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Alexander Peter Schwoerer - One of the best experts on this subject based on the ideXlab platform.
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The heterotopic heart transplantation in mice as a small animal model to study mechanical unloading – Establishment of the procedure, perioperative management and postoperative scoring - Fig 1
2019Co-Authors: Sumi Westhofen, Marisa Jelinek, Leonie Dreher, Daniel Biermann, Jack Martin, Helga Vitzhum, Hermann Reichenspurner, Heimo Ehmke, Alexander Peter SchwoererAbstract:Schematic Illustration of the heterotopic abdominal heart transplantation (a) and of the anastomoses (b). The donor ascending aorta (Ao asc) was anastomosed to the recipient infrarenal aorta (Ao), and the donor pulmonary artery (PA) was anastomosed to the recipient inferior vena cava (IVC). Due to the absence of atrial filling, and in the presence of competent aortic and pulmonary valves, the left and the right ventricle (LV, RV) are mechanically unloaded.
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The heterotopic heart transplantation in mice as a small animal model to study mechanical unloading – Establishment of the procedure, perioperative management and postoperative scoring - Fig 5
2019Co-Authors: Sumi Westhofen, Marisa Jelinek, Leonie Dreher, Daniel Biermann, Jack Martin, Helga Vitzhum, Hermann Reichenspurner, Heimo Ehmke, Alexander Peter SchwoererAbstract:a-c: Schematic Illustration of the arterial anastomosis on the abdominal aorta (Ao), while the broken line indicates the inferior vena cava (IVC). Fig 5A shows the proximal and distal anchor stitch. Fig 5B shows the continuously running suture on the left side from the distal anchor stitch towards the proximal anchor stitch. Fig 5C shows the right side of the arterial anastomosis after the heart was carefully flipped over to the left side of the abdomen.
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Photographic Illustration of the recipient situs.
2019Co-Authors: Sumi Westhofen, Marisa Jelinek, Leonie Dreher, Daniel Biermann, Jack Martin, Helga Vitzhum, Hermann Reichenspurner, Heimo Ehmke, Alexander Peter SchwoererAbstract:Fig 3A shows the infrarenal abdominal aorta (Ao) and the inferior vena cava (IVC). In the left upper corner, the right kidney can be identified. At the lower border the reproductive organs can be found, dorsally of the reproductive organs is the iliac bifurcation. Fig 3B shows the Ao and the IVC after clamping. Fig 3C shows the Ao and the IVC after aortotomy and venotomy, and flushing of the vessels. Fig 3D shows a Schematic Illustration of the aortotomy (infra-renal abdominal aorta) and venotomy (subrenal IVC) after clamping the vessels.
Korbinian Moeller - One of the best experts on this subject based on the ideXlab platform.
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Unbounded number line estimation as a measure of numerical estimation - Fig 3
2019Co-Authors: Regina Miriam Reinert, Matthias Hartmann, Stefan Huber, Korbinian MoellerAbstract:Schematic Illustration of an example of the (A) unbounded and (B) bounded number line estimation. The production tasks are displayed in the upper row, the perception tasks in the lower row.
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Unbounded number line estimation as a measure of numerical estimation - Fig 1
2019Co-Authors: Regina Miriam Reinert, Matthias Hartmann, Stefan Huber, Korbinian MoellerAbstract:Schematic Illustration of Crollen et al.’s ([4], p. 41) bi-directional mapping processes (in gray arrows): Panel (A) shows the assumed estimation process in a perception task requiring estimation from the logarithmically compressed representation of non-symbolic numerosity onto the linearly spaced representation of symbolic number magnitude which leads to underestimation. Panel (B) depicts the estimation process in the production task, in which linearly spaced symbolic number magnitude representations have to be mapped onto the compressed representation of non-symbolic numerosity, hence, leading to overestimation.
Sumi Westhofen - One of the best experts on this subject based on the ideXlab platform.
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The heterotopic heart transplantation in mice as a small animal model to study mechanical unloading – Establishment of the procedure, perioperative management and postoperative scoring - Fig 1
2019Co-Authors: Sumi Westhofen, Marisa Jelinek, Leonie Dreher, Daniel Biermann, Jack Martin, Helga Vitzhum, Hermann Reichenspurner, Heimo Ehmke, Alexander Peter SchwoererAbstract:Schematic Illustration of the heterotopic abdominal heart transplantation (a) and of the anastomoses (b). The donor ascending aorta (Ao asc) was anastomosed to the recipient infrarenal aorta (Ao), and the donor pulmonary artery (PA) was anastomosed to the recipient inferior vena cava (IVC). Due to the absence of atrial filling, and in the presence of competent aortic and pulmonary valves, the left and the right ventricle (LV, RV) are mechanically unloaded.
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The heterotopic heart transplantation in mice as a small animal model to study mechanical unloading – Establishment of the procedure, perioperative management and postoperative scoring - Fig 5
2019Co-Authors: Sumi Westhofen, Marisa Jelinek, Leonie Dreher, Daniel Biermann, Jack Martin, Helga Vitzhum, Hermann Reichenspurner, Heimo Ehmke, Alexander Peter SchwoererAbstract:a-c: Schematic Illustration of the arterial anastomosis on the abdominal aorta (Ao), while the broken line indicates the inferior vena cava (IVC). Fig 5A shows the proximal and distal anchor stitch. Fig 5B shows the continuously running suture on the left side from the distal anchor stitch towards the proximal anchor stitch. Fig 5C shows the right side of the arterial anastomosis after the heart was carefully flipped over to the left side of the abdomen.
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Photographic Illustration of the recipient situs.
2019Co-Authors: Sumi Westhofen, Marisa Jelinek, Leonie Dreher, Daniel Biermann, Jack Martin, Helga Vitzhum, Hermann Reichenspurner, Heimo Ehmke, Alexander Peter SchwoererAbstract:Fig 3A shows the infrarenal abdominal aorta (Ao) and the inferior vena cava (IVC). In the left upper corner, the right kidney can be identified. At the lower border the reproductive organs can be found, dorsally of the reproductive organs is the iliac bifurcation. Fig 3B shows the Ao and the IVC after clamping. Fig 3C shows the Ao and the IVC after aortotomy and venotomy, and flushing of the vessels. Fig 3D shows a Schematic Illustration of the aortotomy (infra-renal abdominal aorta) and venotomy (subrenal IVC) after clamping the vessels.
Biju S. D. - One of the best experts on this subject based on the ideXlab platform.
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FIGURE 9 in Description of four new species of Burrowing Frogs in the Fejervarya rufescens complex (Dicroglossidae) with notes on morphological affinities of Fejervarya species in the Western Ghats
2017Co-Authors: Garg Sonali, Biju S. D.Abstract:FIGURE 9. Holotype of Fejervarya cepfi sp. nov. (ZSI / WGRC / V / A / 937): A. dorsolateral view, in life; B. dorsal view, in preservation; C. ventral view, in preservation; D. lateral view of head, in preservation; E. ventral view of hand, in preservation; F. ventral view of foot, in preservation; G. Schematic Illustration of foot webbing
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FIGURE 10 in Description of four new species of Burrowing Frogs in the Fejervarya rufescens complex (Dicroglossidae) with notes on morphological affinities of Fejervarya species in the Western Ghats
2017Co-Authors: Garg Sonali, Biju S. D.Abstract:FIGURE 10. Holotype of Fejervarya kadar sp. nov. (ZSI / WGRC / V / A / 940): A. dorsolateral view, in life; B. dorsal view, in preservation; C. ventral view, in preservation; D. lateral view of head, in preservation; E. ventral view of hand, in preservation; F. ventral view of foot, in preservation; G. Schematic Illustration of foot webbing
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FIGURE 12 in Description of four new species of Burrowing Frogs in the Fejervarya rufescens complex (Dicroglossidae) with notes on morphological affinities of Fejervarya species in the Western Ghats
2017Co-Authors: Garg Sonali, Biju S. D.Abstract:FIGURE 12. Holotype of Fejervarya neilcoxi sp. nov. (ZSI / WGRC / V / A / 951): A. dorsolateral view, in life; B. dorsal view, in preservation; C. ventral view, in preservation; D. lateral view of head, in preservation; E. ventral view of hand, in preservation; F. ventral view of foot, in preservation; G. Schematic Illustration of foot webbing
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FIGURE 11 in Description of four new species of Burrowing Frogs in the Fejervarya rufescens complex (Dicroglossidae) with notes on morphological affinities of Fejervarya species in the Western Ghats
2017Co-Authors: Garg Sonali, Biju S. D.Abstract:FIGURE 11. Holotype of Fejervarya manoharani sp. nov. (ZSI / WGRC / V / A / 945): A. dorsolateral view, in life; B. dorsal view, in preservation; C. ventral view, in preservation; D. lateral view of head, in preservation; E. ventral view of hand, in preservation; F. ventral view of foot, in preservation; G. Schematic Illustration of foot webbing
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FIGURE 7 in Description of four new species of Burrowing Frogs in the Fejervarya rufescens complex (Dicroglossidae) with notes on morphological affinities of Fejervarya species in the Western Ghats
2017Co-Authors: Garg Sonali, Biju S. D.Abstract:FIGURE 7. Fejervarya rufescens, in life and preservation. A. Referred specimen (SDBDU 2015.3070), in life; B – G. Neotype (MNHNP 1984.2348, an adult male): B. dorsal view, in preservation; C. ventral view, in preservation; D. lateral view of head, in preservation; E. ventral view of hand, in preservation; F. ventral view of foot, in preservation; G. Schematic Illustration of foot webbing
Weisan Pan - One of the best experts on this subject based on the ideXlab platform.
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Nanostructured lipid carrier (NLC)-based novel hydrogels as potential carriers for nepafenac applied after cataract surgery for the treatment of inflammation: design, characterization and in vitro cellular inhibition and uptake studies
RSC Advances, 2017Co-Authors: Guoxin Tan, Dandan Liu, Xinggang Yang, Weisan PanAbstract:Schematic Illustration of the novel formulation (nanostructured lipid carriers-based novel hydrogels) instills into the surface of eyes and the results of cytotoxicity and cell uptake for optimal formulation.
