scholarly article | Q13442814 |
P2093 | author name string | Ali Danesh | |
Heather Inglis | |||
Philip Norris | |||
P2860 | cites work | Classification, functions, and clinical relevance of extracellular vesicles | Q27013032 |
Improved flow cytometric assessment reveals distinct microvesicle (cell-derived microparticle) signatures in joint diseases | Q27335209 | ||
Single vs. swarm detection of microparticles and exosomes by flow cytometry | Q28261356 | ||
Optical and non-optical methods for detection and characterization of microparticles and exosomes | Q28294385 | ||
Membrane vesicles as conveyors of immune responses | Q29547765 | ||
Extracellular vesicles: exosomes, microvesicles, and friends | Q29618137 | ||
Detection of circulating microparticles by flow cytometry: influence of centrifugation, filtration of buffer, and freezing | Q30433778 | ||
Membrane vesicles, current state-of-the-art: emerging role of extracellular vesicles | Q34026858 | ||
Flow cytometric analysis of circulating microparticles in plasma | Q34059037 | ||
Standardization of sample collection, isolation and analysis methods in extracellular vesicle research | Q34369038 | ||
Circulating microparticles: square the circle | Q34680832 | ||
Tissue factor activity is increased in a combined platelet and microparticle sample from cancer patients | Q36947164 | ||
Microparticles: protagonists of a novel communication network for intercellular information exchange | Q37804649 | ||
Overcoming limitations of microparticle measurement by flow cytometry | Q37806990 | ||
Extracellular vesicles: biology and emerging therapeutic opportunities. | Q38098874 | ||
Gateway to understanding microparticles: standardized isolation and identification of plasma membrane-derived vesicles | Q38145557 | ||
Contributing role of extracellular vesicles on vascular endothelium haemostatic balance in cancer | Q38232072 | ||
Standardization of pre-analytical variables in plasma microparticle determination: results of the International Society on Thrombosis and Haemostasis SSC Collaborative workshop. | Q39590400 | ||
Physical characterization of mouse deep vein thrombosis derived microparticles by differential filtration with nanopore filters | Q39637052 | ||
Isotype controls in phenotyping and quantification of microparticles: a major source of error and how to evade it. | Q40008459 | ||
Detection and isolation of cell-derived microparticles are compromised by protein complexes resulting from shared biophysical parameters. | Q42680541 | ||
A multicolor flow cytometric assay for measurement of platelet-derived microparticles | Q43235532 | ||
Fluorescent labeling of nano-sized vesicles released by cells and subsequent quantitative and qualitative analysis by high-resolution flow cytometry | Q44090414 | ||
Flow cytometric measurement of microparticles: pitfalls and protocol modifications | Q44802584 | ||
Pre-analytical issues in the measurement of circulating microparticles: current recommendations and pending questions | Q45885114 | ||
Proteomic analysis of malignant B-cell derived microparticles reveals CD148 as a potentially useful antigenic biomarker for mantle cell lymphoma diagnosis. | Q46026704 | ||
Sickle blood contains tissue factor-positive microparticles derived from endothelial cells and monocytes | Q47835134 | ||
The majority of circulating platelet-derived microparticles fail to bind annexin V, lack phospholipid-dependent procoagulant activity and demonstrate greater expression of glycoprotein Ib. | Q50191909 | ||
Preventing platelet-derived microparticle formation--and possible side effects-with prestorage leukofiltration of whole blood. | Q50578775 | ||
Proteomic discovery of 21 proteins expressed in human plasma-derived but not platelet-derived microparticles | Q56883405 | ||
Microvesicles derived from human adult mesenchymal stem cells protect against ischaemia-reperfusion-induced acute and chronic kidney injury | Q58831488 | ||
Quantitative and qualitative flow cytometric analysis of nanosized cell-derived membrane vesicles | Q82177423 | ||
Exosomes released by melanoma cells prepare sentinel lymph nodes for tumor metastasis | Q83817384 | ||
Comparison of three methods for isolation of urinary microvesicles to identify biomarkers of nephrotic syndrome | Q84667424 | ||
P4510 | describes a project that uses | flow cytometry | Q1141429 |
P433 | issue | 97 | |
P921 | main subject | flow cytometry | Q1141429 |
extracellular vesicle | Q21097485 | ||
P577 | publication date | 2015-03-17 | |
P1433 | published in | Journal of Visualized Experiments | Q954500 |
P1476 | title | Techniques for the analysis of extracellular vesicles using flow cytometry |
Q58739338 | Blood manufacturing methods affect red blood cell product characteristics and immunomodulatory activity |
Q40207930 | Bronchoalveolar Lavage of Murine Lungs to Analyze Inflammatory Cell Infiltration |
Q89312495 | Gold Nanoparticle Based Platforms for Circulating Cancer Marker Detection |
Q46419519 | Manufacturing method affects mitochondrial DNA release and extracellular vesicle composition in stored red blood cells |
Q54961725 | Molecular Detection and Analysis of Exosomes Using Surface-Enhanced Raman Scattering Gold Nanorods and a Miniaturized Device. |
Q50010568 | Routine Screening Method for Microparticles in Platelet Transfusions |
Q52381458 | Strategies for enumeration of circulating microvesicles on a conventional flow cytometer: Counting beads and scatter parameters. |