Nucleic acids extraction from laser microdissected FFPE tissue sections.

Tissue heterogeneity is a common source of unsuccessful experiments. Laser capture microdissection is a tool to prepare homogeneous tissue and cell areas as starting material for reliable and reproducible results as it allows the defined investigation of spatially different tissue areas.Nearly all samples allow the extraction of DNA.

Laser capture microdissection of FFPE tissue sections bridging the gap between microscopy and molecular analysis.

Laser capture microdissection (LCM) enables researchers to combine structure identification by -microscopy with structure investigation by modern molecular techniques.The main question in modern biomedical research is the understanding of cellular and molecular mechanisms. The methods to investigate pathological changes on a molecular, cellular, or tissue level become more and more exact, whereas at the same time the sample amounts available become smaller and smaller.

Noninvasive prenatal diagnosis of beta-thalassaemia using individual fetal erythroblasts isolated from maternal blood after enrichment.

Single nucleated red blood cells (NRBCs) isolated from maternal circulation were used for prenatal diagnosis of beta-thalassaemia. The study included 22 pregnant women in the first trimester, 6 carriers at risk for beta-thalassaemia and 16 noncarriers. Methodology involved enrichment of NRBCs by magnetic cell sorting (MACS) and microdissection of single NRBCs with a laser micromanipulation system.

Enhanced molecular analyses by combination of the HOPE-technique and laser microdissection.

As part of an investigation aimed at illuminating the possibilities and limits of the HOPE-fixation and paraffin-embedding technique we here describe a novel procedure which was developed in order to combine the benefits of the HOPE-technique with the capabilities of laser microdissection. The presented procedure avoids the need for amplification of template-RNA thus facilitating reliable and reproducible results. The excellent preservation of nucleic acids, proteins, and morphology in HOPE-fixed, paraffin-embedded tissues enhances the molecular applications available to date with materials acquired by laser microdissection when compared to formalin fixed, paraffin-embedded tissues, thus substantially extending the methodological panel in tissue based research.

Differential radioactive proteomic analysis of microdissected renal cell carcinoma tissue by 54 cm isoelectric focusing in serial immobilized pH gradient gels.

We present a proof of principle study, using laser microdissection and pressure catapulting (LMPC) of two clinical tissue samples, each containing approximately 3.8 microg renal cell carcinoma protein and 3.8 microg normal kidney protein respectively from one patient.