Neutralization with additional bevacizumab to serum samples pre- and post-bevacizumab administration. حسب Masashi Okawa (8951294)

الموضوعات:

Hypothetical mechanism by which plasma VEGF-A121 concentration is elevated post-bevacizumab administration. حسب Masashi Okawa (8951294)

الموضوعات:

Quantitative real-time PCR analysis of high-risk CRLs and co-expressed CRGs in GBM human cell lines and the GBM mouse model. حسب Yajia Chen (20685780)

الموضوعات:

Expression of high-risk CRLs and co-expression CRGs in the GBM cuproptosis model. حسب Yajia Chen (20685780)

الموضوعات:

Analysis of independent prognostic factors. حسب Yajia Chen (20685780)

الموضوعات:

Evaluation of risk model. حسب Yajia Chen (20685780)

الموضوعات:

Relationship of risk score with immune status. حسب Yajia Chen (20685780)

الموضوعات:

Data processing and predictive model construction. حسب Yajia Chen (20685780)

الموضوعات:

Drug concentrations for constructing a normal astrocyte cuproptosis model and expression of high-risk CRLs and co-expression CRGs in the human astrocyte cuproptosis model. حسب Yajia Chen (20685780)

الموضوعات:

Relationship between <i>D</i> on <i>I</i>_s at different weathering levels (R²: 0.82, 0.89, 0.93 for highly, moderately, and slightly). حسب Hong Zhang (25820)

Relationship between <i>I</i>_s and <i>β</i> at different weathering levels (R²: 0.88, 0.83, 0.91 for highly, moderately, and slightly). حسب Hong Zhang (25820)

Fig 4 - حسب Yong-Rae Kim (19797278)

Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces حسب Guangchao Han (1453198)

"…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. Under low-load conditions, the optimal concentration ranges from 15% to 30% across varying surface roughness levels, reducing friction by 30%–55% compared to the peak kinetic energy conditions. …"

Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces حسب Guangchao Han (1453198)

"…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. Under low-load conditions, the optimal concentration ranges from 15% to 30% across varying surface roughness levels, reducing friction by 30%–55% compared to the peak kinetic energy conditions. …"

Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces حسب Guangchao Han (1453198)

"…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. Under low-load conditions, the optimal concentration ranges from 15% to 30% across varying surface roughness levels, reducing friction by 30%–55% compared to the peak kinetic energy conditions. …"

Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces حسب Guangchao Han (1453198)

"…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. Under low-load conditions, the optimal concentration ranges from 15% to 30% across varying surface roughness levels, reducing friction by 30%–55% compared to the peak kinetic energy conditions. …"

Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces حسب Guangchao Han (1453198)

"…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. Under low-load conditions, the optimal concentration ranges from 15% to 30% across varying surface roughness levels, reducing friction by 30%–55% compared to the peak kinetic energy conditions. …"

Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces حسب Guangchao Han (1453198)

"…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. Under low-load conditions, the optimal concentration ranges from 15% to 30% across varying surface roughness levels, reducing friction by 30%–55% compared to the peak kinetic energy conditions. …"

Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces حسب Guangchao Han (1453198)

"…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. Under low-load conditions, the optimal concentration ranges from 15% to 30% across varying surface roughness levels, reducing friction by 30%–55% compared to the peak kinetic energy conditions. …"

Lubrication Behavior of Fullerene-Coated Nanoparticles on Rough Surfaces حسب Guangchao Han (1453198)

"…The optimal nanoparticle concentration reaches approximately 88.8% under high-load conditions, with each 3.55% increase in concentration resulting in a 0.45% reduction in structural deformation and a 0.59 nN decrease in friction. Under low-load conditions, the optimal concentration ranges from 15% to 30% across varying surface roughness levels, reducing friction by 30%–55% compared to the peak kinetic energy conditions. …"