Volume 17 (2023)
Volume 16 (2022)
Volume 15 (2021)
Volume 14 (2020)
Volume 13 (2019)
Volume 12 (2018)
Volume 11 (2017)
Volume 10 (2016)
Volume 9 (2015)
Volume 8 (2014)
Volume 7 (2013)
Volume 6 (2012)
Volume 5 (2011)
Volume 4 (2010)
Volume 3 (2009)
Volume 2 (2008)
Volume 1 (2007)
Volume -2 (2005)
Volume -1 (2004)
Biomechanics of Bone / Bone Biomechanics
Design and Biomechanical Study of the First Iranian Cervical Cage using Finite Element Analyses

Mohammad Nikkhoo; Ali Tahassori; Mohammad Haghpanahi

Volume 8, Issue 3 , September 2014, , Pages 203-212

  To develop the advanced technologies in medical device industry, design and manufacturing of cervical cage was performed in Iran for the first time. This research-based industrial project should be accomplished based on precise biomechanical studies and mechanical tests. Hence, this study presents the ...  Read More

Tissue Engineering
Domestic Construction of Soft Tissue Phantom for Validation Linear Quasi –Static Elastography

Zahra Saghaei Noosh Abadi; Atefe Aghajani; Mohammad Haghpanahi

Volume 7, Issue 1 , June 2013, , Pages 1-11

  We introduce how we may produce an experimental phantom for modeling the mechanical properties of soft tissue. Gelatin materials are used to construct the phantom. Our phantom comprises of two different types of tissue; tumor and background normal tissue. Weight ratio of the dry gelatin and deionized ...  Read More

Biomechanics of Bone / Bone Biomechanics
Axisymmetric Poroelastic FE Modeling of Intervertebral Disc for Investigation of Lumbar Spine Biomechanics

Mohammad Nikkhoo; Mohammad Haghpanahi; J. L. Wang; Mohammad Parnianpour

Volume 5, Issue 1 , June 2011, , Pages 21-32

  Prediction of the relationship between different types of mechanical loading and the failure of the intervertebral disc is so important to identify the risk factors which are difficult to study in vivo and   in vitro. On the basis of finite element methods some of these issues may be overcome ...  Read More

Tissue Engineering
Triphasic Finite Element Modeling of Intervertebral Discs for Biomechanical Studies in Tissue Engineering

Mohammad Haghpanahi; Mohammad Nikkhoo; Habibollah Peirovi

Volume 2, Issue 1 , June 2008, , Pages 47-56

  According to mechanobilogical studies as an infrastructure for tissue engineering researches, this paper presents a triphasic finite element modeling of intervertebral discs such a hydrated porous soft tissue. First, the governmental equations were derived on the basis of the laws of continuum mechanics. ...  Read More

Biomechanics of Bone / Bone Biomechanics
Material Property Sensitivity Analysis For Exact Finite Element Model Of The First Cervical Vertebra (Atlas)

Mohammad Haghpanahi; Mehdi Pourdanial

Volume 1, Issue 4 , June 2007, , Pages 289-299

  A 3D anatomically accurate finite element model of the human first cervical vertebra (atlas), including cortical and cancellous bones, was developed in ANSYS 9 based on CT-scan images. The main objective was to investigate the effect of cancellous bone on the value and distribution of maximum and average ...  Read More

Biomechanics of Bone / Bone Biomechanics
A 3d Finite Element Analysis Of The Second Cervical Vertebra (Axis) To Study The Odontoid Fracture

Mohammad Haghpanahi; Ali Gorginzadeh; Saba Sohrabi

Volume 1, Issue 2 , June 2007, , Pages 131-136

  Considering the life threatening consequences of the cervical spine injuries, the study of its biomechanical behavior has become important. The most common axis (second cervical vertebra) injury is called odontoid fracture, the majority of which is type II or dens fracture. In this study, an exact 3D ...  Read More

Biological Computer Modeling / Biological Computer Simulation
A Three Dimensional Stress Analysis Of Diabetic Insole And Evaluation Of Silicone Gel Material Using Finite Element Approach

Zohre Barani; Mohammad Haghpanahi; Hamid Reza Katouzian; Hasan Saeidi

Volume -1, Issue 2 , June 2005, , Pages 111-116

  Current research in foot biomechanics includes studies on prevention of recurrence of neuropathic foot ulcers. This prescribes accommodative insoles, which reduce plantar pressure levels particularly under the hallux. There is little quantitative information available regarding the effects of insole ...  Read More