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"Cell and tissue culture is one of the biggest barriers to developing and scaling life-changing therapies."

Traditional Cell Culture The Challenge With Growing Cells.

Cultivating, manipulating, and analyzing cells takes time and effort. It is tedious and existing technologies do not allow for the growth of high-quality cells that mimic how cells grow in the human body. 

In fact, most technologies force cells to grow in hard plastic artificial environments that are nothing like what is in the body at all.

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2D Requires Subculture

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2D Does Not Mimic An In Vivo Environment

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2D Creates A Significant Problem With Senescence

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2D Requires Significant Labor and Consumables

Ronawk’s Bio-Block Universe

REVOLUTIONIZING SCIENCE BY ACCELERATING NEXT-GENERATION THERAPIEs

Transform your cell and tissue experiments with Ronawk’s Bio-Blocks - A new class of Bio-Factory for generating biologically active compounds such as tissues, cells, and cellular secretions. Bio-Blocks are customizable 3D porous hydrogel substrates that mimic native tissue, enabling real-time observation, novel stimuli introduction, co-culturing, and cellular signaling analysis.

Explore breakthrough discoveries and develop targeted treatments with Bio-Blocks.

Physiological Modeling

Tissue-Mimetic Structures

Ronawk’s Bio-Block, a 3D tissue-mimetic porous hydrogel substrate, allows cells to propagate a bio-mimetic microenvironment that develops into functional microtissues with organized cells and active signaling. Bio-Blocks enable real-time visualization, efficient nutrient exchange, and are compatible with prevailing tissue processing techniques.

Cell Growth & Retrieval

Developing Cellular Function

Ronawk’s Bio-Block is a superior 3D tissue-mimetic porous hydrogel substrate designed to create an ideal environment for studying cellular function in tissue culture. Its unique features and capabilities set it apart from conventional culture systems, offering numerous advantages to researchers and clinicians. Different stimuli such as chemical agents or physical disruptions may be applied to Bio-Blocks to alter cellular functions which can then be observed in real-time.

Production of By-Product

Enhanced Cellular Signaling

Ronawk’s Bio-Block's signaling enhancement capabilities empower researchers to better understand and manipulate cellular communication, leading to more targeted and effective biologic therapies. By examining signaling molecules, manipulating cellular stimuli, and studying disease-specific frameworks, Bio-Blocks facilitate the development of innovative treatments that will improve patient outcomes and advance human health.

Production of By-Product

Leading To Bio-Mimetic Microenvironments

Ronawk’s Bio-Blocks are at the forefront of biotech and life science innovation and represent a powerful tool for developing bio-mimetic microenvironments. Bio-mimetic environments replicate the complexity and functionality of biological systems in the body such as an organ system, organ, tissue, or groupings of cells. A microtissue can be classified as a bio-mimetic microenvironment because it contains 3D structures and functional elements of native tissue. Be the innovator that unlocks breakthrough discoveries and improves patient outcomes by accelerating the science and research of tomorrow.

The Bio-Factory

Talk To Our Team

Schedule A Time To Talk About Our Customizable Solutions

Our team is here to understand your needs, the cell lines you use, and to create customized protocols for using Ronawk’s advanced mimetic culture technologies.

Built For Innovators

The Bio-Factory™: A Mimetic Culture Platform

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Tissue-Mimetic Structures

Ronawk’s Bio-Block, a 3D tissue-mimetic porous hydrogel substrate, allows cells to propagate a bio-mimetic microenvironment that develops into functional microtissues with organized cells and active signaling. Bio-Blocks enable real-time visualization, efficient nutrient exchange, and are compatible with prevailing tissue processing techniques.

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Developing Cellular Function

Ronawk’s Bio-Block is a superior 3D tissue-mimetic porous hydrogel substrate designed to create an ideal environment for studying cellular function in tissue culture. Its unique features and capabilities set it apart from conventional culture systems, offering numerous advantages to researchers and clinicians. Different stimuli such as chemical agents or physical disruptions may be applied to Bio-Blocks to alter cellular functions which can then be observed in real-time.

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Enhanced Cellular Signaling

Ronawk’s Bio-Block's signaling enhancement capabilities empower researchers to better understand and manipulate cellular communication, leading to more targeted and effective biologic therapies. By examining signaling molecules, manipulating cellular stimuli, and studying disease-specific frameworks, Bio-Blocks facilitate the development of innovative treatments that will improve patient outcomes and advance human health.

cropped-Ronawk-02

Leading To Bio-Mimetic Microenvironments

Ronawk’s Bio-Blocks are at the forefront of biotech and life science innovation and represent a powerful tool for developing bio-mimetic microenvironments. Bio-mimetic environments replicate the complexity and functionality of biological systems in the body such as an organ system, organ, tissue, or groupings of cells. A microtissue can be classified as a bio-mimetic microenvironment because it contains 3D structures and functional elements of native tissue. Be the innovator that unlocks breakthrough discoveries and improves patient outcomes by accelerating the science and research of tomorrow.

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Mimetic Culture Technology

Bio-Blocks are the innovative system for creating bio-mimetic microenvironments to grow cells and tissue

Over a 6-week study, Bio-Blocks resulted in no significant changes in senescence, whereas traditional 2D culture caused an approximately fourfold increase in senescent adipose-derived MSC populations. Additionally, the Bio-Block system maintains the stem-like phenotype of ASC populations over time, which indicates that it helps retain their overall regenerative capacity.