Grace E. Snow
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View article: Penetrating Laryngeal Trauma: Management of Severe Injuries Without Open Reduction Internal Fixation
Penetrating Laryngeal Trauma: Management of Severe Injuries Without Open Reduction Internal Fixation Open
Objective Thyroid and cricoid cartilage fractures that are displaced or have multiple fracture lines are traditionally managed with open reduction and internal fixation (ORIF). In practice, patients with penetrating laryngeal trauma may ha…
Pencil Beam Scanning Proton Therapy as Single Vocal Cord Irradiation for Early-Stage Glottic Cancer Open
SVCI is a promising strategy for maintaining the oncologic effectiveness of whole-larynx photon radiation while potentially improving upon the historic toxicity profile. The favorable dose distribution with PBS with respect to organs at ri…
View article: Supplemental Table 1 from SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i>
Supplemental Table 1 from SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i> Open
HNSCC cell lines
View article: Supplemental Table 1 from SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i>
Supplemental Table 1 from SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i> Open
HNSCC cell lines
View article: Suplementary Methods from SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i>
Suplementary Methods from SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i> Open
Supplementary Methods
View article: Supplemental Figures from SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i>
Supplemental Figures from SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i> Open
Supplemental Figures and Legends: Supplemental Figure 1. Effect of Birc2, Birc3, and FADD knockdown in UM-SCC-1 and UM-SCC-11A; Supplemental Figure 2. Summary of DNA cell cycle cytofluorometry in UM-SCC lines; Supplemental Figure 3. Effect…
Data from SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i> Open
Comparison of tumors from The Cancer Genome Atlas (TCGA) reveals that head and neck squamous cell carcinomas (HNSCC) harbor the most frequent genomic amplifications of Fas-associated death domain (FADD), with or without Baculovirus inhibit…
Supplemental Table 2 from SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i> Open
Birinapant IC50s
Data from SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i> Open
Comparison of tumors from The Cancer Genome Atlas (TCGA) reveals that head and neck squamous cell carcinomas (HNSCC) harbor the most frequent genomic amplifications of Fas-associated death domain (FADD), with or without Baculovirus inhibit…
Suplementary Methods from SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i> Open
Supplementary Methods
Supplemental Table 2 from SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i> Open
Birinapant IC50s
Supplemental Figures from SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i> Open
Supplemental Figures and Legends: Supplemental Figure 1. Effect of Birc2, Birc3, and FADD knockdown in UM-SCC-1 and UM-SCC-11A; Supplemental Figure 2. Summary of DNA cell cycle cytofluorometry in UM-SCC lines; Supplemental Figure 3. Effect…
View article: Posterior Glottic Injury Following Prolonged Intubation in COVID‐19 Patients
Posterior Glottic Injury Following Prolonged Intubation in COVID‐19 Patients Open
Objective The objective of this study was to characterize the risk factors for posterior glottic injury (PGI) in patients with coronavirus disease 2019 (COVID‐19) who underwent prolonged intubation. Study Design This was a case‐control stu…
View article: Readability of Online Materials Related to Vocal Cord Leukoplakia
Readability of Online Materials Related to Vocal Cord Leukoplakia Open
Objectives To assess readability and understandability of online materials for vocal cord leukoplakia. Study Design Review of online materials. Setting Academic medical center. Methods A Google search of “vocal cord leukoplakia” was perfor…
View article: SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i>
SMAC Mimetic Birinapant plus Radiation Eradicates Human Head and Neck Cancers with Genomic Amplifications of Cell Death Genes <i>FADD</i> and <i>BIRC2</i> Open
Comparison of tumors from The Cancer Genome Atlas (TCGA) reveals that head and neck squamous cell carcinomas (HNSCC) harbor the most frequent genomic amplifications of Fas-associated death domain (FADD), with or without Baculovirus inhibit…