About megatomi.com

About megatomi.com

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Our new Obvious+ tissue clearing procedure is the one process that delipidates samples with no alter in morphology and with nominal impact on structural integrity.

Megatome is a vibrating microtome created to area a broad array of samples, from organoids and biopsy samples to expanded rodent brains and intact human organs. With large blade vibrating frequency and minimized blade deflection, Megatome allows significant-throughput tissue sectioning with uniform area profile, and minimal tissue harm and information reduction.

Ask for a estimate or demo Uniformly part substantial tissues & sample arrays Megatome is the only real microtome which can section samples as big as intact nonhuman primate and human organs, making it invaluable for fields like neuropathology.

Megatome is made for accuracy: the blade vibrates at a higher frequency and bigger amplitude array than other microtomes, and includes a distinctive deflection Manage system.

Clone the challenge or seize the newest release. Operating the utility will vary a tiny bit determined by the way you retrieve the venture.

Our preformulated EasyIndex Answer raises and homogenize the refractive index of delipidated tissue samples, rendering them fully clear. This permits mild penetration into the sample and makes sure the acquisition of substantial-resolution, in-focus graphic information.

Megatome is usually a novel microtome that enables for high-precision megatomi.com sectioning of an array of tissue samples – from organoids, to arrays of animal organs, to intact human Mind hemispheres – with minimal tissue hurt and information decline.

It’s the perfect time to update your microtome to Megatome. With accurate significant-frequency slicing for an unmatched selection of sample dimensions and types – from organoids and tumors to expanded tissues, sample arrays, and intact primate organs – Megatome is optimized for varied programs.

The SmartSPIM light-weight sheet microscope gives unparalleled resolution and acquisition velocity during intact tissue volumes, though its modular layout allows you to update and customize specific components.

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This may develop a docset named Sample in The existing directory. Docset development is usually personalized with optional arguments:

Protect avoids the variability of hydrogel embedding and the data decline from PFA preservation, defending specimens for many rounds of processing.

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Our novel SHIELD tissue preservation approach sorts intramolecular bonds employing polyfunctional, versatile epoxides to stabilize tissue architecture and safeguard the sample’s endogenous fluorescence, protein antigenicity and nucleic acids.