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Structured illumination microscopy and automatized image processing as a rapid diagnostic tool for podocyte effacement.


ABSTRACT: The morphology of podocyte foot processes is obligatory for renal function. Here we describe a method for the superresolution-visualization of podocyte foot processes using structured illumination microscopy of the slit diaphragm, which before has only been achieved by electron microscopy. As a proof of principle, we measured a mean foot process width of 0.249?±?0.068?µm in healthy kidneys and a significant higher mean foot process width of 0.675?±?0.256?µm in minimal change disease patients indicating effacement of foot processes. We then hypothesized that the slit length per glomerular capillary surface area (slit diaphragm density) could be used as an equivalent for the diagnosis of effacement. Using custom-made software we measured a mean value of 3.10?±?0.27?µm-1 in healthy subjects and 1.83?±?0.49?µm-1 in the minimal change disease patients. As foot process width was highly correlated with slit diaphragm density (R2?=?0.91), we concluded that our approach is a valid method for the diagnosis of foot process effacement. In summary, we present a new technique to quantify podocyte damage, which combines superresolution microscopy with automatized image processing. Due to its diverse advantages, we propose this technique to be included into routine diagnostics of glomerular histopathology.

SUBMITTER: Siegerist F 

PROVIDER: S-EPMC5597580 | biostudies-literature | 2017 Sep

REPOSITORIES: biostudies-literature

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Structured illumination microscopy and automatized image processing as a rapid diagnostic tool for podocyte effacement.

Siegerist Florian F   Ribback Silvia S   Dombrowski Frank F   Amann Kerstin K   Zimmermann Uwe U   Endlich Karlhans K   Endlich Nicole N  

Scientific reports 20170913 1


The morphology of podocyte foot processes is obligatory for renal function. Here we describe a method for the superresolution-visualization of podocyte foot processes using structured illumination microscopy of the slit diaphragm, which before has only been achieved by electron microscopy. As a proof of principle, we measured a mean foot process width of 0.249 ± 0.068 µm in healthy kidneys and a significant higher mean foot process width of 0.675 ± 0.256 µm in minimal change disease patients ind  ...[more]

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