| scholarly article | Q13442814 |
| P50 | author | Mohamed Abdelgawad | Q42857941 |
| P2093 | author name string | Mohamed Elsayed | |
| Taymour M El-Sherry | |||
| Hatem K Abdelhafez | |||
| P2860 | cites work | Stretch-activated ion channels: what are they? | Q24630314 |
| Rheotaxis in larval zebrafish is mediated by lateral line mechanosensory hair cells | Q27310346 | ||
| Cooperative roles of biological flow and surface topography in guiding sperm migration revealed by a microfluidic model | Q30657306 | ||
| Sex and flow: the consequences of fluid shear for sperm-egg interactions | Q33301868 | ||
| Passively Driven Integrated Microfluidic System for Separation of Motile Sperm | Q34191773 | ||
| Rethinking the relationship between hyperactivation and chemotaxis in mammalian sperm | Q34211019 | ||
| Zebrafish Larvae Exhibit Rheotaxis and Can Escape a Continuous Suction Source Using Their Lateral Line | Q34263385 | ||
| The reproductive significance of human Fallopian tube cilia | Q34505639 | ||
| Direct characterization of motion-dependent parameters of sperm in a microfluidic device: proof of principle | Q34549345 | ||
| Physics and applications of microfluidics in biology. | Q34739035 | ||
| Sperm chemotaxis, fluid shear, and the evolution of sexual reproduction | Q35164819 | ||
| Alterations to the bull sperm surface proteins that bind sperm to oviductal epithelium | Q35617360 | ||
| Expression of two-pore domain potassium channels in nonhuman primate sperm | Q35752044 | ||
| Bacterial rheotaxis | Q35882602 | ||
| Human spermatozoa migration in microchannels reveals boundary-following navigation | Q35991651 | ||
| Sperm transport in the female reproductive tract. | Q36307108 | ||
| Sperm guidance in mammals - an unpaved road to the egg. | Q36445261 | ||
| Rheotaxis guides mammalian sperm | Q36714320 | ||
| Mechanisms of sperm chemotaxis | Q36995533 | ||
| Slo1 is the principal potassium channel of human spermatozoa | Q37212425 | ||
| The computational sperm cell | Q38171614 | ||
| Rapid Prototyping of Microfluidic Systems in Poly(dimethylsiloxane). | Q39443336 | ||
| Study of the functional anatomy of bovine oviductal mucosa | Q42495536 | ||
| Development of a novel CASA system based on open source software for characterization of zebrafish sperm motility parameters | Q42604942 | ||
| Application of a microfluidic sperm sorter to the in-vitro fertilization of porcine oocytes reduced the incidence of polyspermic penetration | Q43032990 | ||
| The Effects of Hydrodynamic Shear Stress on Fertilization and Early Development of the Purple Sea Urchin Strongylocentrotus purpuratus | Q46038192 | ||
| Dense fibers protect mammalian sperm against damage | Q46841956 | ||
| Sperm motion in a microfluidic fertilization device | Q47732485 | ||
| PDMS bonding by means of a portable, low-cost corona system | Q51088872 | ||
| Isolation of motile spermatozoa from semen samples using microfluidics | Q51833876 | ||
| Hydrodynamic attraction of swimming microorganisms by surfaces | Q51870288 | ||
| Thermotaxis of mammalian sperm cells: a potential navigation mechanism in the female genital tract. | Q55036347 | ||
| Flagellar movement of human spermatozoa | Q55885168 | ||
| Mammalian Sperm Motility: Observation and Theory | Q57586957 | ||
| Modifications to the imagej computer assisted sperm analysis plugin greatly improve efficiency and fundamentally alter the scope of attainable data | Q110527837 | ||
| P4510 | describes a project that uses | microfluidics | Q138845 |
| P433 | issue | 12 | |
| P921 | main subject | microfluidics | Q138845 |
| P304 | page(s) | 1111-1121 | |
| P577 | publication date | 2014-10-08 | |
| P1433 | published in | Integrative Biology | Q1524032 |
| P1476 | title | Characterization of rheotaxis of bull sperm using microfluidics | |
| P478 | volume | 6 |
| Q33849576 | Designing 3-Dimensional In Vitro Oviduct Culture Systems to Study Mammalian Fertilization and Embryo Production. |
| Q28365499 | Development of computer-assisted sperm analysis plugin for analyzing sperm motion in microfluidic environments using Image-J |
| Q40470182 | Effect of pH on rheotaxis of bull sperm using microfluidics. |
| Q46281768 | Genomic identification, expression profiling, and functional characterization of CatSper channels in the bovine. |
| Q27326094 | Human sperm rheotaxis: a passive physical process |
| Q59340363 | Hyperactivated stallion spermatozoa fail to exhibit a rheotaxis-like behaviour, unlike other species |
| Q48242570 | Improved bovine embryo production in an oviduct-on-a-chip system: prevention of poly-spermic fertilization and parthenogenic activation. |
| Q52372017 | In vivo three-dimensional tracking of sperm behaviors in the mouse oviduct. |
| Q55339750 | Live births from artificial insemination of microfluidic-sorted bovine spermatozoa characterized by trajectories correlated with fertility. |
| Q48546688 | Microfluidic devices for the study of sperm migration |
| Q47393854 | Microfluidics for sperm analysis and selection |
| Q47600086 | Microphysiologic systems in female reproductive biology |
| Q92074812 | Novel Techniques of Sperm Selection for Improving IVF and ICSI Outcomes |
| Q47265407 | Positive rheotaxis extended drop: a one-step procedure to select and recover sperm with mature chromatin for intracytoplasmic sperm injection. |
| Q27312419 | Predominance of sperm motion in corners. |
| Q88090152 | Review: The epic journey of sperm through the female reproductive tract |
| Q92762610 | Rotational motion and rheotaxis of human sperm do not require functional CatSper channels and transmembrane Ca2+ signaling |
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