Spiderwort Inc.01.20.21
Spiderwort Inc., a Canadian medical device company developing innovative biomaterials for regenerative medicine, has been granted U.S. Food and Drug Administration (FDA) Breakthrough Device designation for its spinal cord scaffold implant, CelluBridge.
The FDA Breakthrough Devices program creates a path for innovators to get their medical devices to market faster. The program targets novel devices that have the potential to provide patients with a more effective treatment or diagnosis for life-threatening or irreversibly debilitating diseases and conditions. This program provides patients and health care providers with timely access to these medical devices by expediting medical devices development, assessment, and review, while preserving the statutory standards consistent with the FDA’s mission to protect and promote public health.
“While this designation is a great achievement for our team, and a validation of our technology, I am most excited for the patients whose lives we will be able to change with our biomaterial,” said Charles M. Cuerrier, CEO and co-founder of Spiderwort. “This designation will enable us to efficiently interact with the FDA in order to increase the speed at which we will initiate our clinical trials”.
Spiderwort’s revolutionary biomaterial uses a plant-based cellulose scaffolding to create a framework that supports the regeneration of healthy tissues. The biomaterial is composed of microchannels which guide regenerating neurons through damaged regions of the spinal cord after a traumatic injury. Preclinical studies are demonstrating the promise of this approach for restoring motor function.
“We are pushing the limits of science every day to bring something remarkable into the world,” said Andrew E. Pelling, Chief Science Officer and co-founder of Spiderwort. “Spiderwort was born from curiosity-driven exploration, and the results have the potential to significantly improve patients lives.”
Spiderwort also recently announced the closing of its $2.5 million Series Seed round of financing, led by Horizons Ventures. The company is preparing for its Series A round of financing this year as it moves closer to clinical testing.
The FDA Breakthrough Devices program creates a path for innovators to get their medical devices to market faster. The program targets novel devices that have the potential to provide patients with a more effective treatment or diagnosis for life-threatening or irreversibly debilitating diseases and conditions. This program provides patients and health care providers with timely access to these medical devices by expediting medical devices development, assessment, and review, while preserving the statutory standards consistent with the FDA’s mission to protect and promote public health.
“While this designation is a great achievement for our team, and a validation of our technology, I am most excited for the patients whose lives we will be able to change with our biomaterial,” said Charles M. Cuerrier, CEO and co-founder of Spiderwort. “This designation will enable us to efficiently interact with the FDA in order to increase the speed at which we will initiate our clinical trials”.
Spiderwort’s revolutionary biomaterial uses a plant-based cellulose scaffolding to create a framework that supports the regeneration of healthy tissues. The biomaterial is composed of microchannels which guide regenerating neurons through damaged regions of the spinal cord after a traumatic injury. Preclinical studies are demonstrating the promise of this approach for restoring motor function.
“We are pushing the limits of science every day to bring something remarkable into the world,” said Andrew E. Pelling, Chief Science Officer and co-founder of Spiderwort. “Spiderwort was born from curiosity-driven exploration, and the results have the potential to significantly improve patients lives.”
Spiderwort also recently announced the closing of its $2.5 million Series Seed round of financing, led by Horizons Ventures. The company is preparing for its Series A round of financing this year as it moves closer to clinical testing.