The Contrasting Role of p16^Ink4A Patterns of Expression in Neuroendocrine and Non-Neuroendocrine Lung Tumors: A Comprehensive Analysis with Clinicopathologic and Molecul... by Nicola Fusco (838180)

“…A total of 502 tumors, including 277 adenocarcinomas, 84 squamous cell carcinomas, 22 large cell carcinomas, 47 typical carcinoids, 12 atypical carcinoids, 28 large cell neuroendocrine carcinomas, and 32 small cell carcinomas were reviewed and subjected to immunohistochemical analysis for p16^Ink4A and Ki67. …”

Time series of validations on buses using <i>smart-cards</i> during the COVID-19 pandemic period in 2020. by Jorge L. B. Araújo (20324246)

Stress, Coping Strategies and Quality of Life: A Survey of Brazilian Managers by Andre Barcaui (12822599)

“…Control strategies and symptom management significantly influence the perception of quality of life, whereas avoidance strategies imply a decrease in this perception. Managers with jobs classified as high strain (Karasek & Theorell, 1990) tend to have a poorer quality of life, even when moderated by social support.…”

Demographic and clinical parameters. by Jesse D. de Groot (15401476)

“…No significant loss of white matter volume was observed between pre-RT and the first post-RT follow-up timepoint, indicating a delayed effect.</p><p>Conclusion</p><p>This study demonstrated diffuse and early-delayed decreases in white matter volume of the tumor-free hemisphere in HGG patients after standard treatment. …”

Numerical repressilator bifurcation diagrams as a function of QS strength κ. by Edward H. Hellen (346773)

“…Note that LC is always period-1 for <i>β</i> = 0.1. (a) LC period for various α (left axis). Steady-state protein <i>B</i> concentration (red-stable, dashed-unstable) for α = 30 (right axis). …”

Schematic diagram of monitoring points and units. by Jie Zhao (49409)

“…Using the three-dimensional finite difference software FLAC^3D (Fast Lagrangian Analysis of Continua), we conducted numerical simulations of both unreinforced and reinforced liquefiable sand foundations. A three-dimensional model was developed, incorporating dynamic analysis with the PL-Finn constitutive model to simulate post-liquefaction large deformations. …”

The analysis procedure. by Jie Zhao (49409)

“…Using the three-dimensional finite difference software FLAC^3D (Fast Lagrangian Analysis of Continua), we conducted numerical simulations of both unreinforced and reinforced liquefiable sand foundations. A three-dimensional model was developed, incorporating dynamic analysis with the PL-Finn constitutive model to simulate post-liquefaction large deformations. …”

Model monitoring points and units coordinates. by Jie Zhao (49409)

“…Using the three-dimensional finite difference software FLAC^3D (Fast Lagrangian Analysis of Continua), we conducted numerical simulations of both unreinforced and reinforced liquefiable sand foundations. A three-dimensional model was developed, incorporating dynamic analysis with the PL-Finn constitutive model to simulate post-liquefaction large deformations. …”

Docking hypothetical isoLG-modified peptides to MHC-I with FlexPepDock <i>ab-initio</i> predicts ideal residue locations for isoLG adduction. by Nathaniel Bloodworth (14253329)

Soil mechanical parameters. by Jie Zhao (49409)

“…Using the three-dimensional finite difference software FLAC^3D (Fast Lagrangian Analysis of Continua), we conducted numerical simulations of both unreinforced and reinforced liquefiable sand foundations. A three-dimensional model was developed, incorporating dynamic analysis with the PL-Finn constitutive model to simulate post-liquefaction large deformations. …”

Parameters of the contact surface. by Jie Zhao (49409)

“…Using the three-dimensional finite difference software FLAC^3D (Fast Lagrangian Analysis of Continua), we conducted numerical simulations of both unreinforced and reinforced liquefiable sand foundations. A three-dimensional model was developed, incorporating dynamic analysis with the PL-Finn constitutive model to simulate post-liquefaction large deformations. …”

The schematic diagram of free-field boundary. by Jie Zhao (49409)

“…Using the three-dimensional finite difference software FLAC^3D (Fast Lagrangian Analysis of Continua), we conducted numerical simulations of both unreinforced and reinforced liquefiable sand foundations. A three-dimensional model was developed, incorporating dynamic analysis with the PL-Finn constitutive model to simulate post-liquefaction large deformations. …”

Residual deformation parameters of soil. by Jie Zhao (49409)

“…Using the three-dimensional finite difference software FLAC^3D (Fast Lagrangian Analysis of Continua), we conducted numerical simulations of both unreinforced and reinforced liquefiable sand foundations. A three-dimensional model was developed, incorporating dynamic analysis with the PL-Finn constitutive model to simulate post-liquefaction large deformations. …”

Soil fluid and liquefaction parameters. by Jie Zhao (49409)

“…Using the three-dimensional finite difference software FLAC^3D (Fast Lagrangian Analysis of Continua), we conducted numerical simulations of both unreinforced and reinforced liquefiable sand foundations. A three-dimensional model was developed, incorporating dynamic analysis with the PL-Finn constitutive model to simulate post-liquefaction large deformations. …”

PL-Finn model development procedure diagram. by Jie Zhao (49409)

“…Using the three-dimensional finite difference software FLAC^3D (Fast Lagrangian Analysis of Continua), we conducted numerical simulations of both unreinforced and reinforced liquefiable sand foundations. A three-dimensional model was developed, incorporating dynamic analysis with the PL-Finn constitutive model to simulate post-liquefaction large deformations. …”

Excess Winter Mortality and Cold Temperatures in a Subtropical City, Guangzhou, China by Chun-Quan Ou (45848)

“…A much larger winter increase was observed in out-of-hospital mortality compared to in-hospital mortality (45% vs. 17%). …”

Video1_A thermodynamically consistent monte carlo cross-bridge model with a trapping mechanism reveals the role of stretch activation in heart pumping.MP4 by Kazunori Yoneda (11271150)

“…For the role of stretch activation in heart pumping, we draw the following conclusions: (iii) for the regions in which the contraction force decreases earlier than the neighboring region in the end-systole phase, the trapped myosin molecules prevent further lengthening of the myocytes, which then prevents further shortening of neighboring myocytes; (iv) as a result, the contraction forces are sustained longer, resulting in a larger blood ejection, and their degeneration is synchronized.…”

DataSheet1_A thermodynamically consistent monte carlo cross-bridge model with a trapping mechanism reveals the role of stretch activation in heart pumping.PDF by Kazunori Yoneda (11271150)

“…For the role of stretch activation in heart pumping, we draw the following conclusions: (iii) for the regions in which the contraction force decreases earlier than the neighboring region in the end-systole phase, the trapped myosin molecules prevent further lengthening of the myocytes, which then prevents further shortening of neighboring myocytes; (iv) as a result, the contraction forces are sustained longer, resulting in a larger blood ejection, and their degeneration is synchronized.…”

DataSheet2_A thermodynamically consistent monte carlo cross-bridge model with a trapping mechanism reveals the role of stretch activation in heart pumping.ZIP by Kazunori Yoneda (11271150)

“…For the role of stretch activation in heart pumping, we draw the following conclusions: (iii) for the regions in which the contraction force decreases earlier than the neighboring region in the end-systole phase, the trapped myosin molecules prevent further lengthening of the myocytes, which then prevents further shortening of neighboring myocytes; (iv) as a result, the contraction forces are sustained longer, resulting in a larger blood ejection, and their degeneration is synchronized.…”

Video2_A thermodynamically consistent monte carlo cross-bridge model with a trapping mechanism reveals the role of stretch activation in heart pumping.MP4 by Kazunori Yoneda (11271150)

“…For the role of stretch activation in heart pumping, we draw the following conclusions: (iii) for the regions in which the contraction force decreases earlier than the neighboring region in the end-systole phase, the trapped myosin molecules prevent further lengthening of the myocytes, which then prevents further shortening of neighboring myocytes; (iv) as a result, the contraction forces are sustained longer, resulting in a larger blood ejection, and their degeneration is synchronized.…”