Medical Microscopy Articles
-
Exploring the Potential Applications of Fluorescent Microspheres
Microspheres are small spherical entities formed by dispersing or adsorbing drugs in a polymer matrix. The particle size is typically between 1 μm and 250 μm, and the largest can reach more than 800 μm. Microsphere technology is at the intersection of cutting-edge disciplines such as materials science, polymer technology, medical technology, and microelectronics. Once injected into the ...
-
The Future of Quantitative Susceptibility Mapping (QSM) in Clinical Applications
The use of Quantitative Susceptibility Mapping (QSM) is often viewed as incompatible with current standard radiology workflows. Some radiologists or departments may be unaware of its existence or purpose. Despite the skepticism surrounding its viability in a clinical setting, QSM shows great potential in a wide range of clinical applications, particularly for biomarker detection and ...
-
Where can I Buy a Suture Removal Kit?
Sutures are used when the wound is deep and cracking. For example, if you can see the fat in your cut, you should have stitches. If you were to just cover the wound with a bandage, it would just pull the top portion of the tissue together, leaving the tissue underneath still separate. And The small gap could become a breeding ground for infection. Suturing means that you get all the layers of ...
By GMD Group
-
Tips & Tricks to Optimize Your Tissue Processing
Since the 19th century, the practice of tissue processing has remained largely unchanged, resulting in solidified, paraffin-embedded tissue blocks for sectioning. As staining procedures have advanced and immunohistochemistry is becoming more widely used, high-quality tissue sections are paramount for accurate interpretation of disease ...
By Quartzy Inc.
-
Spatial profiling of chromatin accessibility in mouse and human tissues
Abstract Cellular function in tissue is dependent on the local environment, requiring new methods for spatial mapping of biomolecules and cells in the tissue context1. The emergence of spatial transcriptomics has enabled genome-scale gene expression mapping2,3,4,5, but the ability to capture spatial epigenetic information of tissue at the cellular level and genome scale is lacking. Here we ...
-
Map of the Month - April
Welcome to Edinburgh Instruments newest blog celebrating our work in Raman, Photoluminescence, and Fluorescence Lifetime Imaging. Every month we will highlight our pick for Map of the Month to show how our spectrometers can be used to reveal all the hidden secrets in your samples. April Studying animal tissue is an important tool for scientists to learn more about the effects of treatments for ...
-
Accurately Recapitulating Environmental Niches in Vitro Models of the Intestine
Advanced microphysiological systems can replicate aspects of intestinal complexity, such as epithelium self-renewal by stem cells in in vitro crypts or the interactions of microbes and intestinal epithelium mediated by a mucus layer. Availability of such models is key to progress in compound screening, disease modeling, and microbiome research. Defining a Niche A niche is a multidimensional ...
-
High-Spatial-Resolution Multi-Omics Sequencing via Deterministic Barcoding in Tissue
Highlights Deterministic barcoding in tissue enables NGS-based spatial multi-omics mapping DBiT-seq identified spatial patterning of major tissue types in mouse embryos Revealed retinal pigmented epithelium and microvascular endothelium at cellular level Direct integration with scRNA-seq data allows for rapid cell type identification Summary We present ...
-
Raman imaging at biological interfaces: applications in breast cancer diagnosis
Abstract Background: One of the most important areas of Raman medical diagnostics is identification and characterization of cancerous and noncancerous tissues. The methods based on Raman scattering has shown significant potential for probing human breast tissue to provide valuable information for early diagnosis of breast cancer. A vibrational fingerprint from the biological tissue provides ...
-
Molecular imaging with targeted quantum dot bioconjugates: the need for contrast optimisation studies
Quantum dots have the potential to be used as contrast agents for molecular imaging in vivo, but there are many challenges in optimising such procedures, both in pre-clinical animal models and in the potential clinical applications. In particular, it is critical to obtain the optimal target-to-background contrast to achieve maximum diagnostic accuracy. However, available data are insufficient to ...
-
Quantification of target molecules needed to detect microorganisms by fluorescence in situ hybridization (fish) and catalyzed reporter deposition-fish
Fluorescence in situ hybridization (FISH) with rRNA-targeted oligonucleotide probes is a method that is widely used to detect and quantify microorganisms in environmental samples and medical specimens by fluorescence microscopy. Difficulties with FISH arise if the rRNA content of the probe target organisms is low, causing dim fluorescence signals that are not detectable against the background ...
Need help finding the right suppliers? Try XPRT Sourcing. Let the XPRTs do the work for you