Neurobionplus
Home About Journal AHEAD OF PRINT Current Issue Back Issues Instructions Submission Search Subscribe Blog    
Login 

Users Online: 1328 
Print this page  Email this page Small font sizeDefault font sizeIncrease font size 
This article has been cited by
1Mechanical and biological evaluation of a hydroxyapatite-reinforced scaffold for bone regeneration
Pushpendra P. Patel,Christian Buckley,Brittany L. Taylor,Christine C. Sahyoun,Samarth D. Patel,Ashley J. Mont,Linh Mai,Swati Patel,Joseph W. Freeman
Journal of Biomedical Materials Research Part A.2019;107(4)732
[DOI]
2Stacked PZT Discs Generate Necessary Power for Bone Healing through Electrical Stimulation in a Composite Spinal Fusion Implant
Eileen Cadel,Ember Krech,Paul Arnold,Elizabeth Friis
Bioengineering.2018;5(4)90
[DOI]
3Progress of Regenerative Therapy in Orthopedics
Elizabeth Pearlin,Sunita Nayak,Geetha Manivasagam,Dwaipayan Sen
Current Osteoporosis Reports.2018;16(2)169
[DOI]
4Bone bioelectricity: What have we learned in the past 160 years?
Brad M. Isaacson,Roy D. Bloebaum
Journal of Biomedical Materials Research Part A.2010;95A(4)1270
[DOI]
5Highly porous scaffolds of PEDOT:PSS for bone tissue engineering
Anne Géraldine Guex,Jennifer L. Puetzer,Astrid Armgarth,Elena Littmann,Eleni Stavrinidou,Emmanuel P. Giannelis,George G. Malliaras,Molly M. Stevens
Acta Biomaterialia.2017;62(4)91
[DOI]
6Bone regeneration in critical bone defects using three-dimensionally printed ß-tricalcium phosphate/hydroxyapatite scaffolds is enhanced by coating scaffolds with either dipyridamole or BMP-2
Stephanie Ishack,Aranzazu Mediero,Tuere Wilder,John L. Ricci,Bruce N. Cronstein
Journal of Biomedical Materials Research Part B: Applied Biomaterials.2017;105(2)366
[DOI]
7Electrical stimulation in bone tissue engineering treatments
Liudmila Leppik,Karla Mychellyne Costa Oliveira,Mit Balvantray Bhavsar,John Howard Barker
European Journal of Trauma and Emergency Surgery.2020;105(2)366
[DOI]
8Effects of low level laser therapy on inflammatory and angiogenic gene expression during the process of bone healing: A microarray analysis
Carla Roberta Tim,Paulo Sérgio Bossini,Hueliton Wilian Kido,Iran Malavazi,Marcia Regina von Zeska Kress,Marcelo Falsarella Carazzolle,Nivaldo Antonio Parizotto,Ana Cláudia Rennó
Journal of Photochemistry and Photobiology B: Biology.2016;154(2)8
[DOI]
9Effects of low level laser therapy on inflammatory and angiogenic gene expression during the process of bone healing: A microarray analysis
George R. Baran,Mohammad F. Kiani,Solomon Praveen Samuel
Journal of Photochemistry and Photobiology B: Biology.2014;154(2)183
[DOI]
10Effects of low level laser therapy on inflammatory and angiogenic gene expression during the process of bone healing: A microarray analysis
Shari Sprague,Mary Ellen Goldberg
Journal of Photochemistry and Photobiology B: Biology.2017;154(2)241
[DOI]
11Effects of low level laser therapy on inflammatory and angiogenic gene expression during the process of bone healing: A microarray analysis
Xavier L Griffin,Nick Smith,Nick Parsons,Matthew L Costa,Xavier L Griffin
Journal of Photochemistry and Photobiology B: Biology.2012;154(2)241
[DOI]
12Development of Electrospun Composite Fibers in Multiscale Structure and Investigating the Performance on Proliferation and Osteogenic Differentiation of ADSCs
Liuyang Xuan,Ming Shi,Shuangshuang Ma,Feng Ye,Xuetao Shi,Ling Yan,Yan Li
Macromolecular Materials and Engineering.2018;303(7)1800130
[DOI]
13Pulsed Electromagnetic Fields and Tissue Engineering of the Joints
Kenjiro Iwasa,A. Hari Reddi
Tissue Engineering Part B: Reviews.2018;24(2)144
[DOI]
14The Components of Bone and What They Can Teach Us about Regeneration
Bach Le,Victor Nurcombe,Simon Cool,Clemens van Blitterswijk,Jan de Boer,Vanessa LaPointe
Materials.2017;11(1)14
[DOI]
15Interaction of low frequency external electric fields and pancreatic ß-cell: a mathematical modeling approach to identify the influence of excitation parameters
Sajjad Farashi,Pezhman Sasanpour,Hashem Rafii-Tabar
International Journal of Radiation Biology.2018;94(11)1038
[DOI]
16Characterizing the Composition of Bone Formed During Fracture Healing Using Scanning Electron Microscopy Techniques
Christina Perdikouri,Magnus Tägil,Hanna Isaksson
Calcified Tissue International.2015;96(1)11
[DOI]
17Extra-cardiac stimulators: what do cardiologists need to know?
Alexandre Guinand,Stéphane Noble,Angela Frei,Julien Renard,Martin R. Tramer,Haran Burri
Europace.2016;18(9)1299
[DOI]
18Stimulation of Bone Formation and Fracture Healing with Pulsed Electromagnetic Fields: Biologic Responses and Clinical Implications
B. Chalidis,N. Sachinis,A. Assiotis,G. Maccauro,Filippo Graziani
International Journal of Immunopathology and Pharmacology.2011;24(1_suppl2)17
[DOI]
19Angiopoietin-1 peptide QHREDGS promotes osteoblast differentiation, bone matrix deposition and mineralization on biomedical materials
Nicole T. Feric,Calvin C. H. Cheng,M. Cynthia Goh,Vyacheslav Dudnyk,Val Di Tizio,Milica Radisic
Biomater. Sci..2014;2(10)1384
[DOI]
20DC-STAMP: A Key Regulator in Osteoclast Differentiation
Ya-Hui Chiu,Christopher T. Ritchlin
Journal of Cellular Physiology.2016;231(11)2402
[DOI]
21Pulsed electromagnetic fields inhibit human osteoclast formation and gene expression via osteoblasts
Zhiming He,Nagarajan Selvamurugan,Johanna Warshaw,Nicola C. Partridge
Bone.2018;106(11)194
[DOI]
22Pulsed electromagnetic fields inhibit human osteoclast formation and gene expression via osteoblasts
Xavier L Griffin,Nick Smith,Nick Parsons,Matthew L Costa,Xavier L Griffin
Bone.2010;106(11)194
[DOI]
23Characterisation of CorGlaes® Pure 107 fibres for biomedical applications
Ross Colquhoun,Nikolaj Gadegaard,David M. Healy,K. Elizabeth Tanner
Journal of Materials Science: Materials in Medicine.2016;27(10)194
[DOI]
24Electrical Stimulation and Bone Healing: A Review of Current Technology and Clinical Applications
Jawad M. Khalifeh,Zohny Zohny,Matthew MacEwan,Manu Stephen,William Johnston,Paul Gamble,Youchun Zeng,Ying Yan,Wilson Z. Ray
IEEE Reviews in Biomedical Engineering.2018;11(10)217
[DOI]
25Fracture healing in a collagen-induced arthritis rat model: Radiology and histology evidence
Yiping Hu,Tiantian Zhang,Huan Huang,Wenxiang Cheng,Yuxiao Lai,Xueling Bai,Jianhai Chen,Ye Yue,Zhengtan Zheng,Chengshan Guo,Ling Qin,Peng Zhang
Journal of Orthopaedic Research®.2018;36(11)2876
[DOI]
26Fracture healing in a collagen-induced arthritis rat model: Radiology and histology evidence
Daniel Thomas Ginat,Ryan Murtagh,Per-Lennart A. Westesson
Journal of Orthopaedic Research®.2012;36(11)483
[DOI]
27Piezoelectric materials as stimulatory biomedical materials and scaffolds for bone repair
Biranche Tandon,Jonny J. Blaker,Sarah H. Cartmell
Acta Biomaterialia.2018;73(11)1
[DOI]
28Noninvasive Control of Bacterial Biofilms by Wireless Electrostimulation
Hao Wang,Alex J. F. Tampio,Yikang Xu,Brian D. Nicholas,Dacheng Ren
ACS Biomaterials Science & Engineering.2020;6(1)727
[DOI]
29Ultrasound and shockwave therapy for acute fractures in adults
Xavier L Griffin,Nick Parsons,Matthew L Costa,David Metcalfe
Cochrane Database of Systematic Reviews.2014;6(1)727
[DOI]
30Bone Growth Stimulation
Jack M. Haglin,Sukrit Jain,Adam E.M. Eltorai,Alan H. Daniels
JBJS Reviews.2017;5(8)e8
[DOI]
31In Vitro Biocompatibility of Si Alloyed Multi-Principal Element Carbide Coatings
Alina Vladescu,Irina Titorencu,Yuri Dekhtyar,Victor Jinga,Vasile Pruna,Mihai Balaceanu,Mihaela Dinu,Iulian Pana,Viktorija Vendina,Mariana Braic,Amitava Mukherjee
PLOS ONE.2016;11(8)e0161151
[DOI]
32Casein kinase 2 regulates in vivo bone formation through its interaction with bone morphogenetic protein receptor type Ia
Beth Bragdon,Shayamala Thinakaran,Oleksandra Moseychuk,Lauren Gurski,Jeremy Bonor,Christopher Price,Liyun Wang,Wesley G. Beamer,Anja Nohe
Bone.2011;49(5)944
[DOI]
33Sox11-modified mesenchymal stem cells (MSCs) accelerate bone fracture healing: Sox11 regulates differentiation and migration of MSCs
Liangliang Xu,Shuo Huang,Yonghui Hou,Yang Liu,Ming Ni,Fanbiao Meng,Kuixing Wang,Yunfeng Rui,Xiaohua Jiang,Gang Li
The FASEB Journal.2015;29(4)1143
[DOI]
34Sox11-modified mesenchymal stem cells (MSCs) accelerate bone fracture healing: Sox11 regulates differentiation and migration of MSCs
Przemyslaw Syrek,Mikolaj Skowron,Antoni Ciesla
The FASEB Journal.2016;29(4)435
[DOI]
35Sox11-modified mesenchymal stem cells (MSCs) accelerate bone fracture healing: Sox11 regulates differentiation and migration of MSCs
Daniel Thomas Ginat,Ryan Murtagh,Per-Lennart A. Westesson,Marc Daniel Moisi,Rod J. Oskouian
The FASEB Journal.2017;29(4)523
[DOI]
36Conductive PANI patterns on electrospun PCL/gelatin scaffolds modified with bioactive particles for bone tissue engineering
Izabella Rajzer,Monika Rom,Elzbieta Menaszek,Pawel Pasierb
Materials Letters.2015;138(4)60
[DOI]
37Conductive PANI patterns on electrospun PCL/gelatin scaffolds modified with bioactive particles for bone tissue engineering
Khosrow Siamak Houschyar,Dominik Duscher,Zeshaan N. Maan,Malcolm P. Chelliah,Mimi R. Borrelli,Kamran Harati,Christoph Wallner,Susanne Rein,Christian Tapking,Georg Reumuth,Gerrit Grieb,Frank Siemers,Marcus Lehnhardt,Björn Behr
Materials Letters.2019;138(4)231
[DOI]
38Nandrolone decanoate appears to increase bone callus formation in young adult rats after a complete femoral fracture
Ana Paula Franttini Garcia Moreno Guimarães,Mariana Maloste Butezloff,Ariane Zamarioli,João Paulo Mardegan Issa,José Batista Volpon
Acta Cirurgica Brasileira.2017;32(11)924
[DOI]
39Nandrolone decanoate appears to increase bone callus formation in young adult rats after a complete femoral fracture
Christian Kleber,Norbert P. Haas
Acta Cirurgica Brasileira.2013;32(11)73
[DOI]
40Localized low-dose rhBMP-2 is effective at promoting bone regeneration in mandibular segmental defects
Patricia Carlisle,Teja Guda,David T. Silliman,Alexander J. Burdette,Anne D. Talley,Rene Alvarez,David Tucker,Robert G. Hale,Scott A. Guelcher,Pamela R. BrownBaer
Journal of Biomedical Materials Research Part B: Applied Biomaterials.2019;107(5)1491
[DOI]
41Neuropeptide Y accelerates post-fracture bone healing by promoting osteogenesis of mesenchymal stem cells
Xiao-chuan Gu,Xiao-Bin Zhang,Bing Hu,Ying Zi,Ming Li
Neuropeptides.2016;60(5)61
[DOI]
42Neuropeptide Y accelerates post-fracture bone healing by promoting osteogenesis of mesenchymal stem cells
Christian Kleber,Norbert P. Haas
Neuropeptides.2014;60(5)211
[DOI]
43Wnt Pathway in Bone Repair and Regeneration – What Do We Know So Far
Khosrow S. Houschyar,Christian Tapking,Mimi R. Borrelli,Daniel Popp,Dominik Duscher,Zeshaan N. Maan,Malcolm P. Chelliah,Jingtao Li,Kamran Harati,Christoph Wallner,Susanne Rein,Dominik Pförringer,Georg Reumuth,Gerrit Grieb,Sylvain Mouraret,Mehran Dadras,Johannes M. Wagner,Jungul Y. Cha,Frank Siemers,Marcus Lehnhardt,Björn Behr
Frontiers in Cell and Developmental Biology.2019;6(5)211
[DOI]
44Biomedical applications of electrical stimulation
Siwei Zhao,Abijeet Singh Mehta,Min Zhao
Cellular and Molecular Life Sciences.2020;6(5)211
[DOI]
45Biomedical applications of electrical stimulation
Richard D. Ginsburg,Lenore Herget
Cellular and Molecular Life Sciences.2015;6(5)141
[DOI]
46Pulsed electromagnetic fields for the treatment of tibial delayed unions and nonunions. A prospective clinical study and review of the literature
Aggelos Assiotis,Nick P Sachinis,Byron E Chalidis
Journal of Orthopaedic Surgery and Research.2012;7(1)24
[DOI]
47Physical Stimulations for Bone and Cartilage Regeneration
Xiaobin Huang,Ritopa Das,Avi Patel,Thanh Duc Nguyen
Regenerative Engineering and Translational Medicine.2018;4(4)216
[DOI]
48Application of Rotating Magnetic Fields Increase the Activity of Antimicrobials Against Wound Biofilm Pathogens
A. F. Junka,R. Rakoczy,P. Szymczyk,M. Bartoszewicz,P. P. Sedghizadeh,K. Fijalkowski
Scientific Reports.2018;8(1)216
[DOI]
49Implantable Direct Current Neural Modulation: Theory, Feasibility, and Efficacy
Felix P. Aplin,Gene Y. Fridman
Frontiers in Neuroscience.2019;13(1)216
[DOI]
50Nanomaterials promise better bone repair
Qifei Wang,Jianhua Yan,Junlin Yang,Bingyun Li
Materials Today.2016;19(8)451
[DOI]
51Using an Engineered Galvanic Redox System to Generate Positive Surface Potentials that Promote Osteogenic Functions
Yulong Zhang,Zhong Zheng,Mengliu Yu,Chinyun Hsu,Emily A. Berthiaume,Hsinchuan Pan,Xinli Zhang,Adam Z. Stieg,Benjamin Wu,Huiming Wang,Kang Ting,Chia Soo
ACS Applied Materials & Interfaces.2018;10(18)15449
[DOI]
52Pulsed Electromagnetic Field Regulates MicroRNA 21 Expression to Activate TGF-ß Signaling in Human Bone Marrow Stromal Cells to Enhance Osteoblast Differentiation
Nagarajan Selvamurugan,Zhiming He,Daniel Rifkin,Branka Dabovic,Nicola C. Partridge
Stem Cells International.2017;2017(18)1
[DOI]
53Mechanotransduction in osteogenesis
Sarah Stewart,Alastair Darwood,Spyros Masouros,Claire Higgins,Arul Ramasamy
Bone & Joint Research.2020;9(1)1
[DOI]
  Advertise 
  Addresses 
  Most Popular Articles 
  My Preferences 

Submit articles
Most popular articles

Alerts
Join us