3,565 research outputs found
On balanced planar graphs, following W. Thurston
Let be an orientation-preserving branched covering map of
degree , and let be an oriented Jordan curve passing through
the critical values of . Then is an oriented graph
on the sphere. In a group email discussion in Fall 2010, W. Thurston introduced
balanced planar graphs and showed that they combinatorially characterize all
such , where has distinct critical values. We give a
detailed account of this discussion, along with some examples and an appendix
about Hurwitz numbers.Comment: 17 page
STAT3 Genotypic Variant rs744166 and Increased Tyrosine Phosphorylation of STAT3 in IL-23 Responsive Innate Lymphoid Cells during Pathogenesis of Crohn\u27s Disease
Crohn\u27s disease (CD) results from dysregulated immune responses to gut microbiota in genetically susceptible individuals, affecting multiple areas of the gastrointestinal tract. Innate lymphoid cells (ILCs) are tissue-resident innate effector lymphocytes which play crucial roles in mucosal immune defense, tissue repair, and maintenance of homeostasis. The accumulation of IFN-γ-producing ILC1s and increased level of proinflammatory cytokines produced by ILCs has been observed in the inflamed terminal ileum of CD patients. To date, the precise mechanisms of ILC plasticity and gene regulatory pathways in ILCs remain unclear. Signal transducer and activator of transcription 3 (STAT3) regulates gene expression in a cell-specific, cytokine-dependent manner, involving multiple immune responses. This study proposes the positive correlation between the prevalence of STAT3 rs744166 risky allele A with the severity of disease in a cohort of 94 CD patients. In addition, the results suggest an increased STAT3 activity in the inflamed ileum of CD patients, compared to unaffected ileum sections. Notably, IL-23 triggers the differentiation of CD117+NKp44- ILC3s and induces the activation of STAT3 in both CD117+NKp44- and CD117-NKp44- ILC subsets, implying the involvement of STAT3 in the initiation of ILC plasticity. Moreover, carriage of STAT3 A risk allele exhibited a higher basal level of STAT3 tyrosine phosphorylation, and an increased IL-23 triggered the pSTAT3 level. We also demonstrated that there was no delayed dephosphorylation of STAT3 in ILCs of both A/A and G/G donors. Overall, the results of this study suggest that IL-23-induced activation of STAT3 in the CD117-NKp44- ILC1s involves in ILC1-to-ILC3 plasticity and a potential regulatory role of ILC1 function. Those genetically susceptible individuals carried STAT3 rs744166 risky allele appear to have higher basal and cytokine-stimulated activation of STAT3 signal, leading to prolonged inflammation and chronic relapse
Operating theatre time, where does it all go? A prospective observational study
Objective To assess the accuracy of surgeons and anaesthetists in predicting the time it will take them to complete an operation or procedure and therefore explain some of the difficulties encountered in operating theatre scheduling.
Design Single centre, prospective observational study.
Setting Plastic, orthopaedic, and general surgical operating theatres at a level 1 trauma centre serving a population of about 370 000.
Participants 92 operating theatre staff including surgical consultants, surgical registrars, anaesthetic consultants, and anaesthetic registrars.
Intervention Participants were asked how long they thought their procedure would take. These data were compared with actual time data recorded at the end of the case.
Primary outcome measure Absolute difference between predicted and actual time.
Results General surgeons underestimated the time required for the procedure by 31 minutes (95% confidence interval 7.6 to 54.4), meaning that procedures took, on average, 28.7% longer than predicted. Plastic surgeons underestimated by 5 minutes (−12.4 to 22.4), with procedures taking an average of 4.5% longer than predicted. Orthopaedic surgeons overestimated by 1 minute (−16.4 to 14.0), with procedures taking an average of 1.1% less time than predicted. Anaesthetists underestimated by 35 minutes (21.7 to 48.7), meaning that, on average, procedures took 167.5% longer than they predicted. The four specialty mean time overestimations or underestimations are significantly different from each other (P=0.01). The observed time differences between anaesthetists and both orthopaedic and plastic surgeons are significantly different (P<0.05), but the time difference between anaesthetists and general surgeons is not significantly different.
Conclusion The inability of clinicians to predict the necessary time for a procedure is a significant cause of delay in the operating theatre. This study suggests that anaesthetists are the most inaccurate and highlights the potential differences between specialties in what is considered part of the “anaesthesia time.
Axiomatic Interpretability for Multiclass Additive Models
Generalized additive models (GAMs) are favored in many regression and binary
classification problems because they are able to fit complex, nonlinear
functions while still remaining interpretable. In the first part of this paper,
we generalize a state-of-the-art GAM learning algorithm based on boosted trees
to the multiclass setting, and show that this multiclass algorithm outperforms
existing GAM learning algorithms and sometimes matches the performance of full
complexity models such as gradient boosted trees.
In the second part, we turn our attention to the interpretability of GAMs in
the multiclass setting. Surprisingly, the natural interpretability of GAMs
breaks down when there are more than two classes. Naive interpretation of
multiclass GAMs can lead to false conclusions. Inspired by binary GAMs, we
identify two axioms that any additive model must satisfy in order to not be
visually misleading. We then develop a technique called Additive
Post-Processing for Interpretability (API), that provably transforms a
pre-trained additive model to satisfy the interpretability axioms without
sacrificing accuracy. The technique works not just on models trained with our
learning algorithm, but on any multiclass additive model, including multiclass
linear and logistic regression. We demonstrate the effectiveness of API on a
12-class infant mortality dataset.Comment: KDD 201
From Art Introspection to Selfie Co-creation: Looking for Clues from O’Doherty’s “Inside The White Cube” to Improve Evaluation and Design in the Attention-Experience Economy
This practice-based research is a visitor experience engagement framework applied in cultural institutions. We revisit O’Doherty`s (1999) Inside the White Cube as a lens to the attention-experience economy. The White Cube precedes digital technology and 24/7 contemporaneous experiences. What principles derived from the ‘White Cube’ inform contemporary experience consumption? How are designers to consider stakeholder experiences in cultural institutions? We employ contextual analysis and experience researcher introspection including people, place, objects, rules, relationships, and blocking mapped with ‘White Cube’ ideology. We document a table informed by white cube themes for the future visitor engagement framework for cultural institutions
The Antiferroelectric ↔ Ferroelectric Phase Transition in Lead-Containing and Lead-Free Perovskite Ceramics
A comprehensive review on the latest development of the antiferroelectric ferroelectric phase transition is presented. The abrupt volume expansion and sudden development of polarization at the phase transition has been extensively investigated in PbZrO3-based perovskite ceramics. New research developments in these compositions, including the incommensurate domain structure, the auxetic behavior under electric fields in the induced ferroelectric phase, the ferroelastic behavior of the multicell cubic phase, the impact of radial compression, the unexpected electric field-induced ferroelectric-to-antiferroelectric transition, and the phase transition mechanical toughening effect have been summarized. Due to their significance to lead-free piezoelectric ceramics, compounds with antiferroelectric phases, including NaNbO3, AgNbO3, and (Bi1/2Na1/2)TiO3, are also critically reviewed. Focus has been placed on the (Bi1/2Na1/2)TiO3–BaTiO3 solid solution where the electric field-induced ferroelectric phase remains even after the applied field is removed at room temperature. Therefore, the electric field-induced antiferroelectric-to-ferroelectric phase transition is a key to the poling process to develop piezoelectricity in morphotropic phase boundary (MPB) compositions. The competing phase transition and domain switching processes in 0.93(Bi1/2Na1/2)TiO3–0.07BaTiO3 are directly imaged with nanometer resolution using the unique in situ transmission electron microscopy (TEM) technique
Geodesic Mode Connectivity
Mode connectivity is a phenomenon where trained models are connected by a
path of low loss. We reframe this in the context of Information Geometry, where
neural networks are studied as spaces of parameterized distributions with
curved geometry. We hypothesize that shortest paths in these spaces, known as
geodesics, correspond to mode-connecting paths in the loss landscape. We
propose an algorithm to approximate geodesics and demonstrate that they achieve
mode connectivity.Comment: Published as a TinyPaper at ICLR 202
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