scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1092462767 |
P356 | DOI | 10.1038/NRUROL.2017.175 |
P698 | PubMed publication ID | 29089604 |
P50 | author | David Sinton | Q85543110 |
P2093 | author name string | Biao Zhang | |
Jason Riordon | |||
Carlos Escobedo | |||
Keith Jarvi | |||
Reza Nosrati | |||
Alexander Lagunov | |||
Percival J Graham | |||
Thomas G Hannam | |||
P2860 | cites work | Flagellar synchronization through direct hydrodynamic interactions | Q21128775 |
NIH Image to ImageJ: 25 years of image analysis | Q23319322 | ||
Diagnostics for the Developing World: Microfluidic Paper-Based Analytical Devices | Q24289387 | ||
Isolation of rare circulating tumour cells in cancer patients by microchip technology | Q24597164 | ||
Clinical and consumer trial performance of a sensitive immunodiagnostic home test that qualitatively detects low concentrations of sperm following vasectomy | Q24655680 | ||
Sperm selection in natural conception: what can we learn from Mother Nature to improve assisted reproduction outcomes? | Q26783148 | ||
Semen analysis and sperm function testing | Q27008429 | ||
Predominance of sperm motion in corners. | Q27312419 | ||
Sperm DNA integrity assessment in prediction of assisted reproduction technology outcome | Q80142904 | ||
Development of a novel electrophoretic system for the isolation of human spermatozoa | Q81652227 | ||
Virtual azoospermia and cryptozoospermia--fresh/frozen testicular or ejaculate sperm for better IVF outcome? | Q82920860 | ||
Is there a problem with male reproduction? | Q83379525 | ||
Cooperation of sperm in two dimensions: synchronization, attraction, and aggregation through hydrodynamic interactions | Q83416347 | ||
A study of synchronisation between the flagella of bull spermatozoa, with related observations | Q84135939 | ||
Sperm cells manipulation employing dielectrophoresis | Q85243497 | ||
Mobile device for disease diagnosis and data tracking in resource-limited settings | Q85911508 | ||
Basic research: Just keep swimming - sperm exhibit a 2D slither motion | Q86832776 | ||
Response to Comment on Article: Hydrodynamics of Sperm Cells Near Surfaces | Q93534043 | ||
Live-birth rates and multiple-birth risk using in vitro fertilization | Q64131191 | ||
Fallopian Tube Isthmic Mucus and Ovum Transport | Q67026597 | ||
Observations on the response of human spermatozoa to gravity, boundaries and fluid shear | Q71277733 | ||
A study of helical and planar waves on sea urchin sperm flagella, with a theory of how they are generated | Q73617089 | ||
Motility of spermatozoa at surfaces | Q73724792 | ||
Ca2+ channels and signalling in cilia and flagella | Q75292568 | ||
Correlation of sperm motility with mitochondrial enzymatic activities | Q77085919 | ||
How to attract a sperm | Q78873666 | ||
The effect of obesity on sperm disorders and male infertility | Q37692815 | ||
Relationship between Porcine Sperm Motility and Sperm Enzymatic Activity using Paper-based Devices | Q37741295 | ||
Motile and non-motile sperm diagnostic manipulation using optoelectronic tweezers | Q37787784 | ||
At home testing: optimizing management for the infertility physician | Q37842877 | ||
Infectious disease: Hidden chlamydia | Q37843034 | ||
Male infertility: a public health issue caused by sexually transmitted pathogens | Q37843258 | ||
Sperm flagella: comparative and phylogenetic perspectives of protein components | Q37876572 | ||
Sperm motility: is viscosity fundamental to progress? | Q37886465 | ||
Effects of advanced selection methods on sperm quality and ART outcome: a systematic review | Q37923212 | ||
Male factor infertility in 2011: semen quality, sperm selection and hematospermia | Q37976254 | ||
Semen analysis: looking for an upgrade in class. | Q37979924 | ||
Engineers are from PDMS-land, Biologists are from Polystyrenia | Q37982635 | ||
Novel technologies for selecting the best sperm for in vitro fertilization and intracytoplasmic sperm injection | Q38077362 | ||
Paper-based microfluidic point-of-care diagnostic devices. | Q38104952 | ||
Computer-assisted sperm analysis (CASA): capabilities and potential developments | Q38165991 | ||
Semen assessment | Q38167125 | ||
The computational sperm cell | Q38171614 | ||
Seminal plasma as a diagnostic fluid for male reproductive system disorders | Q38202841 | ||
Holographic imaging of unlabelled sperm cells for semen analysis: a review. | Q38285845 | ||
Microfluidics for sperm research | Q38387343 | ||
Recent microfluidic devices for studying gamete and embryo biomechanics | Q38388229 | ||
Physics of microswimmers--single particle motion and collective behavior: a review | Q38446099 | ||
Sperm processing for advanced reproductive technologies: Where are we today? | Q38722939 | ||
International Committee for Monitoring Assisted Reproductive Technologies world report: Assisted Reproductive Technology 2008, 2009 and 2010. | Q38840243 | ||
Lensless Imaging and Sensing | Q38841547 | ||
Unconventional methods of imaging: computational microscopy and compact implementations | Q38841823 | ||
Semen quality in the 21st century | Q39066443 | ||
Semen quality of young adult ICSI offspring: the first results | Q39319190 | ||
Influence of increasing body mass index on semen and reproductive hormonal parameters in a multi-institutional cohort of subfertile men. | Q39557888 | ||
Spermometer: electrical characterization of single boar sperm motility | Q39696254 | ||
Constant decline in sperm concentration in infertile males in an urban population: experience over 18 years | Q39739668 | ||
Bend propagation in the flagella of migrating human sperm, and its modulation by viscosity. | Q39875314 | ||
Digital holography as a method for 3D imaging and estimating the biovolume of motile cells. | Q40143903 | ||
The relationship between sperm viability and DNA fragmentation rates | Q40689894 | ||
Total motile sperm count: a better indicator for the severity of male factor infertility than the WHO sperm classification system | Q41195137 | ||
Direct DNA Analysis with Paper-Based Ion Concentration Polarization | Q41248848 | ||
Patient noncompliance after vasectomy | Q41604145 | ||
Preparation and incubation conditions affect the DNA integrity of ejaculated human spermatozoa | Q42141208 | ||
How molecular motors shape the flagellar beat. | Q42452993 | ||
Effects of semen storage and separation techniques on sperm DNA fragmentation | Q43027872 | ||
Analyzing IVF laboratory error rates: highlight or hide? | Q43487551 | ||
Bimodal rheotactic behavior reflects flagellar beat asymmetry in human sperm cells. | Q27318660 | ||
Two-dimensional slither swimming of sperm within a micrometre of a surface | Q27319985 | ||
Human sperm rheotaxis: a passive physical process | Q27326094 | ||
Different migration patterns of sea urchin and mouse sperm revealed by a microfluidic chemotaxis device | Q27329867 | ||
Disrupting the wall accumulation of human sperm cells by artificial corrugation | Q27331507 | ||
Fluid flow and sperm guidance: a simulation study of hydrodynamic sperm rheotaxis | Q27342331 | ||
Generation of Gradients on a Microfluidic Device: Toward a High-Throughput Investigation of Spermatozoa Chemotaxis | Q27345257 | ||
Structural mechanism of the dynein power stroke. | Q27683275 | ||
CASA--practical aspects | Q28141204 | ||
World Health Organization reference values for human semen characteristics | Q28265600 | ||
Differential diagnosis of azoospermia with proteomic biomarkers ECM1 and TEX101 quantified in seminal plasma | Q28302387 | ||
Development of computer-assisted sperm analysis plugin for analyzing sperm motion in microfluidic environments using Image-J | Q28365499 | ||
The origins and the future of microfluidics | Q29617319 | ||
A microfluidic culture model of the human reproductive tract and 28-day menstrual cycle | Q30252820 | ||
Men with a complete absence of normal sperm morphology exhibit high rates of success without assisted reproduction | Q30275704 | ||
Selection of functional human sperm with higher DNA integrity and fewer reactive oxygen species | Q30401681 | ||
Rare cell isolation and analysis in microfluidics | Q30418365 | ||
SpermCheck Fertility, an immunodiagnostic home test that detects normozoospermia and severe oligozoospermia | Q30432824 | ||
Exhaustion of racing sperm in nature-mimicking microfluidic channels during sorting | Q30446864 | ||
Lensless imaging for simultaneous microfluidic sperm monitoring and sorting | Q30447939 | ||
Nonlinear instability in flagellar dynamics: a novel modulation mechanism in sperm migration? | Q30497413 | ||
High-throughput lensfree 3D tracking of human sperms reveals rare statistics of helical trajectories | Q30525855 | ||
Ciliary contact interactions dominate surface scattering of swimming eukaryotes | Q30533286 | ||
Sperm trajectories form chiral ribbons | Q30538970 | ||
Microgrooves and fluid flows provide preferential passageways for sperm over pathogen Tritrichomonas foetus | Q30647298 | ||
Cooperative roles of biological flow and surface topography in guiding sperm migration revealed by a microfluidic model | Q30657306 | ||
Sperm navigation along helical paths in 3D chemoattractant landscapes | Q30663365 | ||
How spermatozoa come to be confined to surfaces | Q30870917 | ||
Rheotaxis facilitates upstream navigation of mammalian sperm cells | Q33358507 | ||
An automated smartphone-based diagnostic assay for point-of-care semen analysis | Q33453620 | ||
Decline in sperm count and motility in young adult men from 2003 to 2013: observations from a U.S. sperm bank | Q33457902 | ||
Sperm chemotaxis | Q33537426 | ||
Sperm capacitation in humans is transient and correlates with chemotactic responsiveness to follicular factors | Q33751989 | ||
Designing 3-Dimensional In Vitro Oviduct Culture Systems to Study Mammalian Fertilization and Embryo Production. | Q33849576 | ||
Sperm transport in the female reproductive tract. | Q36307108 | ||
Imaging without lenses: achievements and remaining challenges of wide-field on-chip microscopy | Q36336814 | ||
Practical approaches to the diagnosis and management of male infertility | Q36395189 | ||
Mammalian sperm interactions with the female reproductive tract | Q36436746 | ||
Sperm guidance in mammals - an unpaved road to the egg. | Q36445261 | ||
Rheotaxis guides mammalian sperm | Q36714320 | ||
[Ca2+]i signalling in sperm--making the most of what you've got. | Q36748150 | ||
International estimates of infertility prevalence and treatment-seeking: potential need and demand for infertility medical care | Q36766146 | ||
Systematic characterization of seminal plasma piRNAs as molecular biomarkers for male infertility. | Q36789795 | ||
Infertility and the provision of infertility medical services in developing countries | Q36942377 | ||
Assisted Reproductive Technology and Birth Defects Among Liveborn Infants in Florida, Massachusetts, and Michigan, 2000-2010 | Q36984692 | ||
Decline of semen quality among 10 932 males consulting for couple infertility over a 20-year period in Marseille, France | Q37047034 | ||
The total pregnancy potential per oocyte aspiration after assisted reproduction-in how many cycles are biologically competent oocytes available? | Q37059978 | ||
Comparison of four methods to evaluate sperm DNA integrity between mouse caput and cauda epididymidis. | Q37074439 | ||
Localized prostate cancer: can we better define who is at risk of unfavourable outcome? | Q37097060 | ||
The biology of infertility: research advances and clinical challenges | Q37206451 | ||
Swimming speeds of filaments in nonlinearly viscoelastic fluids | Q37232330 | ||
Maternal and Live-birth Outcomes of Pregnancies following Assisted Reproductive Technology: A Retrospective Cohort Study | Q37352649 | ||
Lab-on-a-chip biophotonics: its application to assisted reproductive technologies | Q37445404 | ||
Flagellar oscillation: a commentary on proposed mechanisms | Q37650960 | ||
Flagellar and ciliary beating: the proven and the possible | Q37690040 | ||
Hydrodynamics of sperm cells near surfaces | Q34062461 | ||
Clinical and laboratory management of male infertility: an opinion on its current status | Q34098502 | ||
Progesterone activates the principal Ca2+ channel of human sperm | Q34171208 | ||
Passively Driven Integrated Microfluidic System for Separation of Motile Sperm | Q34191773 | ||
Fluid dynamics and noise in bacterial cell-cell and cell-surface scattering | Q34194146 | ||
Microfluidic, marker-free isolation of circulating tumor cells from blood samples | Q34263808 | ||
Reproductive technologies and the risk of birth defects | Q34272832 | ||
Computer-assisted sperm analysis (CASA) as a tool for monitoring sperm quality in fish | Q34460188 | ||
Development of a novel home sperm test. | Q34464810 | ||
Male Reproductive Disorders and Fertility Trends: Influences of Environment and Genetic Susceptibility | Q34502168 | ||
Cellular Cargo Delivery: Toward Assisted Fertilization by Sperm-Carrying Micromotors | Q34506352 | ||
Sperm chemotaxis promotes individual fertilization success in sea urchins | Q34518981 | ||
Pregnancies after intracytoplasmic injection of single spermatozoon into an oocyte | Q34538686 | ||
Direct characterization of motion-dependent parameters of sperm in a microfluidic device: proof of principle | Q34549345 | ||
The discovery of prostate-specific antigen | Q34672875 | ||
A wall of funnels concentrates swimming bacteria | Q34692153 | ||
The science of ART. | Q34699938 | ||
Physics and applications of microfluidics in biology. | Q34739035 | ||
Dendritic cell chemotaxis in 3D under defined chemokine gradients reveals differential response to ligands CCL21 and CCL19. | Q34805290 | ||
Semen analysis and sperm function tests: How much to test? | Q35044043 | ||
Strategies for locating the female gamete: the importance of measuring sperm trajectories in three spatial dimensions | Q35104901 | ||
The present and future role of microfluidics in biomedical research. | Q35118947 | ||
Comment on the article by J. Elgeti, U. B. Kaupp, and G. Gompper: hydrodynamics of sperm cells near surfaces. | Q35144666 | ||
Role of sperm chromatin abnormalities and DNA damage in male infertility | Q35202642 | ||
A unique view on male infertility around the globe | Q35583844 | ||
Verification of male infertility biomarkers in seminal plasma by multiplex selected reaction monitoring assay | Q35610622 | ||
Estimating the prevalence of infertility in Canada | Q35755899 | ||
Microfluidic assessment of swimming media for motility-based sperm selection | Q35929308 | ||
Chemotaxis of sperm cells | Q35941346 | ||
Human spermatozoa migration in microchannels reveals boundary-following navigation | Q35991651 | ||
Multiple birth resulting from ovarian stimulation for subfertility treatment | Q36135826 | ||
Microfluidics for mammalian cell chemotaxis | Q36179338 | ||
Male reproductive disorders in humans and prenatal indicators of estrogen exposure. A review of published epidemiological studies | Q36187488 | ||
Comparative analysis of mammalian sperm motility | Q36194068 | ||
A Noninvasive, Motility Independent, Sperm Sorting Method and Technology to Identify and Retrieve Individual Viable Nonmotile Sperm for Intracytoplasmic Sperm Injection | Q44189987 | ||
Prevalence of abnormal sperm DNA denaturation in fertile and infertile men. | Q44244654 | ||
The signal flow and motor response controling chemotaxis of sea urchin sperm | Q44300445 | ||
Cumulative live-birth rates after in vitro fertilization. | Q46011508 | ||
Imaging and sizing of single DNA molecules on a mobile phone | Q46445394 | ||
Characterization of rheotaxis of bull sperm using microfluidics | Q46557446 | ||
Final ART success rates: a 10 years survey | Q46707889 | ||
A novel microfluidic device for male subfertility screening | Q46859880 | ||
Make it spin: individual trapping of sperm for analysis and recovery using micro-contact printing | Q46921256 | ||
Using ratchets and sorters to fractionate motile cells of Escherichia coli by length | Q47282594 | ||
High-throughput flowing upstream sperm sorting in a retarding flow field for human semen analysis. | Q47852696 | ||
Separation efficiency of a microfluidic sperm sorter to minimize sperm DNA damage | Q47968358 | ||
Improved bovine embryo production in an oviduct-on-a-chip system: prevention of poly-spermic fertilization and parthenogenic activation. | Q48242570 | ||
Commercialization of microfluidic devices | Q48518144 | ||
Microfluidic devices for the study of sperm migration | Q48546688 | ||
Application of failure mode and effect analysis in an assisted reproduction technology laboratory. | Q48548619 | ||
In vitro fertilization on a single-oocyte positioning system integrated with motile sperm selection and early embryo development | Q48678435 | ||
High-precision tracking of sperm swimming fine structure provides strong test of resistive force theory | Q48822196 | ||
Hydrodynamic analysis of flagellated bacteria swimming in corners of rectangular channels. | Q50735205 | ||
Coarse-Graining the Fluid Flow around a Human Sperm. | Q50743160 | ||
Turning the corner in fertility: high DNA integrity of boundary-following sperm. | Q50847961 | ||
OTC product: Fertell. | Q50914740 | ||
Is fine morphology of the human sperm nuclei affected by in vitro incubation at 37 degrees C? | Q51011718 | ||
Chemotaxis assays of mouse sperm on microfluidic devices. | Q51204389 | ||
Towards microfluidic sperm refinement: impedance-based analysis and sorting of sperm cells. | Q51408395 | ||
Toward a Microfluidics-Based Home Male Fertility Test. | Q51471442 | ||
Paper-Based Quantification of Male Fertility Potential. | Q51472274 | ||
Microfluidic single sperm entrapment and analysis. | Q51501413 | ||
Sperm dynamics in tubular confinement. | Q51505984 | ||
Rapid selection of sperm with high DNA integrity. | Q51523215 | ||
Sperm quality assessment via separation and sedimentation in a microfluidic device. | Q51530395 | ||
Integration of sperm motility and chemotaxis screening with a microchannel-based device. | Q51557407 | ||
On-chip determination of spermatozoa concentration using electrical impedance measurements. | Q51559189 | ||
Viscoelastic fluid response can increase the speed and efficiency of a free swimmer. | Q51707487 | ||
An agarose-based microfluidic platform with a gradient buffer for 3D chemotaxis studies. | Q51737344 | ||
Geometrical guidance and trapping transition of human sperm cells. | Q51741779 | ||
Isolation of motile spermatozoa from semen samples using microfluidics. | Q51833876 | ||
Hydrodynamic attraction of swimming microorganisms by surfaces. | Q51870288 | ||
A self-organized vortex array of hydrodynamically entrained sperm cells. | Q51969831 | ||
Sperm motility in the presence of boundaries. | Q52331727 | ||
Prolonged incubation of processed human spermatozoa will increase DNA fragmentation. | Q54280620 | ||
Escherichia coli swim on the right-hand side. | Q54483139 | ||
Emergence of upstream swimming via a hydrodynamic transition. | Q55007910 | ||
Human sperm accumulation near surfaces: a simulation study | Q55877923 | ||
Life at low Reynolds number | Q55880142 | ||
Mammalian Sperm Motility: Observation and Theory | Q57586957 | ||
Spontaneous recovery after experimental manipulation of the plane of beat in sperm flagella | Q59060758 | ||
Non-random Distribution of Bull Spermatozoa in a Drop of Sperm Suspension | Q59079275 | ||
Non-random Distribution of Bull Spermatozoa in a Drop of Sperm Suspension | Q59081103 | ||
BIOFLUIDMECHANICS OF REPRODUCTION | Q61757619 | ||
In-vitro fertilisation | Q63359663 | ||
P433 | issue | 12 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | microfluidics | Q138845 |
P304 | page(s) | 707-730 | |
P577 | publication date | 2017-10-31 | |
P1433 | published in | Nature Reviews Urology | Q2079265 |
P1476 | title | Microfluidics for sperm analysis and selection | |
P478 | volume | 14 |
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