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ivus dicom images  (MathWorks Inc)


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    MathWorks Inc ivus dicom images
    Representative portion of the experimental setup for measuring the pressure-diameter response of the coronary artery in the in situ and partially dissected configurations. Two pressure transducers, P1 and P2, are cannulated and secured between the coronary artery segment of interest. Pressure is provided by a syringe pump (not shown). The <t>IVUS</t> transducer is delivered into the arterial lumen through a one-way port (not shown) and rests in the middle of the dissected segment. A series of ligatures and vascular clips are used to stop outflow from peripheral branches. During testing, the heart is fully submerged in a DPBS bath maintained at physiological temperature (not shown).
    Ivus Dicom Images, 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
    https://www.bioz.com/result/ivus dicom images/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    ivus dicom images - by Bioz Stars, 2026-04
    90/100 stars

    Images

    1) Product Images from "A Novel Approach to Assess the In Situ Versus Ex Vivo Mechanical Behaviors of the Coronary Artery"

    Article Title: A Novel Approach to Assess the In Situ Versus Ex Vivo Mechanical Behaviors of the Coronary Artery

    Journal: Journal of Biomechanical Engineering

    doi: 10.1115/1.4035262

    Representative portion of the experimental setup for measuring the pressure-diameter response of the coronary artery in the in situ and partially dissected configurations. Two pressure transducers, P1 and P2, are cannulated and secured between the coronary artery segment of interest. Pressure is provided by a syringe pump (not shown). The IVUS transducer is delivered into the arterial lumen through a one-way port (not shown) and rests in the middle of the dissected segment. A series of ligatures and vascular clips are used to stop outflow from peripheral branches. During testing, the heart is fully submerged in a DPBS bath maintained at physiological temperature (not shown).
    Figure Legend Snippet: Representative portion of the experimental setup for measuring the pressure-diameter response of the coronary artery in the in situ and partially dissected configurations. Two pressure transducers, P1 and P2, are cannulated and secured between the coronary artery segment of interest. Pressure is provided by a syringe pump (not shown). The IVUS transducer is delivered into the arterial lumen through a one-way port (not shown) and rests in the middle of the dissected segment. A series of ligatures and vascular clips are used to stop outflow from peripheral branches. During testing, the heart is fully submerged in a DPBS bath maintained at physiological temperature (not shown).

    Techniques Used: In Situ

    Comparison of the pressure-diameter response between the in situ (n = 5; solid line circle markers) and partially dissected (n = 5; dashed line square markers) configurations. A significant increase in diameter was observed in the dissected arteries for pressures between 20 and 60 mm Hg (*P < 0.05; error bars are mean ± SD). Note that diameter data are not available for less than 20 mm Hg due to the arterial wall collapsing around the IVUS transducer.
    Figure Legend Snippet: Comparison of the pressure-diameter response between the in situ (n = 5; solid line circle markers) and partially dissected (n = 5; dashed line square markers) configurations. A significant increase in diameter was observed in the dissected arteries for pressures between 20 and 60 mm Hg (*P < 0.05; error bars are mean ± SD). Note that diameter data are not available for less than 20 mm Hg due to the arterial wall collapsing around the IVUS transducer.

    Techniques Used: Comparison, In Situ



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    ivus dicom images  (MathWorks Inc)
    90
    MathWorks Inc ivus dicom images
    Representative portion of the experimental setup for measuring the pressure-diameter response of the coronary artery in the in situ and partially dissected configurations. Two pressure transducers, P1 and P2, are cannulated and secured between the coronary artery segment of interest. Pressure is provided by a syringe pump (not shown). The <t>IVUS</t> transducer is delivered into the arterial lumen through a one-way port (not shown) and rests in the middle of the dissected segment. A series of ligatures and vascular clips are used to stop outflow from peripheral branches. During testing, the heart is fully submerged in a DPBS bath maintained at physiological temperature (not shown).
    Ivus Dicom Images, 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
    https://www.bioz.com/result/ivus dicom images/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    ivus dicom images - by Bioz Stars, 2026-04
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    Representative portion of the experimental setup for measuring the pressure-diameter response of the coronary artery in the in situ and partially dissected configurations. Two pressure transducers, P1 and P2, are cannulated and secured between the coronary artery segment of interest. Pressure is provided by a syringe pump (not shown). The IVUS transducer is delivered into the arterial lumen through a one-way port (not shown) and rests in the middle of the dissected segment. A series of ligatures and vascular clips are used to stop outflow from peripheral branches. During testing, the heart is fully submerged in a DPBS bath maintained at physiological temperature (not shown).

    Journal: Journal of Biomechanical Engineering

    Article Title: A Novel Approach to Assess the In Situ Versus Ex Vivo Mechanical Behaviors of the Coronary Artery

    doi: 10.1115/1.4035262

    Figure Lengend Snippet: Representative portion of the experimental setup for measuring the pressure-diameter response of the coronary artery in the in situ and partially dissected configurations. Two pressure transducers, P1 and P2, are cannulated and secured between the coronary artery segment of interest. Pressure is provided by a syringe pump (not shown). The IVUS transducer is delivered into the arterial lumen through a one-way port (not shown) and rests in the middle of the dissected segment. A series of ligatures and vascular clips are used to stop outflow from peripheral branches. During testing, the heart is fully submerged in a DPBS bath maintained at physiological temperature (not shown).

    Article Snippet: A semi-automated routine was developed to segment the lumen boundary using the IVUS DICOM images in matlab (MathWorks, Natick, MA).

    Techniques: In Situ

    Comparison of the pressure-diameter response between the in situ (n = 5; solid line circle markers) and partially dissected (n = 5; dashed line square markers) configurations. A significant increase in diameter was observed in the dissected arteries for pressures between 20 and 60 mm Hg (*P < 0.05; error bars are mean ± SD). Note that diameter data are not available for less than 20 mm Hg due to the arterial wall collapsing around the IVUS transducer.

    Journal: Journal of Biomechanical Engineering

    Article Title: A Novel Approach to Assess the In Situ Versus Ex Vivo Mechanical Behaviors of the Coronary Artery

    doi: 10.1115/1.4035262

    Figure Lengend Snippet: Comparison of the pressure-diameter response between the in situ (n = 5; solid line circle markers) and partially dissected (n = 5; dashed line square markers) configurations. A significant increase in diameter was observed in the dissected arteries for pressures between 20 and 60 mm Hg (*P < 0.05; error bars are mean ± SD). Note that diameter data are not available for less than 20 mm Hg due to the arterial wall collapsing around the IVUS transducer.

    Article Snippet: A semi-automated routine was developed to segment the lumen boundary using the IVUS DICOM images in matlab (MathWorks, Natick, MA).

    Techniques: Comparison, In Situ