Add to ORKGThe flagellar beat is extracted from human sperm digital imaging microscopy and used to determine the flow around the cell and its trajectory, via boundary element simulation. Comparison of the predicted cell trajectory with observation demonstrates that simulation can predict fine-scale sperm dynamics at the qualitative level. The flow field is also observed to reduce to a time-dependent summation of regularized Stokes flow singularities, approximated at leading order by a blinking force triplet. Such regularized singularity decompositions may be used to upscale cell level detail into population models of human sperm motility
Vigorous sperm flagellar motility is essential for fertilization, and so the quantitative measuremen...
The simulation of 1000 swimmers with stochastically-varying undulation frequencies starting from a p...
A pre-requisite for sexual reproduction is successful unification of the male and female gametes; in...
Remarkably, mammalian sperm maintain a substantive proportion of their progressive swimming speed wi...
A hybrid boundary integral/slender body algorithm for modelling flagellar cell motility is presented...
The detailed fluid mechanics of sperm propulsion are fundamental to our understanding of reproductio...
Ishimoto K, Gadêlha H, Gaffney EA, Smith DJ, Kirkman-Brown J. Coarse-graining the fluid flow around ...
Rheotaxis, the directed response to fluid velocity gradients, has been shown to facilitate stable up...
Sperm motility in the female genital tract is a key factor in the natural selection of competent cel...
We present a multidisciplinary approach for predicting how sperm cells with various morphologies swi...
The propulsion mechanics driving the movement of living cells constitutes one of the most incredible...
In one of the first examples of how mechanics can inform axonemal mechanism, Machin's study in the 1...
We have numerically investigated sperm clustering behaviours, modelling cells as superpositions of r...
Motile cilia, also called flagella, are found across a broad range of species; some cilia propel pro...
Abstract We have numerically investigated sperm clustering behaviours, modelling cells as superposit...
Vigorous sperm flagellar motility is essential for fertilization, and so the quantitative measuremen...
The simulation of 1000 swimmers with stochastically-varying undulation frequencies starting from a p...
A pre-requisite for sexual reproduction is successful unification of the male and female gametes; in...
Remarkably, mammalian sperm maintain a substantive proportion of their progressive swimming speed wi...
A hybrid boundary integral/slender body algorithm for modelling flagellar cell motility is presented...
The detailed fluid mechanics of sperm propulsion are fundamental to our understanding of reproductio...
Ishimoto K, Gadêlha H, Gaffney EA, Smith DJ, Kirkman-Brown J. Coarse-graining the fluid flow around ...
Rheotaxis, the directed response to fluid velocity gradients, has been shown to facilitate stable up...
Sperm motility in the female genital tract is a key factor in the natural selection of competent cel...
We present a multidisciplinary approach for predicting how sperm cells with various morphologies swi...
The propulsion mechanics driving the movement of living cells constitutes one of the most incredible...
In one of the first examples of how mechanics can inform axonemal mechanism, Machin's study in the 1...
We have numerically investigated sperm clustering behaviours, modelling cells as superpositions of r...
Motile cilia, also called flagella, are found across a broad range of species; some cilia propel pro...
Abstract We have numerically investigated sperm clustering behaviours, modelling cells as superposit...
Vigorous sperm flagellar motility is essential for fertilization, and so the quantitative measuremen...
The simulation of 1000 swimmers with stochastically-varying undulation frequencies starting from a p...
A pre-requisite for sexual reproduction is successful unification of the male and female gametes; in...