3d computer aided design cad program Search Results


3d computer-aided design (cad) design of the scaffold  (ANSYS inc)
90
ANSYS inc 3d computer-aided design (cad) design of the scaffold
3d Computer Aided Design (Cad) Design Of The Scaffold, supplied by ANSYS 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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3d computer‑aided design (cad) model of the left tibia #3402  (Pacific Research Laboratories)
90
Pacific Research Laboratories 3d computer‑aided design (cad) model of the left tibia #3402
3d Computer‑Aided Design (Cad) Model Of The Left Tibia #3402, supplied by Pacific Research Laboratories, 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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3d computer animated design (cad) file  (Trimble Navigation)
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Trimble Navigation 3d computer animated design (cad) file
3d Computer Animated Design (Cad) File, supplied by Trimble Navigation, 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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computer-aided design system maxwell 3d  (Ansoft Corporation)
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Ansoft Corporation computer-aided design system maxwell 3d
Computer Aided Design System Maxwell 3d, supplied by Ansoft 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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computer-aided design system maxwell 3d - by Bioz Stars, 2026-05
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three-dimensional (3d) computer-aided design (cad) software  (exocad GmbH)
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exocad GmbH three-dimensional (3d) computer-aided design (cad) software
Three Dimensional (3d) Computer Aided Design (Cad) Software, supplied by exocad GmbH, 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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3-d computer aided design (cad) software package pspice  (Cadence Design Systems)
90
Cadence Design Systems 3-d computer aided design (cad) software package pspice
3 D Computer Aided Design (Cad) Software Package Pspice, supplied by Cadence Design Systems, 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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3d computer-aided design (cad) model  (COMSOL Inc)
90
COMSOL Inc 3d computer-aided design (cad) model
FEM-Based Treatment Plan for I-PDT of MCAO. The above figure shows a representative treatment plan and simulation results for a patient with MCAO that was treated with I-PDT. ( a ) High-resolution diagnostic CT scan. The treating physician segmented the tumor treatment volume (in red) and then the surrounding critical structures were segmented. The total tumor volume was 26.1 cm 3 . For this patient, segmentations were performed for the pulmonary artery (in purple), ascending and descending aorta (in pink), bronchus (in green), and vertebra (in yellow), and then for the tissue surrounding the tumor (not shown). These segmentations were used to create <t>3D</t> <t>CAD</t> models that could be imported into the FEM software, which in this case was Comsol. ( b ) Three-dimensional mesh of the tumor (in red), pulmonary artery (in purple), aortic arch (in pink), and bronchus (in green). The mesh was created from the 3D CAD models in Comsol and used for our FEM simulations of light distribution. For this patient, the light irradiance and fluence distribution was computed for the tumor, surrounding normal tissue, pulmonary artery, and the aortic arch. ( c ) Fiber placement from the bronchus and into the tumor geometry. The plan was to insert 4 CDFs with illumination lengths of 1.5 cm. Each fiber would emit 240 mW/cm for 750 s. ( d ) Resulting irradiance distribution. Based on the treatment plan, 99.97% of the tumor volume would receive ≥8.6 mW/cm 2 . The irradiance ranged 7–1528 mW/cm 2 . ( e ) Resulting rate-based light dose (the total fluence calculated when the irradiance ≥ 8.6 mW/cm 2 ). Based on the treatment plan, 79.6% of the tumor volume would have received the effective rate-based light dose (i.e., ≥8.6 mW/cm 2 and 45 J/cm 2 ). This volume of the tumor is indicated in red in ( e ).
3d Computer Aided Design (Cad) Model, supplied by COMSOL 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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three-dimensional (3d) computer-aided design (cad) and processes  (Heathrow Scientific)
90
Heathrow Scientific three-dimensional (3d) computer-aided design (cad) and processes
FEM-Based Treatment Plan for I-PDT of MCAO. The above figure shows a representative treatment plan and simulation results for a patient with MCAO that was treated with I-PDT. ( a ) High-resolution diagnostic CT scan. The treating physician segmented the tumor treatment volume (in red) and then the surrounding critical structures were segmented. The total tumor volume was 26.1 cm 3 . For this patient, segmentations were performed for the pulmonary artery (in purple), ascending and descending aorta (in pink), bronchus (in green), and vertebra (in yellow), and then for the tissue surrounding the tumor (not shown). These segmentations were used to create <t>3D</t> <t>CAD</t> models that could be imported into the FEM software, which in this case was Comsol. ( b ) Three-dimensional mesh of the tumor (in red), pulmonary artery (in purple), aortic arch (in pink), and bronchus (in green). The mesh was created from the 3D CAD models in Comsol and used for our FEM simulations of light distribution. For this patient, the light irradiance and fluence distribution was computed for the tumor, surrounding normal tissue, pulmonary artery, and the aortic arch. ( c ) Fiber placement from the bronchus and into the tumor geometry. The plan was to insert 4 CDFs with illumination lengths of 1.5 cm. Each fiber would emit 240 mW/cm for 750 s. ( d ) Resulting irradiance distribution. Based on the treatment plan, 99.97% of the tumor volume would receive ≥8.6 mW/cm 2 . The irradiance ranged 7–1528 mW/cm 2 . ( e ) Resulting rate-based light dose (the total fluence calculated when the irradiance ≥ 8.6 mW/cm 2 ). Based on the treatment plan, 79.6% of the tumor volume would have received the effective rate-based light dose (i.e., ≥8.6 mW/cm 2 and 45 J/cm 2 ). This volume of the tumor is indicated in red in ( e ).
Three Dimensional (3d) Computer Aided Design (Cad) And Processes, supplied by Heathrow Scientific, 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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3d computer aided design (cad) model  (DePuy Synthes)
90
DePuy Synthes 3d computer aided design (cad) model
FEM-Based Treatment Plan for I-PDT of MCAO. The above figure shows a representative treatment plan and simulation results for a patient with MCAO that was treated with I-PDT. ( a ) High-resolution diagnostic CT scan. The treating physician segmented the tumor treatment volume (in red) and then the surrounding critical structures were segmented. The total tumor volume was 26.1 cm 3 . For this patient, segmentations were performed for the pulmonary artery (in purple), ascending and descending aorta (in pink), bronchus (in green), and vertebra (in yellow), and then for the tissue surrounding the tumor (not shown). These segmentations were used to create <t>3D</t> <t>CAD</t> models that could be imported into the FEM software, which in this case was Comsol. ( b ) Three-dimensional mesh of the tumor (in red), pulmonary artery (in purple), aortic arch (in pink), and bronchus (in green). The mesh was created from the 3D CAD models in Comsol and used for our FEM simulations of light distribution. For this patient, the light irradiance and fluence distribution was computed for the tumor, surrounding normal tissue, pulmonary artery, and the aortic arch. ( c ) Fiber placement from the bronchus and into the tumor geometry. The plan was to insert 4 CDFs with illumination lengths of 1.5 cm. Each fiber would emit 240 mW/cm for 750 s. ( d ) Resulting irradiance distribution. Based on the treatment plan, 99.97% of the tumor volume would receive ≥8.6 mW/cm 2 . The irradiance ranged 7–1528 mW/cm 2 . ( e ) Resulting rate-based light dose (the total fluence calculated when the irradiance ≥ 8.6 mW/cm 2 ). Based on the treatment plan, 79.6% of the tumor volume would have received the effective rate-based light dose (i.e., ≥8.6 mW/cm 2 and 45 J/cm 2 ). This volume of the tumor is indicated in red in ( e ).
3d Computer Aided Design (Cad) Model, supplied by DePuy Synthes, 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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3d computer aided design (cad) model - by Bioz Stars, 2026-05
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3d computer-aided design (cad) software package, v2007  (SolidWorks Corp)
90
SolidWorks Corp 3d computer-aided design (cad) software package, v2007
FEM-Based Treatment Plan for I-PDT of MCAO. The above figure shows a representative treatment plan and simulation results for a patient with MCAO that was treated with I-PDT. ( a ) High-resolution diagnostic CT scan. The treating physician segmented the tumor treatment volume (in red) and then the surrounding critical structures were segmented. The total tumor volume was 26.1 cm 3 . For this patient, segmentations were performed for the pulmonary artery (in purple), ascending and descending aorta (in pink), bronchus (in green), and vertebra (in yellow), and then for the tissue surrounding the tumor (not shown). These segmentations were used to create <t>3D</t> <t>CAD</t> models that could be imported into the FEM software, which in this case was Comsol. ( b ) Three-dimensional mesh of the tumor (in red), pulmonary artery (in purple), aortic arch (in pink), and bronchus (in green). The mesh was created from the 3D CAD models in Comsol and used for our FEM simulations of light distribution. For this patient, the light irradiance and fluence distribution was computed for the tumor, surrounding normal tissue, pulmonary artery, and the aortic arch. ( c ) Fiber placement from the bronchus and into the tumor geometry. The plan was to insert 4 CDFs with illumination lengths of 1.5 cm. Each fiber would emit 240 mW/cm for 750 s. ( d ) Resulting irradiance distribution. Based on the treatment plan, 99.97% of the tumor volume would receive ≥8.6 mW/cm 2 . The irradiance ranged 7–1528 mW/cm 2 . ( e ) Resulting rate-based light dose (the total fluence calculated when the irradiance ≥ 8.6 mW/cm 2 ). Based on the treatment plan, 79.6% of the tumor volume would have received the effective rate-based light dose (i.e., ≥8.6 mW/cm 2 and 45 J/cm 2 ). This volume of the tumor is indicated in red in ( e ).
3d Computer Aided Design (Cad) Software Package, V2007, supplied by SolidWorks Corp, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/3d computer-aided design (cad) software package, v2007/product/SolidWorks Corp
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3d computer-aided design (cad) software package, v2007 - by Bioz Stars, 2026-05
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3-d computer-aided design (cad) method  (Alibre Inc)
90
Alibre Inc 3-d computer-aided design (cad) method
FEM-Based Treatment Plan for I-PDT of MCAO. The above figure shows a representative treatment plan and simulation results for a patient with MCAO that was treated with I-PDT. ( a ) High-resolution diagnostic CT scan. The treating physician segmented the tumor treatment volume (in red) and then the surrounding critical structures were segmented. The total tumor volume was 26.1 cm 3 . For this patient, segmentations were performed for the pulmonary artery (in purple), ascending and descending aorta (in pink), bronchus (in green), and vertebra (in yellow), and then for the tissue surrounding the tumor (not shown). These segmentations were used to create <t>3D</t> <t>CAD</t> models that could be imported into the FEM software, which in this case was Comsol. ( b ) Three-dimensional mesh of the tumor (in red), pulmonary artery (in purple), aortic arch (in pink), and bronchus (in green). The mesh was created from the 3D CAD models in Comsol and used for our FEM simulations of light distribution. For this patient, the light irradiance and fluence distribution was computed for the tumor, surrounding normal tissue, pulmonary artery, and the aortic arch. ( c ) Fiber placement from the bronchus and into the tumor geometry. The plan was to insert 4 CDFs with illumination lengths of 1.5 cm. Each fiber would emit 240 mW/cm for 750 s. ( d ) Resulting irradiance distribution. Based on the treatment plan, 99.97% of the tumor volume would receive ≥8.6 mW/cm 2 . The irradiance ranged 7–1528 mW/cm 2 . ( e ) Resulting rate-based light dose (the total fluence calculated when the irradiance ≥ 8.6 mW/cm 2 ). Based on the treatment plan, 79.6% of the tumor volume would have received the effective rate-based light dose (i.e., ≥8.6 mW/cm 2 and 45 J/cm 2 ). This volume of the tumor is indicated in red in ( e ).
3 D Computer Aided Design (Cad) Method, supplied by Alibre Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/3-d computer-aided design (cad) method/product/Alibre Inc
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3-d computer-aided design (cad) method - by Bioz Stars, 2026-05
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3d computer-aided design (cad) models  (MakerBot Industries)
90
MakerBot Industries 3d computer-aided design (cad) models
FEM-Based Treatment Plan for I-PDT of MCAO. The above figure shows a representative treatment plan and simulation results for a patient with MCAO that was treated with I-PDT. ( a ) High-resolution diagnostic CT scan. The treating physician segmented the tumor treatment volume (in red) and then the surrounding critical structures were segmented. The total tumor volume was 26.1 cm 3 . For this patient, segmentations were performed for the pulmonary artery (in purple), ascending and descending aorta (in pink), bronchus (in green), and vertebra (in yellow), and then for the tissue surrounding the tumor (not shown). These segmentations were used to create <t>3D</t> <t>CAD</t> models that could be imported into the FEM software, which in this case was Comsol. ( b ) Three-dimensional mesh of the tumor (in red), pulmonary artery (in purple), aortic arch (in pink), and bronchus (in green). The mesh was created from the 3D CAD models in Comsol and used for our FEM simulations of light distribution. For this patient, the light irradiance and fluence distribution was computed for the tumor, surrounding normal tissue, pulmonary artery, and the aortic arch. ( c ) Fiber placement from the bronchus and into the tumor geometry. The plan was to insert 4 CDFs with illumination lengths of 1.5 cm. Each fiber would emit 240 mW/cm for 750 s. ( d ) Resulting irradiance distribution. Based on the treatment plan, 99.97% of the tumor volume would receive ≥8.6 mW/cm 2 . The irradiance ranged 7–1528 mW/cm 2 . ( e ) Resulting rate-based light dose (the total fluence calculated when the irradiance ≥ 8.6 mW/cm 2 ). Based on the treatment plan, 79.6% of the tumor volume would have received the effective rate-based light dose (i.e., ≥8.6 mW/cm 2 and 45 J/cm 2 ). This volume of the tumor is indicated in red in ( e ).
3d Computer Aided Design (Cad) Models, supplied by MakerBot Industries, 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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3d computer-aided design (cad) models - by Bioz Stars, 2026-05
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Image Search Results


FEM-Based Treatment Plan for I-PDT of MCAO. The above figure shows a representative treatment plan and simulation results for a patient with MCAO that was treated with I-PDT. ( a ) High-resolution diagnostic CT scan. The treating physician segmented the tumor treatment volume (in red) and then the surrounding critical structures were segmented. The total tumor volume was 26.1 cm 3 . For this patient, segmentations were performed for the pulmonary artery (in purple), ascending and descending aorta (in pink), bronchus (in green), and vertebra (in yellow), and then for the tissue surrounding the tumor (not shown). These segmentations were used to create 3D CAD models that could be imported into the FEM software, which in this case was Comsol. ( b ) Three-dimensional mesh of the tumor (in red), pulmonary artery (in purple), aortic arch (in pink), and bronchus (in green). The mesh was created from the 3D CAD models in Comsol and used for our FEM simulations of light distribution. For this patient, the light irradiance and fluence distribution was computed for the tumor, surrounding normal tissue, pulmonary artery, and the aortic arch. ( c ) Fiber placement from the bronchus and into the tumor geometry. The plan was to insert 4 CDFs with illumination lengths of 1.5 cm. Each fiber would emit 240 mW/cm for 750 s. ( d ) Resulting irradiance distribution. Based on the treatment plan, 99.97% of the tumor volume would receive ≥8.6 mW/cm 2 . The irradiance ranged 7–1528 mW/cm 2 . ( e ) Resulting rate-based light dose (the total fluence calculated when the irradiance ≥ 8.6 mW/cm 2 ). Based on the treatment plan, 79.6% of the tumor volume would have received the effective rate-based light dose (i.e., ≥8.6 mW/cm 2 and 45 J/cm 2 ). This volume of the tumor is indicated in red in ( e ).

Journal: Cancers

Article Title: Computational Optimization of Irradiance and Fluence for Interstitial Photodynamic Therapy Treatment of Patients with Malignant Central Airway Obstruction

doi: 10.3390/cancers15092636

Figure Lengend Snippet: FEM-Based Treatment Plan for I-PDT of MCAO. The above figure shows a representative treatment plan and simulation results for a patient with MCAO that was treated with I-PDT. ( a ) High-resolution diagnostic CT scan. The treating physician segmented the tumor treatment volume (in red) and then the surrounding critical structures were segmented. The total tumor volume was 26.1 cm 3 . For this patient, segmentations were performed for the pulmonary artery (in purple), ascending and descending aorta (in pink), bronchus (in green), and vertebra (in yellow), and then for the tissue surrounding the tumor (not shown). These segmentations were used to create 3D CAD models that could be imported into the FEM software, which in this case was Comsol. ( b ) Three-dimensional mesh of the tumor (in red), pulmonary artery (in purple), aortic arch (in pink), and bronchus (in green). The mesh was created from the 3D CAD models in Comsol and used for our FEM simulations of light distribution. For this patient, the light irradiance and fluence distribution was computed for the tumor, surrounding normal tissue, pulmonary artery, and the aortic arch. ( c ) Fiber placement from the bronchus and into the tumor geometry. The plan was to insert 4 CDFs with illumination lengths of 1.5 cm. Each fiber would emit 240 mW/cm for 750 s. ( d ) Resulting irradiance distribution. Based on the treatment plan, 99.97% of the tumor volume would receive ≥8.6 mW/cm 2 . The irradiance ranged 7–1528 mW/cm 2 . ( e ) Resulting rate-based light dose (the total fluence calculated when the irradiance ≥ 8.6 mW/cm 2 ). Based on the treatment plan, 79.6% of the tumor volume would have received the effective rate-based light dose (i.e., ≥8.6 mW/cm 2 and 45 J/cm 2 ). This volume of the tumor is indicated in red in ( e ).

Article Snippet: The segmented scans were then reconstructed to create a 3D computer-aided design (CAD) model that was imported into the Comsol FEM package.

Techniques: Diagnostic Assay, Computed Tomography, Software