A new approach for early detection of multiple cancers is presented by integrating SERS spectroscopy of serum molecular fingerprints and machine learning.
While oropharyngeal cancer treatment regimens,including surgical resection,irradiation,and chemotherapy,are effective at removing tumors,they lead to muscle atrophy,denervation,and fibrosis,contributing to the pathoge...While oropharyngeal cancer treatment regimens,including surgical resection,irradiation,and chemotherapy,are effective at removing tumors,they lead to muscle atrophy,denervation,and fibrosis,contributing to the pathogenesis of oropharyngeal dysphagia-difficulty swallowing.Current standard of care of rehabilitative tongue strengthening and swallowing exercises is ineffective.Here,we evaluate an alternative approach utilizing an acellular and injectable biomaterial to preserve muscle content and reduce fibrosis of the tongue after injury.Skeletal muscle extracellular matrix(SKM)hydrogel is fabricated from decellularized porcine skeletal muscle tissue.A partial glossectomy injury in the rat is used to induce tongue fibrosis,and SKM hydrogels along with saline controls are injected into the site of scarring two weeks after injury.Tissues are harvested at 3 and 7 days post-injection for gene expression and immunohistochemical analyses,and at 4 weeks post-injection to evaluate histomorphological properties.SKM hydrogel reduces scar formation and improves muscle regeneration at the site of injury compared to saline.SKM additionally modulates the immune response towards an anti-inflammatory phenotype.This study demonstrates the immunomodulatory and tissue-regenerative capacity of an acellular and minimally invasive ECM hydrogel in a rodent model of tongue injury.展开更多
文摘A new approach for early detection of multiple cancers is presented by integrating SERS spectroscopy of serum molecular fingerprints and machine learning.
基金Funding provided by the UCSD Galvanizing Engineering in Medicine Program.The authors would like to thank the UC San Diego Stem Cell Genomics Core at the Sanford Consortium for Regenerative Medicine for assistance with RNA sequencing and analysis.
文摘While oropharyngeal cancer treatment regimens,including surgical resection,irradiation,and chemotherapy,are effective at removing tumors,they lead to muscle atrophy,denervation,and fibrosis,contributing to the pathogenesis of oropharyngeal dysphagia-difficulty swallowing.Current standard of care of rehabilitative tongue strengthening and swallowing exercises is ineffective.Here,we evaluate an alternative approach utilizing an acellular and injectable biomaterial to preserve muscle content and reduce fibrosis of the tongue after injury.Skeletal muscle extracellular matrix(SKM)hydrogel is fabricated from decellularized porcine skeletal muscle tissue.A partial glossectomy injury in the rat is used to induce tongue fibrosis,and SKM hydrogels along with saline controls are injected into the site of scarring two weeks after injury.Tissues are harvested at 3 and 7 days post-injection for gene expression and immunohistochemical analyses,and at 4 weeks post-injection to evaluate histomorphological properties.SKM hydrogel reduces scar formation and improves muscle regeneration at the site of injury compared to saline.SKM additionally modulates the immune response towards an anti-inflammatory phenotype.This study demonstrates the immunomodulatory and tissue-regenerative capacity of an acellular and minimally invasive ECM hydrogel in a rodent model of tongue injury.