Rogers Imaging Corp

Rogers Imaging Corp Rogers Imaging specializes in multi parameter imaging (TEM, SEM, EDAX, Fluorescence, brightfield ima

This image is a confocal 3D reconstruction of the pulmonary septal region
08/24/2022

This image is a confocal 3D reconstruction of the pulmonary septal region

FREE Mobile Microscopy is a real time 3D digital model viewer for mobile devices with an integrated digital image platfo...
06/06/2022

FREE Mobile Microscopy is a real time 3D digital model viewer for mobile devices with an integrated digital image platform to navigate isotropic models. Interactive Models created from actual image data provided by scientists, engineers and bio-technologists around the world are at your fingertips. This tool enables users to explore complex image data in any orientation by using just their fingertips to freely fly through different perspectives and apply augmented reality technology for an even more immersive interaction of the data. CLICK HERE TO DOWNLOAD FREE https://lnkd.in/eyV35YSk

People who live the most fulfilling lives are the ones who are always rejoicing at what they have. 2021 challenges are o...
11/25/2021

People who live the most fulfilling lives are the ones who are always rejoicing at what they have. 2021 challenges are opportunities to better things; they are stepping stones to greater experiences. We don't often take the time out of our busy life to think about all the beautiful things and to be thankful for them. Take time to reflect on this things and you will realize how fortunate we really are.
Happy Thanksgiving to you and your family from all of us at
Rogers Imaging Corp.

08/16/2021

Here is a sneak peek of our Mobile Microscopy App! Coming soon on IOS and Android platforms!
Mobile Microscopy App is a real time 3D digital model viewer for mobile devices that integrates a digital image platform to navigate isotropic models created from actual image data provided by scientists, engineers and biotechnologists around the world. This tool allows for users to explore complex image data in any orientation by using just their fingertips.

Our latest publication shows the final results from a 90-day quantitative inhalation toxicology study evaluating the dos...
06/28/2021

Our latest publication shows the final results from a 90-day quantitative inhalation toxicology study evaluating the dose-response and fate in the lung and pleura of chrysotile-containing brake dust compared to TiO2, chrysotile, crocidolite
or amosite asbestos.
Highlights
- Evaluated brake dust from brake pads manufactured with chrysotile in 90-day study.
- Included comparative TiO2, chrysotile, crocidolite & amosite asbestos exposure grps.
- No significant pathology/tumors observed at any time point in the brake-dust grps.
- Chrysotile produced low level inflammation in lungs, no tumors, no effect in pleura.
- Crocidolite & amosite produced lung tumor dose-response & lung & pleural fibrosis.
Link to complete study: https://www.sciencedirect.com/science/article/pii/S0041008X21002052?via%3Dihub

Talc may lodge in human tissues through various routes, and has been associated with the development of ovarian carcinom...
06/07/2021

Talc may lodge in human tissues through various routes, and has been associated with the development of ovarian carcinoma in case control epidemiologic studies. Talc is detected in tissues with scanning electron microscopy and energy dispersive X-ray analysis (SEM/EDS), with expected magnesium (Mg) and silicon (Si) peaks.
Representative SEM field for the JBP sample, under backscattered-electron imaging mode, showing particles widely varied in size and shape.
Sandra A. McDonald, Yuwei Fan, Rick A. Rogers & John J. Godleski (2019)
Magnesium/silicon atomic weight percent ratio standards for the tissue identification of talc by
scanning electron microscopy and energy dispersive X-ray analysis, Ultrastructural Pathology, 43:6,
248-260, DOI: 10.1080/01913123.2019.1692119
Link: https://doi.org/10.1080/01913123.2019.1692119

Pseudo colored Scanning Electron Micrograph of mast cell from the lung.
05/21/2021

Pseudo colored Scanning Electron Micrograph of mast cell from the lung.

Confocal 3D reconstruction of the pulmonary septal region
05/14/2021

Confocal 3D reconstruction of the pulmonary septal region

The purpose of the present study was to evaluate the pathological response and translocation of a commercial chrysotile ...
05/06/2021

The purpose of the present study was to evaluate the pathological response and translocation of a commercial chrysotile product similar to what was used through the mid-1970s in a joint compound intended for sealing the interface between adjacent wall boards and to determine how this response compares to that produced by amosite asbestos.

Figure shows fibers in the airways immediately after cessation of the 5-day exposure (post exposure analysis time point 0 days). Figures C1 and C2 show a long chrysotile fiber together with shorter fibers and particles from the exposure aerosol. Airway macrophages were associated with the particles and fibers. Figures A1 shows the airway region in the amosite-exposure group where a number of long fibers have been partially phagocytized by one or more airway macrophages. Figure A2 shows a very long amosite fiber in the alveolar duct surrounded by numerous macrophages. A number of smaller fibers intertwined in these macrophages can also be seen.

For complete study: https://doi.org/10.3109/08958378.2010.497818

Confocal 3D reconstruction of entire pulmonary acinus from a rat lung that was preserved via perfusion fixation. Connec...
04/15/2021

Confocal 3D reconstruction of entire pulmonary acinus from a rat lung that was preserved via perfusion fixation. Connective tissue components are predominant due. Central draining vein is shown front center.

Tight junctions of kidney epithelium, zonula occludens antibody.
04/08/2021

Tight junctions of kidney epithelium, zonula occludens antibody.

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01760

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