Structurally optimized honeycomb scaffolds with outstanding ability for vertical bone augmentation
CONCLUSION: The HC scaffolds surpassed the various combined scaffolds and growth factors or stem cells in the ability for vertical bone augmentation. Thus, the HC structure is inherently suitable for vertical bone augmentation. Notably, the HC scaffolds with 300-μm-thick struts enhanced both new bone formation and angiogenesis. This study revealed a structurally suitable design for achieving an outstanding outcome in vertical bone augmentation.PMID:36328740 | PMC:PMC9637481 | DOI:10.1016/j.jare.2021.12.010 (Source: Adv Dent Res)
Source: Adv Dent Res - November 3, 2022 Category: Dentistry Authors: Koichiro Hayashi Masaya Shimabukuro Ryo Kishida Akira Tsuchiya Kunio Ishikawa Source Type: research
Structurally optimized honeycomb scaffolds with outstanding ability for vertical bone augmentation
CONCLUSION: The HC scaffolds surpassed the various combined scaffolds and growth factors or stem cells in the ability for vertical bone augmentation. Thus, the HC structure is inherently suitable for vertical bone augmentation. Notably, the HC scaffolds with 300-μm-thick struts enhanced both new bone formation and angiogenesis. This study revealed a structurally suitable design for achieving an outstanding outcome in vertical bone augmentation.PMID:36328740 | PMC:PMC9637481 | DOI:10.1016/j.jare.2021.12.010 (Source: Adv Dent Res)
Source: Adv Dent Res - November 3, 2022 Category: Dentistry Authors: Koichiro Hayashi Masaya Shimabukuro Ryo Kishida Akira Tsuchiya Kunio Ishikawa Source Type: research
Structurally optimized honeycomb scaffolds with outstanding ability for vertical bone augmentation
CONCLUSION: The HC scaffolds surpassed the various combined scaffolds and growth factors or stem cells in the ability for vertical bone augmentation. Thus, the HC structure is inherently suitable for vertical bone augmentation. Notably, the HC scaffolds with 300-μm-thick struts enhanced both new bone formation and angiogenesis. This study revealed a structurally suitable design for achieving an outstanding outcome in vertical bone augmentation.PMID:36328740 | PMC:PMC9637481 | DOI:10.1016/j.jare.2021.12.010 (Source: Adv Dent Res)
Source: Adv Dent Res - November 3, 2022 Category: Dentistry Authors: Koichiro Hayashi Masaya Shimabukuro Ryo Kishida Akira Tsuchiya Kunio Ishikawa Source Type: research
Structurally optimized honeycomb scaffolds with outstanding ability for vertical bone augmentation
CONCLUSION: The HC scaffolds surpassed the various combined scaffolds and growth factors or stem cells in the ability for vertical bone augmentation. Thus, the HC structure is inherently suitable for vertical bone augmentation. Notably, the HC scaffolds with 300-μm-thick struts enhanced both new bone formation and angiogenesis. This study revealed a structurally suitable design for achieving an outstanding outcome in vertical bone augmentation.PMID:36328740 | PMC:PMC9637481 | DOI:10.1016/j.jare.2021.12.010 (Source: Adv Dent Res)
Source: Adv Dent Res - November 3, 2022 Category: Dentistry Authors: Koichiro Hayashi Masaya Shimabukuro Ryo Kishida Akira Tsuchiya Kunio Ishikawa Source Type: research
Structurally optimized honeycomb scaffolds with outstanding ability for vertical bone augmentation
CONCLUSION: The HC scaffolds surpassed the various combined scaffolds and growth factors or stem cells in the ability for vertical bone augmentation. Thus, the HC structure is inherently suitable for vertical bone augmentation. Notably, the HC scaffolds with 300-μm-thick struts enhanced both new bone formation and angiogenesis. This study revealed a structurally suitable design for achieving an outstanding outcome in vertical bone augmentation.PMID:36328740 | PMC:PMC9637481 | DOI:10.1016/j.jare.2021.12.010 (Source: Adv Dent Res)
Source: Adv Dent Res - November 3, 2022 Category: Dentistry Authors: Koichiro Hayashi Masaya Shimabukuro Ryo Kishida Akira Tsuchiya Kunio Ishikawa Source Type: research
Structurally optimized honeycomb scaffolds with outstanding ability for vertical bone augmentation
CONCLUSION: The HC scaffolds surpassed the various combined scaffolds and growth factors or stem cells in the ability for vertical bone augmentation. Thus, the HC structure is inherently suitable for vertical bone augmentation. Notably, the HC scaffolds with 300-μm-thick struts enhanced both new bone formation and angiogenesis. This study revealed a structurally suitable design for achieving an outstanding outcome in vertical bone augmentation.PMID:36328740 | PMC:PMC9637481 | DOI:10.1016/j.jare.2021.12.010 (Source: Adv Dent Res)
Source: Adv Dent Res - November 3, 2022 Category: Dentistry Authors: Koichiro Hayashi Masaya Shimabukuro Ryo Kishida Akira Tsuchiya Kunio Ishikawa Source Type: research
Structurally optimized honeycomb scaffolds with outstanding ability for vertical bone augmentation
CONCLUSION: The HC scaffolds surpassed the various combined scaffolds and growth factors or stem cells in the ability for vertical bone augmentation. Thus, the HC structure is inherently suitable for vertical bone augmentation. Notably, the HC scaffolds with 300-μm-thick struts enhanced both new bone formation and angiogenesis. This study revealed a structurally suitable design for achieving an outstanding outcome in vertical bone augmentation.PMID:36328740 | PMC:PMC9637481 | DOI:10.1016/j.jare.2021.12.010 (Source: Adv Dent Res)
Source: Adv Dent Res - November 3, 2022 Category: Dentistry Authors: Koichiro Hayashi Masaya Shimabukuro Ryo Kishida Akira Tsuchiya Kunio Ishikawa Source Type: research
Structurally optimized honeycomb scaffolds with outstanding ability for vertical bone augmentation
CONCLUSION: The HC scaffolds surpassed the various combined scaffolds and growth factors or stem cells in the ability for vertical bone augmentation. Thus, the HC structure is inherently suitable for vertical bone augmentation. Notably, the HC scaffolds with 300-μm-thick struts enhanced both new bone formation and angiogenesis. This study revealed a structurally suitable design for achieving an outstanding outcome in vertical bone augmentation.PMID:36328740 | PMC:PMC9637481 | DOI:10.1016/j.jare.2021.12.010 (Source: Adv Dent Res)
Source: Adv Dent Res - November 3, 2022 Category: Dentistry Authors: Koichiro Hayashi Masaya Shimabukuro Ryo Kishida Akira Tsuchiya Kunio Ishikawa Source Type: research
Structurally optimized honeycomb scaffolds with outstanding ability for vertical bone augmentation
CONCLUSION: The HC scaffolds surpassed the various combined scaffolds and growth factors or stem cells in the ability for vertical bone augmentation. Thus, the HC structure is inherently suitable for vertical bone augmentation. Notably, the HC scaffolds with 300-μm-thick struts enhanced both new bone formation and angiogenesis. This study revealed a structurally suitable design for achieving an outstanding outcome in vertical bone augmentation.PMID:36328740 | PMC:PMC9637481 | DOI:10.1016/j.jare.2021.12.010 (Source: Adv Dent Res)
Source: Adv Dent Res - November 3, 2022 Category: Dentistry Authors: Koichiro Hayashi Masaya Shimabukuro Ryo Kishida Akira Tsuchiya Kunio Ishikawa Source Type: research
Structurally optimized honeycomb scaffolds with outstanding ability for vertical bone augmentation
CONCLUSION: The HC scaffolds surpassed the various combined scaffolds and growth factors or stem cells in the ability for vertical bone augmentation. Thus, the HC structure is inherently suitable for vertical bone augmentation. Notably, the HC scaffolds with 300-μm-thick struts enhanced both new bone formation and angiogenesis. This study revealed a structurally suitable design for achieving an outstanding outcome in vertical bone augmentation.PMID:36328740 | PMC:PMC9637481 | DOI:10.1016/j.jare.2021.12.010 (Source: Adv Dent Res)
Source: Adv Dent Res - November 3, 2022 Category: Dentistry Authors: Koichiro Hayashi Masaya Shimabukuro Ryo Kishida Akira Tsuchiya Kunio Ishikawa Source Type: research
Structurally optimized honeycomb scaffolds with outstanding ability for vertical bone augmentation
CONCLUSION: The HC scaffolds surpassed the various combined scaffolds and growth factors or stem cells in the ability for vertical bone augmentation. Thus, the HC structure is inherently suitable for vertical bone augmentation. Notably, the HC scaffolds with 300-μm-thick struts enhanced both new bone formation and angiogenesis. This study revealed a structurally suitable design for achieving an outstanding outcome in vertical bone augmentation.PMID:36328740 | PMC:PMC9637481 | DOI:10.1016/j.jare.2021.12.010 (Source: Adv Dent Res)
Source: Adv Dent Res - November 3, 2022 Category: Dentistry Authors: Koichiro Hayashi Masaya Shimabukuro Ryo Kishida Akira Tsuchiya Kunio Ishikawa Source Type: research
Structurally optimized honeycomb scaffolds with outstanding ability for vertical bone augmentation
CONCLUSION: The HC scaffolds surpassed the various combined scaffolds and growth factors or stem cells in the ability for vertical bone augmentation. Thus, the HC structure is inherently suitable for vertical bone augmentation. Notably, the HC scaffolds with 300-μm-thick struts enhanced both new bone formation and angiogenesis. This study revealed a structurally suitable design for achieving an outstanding outcome in vertical bone augmentation.PMID:36328740 | PMC:PMC9637481 | DOI:10.1016/j.jare.2021.12.010 (Source: Adv Dent Res)
Source: Adv Dent Res - November 3, 2022 Category: Dentistry Authors: Koichiro Hayashi Masaya Shimabukuro Ryo Kishida Akira Tsuchiya Kunio Ishikawa Source Type: research
Structurally optimized honeycomb scaffolds with outstanding ability for vertical bone augmentation
CONCLUSION: The HC scaffolds surpassed the various combined scaffolds and growth factors or stem cells in the ability for vertical bone augmentation. Thus, the HC structure is inherently suitable for vertical bone augmentation. Notably, the HC scaffolds with 300-μm-thick struts enhanced both new bone formation and angiogenesis. This study revealed a structurally suitable design for achieving an outstanding outcome in vertical bone augmentation.PMID:36328740 | PMC:PMC9637481 | DOI:10.1016/j.jare.2021.12.010 (Source: Adv Dent Res)
Source: Adv Dent Res - November 3, 2022 Category: Dentistry Authors: Koichiro Hayashi Masaya Shimabukuro Ryo Kishida Akira Tsuchiya Kunio Ishikawa Source Type: research
Structurally optimized honeycomb scaffolds with outstanding ability for vertical bone augmentation
CONCLUSION: The HC scaffolds surpassed the various combined scaffolds and growth factors or stem cells in the ability for vertical bone augmentation. Thus, the HC structure is inherently suitable for vertical bone augmentation. Notably, the HC scaffolds with 300-μm-thick struts enhanced both new bone formation and angiogenesis. This study revealed a structurally suitable design for achieving an outstanding outcome in vertical bone augmentation.PMID:36328740 | PMC:PMC9637481 | DOI:10.1016/j.jare.2021.12.010 (Source: Adv Dent Res)
Source: Adv Dent Res - November 3, 2022 Category: Dentistry Authors: Koichiro Hayashi Masaya Shimabukuro Ryo Kishida Akira Tsuchiya Kunio Ishikawa Source Type: research
Structurally optimized honeycomb scaffolds with outstanding ability for vertical bone augmentation
CONCLUSION: The HC scaffolds surpassed the various combined scaffolds and growth factors or stem cells in the ability for vertical bone augmentation. Thus, the HC structure is inherently suitable for vertical bone augmentation. Notably, the HC scaffolds with 300-μm-thick struts enhanced both new bone formation and angiogenesis. This study revealed a structurally suitable design for achieving an outstanding outcome in vertical bone augmentation.PMID:36328740 | PMC:PMC9637481 | DOI:10.1016/j.jare.2021.12.010 (Source: Adv Dent Res)
Source: Adv Dent Res - November 3, 2022 Category: Dentistry Authors: Koichiro Hayashi Masaya Shimabukuro Ryo Kishida Akira Tsuchiya Kunio Ishikawa Source Type: research
