indicating that time-dependent forgetting across short and long timescales is reflected in progressive degradation of hippocampal-dependent relational information. This evidence provides an important extension to a growing body of research accumulated in recent years, showing that-in contrast to the once prevailing view that the hippocampus is exclusively involved in memory and forgetting over long timescales-the role of the hippocampus also extends to memory and forgetting over short timescales. Thus, we maintain that similar rules govern not only remembering but also forgetting of hippocampus-dependent information over short and long timescales.

Published
2020
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26. Explicit Sequence Memory in Recall of Temporally-structured Episodes.

Author

Stern Y, Katz R, and Sadeh T

Abstract

The order in which events unfold over time is an important scaffold aiding recollection. This study asks whether explicit order memory is enhanced for items sharing similar internally-driven temporal contexts. To tap internally-driven temporal context, we capitalized on the Temporal Contiguity Effect whereby recollection of one item promotes recall of adjacently-encoded items. We compared pairs encoded and retrieved contiguously (cont-enc-ret), whose items share internally-driven temporal contexts, to pairs retrieved, but not encoded, contiguously (cont-ret) and to pairs encoded, but not retrieved, contiguously (cont-enc). Cont-enc-ret pairs exhibited superior relative order over cont-ret pairs, supporting accounts emphasizing shared temporal context as opposed to temporal distinctiveness in driving sequence memory. No difference was found in absolute order between the pair types, in line with theories suggesting a dissociation between relative and absolute order. Additionally, cont-enc-ret and cont-enc pairs exhibited equivalent relative order, supporting the role of encoding as opposed to retrieval in the enhancement of relative order. Finally, cont-enc-ret pairs were perceived as closer than cont-enc pairs, supporting the claim that cont-enc-ret pairs constitute part of a temporally-coherent episode. Together, these results implicate internally-driven temporal context in the formation of temporally-structured episodes that enhances sequence memory of the items within the episode.

Published
2020
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27. Recalling the firedog: Individual differences in associative memory for unitized and nonunitized associations among older adults.

Author

Sadeh T, Dang C, Gat-Lazer S, and Moscovitch M

Subjects
Aged, Aged, 80 and over, Female, Humans, Male, Middle Aged, Neuropsychological Tests, Aging psychology, Association, Hippocampus physiopathology, Individuality, Memory Disorders psychology, Mental Recall physiology
Abstract

Memory deficits in aging are characterized by impaired hippocampus-mediated relational binding-the formation of links between items in memory. By reducing reliance on relational binding, unitization of two items into one concept enhances associative recognition among older adults. Can a similar enhancement be obtained when probing memory with recall? This question has yet to be examined, because recall has been assumed to rely predominantly on relational binding. Inspired by recent evidence challenging this assumption, we investigated individual differences in older adults' recall of unitized and nonunitized associations. Compared with successfully aging individuals, older adults with mild memory deficits, typically mediated by the hippocampus, were impaired in recall of paired-associates in a task which relies on relational binding (study: "PLAY-TUNNEL"; test: PLAY-T?). In stark contrast, the two groups showed similar performance when items were unitized into a novel compound word (study: "LOVEGIGGLE"; test: LOVEG?). Thus, boosting nonrelational aspects of recall enhances associative memory among aging individuals with subtle memory impairments to comparable levels as successfully aging older adults., (© 2019 Wiley Periodicals, Inc.)

Published
2020
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28. Fluency: A trigger of familiarity for relational representations?

Author

Sadeh T

Subjects
Humans, Memory Disorders, Mental Recall, Social Perception, Memory, Recognition, Psychology
Abstract

According to Bastin et al.'s integrative memory model, familiarity may be attributed to both entity representations and relational representations. However, the model does not specify what triggers familiarity for relational representations. I argue that fluency is a key player in the attribution of familiarity regardless of the type of representation. Two lines of evidence are reviewed in support of my claim.

Published
2020
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29. Overlap between hippocampal pre-encoding and encoding patterns supports episodic memory.

Author

Sadeh T, Chen J, Goshen-Gottstein Y, and Moscovitch M

Subjects
Adult, Brain Mapping, Female, Hippocampus diagnostic imaging, Humans, Magnetic Resonance Imaging, Male, Mental Recall physiology, Nerve Net physiology, Photic Stimulation, Psychomotor Performance physiology, Reading, Young Adult, Hippocampus physiology, Memory physiology, Memory, Episodic
Abstract

It is well-established that whether the information will be remembered or not depends on the extent to which the learning context is reinstated during post-encoding rest and/or at retrieval. It has yet to be determined, however, if the fundamental importance of contextual reinstatement to memory extends to periods of spontaneous neurocognitive activity prior to learning. We thus asked whether memory performance can be predicted by the extent to which spontaneous pre-encoding neural patterns resemble patterns elicited during encoding. Individuals studied and retrieved lists of words while undergoing fMRI-scanning. Multivoxel hippocampal patterns during resting periods prior to encoding resembled hippocampal patterns at encoding most strongly for items that were subsequently remembered. Furthermore, across subjects, the magnitude of similarity correlated with a behavioral measure of episodic recall. The results indicate that the neural context before learning is an important determinant of memory., (© 2019 Wiley Periodicals, Inc.)

Published
2019
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30. [PLATELETS FUNCTION IN A DROP OF BLOOD: FLOW CYTOMETRY ANALYSIS COMPARED TO PLATELET AGGREGATION].

Author

Hauschner H, Katz T, Beigel R, Matetzky S, Sadeh T, Strauss Z, Kenet G, and Rosenberg N

Subjects
Adenosine Diphosphate, Humans, Platelet Aggregation Inhibitors, Ticlopidine, Blood Platelets, Flow Cytometry, Platelet Aggregation
Abstract

Introduction: Light transmission aggregometry (LTA) is the most commonly used test for the diagnosis of platelet function disorders, but requires large amounts of blood samples and normal platelet count., Objectives: To compare flow cytometric (FC) platelet function testing to standard LTA in the general population, in patients treated with anti-platelets drugs and in term and preterm neonates., Methods: Platelet function was assessed with LTA and FC using PAC1 binding and p-selectin expression, as platelet activation markers, in response to agonist activation. A comparison between LTA and FC was performed in a Clopidogrel treated patient, before and after (24 and 72 hours) loading the drug. The platelet activation markers PAC1 and p-selectin, were compared in umbilical cord blood samples of in-term and preterm neonates., Results: ADP-induced platelet aggregation was comparable to p-selectin expression assayed by FC (r=0.79-0.86) as measured before and after Clopidogrel loading. Both tests showed good response to Clopidogrel in 72 hours but not in 24 hours after its loading. Preterm cord blood platelets showed decreased ADP-induced activation in both activation markers: PAC1 and p-selectin, but only p-selectin reached statistical significance. We identified possible platelet activation markers in response to commonly used agonists' stimulation for FC analysis., Conclusions: FC analysis of platelet function has added value in the diagnosis of impaired platelet function and anti-platelet drug response. Using FC enables us to test platelet function in minimal blood volume and regardless of platelet count. Identification of the unique activation marker for each agonist is prerequisite for FC analysis of platelet function.

Published
2019

31. A Remember/Know Examination of Free-recall Reveals Dissociative Roles of Item- and Context-Information over Time.

Author

Sadeh T, Moran R, Stern Y, and Goshen-Gottstein Y

Subjects
Adult, Female, Humans, Male, Memory and Learning Tests, Young Adult, Judgment physiology, Mental Recall physiology, Recognition, Psychology physiology
Abstract

It is well-established that the ability to freely recall information is driven by the extent to which the context at encoding is reinstated at retrieval. Still, when asked to judge the subjective quality of one's memories giving Remember/Know (R/K) judgments, people tend to classify a substantial proportion of recalls as being devoid of context. We suggest that R- and K-recalls differ with regard to their reliance on context- and item-information, with R-recalls driven primarily by contextual-information (e.g., associations evoked by the study-items) and K-recalls driven primarily by information pertaining to the items (e.g., semantic information). Memory was tested both immediately after study and in a final free-recall test conducted ~20 minutes after encoding-a timescale which is akin to real-life events. In line with our predictions, as compared to K-recalls, R-recalls show stronger contextual effects, but similarly strong item-related effects over these timescales. Furthermore, drawing on theories regarding the forgetting of item- and contextual information, we hypothesized and found that R- and K-recalls are differentially affected by the passage of time. Our findings provide several converging pieces of evidence for differential roles of item and contextual information in driving recall and thus highlight the need to extend longstanding theories of free-recall to account for cases in which recall relies less on context.

Published
2018
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32. Forgetting Patterns Differentiate Between Two Forms of Memory Representation.

Author

Sadeh T, Ozubko JD, Winocur G, and Moscovitch M

Subjects
Adult, Humans, Young Adult, Memory, Episodic, Mental Recall physiology, Recognition, Psychology physiology
Abstract

For decades, there has been controversy about whether forgetting is caused by decay over time or by interference from irrelevant information. We suggest that forgetting occurs because of decay or interference, depending on the memory representation. Recollection-based memories, supported by the hippocampus, are represented in orthogonal patterns and are therefore relatively resistant to interference from one another. Decay should be a major source of their forgetting. By contrast, familiarity-based memories, supported by extrahippocampal structures, are not represented in orthogonal patterns and are therefore sensitive to interference. In a study in which we manipulated the postencoding task-interference level and the length of the delay between study and testing, we provide direct evidence in support of our representation theory of forgetting. Recollection and familiarity were measured using the remember/know procedure. We show that the causes of forgetting depend on the nature of the underlying memory representation, which places the century-old puzzle of forgetting in a coherent framework., (© The Author(s) 2016.)

Published
2016
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33. When items 'pop into mind': variability in temporal-context reinstatement in free-recall.

Author

Sadeh T, Moran R, and Goshen-Gottstein Y

Subjects
Adult, Female, Humans, Male, Time Factors, Young Adult, Mental Recall physiology, Recognition, Psychology physiology
Abstract

It is well established that performance in free-recall is mediated by an individual's ability to reinstate the study-context during retrieval. This notion is supported by an abundance of evidence and is reflected in prominent models of memory. Introspectively, however, we often feel that a memory just 'pops into mind' and its recall is not accompanied by contextual detail. Here we ask whether this introspection is honored by the cognitive system. Namely, do items one recalls vary in the extent to which their contexts are reinstated? Previous research has provided evidence that indeed recall of some items relies on only little, if any, contextual reinstatement. This evidence pertains to one aspect of context: the concurrent, static encoding context of items, as tapped by the source-memory paradigm. However, because real-life events are strongly embedded in time, it is crucial to also investigate the dynamic, temporal aspects of context. To do so, we capitalized on one of the seminal findings linking recall with temporal-context: the temporal-contiguity effect, whereby the closer two items at study, the higher the probability that they will be retrieved one after the other during test. Using the Remember/Know paradigm, we show that in free-recall, 'Remember' retrievals, which are supposedly accompanied by contextual reinstatement, produce a larger temporal-contiguity effect as compared to 'Know' retrievals. Furthermore, 'Know' retrievals are more likely to be followed by retrieval errors (e.g., intrusions) than 'Remember' retrievals. These findings provide evidence that recalled items vary in the degree to which their temporal-context is reinstated.

Published
2015
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34. How we forget may depend on how we remember.

Author

Sadeh T, Ozubko JD, Winocur G, and Moscovitch M

Subjects
Humans, Hippocampus physiology, Mental Recall physiology, Recognition, Psychology physiology
Abstract

Recent developments reveal that memories relying on the hippocampus are relatively resistant to interference, but sensitive to decay. The hippocampus is vital to recollection, a form of memory involving reinstatement of a studied item within its spatial-temporal context. An additional form of memory known as familiarity does not involve contextual reinstatement, but a feeling of acquaintance with the studied items. Familiarity depends more on extrahippocampal structures that do not have the properties promoting resistance to interference. These notions led to the novel hypothesis that the causes of forgetting depend on the memories' nature: memories depending on recollection are more vulnerable to decay than interference, whereas for memories depending on familiarity, the reverse is true. This review provides comprehensive evidence for this hypothesis., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2014
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35. Encoding-related brain activity dissociates between the recollective processes underlying successful recall and recognition: a subsequent-memory study.

Author

Sadeh T, Maril A, and Goshen-Gottstein Y

Subjects
Adult, Analysis of Variance, Cues, Echo-Planar Imaging, Female, Hippocampus physiology, Humans, Image Processing, Computer-Assisted, Linear Models, Male, Parahippocampal Gyrus physiology, Psychomotor Performance physiology, Young Adult, Brain physiology, Memory physiology, Mental Recall physiology, Recognition, Psychology physiology
Abstract

The subsequent-memory (SM) paradigm uncovers brain mechanisms that are associated with mnemonic activity during encoding by measuring participants' neural activity during encoding and classifying the encoding trials according to performance in the subsequent retrieval phase. The majority of these studies have converged on the notion that the mechanism supporting recognition is mediated by familiarity and recollection. The process of recollection is often assumed to be a recall-like process, implying that the active search for the memory trace is similar, if not identical, for recall and recognition. Here we challenge this assumption and hypothesize - based on previous findings obtained in our lab - that the recollective processes underlying recall and recognition might show dissociative patterns of encoding-related brain activity. To this end, our design controlled for familiarity, thereby focusing on contextual, recollective processes. We found evidence for dissociative neurocognitive encoding mechanisms supporting subsequent-recall and subsequent-recognition. Specifically, the contrast of subsequent-recognition versus subsequent-recall revealed activation in the Parahippocampal cortex (PHc) and the posterior hippocampus--regions associated with contextual processing. Implications of our findings and their relation to current cognitive models of recollection are discussed., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published
2012
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36. Putting Humpty together and pulling him apart: accessing and unbinding the hippocampal item-context engram.

Author

Sadeh T, Maril A, Bitan T, and Goshen-Gottstein Y

Subjects
Brain physiology, Female, Humans, Male, Models, Neurological, Hippocampus physiology, Magnetic Resonance Imaging, Mental Recall physiology, Recognition, Psychology physiology
Abstract

A remarkable act of memory entails binding different forms of information. We focus on the timeless question of how the bound engram is accessed such that its component features-item and context-are extracted. To shed light on this question, we investigate the dynamics between brain structures that together mediate the binding and extraction of item and context. Converging evidence has implicated the Parahippocampal cortex (PHc) in contextual processing, the Perirhinal cortex (PRc) in item processing, and the hippocampus in item-context binding. Effective connectivity analysis was conducted on fMRI data gathered during retrieval on tests that differ with regard to the to-be-extracted information. Results revealed that recall is initiated by context-related PHc activity, followed by hippocampal item-context engram activation, and completed with retrieval of the study-item by the PRc. The reverse path was found for recognition. We thus provide novel evidence for dissociative patterns of item-context unbinding during retrieval., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published
2012
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37. Event congruency and episodic encoding: a developmental fMRI study.

Author

Maril A, Avital R, Reggev N, Zuckerman M, Sadeh T, Ben Sira L, and Livneh N

Subjects
Adult, Analysis of Variance, Child, Color Perception physiology, Female, Hippocampus physiology, Humans, Image Processing, Computer-Assisted, Imagination physiology, Judgment, Magnetic Resonance Imaging, Male, Occipital Lobe physiology, Prefrontal Cortex physiology, Psychomotor Performance physiology, Recognition, Psychology physiology, Temporal Lobe physiology, Young Adult, Aging physiology, Aging psychology, Memory physiology, Semantics
Abstract

A known contributor to adults' superior memory performance compared to children is their differential reliance on an existing knowledge base. Compared to those of adults, children's semantic networks are less accessible and less established, a difference that is also thought to contribute to children's relative resistance to semantically related false alarms. Using the "congruency effect" - the memory advantage of congruity, we manipulated the encoded stimuli in the present experiment such that the use of the knowledge base at encoding was more - or less - accessible in both children and adults. While being scanned, 15 children (ages 8-11) and 18 young adults saw printed noun/color combinations and were asked to indicate whether each combination existed in nature. A subsequent recognition test was administered outside of the scanner. Behaviorally, although overall memory was higher in the adult group compared to the children, both age groups showed the congruency effect to the same extent. A comparison of the neural substrates supporting the congruency effect between adults and children revealed that whereas adults recruited regions primarily associated with semantic-conceptual processing (e.g., the left PFC and parietal and occipito-temporal cortices), children recruited regions earlier in the processing stream (e.g., the right occipital cortex). This evidence supports the hypothesis that early in development, episodic encoding depends more on perceptual systems, whereas top-down frontal control and parietal structures become more prominent in the encoding process with age. This developmental switch contributes to adults' superior memory performance but may render adults more vulnerable to committing semantically based errors., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published
2011
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38. Cooperation between the hippocampus and the striatum during episodic encoding.

Author

Sadeh T, Shohamy D, Levy DR, Reggev N, and Maril A

Subjects
Adult, Antigens, Viral, Brain Mapping methods, Female, Humans, Learning physiology, Male, Neural Pathways physiology, Young Adult, Corpus Striatum cytology, Corpus Striatum physiology, Hippocampus cytology, Hippocampus physiology, Mental Recall physiology
Abstract

The hippocampus and the striatum are thought to play distinct roles in learning and memory, each supporting an independent memory system. A fundamental question is whether, and how, these systems interact to jointly contribute to learning and memory. In particular, it remains unknown whether the striatum contributes selectively to implicit, habitual learning, or whether the striatum may also contribute to long-term episodic memory. Here, we show with functional magnetic resonance imaging (fMRI) that the hippocampus and the striatum interact cooperatively to support episodic memory formation. Participants were scanned during a memory encoding paradigm and, subsequently, were tested for memory of encoded items. fMRI data revealed that successful memory was associated with greater activity in both the hippocampus and the striatum (putamen) during encoding. Furthermore, activity in the hippocampus and the striatum was correlated within subjects for items that were later remembered, but not for items that were forgotten. Finally, across subjects, the strength of the correlation between the hippocampus and the striatum predicted memory success. These findings provide novel evidence for contributions of both the striatum and the hippocampus to successful episodic encoding and for a cooperative interaction between them.

Published
2011
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