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Integration of microfluidics in animal in vitro embryo production
M. B. Wheeler
, M. Rubessa
Animal Sciences
Carl R. Woese Institute for Genomic Biology
Bioengineering
Veterinary Clinical Medicine
Micro and Nanotechnology Lab
Beckman Institute for Advanced Science and Technology
Biomedical and Translational Sciences
Research output
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peer-review
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Keyphrases
Microfluidics
100%
Livestock
100%
In Vitro Production
100%
In Vitro Embryo Production
100%
Mammalian Embryo
100%
Microenvironment
50%
Culture Media
50%
Microfluidic System
50%
In Vitro System
50%
Micro-fabricated
50%
Preimplantation
50%
Nuclear Transfer
50%
Microfluidic Technology
50%
Microscale Devices
50%
Gametes
50%
Embryo Manipulation
50%
Embryo Culture
50%
Cleavage Rate
50%
Fluidic System
50%
Embryology
50%
In Vitro Development
50%
Mature Oocyte
50%
In Vivo Conditions
50%
Transgenic Animals
50%
Disease Research
50%
Disease Transmission
50%
Artificial Insemination
50%
Animal Biotechnology
50%
Animal Cloning
50%
Mammalian Oocyte
50%
Germplasm
50%
Infertility
50%
Genetic Quality
50%
Pipette
50%
Intracytoplasmic Sperm Injection
50%
Manipulation Technology
50%
Oocyte Culture
50%
Chimeric Animals
50%
Handling Technology
50%
Medicine and Dentistry
In Vitro
100%
Embryo Production
100%
In Vitro Production
50%
Embryo Culture
50%
Oocyte
50%
Mammalian Embryo
25%
Transgenic Animal
25%
Intracytoplasmic Sperm Injection
25%
Horizontal Disease Transmission
25%
Nuclear Transfer
25%
Artificial Insemination
25%
Germplasm
25%
Diseases
25%