Image 2_Multi-omics analysis reveals the alleviating effect of oxidation remediation on tobacco quinclorac stress.jpeg by Binghui Zhang (10898910)

“…The results of this study provide a theoretical basis for the remediation of pesticide residue soil in rice tobacco rotation areas, offering valuable insights for sustainable agricultural practices.…”

Table 2_Multi-omics analysis reveals the alleviating effect of oxidation remediation on tobacco quinclorac stress.xls by Binghui Zhang (10898910)

“…The results of this study provide a theoretical basis for the remediation of pesticide residue soil in rice tobacco rotation areas, offering valuable insights for sustainable agricultural practices.…”

Image 1_Multi-omics analysis reveals the alleviating effect of oxidation remediation on tobacco quinclorac stress.jpeg by Binghui Zhang (10898910)

“…The results of this study provide a theoretical basis for the remediation of pesticide residue soil in rice tobacco rotation areas, offering valuable insights for sustainable agricultural practices.…”

Flow cytometric identification of dynamic immune cell populations in a rat model of post-traumatic elbow contracture by Rebecca F. Reals (22770489)

“…Treating injured animals with celecoxib increased leukocytes but decreased several immune subpopulations.</p> <p>A method for flow cytometry on rat elbow capsule was established and used to quantify immune cell populations, which changed in response to injury and anti-inflammatory treatment. …”

Data Sheet 1_Finite-element analysis-based design and efficacy assessment of a three-dimensional anisotropic heel cushioning pad for diabetic foot management.xlsx by Xiong-Gang Yang (22645370)

“…</p>Results<p>Reducing the elastic moduli of heel cushioning pads led to decreased peak stresses across all directions. Notably, the peak compressive stress decreased by 52.20%–66.91%, while AP and ML shear stresses decreased by 51.05%–75.58% and 54.16%–72.42%, respectively. …”

Image 1_Finite-element analysis-based design and efficacy assessment of a three-dimensional anisotropic heel cushioning pad for diabetic foot management.jpeg by Xiong-Gang Yang (22645370)

“…</p>Results<p>Reducing the elastic moduli of heel cushioning pads led to decreased peak stresses across all directions. Notably, the peak compressive stress decreased by 52.20%–66.91%, while AP and ML shear stresses decreased by 51.05%–75.58% and 54.16%–72.42%, respectively. …”

Table 1_Finite-element analysis-based design and efficacy assessment of a three-dimensional anisotropic heel cushioning pad for diabetic foot management.docx by Xiong-Gang Yang (22645370)

“…</p>Results<p>Reducing the elastic moduli of heel cushioning pads led to decreased peak stresses across all directions. Notably, the peak compressive stress decreased by 52.20%–66.91%, while AP and ML shear stresses decreased by 51.05%–75.58% and 54.16%–72.42%, respectively. …”

Table 1_Trajectories in waist circumference and waist-to-height ratio with left ventricular hypertrophy in childhood.doc by Xuli Jin (15340593)

“…Similarly, WHtR was categorized into three groups: stabilizing, decreasing, and increasing trajectories. Linear and log-binomial regression analyses were used to examine the associations of WC and WHtR trajectories with increased left ventricular mass index (LVMI) and LVH.…”

Image 1_Trajectories in waist circumference and waist-to-height ratio with left ventricular hypertrophy in childhood.tif by Xuli Jin (15340593)

“…Similarly, WHtR was categorized into three groups: stabilizing, decreasing, and increasing trajectories. Linear and log-binomial regression analyses were used to examine the associations of WC and WHtR trajectories with increased left ventricular mass index (LVMI) and LVH.…”

Impact of coverage on detection of recombination. by Thibault Corneloup (16293971)

“…For each of these recombinants, a yellow dot shows the number of transfers detected at the initial coverage. These points are then connected to dots that shift their colour to blue and report the number of recombined fragments found when coverage used to detect the recombinants was artificially decreased with tool seqtk to 50%, 40%, 25%, 17.5% or 10% of the initial value. …”

Image 4_Hydrogel and scalp/skin conductivities impact dose from tumor treating fields.png by Edwin Lok (3512405)

“…</p>Results<p>By varying conductivity of hydrogel, TTFields coverage at GTV or CTV increased up to 0.5 S/m for head and 1.0 S/m for thorax and pelvis models, and no additional increase was observed beyond these saturation points. Although scalp hotspots increased or decreased by +1.5%, −0.1%, and −0.9% in E_5%, SAR_5%, and CD_5%, the skin hotspots increased by as much as +23.5%, +45.7%, and +20.6%, respectively. …”

Image 10_Hydrogel and scalp/skin conductivities impact dose from tumor treating fields.png by Edwin Lok (3512405)

“…</p>Results<p>By varying conductivity of hydrogel, TTFields coverage at GTV or CTV increased up to 0.5 S/m for head and 1.0 S/m for thorax and pelvis models, and no additional increase was observed beyond these saturation points. Although scalp hotspots increased or decreased by +1.5%, −0.1%, and −0.9% in E_5%, SAR_5%, and CD_5%, the skin hotspots increased by as much as +23.5%, +45.7%, and +20.6%, respectively. …”

Image 3_Hydrogel and scalp/skin conductivities impact dose from tumor treating fields.png by Edwin Lok (3512405)

“…</p>Results<p>By varying conductivity of hydrogel, TTFields coverage at GTV or CTV increased up to 0.5 S/m for head and 1.0 S/m for thorax and pelvis models, and no additional increase was observed beyond these saturation points. Although scalp hotspots increased or decreased by +1.5%, −0.1%, and −0.9% in E_5%, SAR_5%, and CD_5%, the skin hotspots increased by as much as +23.5%, +45.7%, and +20.6%, respectively. …”

Image 2_Hydrogel and scalp/skin conductivities impact dose from tumor treating fields.png by Edwin Lok (3512405)

“…</p>Results<p>By varying conductivity of hydrogel, TTFields coverage at GTV or CTV increased up to 0.5 S/m for head and 1.0 S/m for thorax and pelvis models, and no additional increase was observed beyond these saturation points. Although scalp hotspots increased or decreased by +1.5%, −0.1%, and −0.9% in E_5%, SAR_5%, and CD_5%, the skin hotspots increased by as much as +23.5%, +45.7%, and +20.6%, respectively. …”

Image 9_Hydrogel and scalp/skin conductivities impact dose from tumor treating fields.png by Edwin Lok (3512405)

“…</p>Results<p>By varying conductivity of hydrogel, TTFields coverage at GTV or CTV increased up to 0.5 S/m for head and 1.0 S/m for thorax and pelvis models, and no additional increase was observed beyond these saturation points. Although scalp hotspots increased or decreased by +1.5%, −0.1%, and −0.9% in E_5%, SAR_5%, and CD_5%, the skin hotspots increased by as much as +23.5%, +45.7%, and +20.6%, respectively. …”

Image 12_Hydrogel and scalp/skin conductivities impact dose from tumor treating fields.png by Edwin Lok (3512405)

“…</p>Results<p>By varying conductivity of hydrogel, TTFields coverage at GTV or CTV increased up to 0.5 S/m for head and 1.0 S/m for thorax and pelvis models, and no additional increase was observed beyond these saturation points. Although scalp hotspots increased or decreased by +1.5%, −0.1%, and −0.9% in E_5%, SAR_5%, and CD_5%, the skin hotspots increased by as much as +23.5%, +45.7%, and +20.6%, respectively. …”

Image 11_Hydrogel and scalp/skin conductivities impact dose from tumor treating fields.png by Edwin Lok (3512405)

“…</p>Results<p>By varying conductivity of hydrogel, TTFields coverage at GTV or CTV increased up to 0.5 S/m for head and 1.0 S/m for thorax and pelvis models, and no additional increase was observed beyond these saturation points. Although scalp hotspots increased or decreased by +1.5%, −0.1%, and −0.9% in E_5%, SAR_5%, and CD_5%, the skin hotspots increased by as much as +23.5%, +45.7%, and +20.6%, respectively. …”

Image 5_Hydrogel and scalp/skin conductivities impact dose from tumor treating fields.png by Edwin Lok (3512405)

“…</p>Results<p>By varying conductivity of hydrogel, TTFields coverage at GTV or CTV increased up to 0.5 S/m for head and 1.0 S/m for thorax and pelvis models, and no additional increase was observed beyond these saturation points. Although scalp hotspots increased or decreased by +1.5%, −0.1%, and −0.9% in E_5%, SAR_5%, and CD_5%, the skin hotspots increased by as much as +23.5%, +45.7%, and +20.6%, respectively. …”

Image 1_Hydrogel and scalp/skin conductivities impact dose from tumor treating fields.png by Edwin Lok (3512405)

“…</p>Results<p>By varying conductivity of hydrogel, TTFields coverage at GTV or CTV increased up to 0.5 S/m for head and 1.0 S/m for thorax and pelvis models, and no additional increase was observed beyond these saturation points. Although scalp hotspots increased or decreased by +1.5%, −0.1%, and −0.9% in E_5%, SAR_5%, and CD_5%, the skin hotspots increased by as much as +23.5%, +45.7%, and +20.6%, respectively. …”

Supplementary file 1_Hydrogel and scalp/skin conductivities impact dose from tumor treating fields.docx by Edwin Lok (3512405)

“…</p>Results<p>By varying conductivity of hydrogel, TTFields coverage at GTV or CTV increased up to 0.5 S/m for head and 1.0 S/m for thorax and pelvis models, and no additional increase was observed beyond these saturation points. Although scalp hotspots increased or decreased by +1.5%, −0.1%, and −0.9% in E_5%, SAR_5%, and CD_5%, the skin hotspots increased by as much as +23.5%, +45.7%, and +20.6%, respectively. …”