Atormac
brintellex
Neurology India
menu-bar5 Open access journal indexed with Index Medicus
  Users online: 188  
 Home | Login 
About Editorial board Articlesmenu-bullet NSI Publicationsmenu-bullet Search Instructions Online Submission Subscribe Videos Etcetera Contact
   Navigate here  
  »   Search
  »   Current Issue
  »   Submit Article 
  »   My Preferences 

Follow us on:

Twitter Icon Linkedin Icon Instagram Icon Facebook Icon

 


This article has been cited by
1Change of Lumbar Motion after Multi-Level Posterior Dynamic Stabilization with Bioflex System : 1 Year Follow Up
Hunho Park,Ho-Yeol Zhang,Bo Young Cho,Jeong Yoon Park
Journal of Korean Neurosurgical Society.2009;46(4)285
[DOI]
2Does the Addition of a Dynamic Pedicle Screw to a Fusion Segment Prevent Adjacent Segment Pathology in the Lumbar Spine?
Hayati Aygun,Osman Yaray,Muren Mutlu
Asian Spine Journal.2017;11(5)715
[DOI]
3The BioFlex System as a Dynamic Stabilization Device : Does It Preserve Lumbar Motion?
Ho Yeol Zhang,Jeong Yoon Park,Bo Young Cho
Journal of Korean Neurosurgical Society.2009;46(5)431
[DOI]
4The BioFlex System as a Dynamic Stabilization Device : Does It Preserve Lumbar Motion?
Joăo Luiz Pinheiro-Franco,Philippe Esposito
Journal of Korean Neurosurgical Society.2016;46(5)137
[DOI]
5Clinical Significance of Achieving a Flexion Limitation With a Tension Band System in Grade 1 Degenerative Spondylolisthesis
Sang-Ho Lee,Ho-Yeon Lee,Oon Ki Baek,Jun Seok Bae,Seung-Hwa Yoo,June-Ho Lee
Spine.2015;40(6)E349
[DOI]
6Clinical Significance of Achieving a Flexion Limitation With a Tension Band System in Grade 1 Degenerative Spondylolisthesis
Richard D. Guyer,Donna D. Ohnmeiss,Kevin R. Strauss
Spine.2010;40(6)221
[DOI]
7Dynamic Stabilisation in the Treatment of Degenerative Disc Disease with Modic Changes
Olcay Eser,Cengiz Gomleksiz,Mehdi Sasani,Tunc Oktenoglu,Ahmet Levent Aydin,Yaprak Ataker,Tuncer Suzer,Ali Fahir Ozer
Advances in Orthopedics.2013;2013(6)1
[DOI]
8Posterior Decompression and Fusion: Whole-Spine Functional and Clinical Outcomes
Anastasia Topalidou,George Tzagarakis,Konstantine Balalis,Alexandra Papaioannou,M. A. Pérez
PLOS ONE.2016;11(8)e0160213
[DOI]
9Role of Dynesys as Pedicle-Based Nonfusion Stabilization for Degenerative Disc Disorders
Neel Anand,Eli M. Baron
Advances in Orthopedics.2012;2012(8)1
[DOI]
10A Short History of Posterior Dynamic Stabilization
Cengiz Gomleksiz,Mehdi Sasani,Tunc Oktenoglu,Ali Fahir Ozer
Advances in Orthopedics.2012;2012(8)1
[DOI]
11Factors Affecting Clinical Outcomes in Treating Patients With Grade 1 Degenerative Spondylolisthesis Using Interspinous Soft Stabilization With a Tension Band System
Sang-Ho Lee,June-Ho Lee,Soon-Woo Hong,Chan Shik Shim,Seung-Eun Chung,Seung-Hwa Yoo,Ho-Yeon Lee
Spine.2012;37(7)563
[DOI]
12Dynamic Stabilization for Challenging Lumbar Degenerative Diseases of the Spine: A Review of the Literature
Tuncay Kaner,Ali Fahir Ozer
Advances in Orthopedics.2013;2013(7)1
[DOI]
13Effects of a new shape-memory alloy interspinous process device on pressure distribution of the intervertebral disc and zygapophyseal jointsin vitro
Qing-qiang Yao,Sheng-nai Zheng,Li Cheng,Peng Yuan,Dong-sheng Zhang,Xiang-wen Liao,Yan Xu,Li-ming Wang
Orthopaedic Surgery.2010;2(1)38
[DOI]
14Adjacent Segment Degeneration After Lumbar Dynamic Stabilization Using Pedicle Screws and a Nitinol Spring Rod System With 2-year Minimum Follow-up
Dong Hwa Heo,Yong Jun Cho,Sung Min Cho,Hyun Chul Choi,Suk Hyung Kang
Journal of Spinal Disorders & Techniques.2012;25(8)409
[DOI]
15Design of a Lumbar Interspinous Fixation Device for Minimally Invasive Surgery and Spine Motion Stabilization
Minhyeok Heo,Jihwan Yun,Sang-Hu Park,Yoon Suk Choi,Sang-Soo Lee,Seonghun Park
Journal of Medical and Biological Engineering.2020;40(1)1
[DOI]
16Clinical outcomes after posterior dynamic transpedicular stabilization with limited lumbar discectomy: Carragee classification system for lumbar disc herniations
Tuncay Kaner,Mehdi Sasani,Tunc Oktenoglu,Murat Cosar,Ali Fahir Ozer
SAS Journal.2010;4(3)92
[DOI]
17Clinical outcomes of degenerative lumbar spinal stenosis treated with lumbar decompression and the Cosmic “semi-rigid” posterior system
Tuncay Kaner,Mehdi Sasani,Tunc Oktenoglu,Ahmet Levent Aydin,Ali Fahir Ozer
SAS Journal.2010;4(4)99
[DOI]
18The Change of Sagittal Alignment of the Lumbar Spine after Dynesys Stabilization and Proposal of a Refinement
Won Man Park,Chi Heon Kim,Yoon Hyuk Kim,Chun Kee Chung,Tae-Ahn Jahng
Journal of Korean Neurosurgical Society.2015;58(1)43
[DOI]
19Comparison of Posterior Dynamic and Posterior Rigid Transpedicular Stabilization with Fusion to Treat Degenerative Spondylolisthesis
Tuncay Kaner,Sedat Dalbayrak,Tunc Oktenoglu,Mehdi Sasani,Ahmet Levent Aydin,Ali Fahir Ozer
Orthopedics.2010;58(1)43
[DOI]
20A new lumbar fixation device alternative to pedicle-based stabilization for lumbar spine: In vitro cadaver investigation
Cengiz Gomleksiz,Deniz Ufuk Erbulut,Halil Can,Manoj Kumar Kodigudla,Amey V. Kelkar,Eser Kasapoglu,Ali Fahir Ozer,Vijay K. Goel
The Journal of Spinal Cord Medicine.2020;43(1)98
[DOI]
21The relation between the instantaneous center of rotation and facet joint forces – A finite element analysis
Hendrik Schmidt,Frank Heuer,Lutz Claes,Hans-Joachim Wilke
Clinical Biomechanics.2008;23(3)270
[DOI]
22The relation between the instantaneous center of rotation and facet joint forces – A finite element analysis
Q. H. Zhang,E. C. Teo
Clinical Biomechanics.2008;19(3)119
[DOI]
23Effects of nonlinearity in the materials used for the semi-rigid pedicle screw systems on biomechanical behaviors of the lumbar spine after surgery
Hyun Kim,Do-Hyung Lim,Hyun-Ju Oh,Kwon-Yong Lee,Sung-Jae Lee
Biomedical Materials.2011;6(5)055005
[DOI]
24Pedicle-Screw-Based Dynamic Systems and Degenerative Lumbar Diseases: Biomechanical and Clinical Experiences of Dynamic Fusion with Isobar TTL
Cédric Barrey,Gilles Perrin,Sabina Champain
ISRN Orthopedics.2013;2013(5)1
[DOI]
25Biomechanical effects of semi-constrained integrated artificial discs on zygapophysial joints of implanted lumbar segments
SHENG-NAI ZHENG,QING-QIANG YAO,LI-MING WANG,WEN-HAO HU,BO WEI,YAN XU,DONG-SHENG ZHANG
Experimental and Therapeutic Medicine.2013;6(6)1423
[DOI]
26Which axial and bending stiffnesses of posterior implants are required to design a flexible lumbar stabilization system?
Hendrik Schmidt,Frank Heuer,Hans-Joachim Wilke
Journal of Biomechanics.2009;42(1)48
[DOI]
27Pedicle screw-based posterior dynamic stabilisation of the lumbar spine:in vitrocadaver investigation and a finite element study
T. Oktenoglu,D.U. Erbulut,A. Kiapour,A.F. Ozer,I. Lazoglu,T. Kaner,M. Sasani,V.K. Goel
Computer Methods in Biomechanics and Biomedical Engineering.2015;18(11)1252
[DOI]
28Pedicle screw-based posterior dynamic stabilisation of the lumbar spine:in vitrocadaver investigation and a finite element study
Juan M. Dipp,Ricardo Flores,German Rodríguez
Computer Methods in Biomechanics and Biomedical Engineering.2008;18(11)511
[DOI]
29Dynamische Stabilisierung der Wirbelsäule
F.J. Hofmann,B Harter
Wiener klinisches Magazin.2013;16(5)28
[DOI]
30The Comprehensive Biomechanics and Load-Sharing of Semirigid PEEK and Semirigid Posterior Dynamic Stabilization Systems
D. K. Sengupta,Brandon Bucklen,Paul C. McAfee,Jeff Nichols,Raghavendra Angara,Saif Khalil
Advances in Orthopedics.2013;2013(5)1
[DOI]
31Spinal Implant Development, Modeling, and Testing to Achieve Customizable and Nonlinear Stiffness
Eric Dodgen,Eric Stratton,Anton Bowden,Larry Howell
Journal of Medical Devices.2012;6(2)1
[DOI]
32COMPARATIVE STUDY ON THE TREATMENT OF DISC HERNIATIONS
María Luz Suárez-Huerta,Elena Iglesia-Diez,Alfredo Álvarez Castro,Jesús Betegón Nicolás,Sonia Sánchez Campos,Antonio Luis Mostaza Saavedra,Manuel Fernández-González
Coluna/Columna.2016;15(4)295
[DOI]
33A comparison of rigid, semi-rigid and flexible spinal stabilization devices: A finite element study
Jayanta Kumar Biswas,Sandipan Roy,Masud Rana,Subhasish Halder
Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine.2019;233(12)1292
[DOI]
34A comparison of rigid, semi-rigid and flexible spinal stabilization devices: A finite element study
Jochen Obernauer,Pujan Kavakebi,Sebastian Quirbach,Claudius Thomé
Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine.2014;41(12)131
[DOI]
35Minimum Two-Year Follow-Up of Cases with Recurrent Disc Herniation Treated with Microdiscectomy and Posterior Dynamic Transpedicular Stabilisation
Tuncay Kaner,Mehdi Sasani,Tunc Oktenoglu,Ahmet Levent Aydin,Ali Fahir Ozer
The Open Orthopaedics Journal.2010;4(1)120
[DOI]
36Posterior Dynamic Stabilization with Selective Wide Decompression for Multilevel Lumbar Stenosis - Preliminary Result -
Ki-Tack Kim,Sang-Hun Lee,Kyung-Soo Suk,Jung-Hee Lee,Eun-Min Seo,Yoon-Ho Kwack
Journal of Korean Society of Spine Surgery.2009;16(3)194
[DOI]
37Posterior Pedicle Fixation-based Dynamic Stabilization Devices for the Treatment of Degenerative Diseases of the Lumbar Spine
Christopher M. Bono,Murali Kadaba,Alexander R. Vaccaro
Journal of Spinal Disorders & Techniques.2009;22(5)376
[DOI]
38Percutaneous Endoscopic Intra-annular Subligamentous Herniotomy for Large Central Disc Herniation
Sang-Ho Lee,Kyung-Chul Choi,Oon Ki Baek,Ho Jin Kim,Seung-Hwa Yoo
Spine.2014;39(7)E473
[DOI]
39Evaluation of load transfer characteristics of a dynamic stabilization device on disc loading under compression
Qing Hang Zhang,Yuan Li Zhou,Dominique Petit,Ee Chon Teo
Medical Engineering & Physics.2009;31(5)533
[DOI]
40The Effects of a Semiconstrained Integrated Artificial Disc on Zygapophyseal Joint Pressure and Displacement
Qingqiang Yao,Jeffrey C. Wang,A. Nick Shamie,Elizabeth Lord,Yermie Cohen,Shengnai Zheng,Bo Wei,Yang Guo,Wenhao Hu,Junwei Yan,Dongsheng Zhang,Liming Wang
Spine.2014;39(25)E1510
[DOI]
Online since 20th March '04
Published by Wolters Kluwer - Medknow