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151. Geophysical Observations of the 2023 September 24 OSIRIS-REx Sample Return Capsule Reentry

Author

Elizabeth A. Silber, Daniel C. Bowman, Chris G. Carr, David P. Eisenberg, Brian R. Elbing, Benjamin Fernando, Milton A. Garcés, Robert Haaser, Siddharth Krishnamoorthy, Charles A. Langston, Yasuhiro Nishikawa, Jeremy Webster, Jacob F. Anderson, Stephen Arrowsmith, Sonia Bazargan, Luke Beardslee, Brant Beck, Jordan W. Bishop, Philip Blom, Grant Bracht, David L. Chichester, Anthony Christe, Jacob Clarke, Kenneth Cummins, James Cutts, Lisa Danielson, Carly Donahue, Kenneth Eack, Michael Fleigle, Douglas Fox, Ashish Goel, David Green, Yuta Hasumi, Chris Hayward, Dan Hicks, Jay Hix, Stephen Horton, Emalee Hough, David P. Huber, Madeline A. Hunt, Jennifer Inman, S. M. Ariful Islam, Jacob Izraelevitz, Jamey D. Jacob, James Johnson, Real J. KC, Attila Komjathy, Eric Lam, Justin LaPierre, Kevin Lewis, Richard D. Lewis, Patrick Liu, Léo Martire, Meaghan McCleary, Elisa A. McGhee, Ipsita Mitra, Amitabh Nag, Luis Ocampo Giraldo, Karen Pearson, Mathieu Plaisir, Sarah K. Popenhagen, Hamid Rassoul, Miro Ronac Giannone, Mirza Samnani, Nicholas Schmerr, Kate Spillman, Girish Srinivas, Samuel K. Takazawa, Alex Tempert, Reagan Turley, Cory Van Beek, Loïc Viens, Owen A. Walsh, Nathan Weinstein, Robert White, Brian Williams, Trevor C. Wilson, Shirin Wyckoff, Masa-yuki Yamamoto, Zachary Yap, Tyler Yoshiyama, and Cleat Zeiler

Subjects
Meteors, Meteoroids, Solar system, Planetary atmospheres, Planetary science, Remote sensing, Astronomy, QB1-991
Abstract

Sample return capsules (SRCs) entering Earth’s atmosphere at hypervelocity from interplanetary space are a valuable resource for studying meteor phenomena. The 2023 September 24 arrival of the Origins, Spectral Interpretation, Resource Identification, and Security-Regolith Explorer SRC provided an unprecedented chance for geophysical observations of a well-characterized source with known parameters, including timing and trajectory. A collaborative effort involving researchers from 16 institutions executed a carefully planned geophysical observational campaign at strategically chosen locations, deploying over 400 ground-based sensors encompassing infrasound, seismic, distributed acoustic sensing, and Global Positioning System technologies. Additionally, balloons equipped with infrasound sensors were launched to capture signals at higher altitudes. This campaign (the largest of its kind so far) yielded a wealth of invaluable data anticipated to fuel scientific inquiry for years to come. The success of the observational campaign is evidenced by the near-universal detection of signals across instruments, both proximal and distal. This paper presents a comprehensive overview of the collective scientific effort, field deployment, and preliminary findings. The early findings have the potential to inform future space missions and terrestrial campaigns, contributing to our understanding of meteoroid interactions with planetary atmospheres. Furthermore, the data set collected during this campaign will improve entry and propagation models and augment the study of atmospheric dynamics and shock phenomena generated by meteoroids and similar sources.

Published
2024
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152. Towards sub-10 nm spatial resolution by tender X-ray ptychographic coherent diffraction imaging

Author

Nozomu Ishiguro, Fusae Kaneko, Masaki Abe, Yuki Takayama, Junya Yoshida, Taiki Hoshino, Shuntaro Takazawa, Hideshi Uematsu, Yuhei Sasaki, Naru Okawa, Keichi Takahashi, Hiroyuki Takizawa, Hiroyuki Kishimoto, and Yukio Takahashi

Subjects
ptychographic coherent diffraction imaging, tender X-ray, synchrotron radiation, Physics, QC1-999
Abstract

As the first experiment at BL10U in NanoTerasu, tender X-ray ptychographic coherent diffraction imaging (PCDI) was conducted using a photon energy of 3.5 keV. The ptychographic diffraction patterns from a 200 nm thick Ta test chart and a micrometer-sized particle of sulfurized polymer were collected. Subsequently, phase images were reconstructed with resolutions of sub-20 nm and sub-50 nm, respectively. In the near future, tender X-ray PCDI with sub-10 nm resolution is anticipated to potentially revolutionize the visualization of nanoscale structures and chemical states in various functional materials composed of light elements.

Published
2024
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155. On a reduction of the weighted induced bipartite subgraph problem to the weighted independent set problem

Author

Takazawa, Yotaro and Mizuno, Shinji

Subjects
Computer Science - Discrete Mathematics, Mathematics - Combinatorics
Abstract

We study the weighted induced bipartite subgraph problem (WIBSP). The goal of WIBSP is, given a graph and nonnegative weights for the nodes, to find a set W of nodes with the maximum total weight such that a subgraph induced by W is bipartite. WIBSP is also referred as to the graph bipartization problem or the odd cycle transversal problem. In this paper, we show that WIBSP can be reduced to the weighted independent set problem (WISP) where the number of nodes becomes twice and the maximum degree increase by 1. WISP is a well-studied combinatorial optimization problem. Thus, by using the reduction and results about WISP, we can obtain nontrivial approximation and exact algorithms for WIBSP.

Published
2018

156. M-convexity of the minimum-cost packings of arborescences

Author

Takazawa, Kenjiro

Subjects
Mathematics - Combinatorics, Computer Science - Discrete Mathematics
Abstract

The aim of this paper is to reveal the discrete convexity of the minimum-cost packings of arborescences and branchings. We first prove that the minimum-cost packings of disjoint $k$ branchings (minimum-cost $k$-branchings) induce an $\mathrm{M}^\natural$-convex function defined on the integer vectors on the vertex set. The proof is based on a theorem on packing disjoint $k$-branchings, which extends Edmonds' disjoint branchings theorem and is of independent interest. We then show the $\mathrm{M}$-convexity of the minimum-cost $k$-arborescences, which provides a short proof for a theorem of Bern\'ath and Kir\'aly (SODA 2016) stating that the root vectors of the minimum-cost $k$-arborescences form a base polyhedron of a submodular function. Finally, building upon the $\mathrm{M}^\natural$-convexity of $k$-branchings, we present a new problem of minimum-cost root location of a $k$-branching, and show that it can be solved in polynomial time if the opening cost function is $\mathrm{M}^\natural$-convex.

Published
2018

157. A Generalized-Polymatroid Approach to Disjoint Common Independent Sets in Two Matroids

Author

Takazawa, Kenjiro and Yokoi, Yu

Subjects
Mathematics - Combinatorics, 05B35, 52B40, G.2.1
Abstract

In this paper, we investigate the classes of matroid intersection admitting a solution for the problem of partitioning the ground set $E$ into $k$ common independent sets, where $E$ can be partitioned into $k$ independent sets in each of the two matroids. For this problem, we present a new approach building upon the generalized-polymatroid intersection theorem. We exhibit that this approach offers alternative proofs and unified understandings of previous results showing that the problem has a solution for the intersection of two laminar matroids and that of two matroids without $(k+1)$-spanned elements. Moreover, we newly show that the intersection of a laminar matroid and a matroid without $(k+1)$-spanned elements admits a solution. We also construct an example of a transversal matroid which is incompatible with the generalized-polymatroid approach., Comment: 15 pages, 1 figure

Published
2018

158. The $b$-bibranching Problem: TDI System, Packing, and Discrete Convexity

Author

Takazawa, Kenjiro

Subjects
Computer Science - Discrete Mathematics, Computer Science - Data Structures and Algorithms, Mathematics - Combinatorics
Abstract

In this paper, we introduce the $b$-bibranching problem in digraphs, which is a common generalization of the bibranching and $b$-branching problems. The bibranching problem, introduced by Schrijver (1982), is a common generalization of the branching and bipartite edge cover problems. Previous results on bibranchings include polynomial algorithms, a linear programming formulation with total dual integrality, a packing theorem, and an M-convex submodular flow formulation. The $b$-branching problem, recently introduced by Kakimura, Kamiyama, and Takazawa (2018), is a generalization of the branching problem admitting higher indegree, i.e., each vertex $v$ can have indegree at most $b(v)$. For $b$-branchings, a combinatorial algorithm, a linear programming formulation with total dual integrality, and a packing theorem for branchings are extended. A main contribution of this paper is to extend those previous results on bibranchings and $b$-branchings to $b$-bibranchings. That is, we present a linear programming formulation with total dual integrality, a packing theorem, and an M-convex submodular flow formulation for $b$-bibranchings. In particular, the linear program and M-convex submodular flow formulations respectively imply polynomial algorithms for finding a shortest $b$-bibranching., Comment: 19 pages

Published
2018

159. The $b$-branching problem in digraphs

Author

Kakimura, Naonori, Kamiyama, Naoyuki, and Takazawa, Kenjiro

Subjects
Computer Science - Discrete Mathematics, Computer Science - Data Structures and Algorithms, Mathematics - Combinatorics
Abstract

In this paper, we introduce the concept of $b$-branchings in digraphs, which is a generalization of branchings serving as a counterpart of $b$-matchings. Here $b$ is a positive integer vector on the vertex set of a digraph, and a $b$-branching is defined as a common independent set of two matroids defined by $b$: an arc set is a $b$-branching if it has at most $b(v)$ arcs sharing the terminal vertex $v$, and it is an independent set of a certain sparsity matroid defined by $b$. We demonstrate that $b$-branchings yield an appropriate generalization of branchings by extending several classical results on branchings. We first present a multi-phase greedy algorithm for finding a maximum-weight $b$-branching. We then prove a packing theorem extending Edmonds' disjoint branchings theorem, and provide a strongly polynomial algorithm for finding optimal disjoint $b$-branchings. As a consequence of the packing theorem, we prove the integer decomposition property of the $b$-branching polytope. Finally, we deal with a further generalization in which a matroid constraint is imposed on the $b(v)$ arcs sharing the terminal vertex $v$., Comment: 19 pages

Published
2018

161. Safety and arch complications after hemiarch versus total arch replacement with stented elephant trunk in acute type 1 dissection: Is a stent graft always beneficial?Central MessagePerspective

Author

Jun Hayashi, MD, PhD, Hiroyuki Nakajima, MD, PhD, Toshihisa Asakura, MD, PhD, Ri Sho, PhD, Chiho Tokunaga, MD, PhD, Akitoshi Takazawa, MD, and Akihiro Yoshitake, MD, PhD

Subjects
acute aortic dissection, total arch replacement, hemiarch replacement, elephant trunk, open stent, Diseases of the circulatory (Cardiovascular) system, RC666-701, Surgery, RD1-811
Abstract

Objective: We aimed to determine the efficacy of total arch replacement with stented elephant trunk by comparing it with hemiarch replacement with and without open stent graft for acute aortic dissection type 1. Methods: We reviewed records of 177 patients who underwent hemiarch replacement (HAR group) (concomitant open stent, 125) and 98 patients who underwent total arch replacement (TAR group) (concomitant stented elephant trunk, 91) for acute type 1 dissection. Compared with the TAR group, the HAR group was older (68.1 vs 60.9 years; P

Published
2022
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162. Local anesthetic lidocaine-inducible gene, growth differentiation factor-15 suppresses the growth of cancer cell lines

Author

Keiko Haraguchi-Suzuki, Reika Kawabata-Iwakawa, Toru Suzuki, Takashi Suto, Tomonori Takazawa, and Shigeru Saito

Subjects
Medicine, Science
Abstract

Abstract Administration of local anesthetics, such as lidocaine, in the perioperative period improves outcomes of cancer patients. However, its precise mechanism is still unresolved. The growth of human cancer cell lines, including HeLa cells, are suppressed by lidocaine treatment. We identified that growth differentiation factor-15 (GDF-15) was commonly upregulated in lidocaine-treated cancer cell lines. GDF-15 is a divergent member of the transforming growth factor-β (TGF-β) superfamily and it is produced as an unprocessed pro-protein form and then cleaved to generate a mature form. In lidocaine-treated HeLa cells, increased production of GDF-15 in the endoplasmic reticulum (ER) was observed and unprocessed pro-protein form of GDF-15 was secreted extracellularly. Further, lidocaine induced apoptosis and apoptosis-inducible Tribbles homologue 3 (TRIB3) was also commonly upregulated in lidocaine-treated cancer cell lines. In addition, transcription factor C/EBP homologous protein (CHOP), which is a positive regulator of not only GDF-15 but TRIB3 was also induced by lidocaine. Lidocaine-induced growth suppression and apoptosis was suppressed by knockdown of GDF-15 or TRIB3 expression by small interference RNA (siRNA). These observations suggest that lidocaine suppresses the growth of cancer cells through increasing GDF-15 and TRIB3 expression, suggesting its potential application as cancer therapy.

Published
2022
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170. Peripheral T cell profiling reveals downregulated exhaustion marker and increased diversity in lymphedema post-lymphatic venous anastomosis

Author

Hirofumi Imai, Takakazu Kawase, Shuhei Yoshida, Toshiro Mese, Solji Roh, Asuka Fujita, Toshio Uchiki, Ayano Sasaki, Shogo Nagamatsu, Atsushi Takazawa, Tatsuo Ichinohe, and Isao Koshima

Subjects
Health sciences, Immunology, Components of the immune system, Science
Abstract

Summary: Lymphedema is a progressive condition accompanying cellulitis and angiosarcoma, suggesting its association with immune dysfunction. Lymphatic venous anastomosis (LVA) can provide relief from cellulitis and angiosarcoma. However, the immune status of peripheral T cells during lymphedema and post-LVA remains poorly understood. Using peripheral blood T cells from lymphedema, post-LVA, and healthy controls (HCs), we compared the profile of T cell subsets and T cell receptor (TCR) diversity. PD-1+ Tim-3 + expression was downregulated in post-LVA compared with lymphedema. IFN-γ levels in CD4+PD-1+ T cells and IL-17A levels in CD4+ T cells were downregulated in post-LVA compared with lymphedema. TCR diversity was decreased in lymphedema compared with HCs; such TCR skewing was drastically improved in post-LVA. T cells in lymphedema were associated with exhaustion, inflammation, and diminished diversity, which were relieved post-LVA. The results provide insights into the peripheral T cell population in lymphedema and highlight the immune modulatory importance of LVA.

Published
2023
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185. Late Onset of Cardiac Metastasis of a Melanoma following Nivolumab Immunotherapy

Author

Kenta Nakamura, Hiroshi Koga, Yuko Takazawa, Toshikazu Omodaka, Yukiko Kiniwa, and Ryuhei Okuyama

Subjects
melanoma, metastatic cardiac tumor, dacarbazine, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

In this report, we present a case of cardiac metastasis of a malignant melanoma originating from the nasal cavity and presenting with cardiac tamponade detected during immunotherapy. The patient was a 66-year-old man diagnosed with malignant melanoma of the right nasal cavity 4 years ago. Two years ago, the size of the melanoma increased making it unresectable; therefore, he was treated thrice with a combination therapy of nivolumab and ipilimumab. Subsequently, the treatment was changed to single-agent nivolumab therapy, which was continuously administered for one and a half years. Imaging evaluation conducted every 3 months showed no distant metastasis. General malaise occurred, and the patient visited our department. He was diagnosed to have cardiac tamponade using echocardiography and was admitted to the emergency department of our hospital. He underwent pericardiocentesis. Computed tomography revealed an irregular mass extending from the right atrium to the inferior vena cava, and malignant melanoma metastasis was diagnosed through catheter biopsy and histology. As the tumor was unresectable, radiotherapy (30 Gy/10 fractions) and dacarbazine administration were performed on the right atrial mass, and pericardial effusion improved.

Published
2022
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186. Skyfall: Signal Fusion from a Smartphone Falling from the Stratosphere

Author

Milton A. Garcés, Daniel Bowman, Cleat Zeiler, Anthony Christe, Tyler Yoshiyama, Brian Williams, Meritxell Colet, Samuel Takazawa, and Sarah Popenhagen

Subjects
smartphones, balloons, internet of things, cyber-physical systems, Applied mathematics. Quantitative methods, T57-57.97
Abstract

A smartphone plummeted from a stratospheric height of 36 km, providing a near-real-time record of its rapid descent and ground impact. An app recorded and streamed useful internal multi-sensor data at high sample rates. Signal fusion with external and internal sensor systems permitted a more detailed reconstruction of the Skyfall chronology, including its descent speed, rotation rate, and impact deceleration. Our results reinforce the potential of smartphones as an agile and versatile geophysical data collection system for environmental and disaster monitoring IoT applications. We discuss mobile environmental sensing capabilities and present a flexible data model to record and stream signals of interest. The Skyfall case study can be used as a guide to smartphone signal processing methods that are transportable to other hardware platforms and operating systems.

Published
2022
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189. Excluded $t$-factors in Bipartite Graphs: Unified Framework for Nonbipartite Matchings, Restricted 2-matchings, and Matroids

Author

Takazawa, Kenjiro

Subjects
Mathematics - Combinatorics, Computer Science - Discrete Mathematics, Computer Science - Data Structures and Algorithms
Abstract

We propose a framework for optimal $t$-matchings excluding the prescribed $t$-factors in bipartite graphs. The proposed framework is a generalization of the nonbipartite matching problem and includes several problems, such as the triangle-free $2$-matching, square-free $2$-matching, even factor, and arborescence problems. In this paper, we demonstrate a unified understanding of these problems by commonly extending previous important results. We solve our problem under a reasonable assumption, which is sufficiently broad to include the specific problems listed above. We first present a min-max theorem and a combinatorial algorithm for the unweighted version. We then provide a linear programming formulation with dual integrality and a primal-dual algorithm for the weighted version. A key ingredient of the proposed algorithm is a technique to shrink forbidden structures, which corresponds to the techniques of shrinking odd cycles, triangles, squares, and directed cycles in Edmonds' blossom algorithm, a triangle-free $2$-matching algorithm, a square-free $2$-matching algorithm, and an arborescence algorithm, respectively., Comment: 23 pages, 7 figures, A preliminary version of this paper appears in Proceedings of the 19th IPCO (2017)

Published
2017

190. Relationship of Two Formulations for Shortest Bibranchings

Author

Murota, Kazuo and Takazawa, Kenjiro

Subjects
Mathematics - Combinatorics, Computer Science - Discrete Mathematics, Mathematics - Optimization and Control
Abstract

The shortest bibranching problem is a common generalization of the minimum-weight edge cover problem in bipartite graphs and the minimum-weight arborescence problem in directed graphs. For the shortest bibranching problem, an efficient primal-dual algorithm is given by Keijsper and Pendavingh (1998), and the tractability of the problem is ascribed to total dual integrality in a linear programming formulation by Schrijver (1982). Another view on the tractability of this problem is afforded by a valuated matroid intersection formulation by Takazawa (2012). In the present paper, we discuss the relationship between these two formulations for the shortest bibranching problem. We first demonstrate that the valuated matroid intersection formulation can be derived from the linear programming formulation through the Benders decomposition, where integrality is preserved in the decomposition process and the resulting convex programming is endowed with discrete convexity. We then show how a pair of primal and dual optimal solutions of one formulation is constructed from that of the other formulation, thereby providing a connection between polyhedral combinatorics and discrete convex analysis., Comment: 18 pages

Published
2017

191. A novel functional IKBKE variant activating NFAT in a patient with polyarthritis and a remittent fever.

Author

Yamada, Saeko, Nagafuchi, Yasuo, Yamada, Mamiko, Suzuki, Hisato, Natsumoto, Bunki, Ota, Mineto, Takazawa, Ikuo, Hatano, Hiroaki, Kono, Masanori, Harada, Hiroaki, Shoda, Hirofumi, Okamura, Tomohisa, Kosaki, Kenjiro, and Fujio, Keishi

Subjects
MALARIA, GENETIC variation, TYPE I interferons, GENOME-wide association studies, LOCUS (Genetics)
Abstract

Background: IKBKE is a negative regulator of T cell activation and one of the key activators of type I interferon (IFN) and NFκB signaling via non-classical pathways. The upstream single nucleotide polymorphism of IKBKE (rs2297550-G) is a genome-wide association study risk variant of systemic lupus erythematosus, and is associated with decreased IKBKE expression in T cells by expression quantitative trait locus analysis. Case presentation: A 48-year-old female had a remittent fever, arthritis, and oral ulcers for 20 years. She had a poor response to corticosteroids or disease-modifying antirheumatic drugs, including the tumor necrosis factor-α antagonist, etanercept, and the anti-interleukin-6 receptor antibody, tocilizumab. Method: She participated in the Initiative on Rare and Undiagnosed Disease (IRUD), and whole-exome sequencing (WES) was performed. Functional analyses were conducted by transfecting the identified variants into reporter cells to assess the activation of NFAT and NFκB signaling. Additionally, peripheral blood RNA- sequencing (RNA-seq) data were compared with those from healthy individuals to evaluate the gene expression profiles of immune cells. Result: WES identified a novel heterozygous c.1877G>A, p(Cys626Tyr) variant in IKBKE. Functional analysis indicated that this variant led to increased activity of NFAT (p = 0.015) and decreased activity of NFκB and type I IFN (p = 0.00068 and 0.00044, respectively). The patient had a remarkably low proportion of Naïve CD4 T cells. RNA-seq of peripheral blood immune cell subsets revealed significant differences in gene expression, especially in T cells. Conclusion: A novel functional heterozygous variant in IKBKE is described in a patient with a remittent fever and arthritis. The data suggest that IKBKE is an important negative regulator of inflammation, particularly in T cells, and this IKBKE variant might be the underlying cause of a novel autoinflammatory pathology. [ABSTRACT FROM AUTHOR]

Published
2024
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192. Relationship between the contact load and time-loss injuries in rugby union.

Author

Iwasaki, Yusuke, Someya, Yuki, Nagao, Masashi, Nozu, Shojiro, Shiota, Yuki, and Takazawa, Yuji

Subjects
RUGBY Union football players, ELITE athletes, SPORTS injuries, RUGBY Union football, GLOBAL Positioning System
Abstract

Objective: Quantifying and managing the matches and training loads of players is important for injury prevention. As rugby union is a full-contact sport and frequent contact injuries occur, it might also be important to quantify and manage players' contact loads. This study aimed to clarify the relationship between contact load and injury incidence in elite rugby union players. Methods: Forty-eight elite rugby union players (27.0 ± 3.5 years) in Japan were monitored during one season (8 months). The contact load, an index of training load, was evaluated as collision count and collision load measured using a global positioning system device, and then calculated using the acute:chronic workload ratio (ACWR) based on the exponentially weighted moving average (EWMA). The association between the EWMA-ACWR of contact load and injury incidence was analyzed using generalized estimating equations. Results: Of the 58 injuries during one season, 70.7% were contact injuries. Collision counts and collision load calculated by EWMA-ACWR were associated with the risk of injury (p < 0.01 both), with the odds ratios were 4.20 [95% confidence interval (CI): 1.74–10.11] and 4.44 (95% CI: 1.95–10.13), respectively. Conclusion: Contact load calculated using EWMA-ACWR was associated with injury in elite rugby union players. [ABSTRACT FROM AUTHOR]

Published
2024
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194. Outcomes and prognostic factors in patients with synchronous and metachronous oligometastatic urothelial carcinoma with visceral metastases.

Author

Yoshida, Soichiro, Maezawa, Yuya, Ishihara, Kensaku, Inoue, Naoki, Tanabe, Kenji, Izumi, Keita, Fujiwara, Motohiro, Toide, Masahiro, Yamamoto, Takanobu, Uehara, Sho, Araki, Saori, Inoue, Masaharu, Takazawa, Ryoji, Numao, Noboru, Ohtsuka, Yukihiro, Tanaka, Hajime, and Fujii, Yasuhisa

Subjects
BLADDER cancer, BLADDER, METASTASIS, TRANSITIONAL cell carcinoma, OVERALL survival
Abstract

Objectives: To evaluate the clinical characteristics of oligometastatic disease (OMD) in metastatic urothelial carcinoma (mUC) with visceral metastases when classified into synchronous and metachronous metastases. Methods: Of 957 cases of de novo mUC treated between 2008 and 2023, 374 with visceral metastases were analyzed. Cases were classified into OMD with up to three metastatic lesions and polymetastatic disease (PMD), and into synchronous and metachronous metastases. The clinical characteristics and overall survival (OS) for each group were analyzed. Results: Overall, 196 (52.4%) had synchronous metastasis and 178 (47.6%) had metachronous metastasis. Median OS for synchronous metastases was significantly shorter than for metachronous metastases (12.1 months vs. 15.3 months, p = 0.011). Among the synchronous metastases, 48 (24.5%) were OMD and 148 (75.6%) were PMD. There was no significant difference in OS between the OMDs and PMDs (median 14.9 months vs. 11.7 months, p = 0.32), and only decreased albumin level was identified as a significant predictor of poor OS. Among the metachronous metastases, 64 (36.0%) were OMD and 114 (64.0%) were PMD. There was no significant difference in OS between the OMD and PMD (median 21.2 months vs. 15.0 months, p = 0.35), and no significant predictors of poor OS were identified. Conclusions: For mUC with visceral metastases, the timing of metastasis appearance was associated with prognosis, with synchronous metastases being a poorer prognostic factor compared to metachronous metastases. There was no prognostic difference between OMD and PMD with visceral metastases when classified into synchronous or metachronous metastases. [ABSTRACT FROM AUTHOR]

Published
2024
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195. Explosion Detection Using Smartphones: Ensemble Learning with the Smartphone High-Explosive Audio Recordings Dataset and the ESC-50 Dataset.

Author

Takazawa, Samuel K., Popenhagen, Sarah K., Ocampo Giraldo, Luis A., Hix, Jay D., Thompson, Scott J., Chichester, David L., Zeiler, Cleat P., and Garcés, Milton A.

Subjects
*MACHINE learning, *SOUND recordings, *INFRASONIC waves, *EXPLOSIONS, *MICROPHONES
Abstract

Explosion monitoring is performed by infrasound and seismoacoustic sensor networks that are distributed globally, regionally, and locally. However, these networks are unevenly and sparsely distributed, especially at the local scale, as maintaining and deploying networks is costly. With increasing interest in smaller-yield explosions, the need for more dense networks has increased. To address this issue, we propose using smartphone sensors for explosion detection as they are cost-effective and easy to deploy. Although there are studies using smartphone sensors for explosion detection, the field is still in its infancy and new technologies need to be developed. We applied a machine learning model for explosion detection using smartphone microphones. The data used were from the Smartphone High-explosive Audio Recordings Dataset (SHAReD), a collection of 326 waveforms from 70 high-explosive (HE) events recorded on smartphones, and the ESC-50 dataset, a benchmarking dataset commonly used for environmental sound classification. Two machine learning models were trained and combined into an ensemble model for explosion detection. The resulting ensemble model classified audio signals as either "explosion", "ambient", or "other" with true positive rates (recall) greater than 96% for all three categories. [ABSTRACT FROM AUTHOR]

Published
2024
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197. Investigation of the optimal method of oxygen administration with simultaneous use of a surgical mask: a randomized control study

Author

Matsui, Yusuke, Takazawa, Tomonori, Takemae, Akihito, Murooka, Yukie, Kanamoto, Masafumi, and Saito, Shigeru

Subjects
Epidemics -- Japan, Medical research -- Methods -- Analysis -- Usage -- Health aspects, Medicine, Experimental -- Methods -- Analysis -- Usage -- Health aspects, Infection -- Methods -- Usage -- Health aspects -- Analysis, Coronaviruses -- Health aspects -- Usage -- Analysis -- Methods, Surgery -- Methods -- Usage -- Analysis -- Health aspects, Health
Abstract

Purpose From the perspective of infection prevention during the Coronavirus disease 2019 (COVID-19) pandemic, a recommendation was made to use surgical masks after extubation in patients in the operating room. For compliance with this recommendation, anesthesiologists need to administer oxygen to the patient with an oxygen mask over the surgical mask. However, no studies have investigated whether this method allows good maintenance of oxygenation in patients. This study aimed to investigate which method of oxygen administration lends itself best to use with a surgical mask in terms of oxygenation. Method We administered oxygen to the study subjects using all the following three methods in random order: an oxygen mask over or under a surgical mask and a nasal cannula under the surgical mask. Oxygenation was assessed using the oxygen reserve index (ORi) and end-tidal oxygen concentration (EtO.sub.2). Result This study included 24 healthy volunteers. ORi values with administration of oxygen were higher in the order of a nasal cannula under the surgical mask, an oxygen mask under the surgical mask, and an oxygen mask over the surgical mask, with median values of 0.50, 0.48, and 0.43, respectively, and statistically significant differences between all groups (P < 0.001). EtO.sub.2 values were in the same order as ORi, with median values of 33.0%, 31.0%, and 25%, respectively, and statistically significant differences between all groups (P < 0.001). Conclusion Wearing a surgical mask over the nasal cannula during oxygen administration is beneficial for oxygenation and might help prevent aerosol dispersal., Author(s): Yusuke Matsui [sup.1], Tomonori Takazawa [sup.2], Akihito Takemae [sup.1], Yukie Murooka [sup.1], Masafumi Kanamoto [sup.2], Shigeru Saito [sup.1] Author Affiliations: (1) grid.256642.1, 0000 0000 9269 4097, Department of Anesthesiology, [...]

Published
2022
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198. Prolonged Electrochemical Cycling Characteristics of ZnSiP2 Prepared with Mixed Crystalline-Amorphous Domains

Author

Etsuro IWAMA, Toyomi TAKAZAWA, Koji MATSUYAMA, and Daisuke YAMAGUCHI

Subjects
znsip2, cyclability, crystal microstructure, high-energy ball milling, Technology, Physical and theoretical chemistry, QD450-801
Abstract

This paper presents an innovative approach wherein mechanical alloying and mechanical cation-disordering techniques are combined to synthesize peculiar zinc silicide phosphide (ZnSiP2) anode materials under controlled atmosphere. In this method, Zn atoms and P atoms are simultaneously incorporated into the parent Si crystal structure, resulting in A(II)xB(IV)yPx+y solid solutions with precise control over nanodomain structures of mixed crystalline-amorphous phases. This distinctive nanoarchitecture of the ZnSiP2 anode, featuring an amorphous ionic-conduction phase network, facilitates the smooth transport of Li+ ions, thereby enabling an exceptionally prolonged electrochemical cycling performance, surpassing 200 cycles. In this study, we attempted to unravel the microstructure of ZnSiP2 using transmission electron microscopy (TEM). It was observed that when synthesized under an inert Argon atmosphere, the material formed a polycrystalline structure consisting of numerous nanocrystals (5–10 nm) assembled. Additionally, when attempts were made to reduce synthesis costs by conducting the synthesis under ambient atmospheric (Air) conditions, amorphous regions were generated. This amorphous region within the polycrystalline ZnSiP2 microstructure represents a novel finding. The electrochemical impedance measurements and galvanostatic intermittent titration technique (GITT) analysis conducted in this study not only revealed but also characterized the enhanced cycling performance of this unique ZnSiP2 anode structure.

Published
2023
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