Intestinal Microbiota and Bone Health: The Role of Prebiotics, Probiotics, and Diet

This work presents a new technique as a potential methodology to analyse seeds. The technology is known as dynamic speckle, or biospeckle, an optical phenomenon produced when active materials, such as biological tissue, are illuminated by laser light. In the present work, the biological activity of seed tissues has been inferred from quantitative and qualitative measurements of their speckle activity. The aim is to show that the biospeckle technique has a potential as a methodology to assess seed viability. One aspect that needs to be investigated is how the water content in the seeds affects bio speckle activity. An experiment has been performed to determine the effect of humidity in the results. Seed activity for different levels of humidity was determined using quantitative and qualitative methods. Also, in others experiments, viable and non viable seeds with different specific humidity levels could be classified using the same technique. £)

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Display of local activity using dynamical speckle patterns

Arizaga

et al. 2002

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Analysis of bacterial chemotactic response using dynamic laser speckle

et al. 2009

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Chemotaxis has a meaningful role in several fields, such as microbial physiology, medicine and biotechnology. We present a new application of dynamic laser speckle (or biospeckle) to detect different degrees of bacterial motility during chemotactic response experiments. Encouraging results showed different bacterial dynamic responses due to differences in the hardness of the support in the swarming plates. We compare this method to a conventional technique that uses white light. Both methods showed to be analogous and, in some cases, complementary. The results suggest that biospeckle processed images can be used as an alternative method to evaluate bacterial chemotactic response and can supply additional information about the bacterial motility in different areas of the swarm plate assay that might be useful for biological analysis.

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Bio-speckle assessment of bruising in fruits

Pajuelo

Baldwin-Olguin

Rabal

et al. 2003

Optics and Lasers in Engineering

104

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Detection of Fungi in Beans by the Laser Biospeckle Technique

Braga¹,

Rabelo²,

Granato³

et al. 2005

Biosystems Engineering

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Application of dynamic speckle interferometry to the drying of coatings

Amalvy

Lasquibar

Arizaga

et al. 2001

Progress in Organic Coatings

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Marcelo Trivi

Non-HACEK Gram-Negative Bacillus Endocarditis

Speckle time evolution characterization by the co-occurrence matrix analysis

Assessment of Seed Viability by Laser Speckle Techniques

Display of local activity using dynamical speckle patterns

Analysis of bacterial chemotactic response using dynamic laser speckle

Bio-speckle assessment of bruising in fruits

Detection of Fungi in Beans by the Laser Biospeckle Technique

Application of dynamic speckle interferometry to the drying of coatings

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