The Nanoscale World

High Res AFM imaging of human skin tissue

rated by 0 users
Not Answered This post has 0 verified answers | 0 Replies | 1 Follower

posted on Thu, Nov 24 2011 4:17 AM

I recently attended the Bruker workshop in Manchester, UK and had the opportunity to meet Michael Sherratt from the University of Manchester.

His team recently published a paper in Matrix Biology (29 (2010) 254-260 about AFM imaging of fixed human skin tissues and I was totally amazed by the quality of the pictures they acquired on their Multimode (N III controler). As far as I know, the best existing collagen images. Here is the abstract if you want to know more about this:

 

Tissue section AFM:

 

 

In situ ultrastructural imaging of native biomolecules

Conventional approaches for ultrastructural high-resolution imaging of biological specimens induce

profound changes in bio-molecular structures. By combining tissue cryo-sectioning with non-destructive

atomic force microscopy (AFM) imaging we have developed a methodology that may be applied by the nonspecialist

to both preserve and visualize bio-molecular structures (in particular extracellular matrix

assemblies)

 

 

in situ. This tissue section AFM technique is capable of: i) resolving nmμm scale features of

intra- and extracellular structures in tissue cryo-sections; ii) imaging the same tissue region before and after

experimental interventions; iii) combining ultrastructural imaging with complimentary microscopical and

micromechanical methods. Here, we employ this technique to: i) visualize the macro-molecular structures of

unstained and un

 

 

fixed fibrillar collagens (in skin, cartilage and intervertebral disc), elastic fibres (in aorta

and lung), desmosomes (in nasal epithelium) and mitochondria (in heart); ii) quantify the ultrastructural

effects of sequential collagenase digestion on a single elastic

 

 

fibre; iii) correlate optical (auto fluorescent)

with ultrastructural (AFM) images of aortic elastic lamellae.

  • | Post Points: 10
Page 1 of 1 (1 items) | RSS
Copyright (c) 2011 Bruker Instruments