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automated image visualization enhancement (ive) software  (NinePoint)

 
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    Structured Review

    NinePoint automated image visualization enhancement (ive) software
    A and D, Volumetric laser endomicroscopy <t>(VLE)</t> scan of EMR specimens. The VLE scan is rendered to generate an en-face view of the specimen (B and E). The outline of the EMR (yellow) is selected and superimposed over a topographic map (C and F) of epithelial glands (displayed in white) generated using image visualization enhancement <t>(IVE)</t> software. An epithelial gland count is performed by review of each individual frame across the EMR in VLE cross-section. The total surface area (mm2) occupied by glands is quantified using the IVE en-face image. A VLE scan of an en-bloc resection specimen (R0) with a total cross-sectional gland count of 9 and a gland surface area of 0.69 mm2 with glands >0.5 mm from the specimen margin is shown in (C). A VLE scan of an incomplete resection specimen (R1) with a total cross-sectional gland count of 28 and a gland surface area of 2.0 mm2 with glands involving the specimen margin (arrow) at <0.5 mm is shown in (F).
    Automated Image Visualization Enhancement (Ive) Software, supplied by NinePoint, 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/product/automated+image+visualization+enhancement+%28ive%29+software/pmc06557375-111-7-14?v=NinePoint
    Average 90 stars, based on 1 article reviews
    automated image visualization enhancement (ive) software - by Bioz Stars, 2026-07
    90/100 stars

    Images

    1) Product Images from "Outcome of endoscopic mucosal resection in Barrett’s esophagus determined by systematic quantification of epithelial glands using volumetric laser endomicroscopy"

    Article Title: Outcome of endoscopic mucosal resection in Barrett’s esophagus determined by systematic quantification of epithelial glands using volumetric laser endomicroscopy

    Journal: Gastrointestinal endoscopy

    doi: 10.1016/j.gie.2018.09.038

    A and D, Volumetric laser endomicroscopy (VLE) scan of EMR specimens. The VLE scan is rendered to generate an en-face view of the specimen (B and E). The outline of the EMR (yellow) is selected and superimposed over a topographic map (C and F) of epithelial glands (displayed in white) generated using image visualization enhancement (IVE) software. An epithelial gland count is performed by review of each individual frame across the EMR in VLE cross-section. The total surface area (mm2) occupied by glands is quantified using the IVE en-face image. A VLE scan of an en-bloc resection specimen (R0) with a total cross-sectional gland count of 9 and a gland surface area of 0.69 mm2 with glands >0.5 mm from the specimen margin is shown in (C). A VLE scan of an incomplete resection specimen (R1) with a total cross-sectional gland count of 28 and a gland surface area of 2.0 mm2 with glands involving the specimen margin (arrow) at <0.5 mm is shown in (F).
    Figure Legend Snippet: A and D, Volumetric laser endomicroscopy (VLE) scan of EMR specimens. The VLE scan is rendered to generate an en-face view of the specimen (B and E). The outline of the EMR (yellow) is selected and superimposed over a topographic map (C and F) of epithelial glands (displayed in white) generated using image visualization enhancement (IVE) software. An epithelial gland count is performed by review of each individual frame across the EMR in VLE cross-section. The total surface area (mm2) occupied by glands is quantified using the IVE en-face image. A VLE scan of an en-bloc resection specimen (R0) with a total cross-sectional gland count of 9 and a gland surface area of 0.69 mm2 with glands >0.5 mm from the specimen margin is shown in (C). A VLE scan of an incomplete resection specimen (R1) with a total cross-sectional gland count of 28 and a gland surface area of 2.0 mm2 with glands involving the specimen margin (arrow) at <0.5 mm is shown in (F).

    Techniques Used: Generated, Software



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    90
    NinePoint automated image visualization enhancement (ive) software
    A and D, Volumetric laser endomicroscopy <t>(VLE)</t> scan of EMR specimens. The VLE scan is rendered to generate an en-face view of the specimen (B and E). The outline of the EMR (yellow) is selected and superimposed over a topographic map (C and F) of epithelial glands (displayed in white) generated using image visualization enhancement <t>(IVE)</t> software. An epithelial gland count is performed by review of each individual frame across the EMR in VLE cross-section. The total surface area (mm2) occupied by glands is quantified using the IVE en-face image. A VLE scan of an en-bloc resection specimen (R0) with a total cross-sectional gland count of 9 and a gland surface area of 0.69 mm2 with glands >0.5 mm from the specimen margin is shown in (C). A VLE scan of an incomplete resection specimen (R1) with a total cross-sectional gland count of 28 and a gland surface area of 2.0 mm2 with glands involving the specimen margin (arrow) at <0.5 mm is shown in (F).
    Automated Image Visualization Enhancement (Ive) Software, supplied by NinePoint, 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/product/automated+image+visualization+enhancement+%28ive%29+software/pmc06557375-111-7-14?v=NinePoint
    Average 90 stars, based on 1 article reviews
    automated image visualization enhancement (ive) software - by Bioz Stars, 2026-07
    90/100 stars
      Buy from Supplier

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    A and D, Volumetric laser endomicroscopy (VLE) scan of EMR specimens. The VLE scan is rendered to generate an en-face view of the specimen (B and E). The outline of the EMR (yellow) is selected and superimposed over a topographic map (C and F) of epithelial glands (displayed in white) generated using image visualization enhancement (IVE) software. An epithelial gland count is performed by review of each individual frame across the EMR in VLE cross-section. The total surface area (mm2) occupied by glands is quantified using the IVE en-face image. A VLE scan of an en-bloc resection specimen (R0) with a total cross-sectional gland count of 9 and a gland surface area of 0.69 mm2 with glands >0.5 mm from the specimen margin is shown in (C). A VLE scan of an incomplete resection specimen (R1) with a total cross-sectional gland count of 28 and a gland surface area of 2.0 mm2 with glands involving the specimen margin (arrow) at <0.5 mm is shown in (F).

    Journal: Gastrointestinal endoscopy

    Article Title: Outcome of endoscopic mucosal resection in Barrett’s esophagus determined by systematic quantification of epithelial glands using volumetric laser endomicroscopy

    doi: 10.1016/j.gie.2018.09.038

    Figure Lengend Snippet: A and D, Volumetric laser endomicroscopy (VLE) scan of EMR specimens. The VLE scan is rendered to generate an en-face view of the specimen (B and E). The outline of the EMR (yellow) is selected and superimposed over a topographic map (C and F) of epithelial glands (displayed in white) generated using image visualization enhancement (IVE) software. An epithelial gland count is performed by review of each individual frame across the EMR in VLE cross-section. The total surface area (mm2) occupied by glands is quantified using the IVE en-face image. A VLE scan of an en-bloc resection specimen (R0) with a total cross-sectional gland count of 9 and a gland surface area of 0.69 mm2 with glands >0.5 mm from the specimen margin is shown in (C). A VLE scan of an incomplete resection specimen (R1) with a total cross-sectional gland count of 28 and a gland surface area of 2.0 mm2 with glands involving the specimen margin (arrow) at <0.5 mm is shown in (F).

    Article Snippet: 10 Automated computer-aided epithelial gland quantification using VLE Automated image visualization enhancement (IVE) software (NinePoint Medical, Bedford, Mass) was used to visualize epithelial glands for quantification.

    Techniques: Generated, Software