version 2022a Search Results


algorithms incucyte zoom essen bioscience version 2022a  (Sartorius AG)
99
Sartorius AG algorithms incucyte zoom essen bioscience version 2022a
Algorithms Incucyte Zoom Essen Bioscience Version 2022a, supplied by Sartorius AG, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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built-in matlab functions  (MathWorks Inc)
90
MathWorks Inc built-in matlab functions
Built In Matlab Functions, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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version 2022a  (MathWorks Inc)
90
MathWorks Inc version 2022a
Version 2022a, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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version 2022a - by Bioz Stars, 2026-03
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scils lab software (version 2022a pro)  (Bruker Corporation)
90
Bruker Corporation scils lab software (version 2022a pro)
Scils Lab Software (Version 2022a Pro), supplied by Bruker Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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statistical software version 1.4.717  (RStudio)
90
RStudio statistical software version 1.4.717
Statistical Software Version 1.4.717, supplied by RStudio, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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2022a software version r2022a update 5  (MathWorks Inc)
90
MathWorks Inc 2022a software version r2022a update 5
2022a Software Version R2022a Update 5, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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2022a software version r2022a update 5 - by Bioz Stars, 2026-03
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matlab simbiology app  (MathWorks Inc)
97
MathWorks Inc matlab simbiology app
Matlab Simbiology App, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 97/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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scils lab version 2022a premium 3d software  (Bruker Corporation)
98
Bruker Corporation scils lab version 2022a premium 3d software
Comparison of the spatial distribution of naloxone (sodium adduct ion ( m / z 350.136) and potassium adduct ion ( m / z 366.110)) inside ZF larval whole body between ( a , b ) the protocol used in the previous studies [ , ] and ( c , d ) the optimal condition investigated in this study. All MS images were visualized with a three-dimensional view function in SCiLS Lab version <t>2022a</t> Premium 3D software, based on the diagram of a ZF larva shown in . The experimental conditions were the following: ( a , b ) 14 passes of spraying matrix deposition using 15 mg mL −1 DHB containing 0.1% TFA and 40% gelatin embedding medium, a total of 10 slides for one respective larva; ( c , d ) 8 passes of spraying matrix deposition using 5 mg mL −1 CHCA containing 0.1% TFA and 40% gelatin embedding medium, a total of 11 slides for one respective larva. The images were generated by preparing a color map from blue (no detection) to yellow (high local concentration) with a 50% transparency option, and then they were further processed in 96 dpi resolution with 24-bit color under a denoising state. The red lines indicate individual larval body sections that were overlapped for 3D visualization, and approximately 15 sections were usually utilized for this visualization.
Scils Lab Version 2022a Premium 3d Software, supplied by Bruker Corporation, used in various techniques. Bioz Stars score: 98/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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numerical analysis software matlab2022a  (MathWorks Inc)
90
MathWorks Inc numerical analysis software matlab2022a
Comparison of the spatial distribution of naloxone (sodium adduct ion ( m / z 350.136) and potassium adduct ion ( m / z 366.110)) inside ZF larval whole body between ( a , b ) the protocol used in the previous studies [ , ] and ( c , d ) the optimal condition investigated in this study. All MS images were visualized with a three-dimensional view function in SCiLS Lab version <t>2022a</t> Premium 3D software, based on the diagram of a ZF larva shown in . The experimental conditions were the following: ( a , b ) 14 passes of spraying matrix deposition using 15 mg mL −1 DHB containing 0.1% TFA and 40% gelatin embedding medium, a total of 10 slides for one respective larva; ( c , d ) 8 passes of spraying matrix deposition using 5 mg mL −1 CHCA containing 0.1% TFA and 40% gelatin embedding medium, a total of 11 slides for one respective larva. The images were generated by preparing a color map from blue (no detection) to yellow (high local concentration) with a 50% transparency option, and then they were further processed in 96 dpi resolution with 24-bit color under a denoising state. The red lines indicate individual larval body sections that were overlapped for 3D visualization, and approximately 15 sections were usually utilized for this visualization.
Numerical Analysis Software Matlab2022a, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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calc® software version 2022a  (Thermo Fisher)
90
Thermo Fisher calc® software version 2022a
Comparison of the spatial distribution of naloxone (sodium adduct ion ( m / z 350.136) and potassium adduct ion ( m / z 366.110)) inside ZF larval whole body between ( a , b ) the protocol used in the previous studies [ , ] and ( c , d ) the optimal condition investigated in this study. All MS images were visualized with a three-dimensional view function in SCiLS Lab version <t>2022a</t> Premium 3D software, based on the diagram of a ZF larva shown in . The experimental conditions were the following: ( a , b ) 14 passes of spraying matrix deposition using 15 mg mL −1 DHB containing 0.1% TFA and 40% gelatin embedding medium, a total of 10 slides for one respective larva; ( c , d ) 8 passes of spraying matrix deposition using 5 mg mL −1 CHCA containing 0.1% TFA and 40% gelatin embedding medium, a total of 11 slides for one respective larva. The images were generated by preparing a color map from blue (no detection) to yellow (high local concentration) with a 50% transparency option, and then they were further processed in 96 dpi resolution with 24-bit color under a denoising state. The red lines indicate individual larval body sections that were overlapped for 3D visualization, and approximately 15 sections were usually utilized for this visualization.
Calc® Software Version 2022a, supplied by Thermo Fisher, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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version 9.13 (r2022b)  (MathWorks Inc)
90
MathWorks Inc version 9.13 (r2022b)
Comparison of the spatial distribution of naloxone (sodium adduct ion ( m / z 350.136) and potassium adduct ion ( m / z 366.110)) inside ZF larval whole body between ( a , b ) the protocol used in the previous studies [ , ] and ( c , d ) the optimal condition investigated in this study. All MS images were visualized with a three-dimensional view function in SCiLS Lab version <t>2022a</t> Premium 3D software, based on the diagram of a ZF larva shown in . The experimental conditions were the following: ( a , b ) 14 passes of spraying matrix deposition using 15 mg mL −1 DHB containing 0.1% TFA and 40% gelatin embedding medium, a total of 10 slides for one respective larva; ( c , d ) 8 passes of spraying matrix deposition using 5 mg mL −1 CHCA containing 0.1% TFA and 40% gelatin embedding medium, a total of 11 slides for one respective larva. The images were generated by preparing a color map from blue (no detection) to yellow (high local concentration) with a 50% transparency option, and then they were further processed in 96 dpi resolution with 24-bit color under a denoising state. The red lines indicate individual larval body sections that were overlapped for 3D visualization, and approximately 15 sections were usually utilized for this visualization.
Version 9.13 (R2022b), supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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learning tool interoperability (lti; version 1.3) standards  (Unicon Inc)
90
Unicon Inc learning tool interoperability (lti; version 1.3) standards
Comparison of the spatial distribution of naloxone (sodium adduct ion ( m / z 350.136) and potassium adduct ion ( m / z 366.110)) inside ZF larval whole body between ( a , b ) the protocol used in the previous studies [ , ] and ( c , d ) the optimal condition investigated in this study. All MS images were visualized with a three-dimensional view function in SCiLS Lab version <t>2022a</t> Premium 3D software, based on the diagram of a ZF larva shown in . The experimental conditions were the following: ( a , b ) 14 passes of spraying matrix deposition using 15 mg mL −1 DHB containing 0.1% TFA and 40% gelatin embedding medium, a total of 10 slides for one respective larva; ( c , d ) 8 passes of spraying matrix deposition using 5 mg mL −1 CHCA containing 0.1% TFA and 40% gelatin embedding medium, a total of 11 slides for one respective larva. The images were generated by preparing a color map from blue (no detection) to yellow (high local concentration) with a 50% transparency option, and then they were further processed in 96 dpi resolution with 24-bit color under a denoising state. The red lines indicate individual larval body sections that were overlapped for 3D visualization, and approximately 15 sections were usually utilized for this visualization.
Learning Tool Interoperability (Lti; Version 1.3) Standards, supplied by Unicon Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Comparison of the spatial distribution of naloxone (sodium adduct ion ( m / z 350.136) and potassium adduct ion ( m / z 366.110)) inside ZF larval whole body between ( a , b ) the protocol used in the previous studies [ , ] and ( c , d ) the optimal condition investigated in this study. All MS images were visualized with a three-dimensional view function in SCiLS Lab version 2022a Premium 3D software, based on the diagram of a ZF larva shown in . The experimental conditions were the following: ( a , b ) 14 passes of spraying matrix deposition using 15 mg mL −1 DHB containing 0.1% TFA and 40% gelatin embedding medium, a total of 10 slides for one respective larva; ( c , d ) 8 passes of spraying matrix deposition using 5 mg mL −1 CHCA containing 0.1% TFA and 40% gelatin embedding medium, a total of 11 slides for one respective larva. The images were generated by preparing a color map from blue (no detection) to yellow (high local concentration) with a 50% transparency option, and then they were further processed in 96 dpi resolution with 24-bit color under a denoising state. The red lines indicate individual larval body sections that were overlapped for 3D visualization, and approximately 15 sections were usually utilized for this visualization.

Journal: International Journal of Molecular Sciences

Article Title: Optimization of Mass Spectrometry Imaging for Drug Metabolism and Distribution Studies in the Zebrafish Larvae Model: A Case Study with the Opioid Antagonist Naloxone

doi: 10.3390/ijms241210076

Figure Lengend Snippet: Comparison of the spatial distribution of naloxone (sodium adduct ion ( m / z 350.136) and potassium adduct ion ( m / z 366.110)) inside ZF larval whole body between ( a , b ) the protocol used in the previous studies [ , ] and ( c , d ) the optimal condition investigated in this study. All MS images were visualized with a three-dimensional view function in SCiLS Lab version 2022a Premium 3D software, based on the diagram of a ZF larva shown in . The experimental conditions were the following: ( a , b ) 14 passes of spraying matrix deposition using 15 mg mL −1 DHB containing 0.1% TFA and 40% gelatin embedding medium, a total of 10 slides for one respective larva; ( c , d ) 8 passes of spraying matrix deposition using 5 mg mL −1 CHCA containing 0.1% TFA and 40% gelatin embedding medium, a total of 11 slides for one respective larva. The images were generated by preparing a color map from blue (no detection) to yellow (high local concentration) with a 50% transparency option, and then they were further processed in 96 dpi resolution with 24-bit color under a denoising state. The red lines indicate individual larval body sections that were overlapped for 3D visualization, and approximately 15 sections were usually utilized for this visualization.

Article Snippet: 2.2.0, flexImaging version 5.0, and SCiLS Lab version 2022a Premium 3D software (Bruker Daltonics, Bremen, Germany).

Techniques: Software, Generated, Concentration Assay

MALDI-MS images of the most abundant ZF metabolites of naloxone (M2 ( m / z 326.078), M4 ( m / z 368.125), M7 ( m / z 542.142), M10/M14 ( m / z 382.105), and M35 ( m / z 308.068) potassium adduct ions) detected inside ZF larvae (whole body) prepared under the optimal conditions, as described above. All MS images were visualized with a three-dimensional view function in SCiLS Lab version Premium 2022a 3D software, based on the diagram of a ZF larva shown in . The images were generated by preparing a color map from blue (no detection) to yellow (high local concentration) with a 50% transparency option and then were further processed in 96 dpi resolution with 24-bit color under a denoising state. The red lines indicate individual larval body sections that were overlapped for 3D visualization, and approximately 15 sections were usually utilized for this visualization.

Journal: International Journal of Molecular Sciences

Article Title: Optimization of Mass Spectrometry Imaging for Drug Metabolism and Distribution Studies in the Zebrafish Larvae Model: A Case Study with the Opioid Antagonist Naloxone

doi: 10.3390/ijms241210076

Figure Lengend Snippet: MALDI-MS images of the most abundant ZF metabolites of naloxone (M2 ( m / z 326.078), M4 ( m / z 368.125), M7 ( m / z 542.142), M10/M14 ( m / z 382.105), and M35 ( m / z 308.068) potassium adduct ions) detected inside ZF larvae (whole body) prepared under the optimal conditions, as described above. All MS images were visualized with a three-dimensional view function in SCiLS Lab version Premium 2022a 3D software, based on the diagram of a ZF larva shown in . The images were generated by preparing a color map from blue (no detection) to yellow (high local concentration) with a 50% transparency option and then were further processed in 96 dpi resolution with 24-bit color under a denoising state. The red lines indicate individual larval body sections that were overlapped for 3D visualization, and approximately 15 sections were usually utilized for this visualization.

Article Snippet: 2.2.0, flexImaging version 5.0, and SCiLS Lab version 2022a Premium 3D software (Bruker Daltonics, Bremen, Germany).

Techniques: Software, Generated, Concentration Assay