Add to ORKG© 2016 Bentham Science Publishers.Regenerative medicine is a multidisciplinary field where continued progress relies on the incorporation of a diverse set of technologies from a wide range of disciplines within medicine, science and engineering. This review describes how one such technique, mathematical modelling, can be utilised to improve the tissue engineering of organs and stem cell therapy. Several case studies, taken from research carried out by our group, ACTREM, demonstrate the utility of mechanistic mathematical models to help aid the design and optimisation of protocols in regenerative medicine
Over the last thirty years or so, mathematical biology, i.e. the application of mathematics and math...
To get an optimal product of orthopaedic implant or regenerative medicine needs to follow trial-and-...
One of the major challenges in tissue engineering is the translation of biological knowledge on comp...
© 2016 Bentham Science Publishers.Regenerative medicine is a multidisciplinary field where continued...
Successful progression from bench to bedside for regenerative medicine products is challenging and r...
Mathematical models are routinely used in the physical and engineering sciences to help understand c...
In recent years, the mathematical and computational sciences have developed novel methodologies and ...
Continuing advances in genomics, molecular and cellular mechanobiology and immunobiology, including ...
In recent years, the mathematical and computational sciences have developed novel methodologies and ...
Tissue growth and regeneration are fundamental processes underpinning crucial physiological and path...
Stem cell therapy is a regenerative medicine technique consisting in introducing new cells into a d...
Few events in science have captured the same level of sustained interest and imagination of the nons...
The processes of wound healing and bone regeneration and problems in tissue engineering have been an...
Stem cell therapy is a promising treatment for the regeneration of myocardial tissue injured by an i...
Tissue engineering is a multidisciplinary area that has been put forward to offer solutions to the p...
Over the last thirty years or so, mathematical biology, i.e. the application of mathematics and math...
To get an optimal product of orthopaedic implant or regenerative medicine needs to follow trial-and-...
One of the major challenges in tissue engineering is the translation of biological knowledge on comp...
© 2016 Bentham Science Publishers.Regenerative medicine is a multidisciplinary field where continued...
Successful progression from bench to bedside for regenerative medicine products is challenging and r...
Mathematical models are routinely used in the physical and engineering sciences to help understand c...
In recent years, the mathematical and computational sciences have developed novel methodologies and ...
Continuing advances in genomics, molecular and cellular mechanobiology and immunobiology, including ...
In recent years, the mathematical and computational sciences have developed novel methodologies and ...
Tissue growth and regeneration are fundamental processes underpinning crucial physiological and path...
Stem cell therapy is a regenerative medicine technique consisting in introducing new cells into a d...
Few events in science have captured the same level of sustained interest and imagination of the nons...
The processes of wound healing and bone regeneration and problems in tissue engineering have been an...
Stem cell therapy is a promising treatment for the regeneration of myocardial tissue injured by an i...
Tissue engineering is a multidisciplinary area that has been put forward to offer solutions to the p...
Over the last thirty years or so, mathematical biology, i.e. the application of mathematics and math...
To get an optimal product of orthopaedic implant or regenerative medicine needs to follow trial-and-...
One of the major challenges in tissue engineering is the translation of biological knowledge on comp...