文献库，生知库 | 链接生命科学的每一步

The Origins of Engineered Biomaterials: NSF-Funded, University of Washington Engineered Biomaterials (UWEB)

工程生物材料的起源：由美国国家科学基金会资助的华盛顿大学工程生物材料（UWEB）

期刊:Bioengineering-Basel

影响因子:3.8

doi:10.3390/bioengineering11111117

Ratner, Buddy D

发表日期：2024

文献求助收藏

Porous Precision-Templated 40âÎ¼m Pore Scaffolds Promote Healing through Synergy in Macrophage Receptor with Collagenous Structure and Toll-Like Receptor Signaling.

多孔精密模板 40μm 孔支架通过巨噬细胞受体与胶原结构和 Toll 样受体信号传导的协同作用促进愈合

期刊:Tissue Engineering Part A

影响因子:

doi:10.1089/ten.TEA.2023.0144

Chan Nathan R, Hwang Billanna, Mulligan Michael S, Ratner Buddy D, Bryers James D

Vascular Grafts: Technology Success/Technology Failure

血管移植：技术成功/技术失败

期刊:BME Frontiers

影响因子:7.7

doi:10.34133/bmef.0003

Ratner, Buddy

发表日期：2023

文献求助收藏

Novel HALO® image analysis to determine cell phenotype in porous precision-templated scaffolds

新型HALO®图像分析技术用于确定多孔精密模板支架中的细胞表型

期刊:

影响因子:

doi:10.1002/jbm.a.37547

Chan, Nathan R; Hwang, Billanna; Waworuntu, Rachel L; Tran, An J; Ratner, Buddy D; Bryers, James D

细胞生物学

发表日期：2023

文献求助收藏

XPS and ToF-SIMS Characterization of New Biodegradable Poly(Peptide-Urethane-Urea) Block Copolymers

XPS和ToF-SIMS表征新型可生物降解聚（肽-氨酯-脲）嵌段共聚物

期刊:Advanced Healthcare Materials

影响因子:9.6

doi:10.1002/adhm.202100894

Zorn, Gilad; Simonovsky, Felix I; Ratner, Buddy D; Castner, David G

多发性硬化症

发表日期：2022

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Monocytes contribute to a pro-healing response in 40 μm diameter uniform-pore, precision-templated scaffolds

单核细胞在直径为 40 μm 的均匀孔径、精确模板支架中促进愈合反应

期刊:Journal of Tissue Engineering and Regenerative Medicine

影响因子:2.6

doi:10.1002/term.3280

Chan, Nathan R; Hwang, Billanna; Ratner, Buddy D; Bryers, James D

Biocompatibility Evolves: Phenomenology to Toxicology to Regeneration

生物相容性的发展：从现象学到毒理学再到再生

期刊:Advanced Healthcare Materials

影响因子:9.6

doi:10.1002/adhm.202002153

Crawford, Lars; Wyatt, Meghan; Bryers, James; Ratner, Buddy

发表日期：2021

文献求助收藏

Uniform 40-µm-pore diameter precision templated scaffolds promote a pro-healing host response by extracellular vesicle immune communication

孔径均匀的40微米精密模板支架通过细胞外囊泡免疫通讯促进宿主产生促愈合反应。

期刊:Journal of Tissue Engineering and Regenerative Medicine

影响因子:2.6

doi:10.1002/term.3160

Hady, Thomas F; Hwang, Billanna; Pusic, A D; Waworuntu, Racheal L; Mulligan, Michael; Ratner, Buddy; Bryers, James D

Gene therapy for intracranial aneurysms: systemic review

颅内动脉瘤基因治疗：系统性综述

An Innovation Ecosystem: The Center for Dialysis Innovation (CDI)

创新生态系统：透析创新中心 (CDI)

The Origins of Engineered Biomaterials: NSF-Funded, University of Washington Engineered Biomaterials (UWEB)

工程生物材料的起源：由美国国家科学基金会资助的华盛顿大学工程生物材料（UWEB）

Porous Precision-Templated 40âÎ¼m Pore Scaffolds Promote Healing through Synergy in Macrophage Receptor with Collagenous Structure and Toll-Like Receptor Signaling.

多孔精密模板 40μm 孔支架通过巨噬细胞受体与胶原结构和 Toll 样受体信号传导的协同作用促进愈合

Vascular Grafts: Technology Success/Technology Failure

血管移植：技术成功/技术失败

Novel HALO® image analysis to determine cell phenotype in porous precision-templated scaffolds

新型HALO®图像分析技术用于确定多孔精密模板支架中的细胞表型

XPS and ToF-SIMS Characterization of New Biodegradable Poly(Peptide-Urethane-Urea) Block Copolymers

XPS和ToF-SIMS表征新型可生物降解聚（肽-氨酯-脲）嵌段共聚物

Monocytes contribute to a pro-healing response in 40 μm diameter uniform-pore, precision-templated scaffolds

单核细胞在直径为 40 μm 的均匀孔径、精确模板支架中促进愈合反应

Biocompatibility Evolves: Phenomenology to Toxicology to Regeneration

生物相容性的发展：从现象学到毒理学再到再生

Uniform 40-µm-pore diameter precision templated scaffolds promote a pro-healing host response by extracellular vesicle immune communication

孔径均匀的40微米精密模板支架通过细胞外囊泡免疫通讯促进宿主产生促愈合反应。

Gene therapy for intracranial aneurysms: systemic review

颅内动脉瘤基因治疗：系统性综述

An Innovation Ecosystem: The Center for Dialysis Innovation (CDI)

创新生态系统：透析创新中心 (CDI)

The Origins of Engineered Biomaterials: NSF-Funded, University of Washington Engineered Biomaterials (UWEB)

工程生物材料的起源：由美国国家科学基金会资助的华盛顿大学工程生物材料（UWEB）

Porous Precision-Templated 40âÎ¼m Pore Scaffolds Promote Healing through Synergy in Macrophage Receptor with Collagenous Structure and Toll-Like Receptor Signaling.

多孔精密模板 40μm 孔支架通过巨噬细胞受体与胶原结构和 Toll 样受体信号传导的协同作用促进愈合

Vascular Grafts: Technology Success/Technology Failure

血管移植：技术成功/技术失败

Novel HALO® image analysis to determine cell phenotype in porous precision-templated scaffolds

新型HALO®图像分析技术用于确定多孔精密模板支架中的细胞表型

XPS and ToF-SIMS Characterization of New Biodegradable Poly(Peptide-Urethane-Urea) Block Copolymers

XPS和ToF-SIMS表征新型可生物降解聚（肽-氨酯-脲）嵌段共聚物

Monocytes contribute to a pro-healing response in 40 μm diameter uniform-pore, precision-templated scaffolds

单核细胞在直径为 40 μm 的均匀孔径、精确模板支架中促进愈合反应

Biocompatibility Evolves: Phenomenology to Toxicology to Regeneration

生物相容性的发展：从现象学到毒理学再到再生

Uniform 40-µm-pore diameter precision templated scaffolds promote a pro-healing host response by extracellular vesicle immune communication

孔径均匀的40微米精密模板支架通过细胞外囊泡免疫通讯促进宿主产生促愈合反应。

Porous Precision-Templated 40âÎ¼m Pore Scaffolds Promote Healing through Synergy in Macrophage Receptor with Collagenous Structure and Toll-Like Receptor Signaling.