a20 (ATCC)

ATCC a20

Different strains of immunocompetent mice (see Materials and Methods) were inoculated with A , <t>A20,</t> B , B16F10, C , CT26, or D , MC38 tumor cells, and when tumors reached an average volume of ~ 100 mm 3 , mice were randomized into treatment groups and treated with a single intraperitoneal dose of 8 mg/kg mIgG1 isotype control, 2 mg/kg mAtt alone (i.e., no antibody), or 10 mg/kg mCD38-mAtt. These dose levels were equilibrated based on dosing the molar equivalence of antibody (mIgG1 isotype to mCD38-mAtt) or mIFNα6 (mAtt alone to mCD38-mAtt). Tumor volume was measured until humane endpoint was reached in the vehicle-treated groups. E, Tabulated summary documenting percent GRI, and statistical significance thereof, following treatment with mCD38-mAtt versus vehicle control for each tumor model. CI, confidence interval; mIFNα6, murine interferon alpha 6; mIgG1, murine immunoglobulin G1.

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Image Search Results

Different strains of immunocompetent mice (see Materials and Methods) were inoculated with A , A20, B , B16F10, C , CT26, or D , MC38 tumor cells, and when tumors reached an average volume of ~ 100 mm 3 , mice were randomized into treatment groups and treated with a single intraperitoneal dose of 8 mg/kg mIgG1 isotype control, 2 mg/kg mAtt alone (i.e., no antibody), or 10 mg/kg mCD38-mAtt. These dose levels were equilibrated based on dosing the molar equivalence of antibody (mIgG1 isotype to mCD38-mAtt) or mIFNα6 (mAtt alone to mCD38-mAtt). Tumor volume was measured until humane endpoint was reached in the vehicle-treated groups. E, Tabulated summary documenting percent GRI, and statistical significance thereof, following treatment with mCD38-mAtt versus vehicle control for each tumor model. CI, confidence interval; mIFNα6, murine interferon alpha 6; mIgG1, murine immunoglobulin G1.

Journal: PLOS One

Article Title: CD38-targeted attenuated interferon alpha immunocytokine activates both innate and adaptive immune cells to drive anti-tumor activity

doi: 10.1371/journal.pone.0321622

Figure Lengend Snippet: Different strains of immunocompetent mice (see Materials and Methods) were inoculated with A , A20, B , B16F10, C , CT26, or D , MC38 tumor cells, and when tumors reached an average volume of ~ 100 mm 3 , mice were randomized into treatment groups and treated with a single intraperitoneal dose of 8 mg/kg mIgG1 isotype control, 2 mg/kg mAtt alone (i.e., no antibody), or 10 mg/kg mCD38-mAtt. These dose levels were equilibrated based on dosing the molar equivalence of antibody (mIgG1 isotype to mCD38-mAtt) or mIFNα6 (mAtt alone to mCD38-mAtt). Tumor volume was measured until humane endpoint was reached in the vehicle-treated groups. E, Tabulated summary documenting percent GRI, and statistical significance thereof, following treatment with mCD38-mAtt versus vehicle control for each tumor model. CI, confidence interval; mIFNα6, murine interferon alpha 6; mIgG1, murine immunoglobulin G1.

Article Snippet: CT26 (H-2 d ) colorectal carcinoma, A20 (H-2 d ) B lymphocyte sarcoma, B16F10 (H-2 b ) melanoma, and MM1.S multiple myeloma cell lines were obtained from the American Type Culture Collection and maintained in supplemented RPMI 1640.

Techniques: Control

Immunocompetent BALB/c mice were inoculated with A–C , A20, or D–F , CT26 cells and when tumors reached an average volume of ~ 100 mm 3 , mice were randomized into treatment groups and administered αAsialo GM-1- (A, D) , αCD8- (B, E) , or αCD4- (C, F) depleting antibodies to deplete specific immune cell subtypes, starting 1 day prior to drug treatment (day -1), and continuing weekly thereafter through the duration of the experiment. On day 0, mice were treated with a single dose of vehicle (PBS, 200 µ L final volume) or 10 mg/kg mCD38-mAtt and tumor volume was measured twice weekly until humane endpoint for vehicle control groups was reached.

Journal: PLOS One

Article Title: CD38-targeted attenuated interferon alpha immunocytokine activates both innate and adaptive immune cells to drive anti-tumor activity

doi: 10.1371/journal.pone.0321622

Figure Lengend Snippet: Immunocompetent BALB/c mice were inoculated with A–C , A20, or D–F , CT26 cells and when tumors reached an average volume of ~ 100 mm 3 , mice were randomized into treatment groups and administered αAsialo GM-1- (A, D) , αCD8- (B, E) , or αCD4- (C, F) depleting antibodies to deplete specific immune cell subtypes, starting 1 day prior to drug treatment (day -1), and continuing weekly thereafter through the duration of the experiment. On day 0, mice were treated with a single dose of vehicle (PBS, 200 µ L final volume) or 10 mg/kg mCD38-mAtt and tumor volume was measured twice weekly until humane endpoint for vehicle control groups was reached.

Techniques: Control

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Model geometric parameters.

Article Snippet: In this paper, the method of drawing the geometry directly in COMSOL software is used for drawing, and the drawn geometry is the SOFC 2D model, and the geometric parameters of the model are shown in .

Techniques:

Conventional SOFC constant and scalar expression settings.

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Conventional SOFC constant and scalar expression settings.

Techniques: Expressing, Permeability, Viscosity, Diffusion-based Assay

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Grid cell size parameters.

Techniques:

Three-dimensional model of SOFC interconnector type I.

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Three-dimensional model of SOFC interconnector type I.

Techniques:

Three-dimensional model of SOFC interconnector type III.

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Three-dimensional model of SOFC interconnector type III.

Techniques:

Velocity distribution in conventional SOFC interconnector model (in m/s).

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Velocity distribution in conventional SOFC interconnector model (in m/s).

Techniques:

Velocity distribution in novel SOFC interconnector model (in m/s).

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Velocity distribution in novel SOFC interconnector model (in m/s).

Techniques:

Pressure distribution in conventional SOFC interconnector model (in Pa).

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Pressure distribution in conventional SOFC interconnector model (in Pa).

Techniques:

Pressure distribution in novel SOFC interconnector model (in Pa).

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Pressure distribution in novel SOFC interconnector model (in Pa).

Techniques:

Distribution of molar concentrations of hydrogen in conventional SOFC interconnector model.

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Distribution of molar concentrations of hydrogen in conventional SOFC interconnector model.

Techniques:

Distribution of molar concentrations of water in novel SOFC interconnector model.

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Distribution of molar concentrations of water in novel SOFC interconnector model.

Techniques:

$Hydrogen molar fraction distribution within the conventional SOFC porous anode.$

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen molar fraction distribution within the conventional SOFC porous anode.

Techniques:

$Hydrogen molar fraction distribution within the novel SOFC porous anode.$

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen molar fraction distribution within the novel SOFC porous anode.

Techniques:

$Hydrogen molar fraction distribution within the flow field channel of the conventional interconnector SOFC.$

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen molar fraction distribution within the flow field channel of the conventional interconnector SOFC.

Techniques:

$Hydrogen molar fraction distribution within the flow field channel of the novel interconnector SOFC.$

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen molar fraction distribution within the flow field channel of the novel interconnector SOFC.

Techniques:

$Hydrogen molar fraction distribution of the conventional interconnector SOFC at intermediate cross section.$

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen molar fraction distribution of the conventional interconnector SOFC at intermediate cross section.

Techniques:

$Hydrogen molar fraction distribution of the novel interconnector SOFC at intermediate cross section.$

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen molar fraction distribution of the novel interconnector SOFC at intermediate cross section.

Techniques:

$Hydrogen molar fraction distribution at the outlet cross-section of the conventional SOFC interconnector.$

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen molar fraction distribution at the outlet cross-section of the conventional SOFC interconnector.

Techniques:

$Hydrogen molar fraction distribution of the inlet cross-section of the novel SOFC interconnector.$

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen molar fraction distribution of the inlet cross-section of the novel SOFC interconnector.

Techniques:

$Hydrogen molar fraction distribution at the interface of the conventional SOFC interconnector porous anode.$

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen molar fraction distribution at the interface of the conventional SOFC interconnector porous anode.

Techniques:

$Hydrogen molar fraction distribution at the interface of the novel SOFC interconnector porous anode.$

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen molar fraction distribution at the interface of the novel SOFC interconnector porous anode.

Techniques:

Hydrogen flow rate distribution of the novel SOFC interconnector type I.

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen flow rate distribution of the novel SOFC interconnector type I.

Techniques:

Hydrogen flow rate distribution of the novel SOFC interconnector type III.

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen flow rate distribution of the novel SOFC interconnector type III.

Techniques:

Pressure distribution of the novel SOFC interconnector type I.

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Pressure distribution of the novel SOFC interconnector type I.

Techniques:

Pressure distribution of the novel SOFC interconnector type III.

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Pressure distribution of the novel SOFC interconnector type III.

Techniques:

Hydrogen concentration distribution of the novel SOFC interconnector type I.

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen concentration distribution of the novel SOFC interconnector type I.

Techniques: Concentration Assay

Hydrogen concentration distribution of the novel SOFC interconnector type III.

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen concentration distribution of the novel SOFC interconnector type III.

Techniques: Concentration Assay

$Hydrogen molar fraction distribution of the novel SOFC interconnector porous anode type I.$

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen molar fraction distribution of the novel SOFC interconnector porous anode type I.

Techniques:

$Hydrogen molar fraction distribution of the novel SOFC interconnector porous anode type III.$

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen molar fraction distribution of the novel SOFC interconnector porous anode type III.

Techniques:

Hydrogen concentration distribution in the fluid channel of the novel SOFC interconnector type I.

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen concentration distribution in the fluid channel of the novel SOFC interconnector type I.

Techniques: Concentration Assay

Hydrogen concentration distribution in the fluid channel of the novel SOFC interconnector type III.

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Hydrogen concentration distribution in the fluid channel of the novel SOFC interconnector type III.

Techniques: Concentration Assay

Distribution of hydrogen concentration in the inlet cross-section of the novel SOFC interconnector type I.

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Distribution of hydrogen concentration in the inlet cross-section of the novel SOFC interconnector type I.

Techniques: Concentration Assay

Distribution of hydrogen concentration in the inlet cross-section of the novel SOFC interconnector type III.

Journal: PLOS ONE

Article Title: Optimized design of planar solid oxide fuel cell interconnectors

doi: 10.1371/journal.pone.0298277

Figure Lengend Snippet: Distribution of hydrogen concentration in the inlet cross-section of the novel SOFC interconnector type III.

Techniques: Concentration Assay

Journal: Chemical Reviews

Article Title: A Comprehensive Review of Modeling of Solid Oxide Fuel Cells: From Large Systems to Fine Electrodes

doi: 10.1021/acs.chemrev.4c00614

Figure Lengend Snippet: Representative Studies on Simulations of SOFCs Fueled by Different Fuels

Article Snippet: , Xu et al. , Tubular SOFC , 2D , Yes , BR , COMSOL , DC-SOFC thermal effects and temperature distribution were studied in detail. , ( ) .

Techniques: Software, Functional Assay, Concentration Assay, Comparison, In Situ

2d sofi algorithm implemented in Search Results

Image Search Results