Ever since humans stepped out from the cave into the light, they have sought to understand the precariousness of the human condition. Discerning the cause of diseases and forging ways to alleviate them has driven medical enquiry for centuries. We at Recellgene are at the forefront of that enquiry.
We bring together the world’s foremost medical researchers and scientists to search for answers to difficult questions. Working in an enabling and constructive environment, our researchers investigate, innovate and invent to ensure that you and your loved ones remain safe.
Experts in the field of cellular regeneration, our scientists are pushing the boundaries of science to go where no one has gone before. Heralding the next stage in evolution, their aim is to induce maximum regeneration in more human organs.
Lamenting of his "outworn mortality", Michelangelo Buonarroti once wrote "That, changing like the snake, I might be free to cast off flesh wherein I dwell confined". Mortality and our inability to regenerate at the cellular level limits us. The few cells or tissues that can regenerate in humans return in an altered and degraded form. In stark contrast, creatures like the salamanders and starfish can regenerate limbs while the Zebrafish can regenerate whole organs, including the heart. Some creatures like sponges can grow an entirely new body from a surviving piece of their bodies. Even more wondrous are bristlecone pine trees, which are considered biologically immortal.
Imagine the possibilities for humankind if we could borrow from these amazing precedents in nature. Imagine if aging is just a pathology that can be treated like any other condition? Recellgene prides itself in being at the forefront in regenerative medicine. We hope that through our efforts, human beings will be able to adapt and evolve into more resilient beings, with dramatically extended life spans.
There is a general thesis that Non-Coding MRNAs have a role in the regeneration of cells, tissues and organs. Studying long non-coding MRNAs and Micro-MRNAs, it has been possible to learn how the Zebrafish can regenerate its heart. Since humans have the same MRNA’s and Micro-MRNA’s, there is a possibility to examine the many signalling pathways and receptors in the cells to understand the pattern and workflow of cellular regeneration.
It is noteworthy that the biological role of 90% of the genetic material in the cell is a mystery. Analysing this for the first time, Recellgene is using biological computation to shed light in this darkness. Aided by advanced algorithms and hardware, real world simulations can be augumented to replicate actual genetic cellular conditions. The real world applications of the ocean of data awaiting for us to harness are limitless.
Recellgene develops, tests and deploys intensive and intricate digital platform services using Machine Learning Models that give the medical community greater access to data for an expedited and effective diagnosis. Each individual's healthcare needs are unique. To ensure customised solutions for each individual, Recellgene analyses prescription data from physicians and healthcare professionals across the world. Our goal is to ensure better diagnosis and care for every individual. We consider multiple variables and permutations in real time so that healthcare professionals are able to effectively address each individual's unique problems.
Using the best in Neural Learning and Deep Learning available in the Artificial Intelligence ecosystem, Recellgene processes medical diagnostic images in high resolution parameters, so as to accurately predict certain conditions, that could escape even the most discerning eye. This assists and complements medical professionals in previously unimaginable ways.
Thanks to the technologically dynamic world we live in, we are now able to harness the power of integrated devices. Using sophisticated techniques, the IOT helps deliver a more efficient healthcare system, by analysing large data sets and providing real time analyses. Our team relies on information from multiple digital devices to make more effective IOT protocols, so as to better manage healthcare systems as well as give efficient and prompt responses for individuals.
Interoperability in the healthcare sector refers to access given to providers of healthcare to data and records of patients, from across the clinical diagnosis spectrum. This is used to analyse and disseminate information that will be beneficial to patients. Recellgene has taken this to the next stage by leveraging Machine Learning (ML) Protocols, to secure accurate predictions for diseases, especially when the symptoms are invisible. Based on data and variables provided by the patient, we are successfully able to diagnose conditions like never before.
Ever since humans stepped out from the cave into the light, they have sought to understand the precariousness of the human condition. Discerning the cause of diseases and forging ways to alleviate them has driven medical enquiry for centuries. We at Recellgene are at the forefront of that enquiry.
We bring together the world’s foremost medical researchers and scientists to search for answers to difficult questions. Working in an enabling and constructive environment, our researchers investigate, innovate and invent to ensure that you and your loved ones remain safe.
Experts in the field of cellular regeneration, our scientists are pushing the boundaries of science to go where no one has gone before. Heralding the next stage in evolution, their aim is to induce maximum regeneration in more human organs.
Lamenting of his "outworn mortality", Michelangelo Buonarroti once wrote "That, changing like the snake, I might be free to cast off flesh wherein I dwell confined". Mortality and our inability to regenerate at the cellular level limits us. The few cells or tissues that can regenerate in humans return in an altered and degraded form. In stark contrast, creatures like the salamanders and starfish can regenerate limbs while the Zebrafish can regenerate whole organs, including the heart. Some creatures like sponges can grow an entirely new body from a surviving piece of their bodies. Even more wondrous are bristlecone pine trees, which are considered biologically immortal.
Imagine the possibilities for humankind if we could borrow from these amazing precedents in nature. Imagine if aging is just a pathology that can be treated like any other condition? Recellgene prides itself in being at the forefront in regenerative medicine. We hope that through our efforts, human beings will be able to adapt and evolve into more resilient beings, with dramatically extended life spans.
There is a general thesis that Non-Coding MRNAs have a role in the regeneration of cells, tissues and organs. Studying long non-coding MRNAs and Micro-MRNAs, it has been possible to learn how the Zebrafish can regenerate its heart. Since humans have the same MRNA’s and Micro-MRNA’s, there is a possibility to examine the many signalling pathways and receptors in the cells to understand the pattern and workflow of cellular regeneration.
It is noteworthy that the biological role of 90% of the genetic material in the cell is a mystery. Analysing this for the first time, Recellgene is using biological computation to shed light in this darkness. Aided by advanced algorithms and hardware, real world simulations can be augumented to replicate actual genetic cellular conditions. The real world applications of the ocean of data awaiting for us to harness are limitless.
Recellgene develops, tests and deploys intensive and intricate digital platform services using Machine Learning Models that give the medical community greater access to data for an expedited and effective diagnosis. Each individual's healthcare needs are unique. To ensure customised solutions for each individual Recellgene analyses prescription data from physicians and healthcare professionals across the world. Our goal is to ensure better diagnosis and care for every individual. We consider multiple variables and permutations in real time so that healthcare professionals are able to effectively address each individual's unique problems.
Using the best in Neural Learning and Deep Learning available in the Artificial Intelligence ecosystem, Recellgene processes medical diagnostic images in high resolution parameters, so as to accurately predict certain conditions, that could escape even the most discerning eye. This assists and complements medical professionals in previously unimaginable ways.
Thanks to the technologically dynamic world we live in, we are now able to harness the power of integrated devices. Using sophisticated techniques, the IOT helps deliver a more efficient healthcare system, by analysing large data sets and providing real time analyses. Our team relies on information from multiple digital devices to make more effective IOT protocols, so as to better manage healthcare systems as well as give efficient and prompt responses for individuals.
Interoperability in the healthcare sector refers to access given to providers of healthcare to data and records of patients, from across the clinical diagnosis spectrum. This is used to analyse and disseminate information that will be beneficial to patients. Recellgene has taken this to the next stage by leveraging Machine Learning (ML) Protocols, to secure accurate predictions for diseases, especially when the symptoms are invisible. Based on data and variables provided by the patient, we are successfully able to diagnose conditions like never before.