| scholarly article | Q13442814 |
| P50 | author | Jonathan Cooper | Q42752269 |
| Donald Wlodkowic | Q62554814 | ||
| P2093 | author name string | David E Williams | |
| Jin Akagi | |||
| Khashayar Khoshmanesh | |||
| P2860 | cites work | Use of reporter genes and vertebrate DNA motifs in transgenic zebrafish as sentinels for assessing aquatic pollution | Q24537122 |
| Dynamics of Drosophila embryonic patterning network perturbed in space and time using microfluidics | Q24657141 | ||
| Genome sequence of the nematode C. elegans: a platform for investigating biology | Q27860527 | ||
| The genome sequence of Drosophila melanogaster | Q27860796 | ||
| Droplet-Based Microfluidic Platforms for the Encapsulation and Screening of Mammalian Cells and Multicellular Organisms | Q28049391 | ||
| Bacteria, yeast, worms, and flies: exploiting simple model organisms to investigate human mitochondrial diseases | Q28708978 | ||
| Cytometry in cell necrobiology revisited. Recent advances and new vistas | Q28748522 | ||
| The origins and the future of microfluidics | Q29617319 | ||
| Optical sectioning deep inside live embryos by selective plane illumination microscopy | Q29619782 | ||
| The zebrafish lysozyme C promoter drives myeloid-specific expression in transgenic fish | Q30479482 | ||
| Microfluidic system for on-chip high-throughput whole-animal sorting and screening at subcellular resolution | Q30479992 | ||
| Zebrafish: an emerging technology for in vivo pharmacological assessment to identify potential safety liabilities in early drug discovery. | Q30487697 | ||
| Live imaging of apoptotic cells in zebrafish | Q30497270 | ||
| Lifespan-on-a-chip: microfluidic chambers for performing lifelong observation of C. elegans | Q30498868 | ||
| Femtosecond laser nanoaxotomy lab-on-a-chip for in vivo nerve regeneration studies. | Q30502856 | ||
| A microfluidic array for large-scale ordering and orientation of embryos | Q30583806 | ||
| An innovative continuous flow system for monitoring heavy metal pollution in water using transgenic Xenopus laevis tadpoles. | Q30923132 | ||
| A brief history of flow cytometry and sorting | Q30954866 | ||
| Automated high-throughput cell microsurgery on-chip | Q30960367 | ||
| Genome-wide RNAi screens in Caenorhabditis elegans: impact on cancer research | Q33208528 | ||
| Application of laser-scanning fluorescence microplate cytometry in high content screening | Q33244090 | ||
| Fountain Flow cytometry, a new technique for the rapid detection and enumeration of microorganisms in aqueous samples | Q33262877 | ||
| Rapid fluidic exchange microsystem for recording of fast ion channel kinetics in Xenopus oocytes | Q33378538 | ||
| Swimming into the future of drug discovery: in vivo chemical screens in zebrafish | Q33532259 | ||
| High-throughput screening and small animal models, where are we? | Q33566144 | ||
| High-throughput in vivo vertebrate screening | Q33635305 | ||
| Automated image-based phenotypic analysis in zebrafish embryos | Q33818305 | ||
| Transgenic zebrafish as sentinels for aquatic pollution | Q33925613 | ||
| Cardiac arrhythmia:in vivoscreening in the zebrafish to overcome complexity in drug discovery | Q34111355 | ||
| Drosophila model for in vivo pharmacological analgesia research | Q34320442 | ||
| Malignant worms: what cancer research can learn from C. elegans | Q34569012 | ||
| Applications of microfluidics in chemical biology | Q34575918 | ||
| Physics and applications of microfluidics in biology. | Q34739035 | ||
| Zebrafish: a complete animal model for in vivo drug discovery and development | Q34960375 | ||
| Chemical genomics identifies compounds affecting Xenopus laevis pigment cell development. | Q34977933 | ||
| The evolution of cytometers | Q35679850 | ||
| In vivo drug discovery in the zebrafish | Q36028226 | ||
| Are Caenorhabditis elegans receptors useful targets for drug discovery: pharmacological comparison of tyramine receptors with high identity from C. elegans (TYRA-2) and Brugia malayi (Bm4). | Q36196893 | ||
| Lab-on-a-chip: microfluidics in drug discovery | Q36414511 | ||
| Fast imaging in flow: a means of combining flow-cytometry and image analysis | Q36478053 | ||
| Zebrafish assays for drug toxicity screening | Q36546258 | ||
| Caenorhabditis elegans: a versatile platform for drug discovery | Q36655110 | ||
| Invertebrate animal models of diseases as screening tools in drug discovery | Q36800397 | ||
| Caenorhabditis elegans: an emerging model in biomedical and environmental toxicology. | Q36927018 | ||
| C. elegans as a model organism for in vivo screening in cancer: effects of human c-Met in lung cancer affect C. elegans vulva phenotypes | Q36967334 | ||
| The zebrafish embryo model in environmental risk assessment--applications beyond acute toxicity testing | Q37199038 | ||
| Morphological characterization of very small embryonic-like stem cells (VSELs) by ImageStream system analysis | Q37296381 | ||
| Microfluidics for miniaturized laboratories on a chip | Q37302915 | ||
| Large-scale sorting of C. elegans embryos reveals the dynamics of small RNA expression | Q37372540 | ||
| Microfluidics technology for systems biology research | Q37462327 | ||
| Simple vertebrate models for chemical genetics and drug discovery screens: lessons from zebrafish and Xenopus. | Q37481066 | ||
| Microfluidics-enabled phenotyping, imaging, and screening of multicellular organisms | Q37728898 | ||
| Microfabricated analytical systems for integrated cancer cytomics | Q37737149 | ||
| Drosophila as a novel therapeutic discovery tool for thyroid cancer | Q37767715 | ||
| Xenopus tropicalis: an ideal experimental animal in amphibia | Q37775852 | ||
| Model organisms--A historical perspective. | Q37781511 | ||
| Tumors on chips: oncology meets microfluidics | Q37787434 | ||
| Rapid droplet mixers for digital microfluidic systems | Q39678148 | ||
| High throughput, real-time detection of Naegleria lovaniensis in natural river water using LED-illuminated Fountain Flow Cytometry | Q39809675 | ||
| Transport of live yeast and zebrafish embryo on a droplet digital microfluidic platform | Q39894664 | ||
| Micro fluid segment technique for screening and development studies on Danio rerio embryos | Q40181294 | ||
| Automated sorting of live C. elegans using laFACS. | Q42739093 | ||
| A High-Throughput Analysis Method to Detect Regions of Interest and Quantify Zebrafish Embryo Images | Q42866974 | ||
| Developmental toxicity testing with FETAX: evaluation of five compounds | Q44217275 | ||
| Zebrafish: a preclinical model for drug screening | Q44847979 | ||
| Automated on-chip rapid microscopy, phenotyping and sorting of C. elegans | Q45812128 | ||
| Patterned delivery and expression of gene constructs into zebrafish embryos using microfabricated interfaces. | Q46171387 | ||
| Droplet-based microfluidic system for individual Caenorhabditis elegans assay | Q46345718 | ||
| Genomic, evolutionary, and expression analyses of cee, an ancient gene involved in normal growth and development. | Q47714744 | ||
| Distinguishing modes of cell death using the ImageStream multispectral imaging flow cytometer | Q49301662 | ||
| Detection of mercury in aquatic environments using EPRE reporter zebrafish | Q50632333 | ||
| A microfabricated array of clamps for immobilizing and imaging C. elegans | Q50878656 | ||
| Microfluidic self-assembly of live Drosophila embryos for versatile high-throughput analysis of embryonic morphogenesis | Q51001985 | ||
| Characterization of the local temperature in space and time around a developing Drosophila embryo in a microfluidic device | Q51278604 | ||
| Long-term high-resolution imaging and culture of C. elegans in chip-gel hybrid microfluidic device for developmental studies | Q51558119 | ||
| Automated MEMS-based Drosophila embryo injection system for high-throughput RNAi screens | Q51584630 | ||
| Electrowetting-based droplet mixers for microfluidic systems | Q51597292 | ||
| Automated sorting of live transgenic embryos | Q51603687 | ||
| Enhancing the predictive validity of Frog Embryo Teratogenesis Assay--Xenopus (FETAX). | Q52119903 | ||
| Subcellular positioning of small molecules | Q59076312 | ||
| A toxicity and hazard assessment of fourteen pharmaceuticals to Xenopus laevis larvae | Q79320460 | ||
| Channeling the worm: microfluidic devices for nematode neurobiology | Q80972805 | ||
| Microfluidics: streamlining discovery in worm biology | Q81544437 | ||
| The use of in vivo zebrafish assays in drug toxicity screening | Q83654706 | ||
| Thermogelling aqueous fluids containing low concentrations of Pluronic F127 and laponite nanoparticles | Q84085849 | ||
| High throughput, parallel imaging and biomarker quantification of human spermatozoa by ImageStream flow cytometry | Q84953196 | ||
| P433 | issue | 10 | |
| P921 | main subject | multicellularity | Q110243984 |
| P304 | page(s) | 799-813 | |
| P577 | publication date | 2011-05-04 | |
| P13046 | publication type of scholarly work | review article | Q7318358 |
| P1433 | published in | Cytometry Part A | Q15764023 |
| P1476 | title | Wormometry-on-a-chip: Innovative technologies for in situ analysis of small multicellular organisms | |
| P478 | volume | 79 |
| Q58576266 | 3D-Printed Chips: Compatibility of Additive Manufacturing Photopolymeric Substrata with Biological Applications |
| Q47132293 | A Millifluidic System for Analysis of Daphnia magna Locomotory Responses to Water-born Toxicants. |
| Q36022803 | A microfluidic device for whole-animal drug screening using electrophysiological measures in the nematode C. elegans |
| Q38543437 | Assessment of biocompatibility of 3D printed photopolymers using zebrafish embryo toxicity assays. |
| Q38098597 | Automated Imaging and other developments in whole‐organism anthelmintic screening |
| Q64914195 | Characterization of 3D-Printed Moulds for Soft Lithography of Millifluidic Devices. |
| Q38083081 | Exploring Living Multicellular Organisms, Organs, and Tissues Using Microfluidic Systems |
| Q130305522 | Fish on Chips: Automated Microfluidic Living Embryo Arrays |
| Q130305523 | Fish on chips: Microfluidic living embryo array for accelerated in vivo angiogenesis assays |
| Q130305530 | Fish on chips: Microfluidic living embryo array for accelerated in vivo angiogenesis assays |
| Q38257372 | Fishing on chips: up-and-coming technological advances in analysis of zebrafish and Xenopus embryos |
| Q30454382 | In vivo flow cytometry: A horizon of opportunities |
| Q35130368 | Integrated chip-based physiometer for automated fish embryo toxicity biotests in pharmaceutical screening and ecotoxicology. |
| Q38065617 | Lab-on-a-chip: Emerging analytical platforms for immune-mediated diseases |
| Q37373018 | Metabolic profile analysis of a single developing zebrafish embryo via monitoring of oxygen consumption rates within a microfluidic device |
| Q26739057 | Microfluidic Devices in Advanced Caenorhabditis elegans Research |
| Q38608835 | Microfluidic systems for high-throughput and high-content screening using the nematode Caenorhabditis elegans |
| Q27303464 | Miniaturized embryo array for automated trapping, immobilization and microperfusion of zebrafish embryos |
| Q84450226 | Modernizing the MTT assay with microfluidic technology and image cytometry |
| Q40867994 | Multiparameter Flow Cytometry: Advances in High Resolution Analysis |
| Q34288863 | New rationale for large metazoan embryo manipulations on chip-based devices |
| Q30422227 | New tools and new biology: recent miniaturized systems for molecular and cellular biology |
| Q44304010 | OpenSource lab-on-a-chip physiometer for accelerated zebrafish embryo biotests |
| Q90917888 | Rapid Fabrication of Chip-Based Physiometers for Neurobehavioral Toxicity Assays Using Rotifers Brachionus calyciflorus |
| Q39025305 | Real-time 2D visualization of metabolic activities in zebrafish embryos using a microfluidic technology |
| Q39079557 | Three-dimensional imaging flow cytometry through light-sheet fluorescence microscopy |
| Q35764386 | Three-dimensional printed millifluidic devices for zebrafish embryo tests. |
| Q92589016 | Towards High-Throughput Chemobehavioural Phenomics in Neuropsychiatric Drug Discovery |
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