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	1.	Reactive Oxygen Species Scavenging Potential Contributes to Hypertrophic Scar Formation. MedStar authors: Alkhalil, Abdulnaser Carney, Bonnie C Chen, Jason H Kent, Rhett A Moffatt, Lauren T Rummani, Maha Shupp, Jeffrey W PMID: 31302330 Year: 2019 Citation: Journal of Surgical Research. 244:312-323, 2019 12. Journal of Surgical Research. 244:312-323, 2019 Jul 11. Institution: MedStar Health Research Institute MedStar Washington Hospital Center Department: Dermatology Firefighters' Burn and Surgical Research Laboratory Surgery/Burn Services Surgery/Burn Services Medline publication type: Journal Article Form of publication: Journal Article All authors: Alkhalil A, Carney BC, Chen JH, Kent RA, Moffatt LT, Rosenthal DS, Rummani M, Shupp JW DOI: https://dx.doi.org/10.1016/j.jss.2019.06.006 Add to cart (remove)
	2.	Persistent reactive oxygen species damage contributes to hypertrophic scar phenotype after wound closure. MedStar authors: Alkhalil, Abdulnaser Carney, Bonnie C Chen, Jason H Moffatt, Lauren T Rummani, Maha Shupp, Jeffrey W Smith, Robert D Year: 2018 Institution: MedStar Health Research Institute MedStar Washington Hospital Center Department: Surgery/Burn Services Form of publication: Conference All authors: Alkhalil A Carney BC Chen JH Moffatt LT Rosenthal DS Rummani M Shupp JW. Smith RD Local accession number: B2018529 Add to cart (remove)

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