Tehran University of Medical Sciences
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Mahmoud Azami

Contact Information
Tel: 021-43052112
Fax: 021-88991117
Academic Rank
Associate Professor
School
Advanced Technologies in Medicine
About
CV last edited on: 2017/30/12

1.

Ph.D


Biomedical engineering-Biomaterials, Amirkabir university of Technology(Polytechniques), Tehran, Iran, 2010
Thesis Title:Biomimetic scaffold for bone tissue engineering
Supervisor:Prof. F.Moztarzadeh, Dr F. Orang, Dr M.Rabiee
2.

M.S


Biomedical engineering-Biomaterials, Amirkabir university of Technology(Polytechniques), Tehran, Iran, 2007
Thesis Title:Bone tissue engineering
Supervisor:Prof. F.Moztarzadeh, Dr F. Orang
3.

B.Sc


Material science and engineering, Sharif University of Technology, Tehran, Iran, 2003
Thesis Title:Heat treatment of selectve laser sintering bodies
Supervisor:Prof. A. Simchi
1.

English


Speaking: Good, Reading: Good, Writing: Good

M.S

1.

Biocompatibility of Materials


2008-2010 E-Learning Center, Amirkabir University of Technolo,M.S.
2.

Polymer Application in Medicine


2007-2010 Amirkabir University of Technolo,M.S.

B.Sc

1.

Biological assessments


2008-2009 Amirkabir University of Technolo,B.Sc.

Ph.D

1.

Introduction to Biomaterials


2011-2013 Tehran University of Medical sci,Ph.D.
2.

Scaffold in Tissue Engineering


2011-2013 Tehran University of Medical sci,Ph.D.
3.

3D Culture


2011-2013 Surface properties , Tehran University of Medical sci,Ph.D.
1.

Differentiation of mesenchymal stem cells derived from Wharton's jelly to motor neurons-like on the PCL / Collagen scaffolds made by two methods: solvent casting / Freeze draying and electrospinning


Status: Running, Executers: Mahmoud Azami, Sponser: INSF, Location: TUMS, Main Partners: Bahareh Bagher, 2012-2014
2.

Prepartion of biomimetic gelatin/calcium phosphate scaffolds containing Mg and F ions


Status: Running, Executers: Mahmoud Azami, Sponser: TUMS-Reearch grant, Location: TUMS, 2012-2013

Supervisor

1.

engineering of myocardial tissue using endometrial stem cells and hydrogel /Bioglass nanocomposite scaffolds


Zahra barabadi,
Ph.D, Tissue engineering,
2.

Compare the growth of osteoblasts differentiated from endometrial cells on hydrogel scaffolds prepared from bioglass nanofiber


Esmaeil Sharifi,
Ph.D, Tissue engineering,

Advisor/Consulter

1.

Nerve tissue engineering ....


Mohamad nabi Asmani,
M.S, Tissue engineering, 2012
2.

Three-dimensional culture of human endometrial stem cells differentiated into Neurons


Mona Navaei-,
M.S, Tissue engineering, 2012
3.

Synthesis of bioglass -based scaffolds using electrospinning for tissue engineering and investigation of angiogenesis in the presence of endometrial stem cells


Zahra Shamusi,
Ph.D, Tissue engineering,
4.

Tooth tissue engineering scaffolds using collagen / hydroxyapatite


Naghmeh Bahrami,
Ph.D, Tissue engineering, 2013
5.

Effect of endothelial cells , the endometrial stem cells and angiogenic factors on the activity of osteoblast cells grown on nanostructured Silk / PLGA


Mehdi Farokhi,
Ph.D, Tissue engineering, 2013
6.

Design and synthesis of electroactive and degradable poly- urethanes as a cardiovascular patch


Nafiseh Baheiraei,
Ph.D, Tissue engineering,
7.

Synthesis of zirconia nano-composite scaffolds - calcium phosphate for bone tissue engineering


Ali Alizadeh,
Ph.D, Tissue engineering,
8.

Preparation of gelatin calcium phosphate composite scaffolds - using electrospinning and mimic the structure of bone tissue


Mirjavad Mousavifar,
M.S, Biomaterial-tissue engineering, 2012
9.

Preparation of the nanocomposite scaffolds from gelatin / apatite using a double diffusion method


Amir Shahsavar,
M.S, Biomaterial, 2012
10.

Effect of hydroxyapatite - Gelatin nanocomposite structure with endothelial progenitor cells from bone marrow to repair a critical bone defect in a rat experimental model


Elham Yazdani-eazadyar,
M.S, Medical Biotechnology, 2011
11.

Effect of hydroxyapatite - Gelatin nanocomposite structure with stromall progenitor cells from bone marrow to repair a critical bone defect in a rat experimental mode


Mazaher Gholipour,
M.S, Medical Biotechnology, 2010
12.

Preparation of hybrid bone / cartilage nanocomposite scaffold from hydroxyapatite / hydrogel


Majid Raz,
M.S, Tissue engineering, 2010
13.

Design and fabrication of nano- composite polymer - ceramic for use in multi-purpose sports floor


Mehdi Sabuhi-abiz,
M.S, Sport engineering, 2009
14.

Design and fabrication of polyurethane (PU) based nano- composites and evaluation of its performance in multi-purpose sports floors


Amin Hushafza,
M.S, Sport engineering, 2009
15.

Synthesis of nanocomposite scaffolds based on gelatin and bioactive glass nanoparticles and evaluation of its biological and biochemical activity


Masoud Mozafari,
M.S, Biomaterials, 2009
16.

Preparation of nanocomposite scaffolds based on gelatin/bioactive glass and evaluation of its biological properties


Saeid Maleknia,
M.S, Biomaterials, 2008
17.

A comparative study of bone regeneration between the demineralized bone matrix and hydroxyapatite/gelatin nanocomposite scaffolds


Shima Tavakol,
M.S, Nano medicine, 2008

Farsi

1.

polymer applications in medicine(کاربرد پلیمرها در پزشکی)


Authors: M.Rabiei, M.Azami, Sh.Bonakdar(دکتر محمد ربیعی-دکتر محمود اعظمی- دکتر شاهین بنکدار)
Publisher: Amirkabir University of Technology(نشر دانشگاه صنعتی امیرکبیر), 1392, 2, Original
2.

مهندسی استخوان و غضروف(bone and cartilage engineering)


Authors: دکتر محمود اعظمی-دکتر سید علی پورسمر-دکتر فرهاد قمی
Publisher: نشر جهاد دانشگاهی دانشگاه امیرکبیر, (2010)1390, 1, Translation

Papers

English

1.

Bone Scaffold Biomimetics Based on Gelatin Hydrogel Mineralization


Authors: Azami, Mahmoud and Fooladi, Imani and Ali, Abbas and Amiri, Afsaneh and Nourani, Mohammad Reza and Asgari, Bahareh
Journal of Biomimetics, Biomaterials, and Tissue Engineering, Vol.17, No.17, Year. 2013, Page:59--69,
2.

Three-dimensional culture of differentiated endometrial stromal cells to oligodendrocyte progenitor cells (OPCs) in fibrin hydrogel


Authors: Asmani, Mohammad Nabi and Ai, Jafar and Amoabediny, Ghasem and Noroozi, Abbas and Azami, Mahmoud and Ebrahimi-Barough, Somayeh and Navaei-Nigjeh, Mona and Ai, Armin and Jafarabadi, Mina
Cell biology international, Vol.37, Year. 2013, Page:1340--1349,
3.

Repair of critical size rat calvarial defects using endometrial-derived stem cells embedded within gelatin/apatite nanocomposite scaffold


Authors: Ai, Jafar and Heidari-Keshel, Saeed and Azami, Mahmoud and Ai, Armin and Bahrami, Naghmeh and Mohamadnia, Abodoreza
Stem Cell Discovery, Year. 2013,
4.

Effect of Laminated Hydroxyapatite/Gelatin Nanocomposite Scaffold Structure on Osteogenesis using Unrestricted Somatic Stem Cells in Rat


Authors: Tavakol, Shima and Azami, Mahmoud and Khoshzaban, Ahad and Kashani, Iraj Ragerdi and Tavakol, Behnaz and Hoveizi, Elham and Sorkhabadi, Seyed Mahdi Rezayat
Cell Biology International, Year. 2013,
5.

New precipitation method for synthesis of nano-fluorapatite


Authors: Ghomi, F and Jalilifiroozinezhad, S and Azami, M
Materials Research Innovations, Vol.17, Year. 2013, Page:257--262,
6.

The effect of carrier type on bone regeneration of demineralized bone matrix in vivo.


Authors: Tavakol, Shima and Khoshzaban, Ahad and Azami, Mahmoud and Kashani, Iraj Ragerdi and Tavakol, Hani and Yazdanifar, Mahbube and Sorkhabadi, SM
The Journal of craniofacial surgery, Vol.24, Year. 2013, Page:2135--2140,
7.

Investigation of Magnesium Incorporation within Gelatin/Calcium Phosphate Nanocomposite Scaffold for Bone Tissue Engineering


Authors: Baheiraei, Nafiseh and Azami, Mahmoud and Hosseinkhani, Hossein
International Journal of Applied Ceramic Technology, No.Baheiraei, Nafiseh and Azami, Ma, Year. 2013,
8.

Novel Bioactive Poly ($\varepsilon$-caprolactone)-Gelatin-Hydroxyapatite Nanocomposite Scaffolds for Bone Regeneration


Authors: Hamlehkhan, Azhang and Mozafari, Masoud and Nezafati, Nader and Azami, Mahmoud and Samadikuchaksaraei, Ali
Key Engineering Materials, Vol.1463, Year. 2011, Page:909,
9.

Calcium Fluoride/Hydroxyfluorapatite Nanocrystals as Novel Biphasic Solid Solution for Tooth Tissue Engineering and Regenerative Dentistry


Authors: Azami, Mahmoud and Jalilifiroozinezhad, Sasan and Mozafari, Masoud
Key Engineering Materials, Vol.1463, No.Azami, Mahmoud and Jalilifiroozi, Year. 2011, Page:626,
10.

Enhancing neuronal growth from human endometrial stem cells derived neuron-like cells in three-dimensional fibrin gel for nerve tissue engineering


Authors: Navaei-Nigjeh, Mona and Amoabedini, Ghasem and Noroozi, Abbas and Azami, Mahmoud and Asmani, Mohammad N and Ebrahimi-Barough, Somayeh and Saberi, Hooshang and Ai, Armin and Ai, Jafar
Journal of Biomedical Materials Research Part A, No.Navaei-Nigjeh, Mona and Amoabedi, Year. 2013,
11.

PREPARATION OF NANO COMPOSITE GELATIN/APATITE SCAFFOLD THROUGH A BIOMIMETIC METHOD


Authors: AZAMI, M and MOZTARZADEH, F and RABIEE, M
IRANIAN+JOURNAL+OF+BIOMEDICAL+ENGINEERING, Vol.3, Year. 2010,
12.

Bio-hybrid Silk/Calcium Phosphate/PLGA Nanocomposite Scaffold to Control the Delivery of Vascular Endothelial Growth Factor


Authors: Farokhi, Mehdi and Mottaghitalab, Fatemeh and Shokrgozar, Mohammad Ali and Ai, Jafar and Hadjati, Jamshid and Azami, Mahmoud
Materials Science and Engineering: C, Year. 2013,
13.

In vitro evaluation of biomimetic nanocomposite scaffold using endometrial stem cell derived osteoblast-like cells


Authors: Azami, Mahmoud and Ai, Jafar and Ebrahimi-Barough, Somayeh and Farokhi, Mehdi and Fard, Sahar E
Tissue and Cell, No.2013, Year. 2013,
14.

Structural and functional changes of silk fibroin scaffold due to hydrolytic degradation


Authors: Farokhi, Mehdi and Mottaghitalab, Fatemeh and Hadjati, Jamshid and Omidvar, Ramin and Majidi, Mohammad and Amanzadeh, Amir and Azami, Mahmoud and Tavangar, Seyed Mohammad and Shokrgozar, Mohammad Ali and Ai, Jafar
Journal of Applied Polymer Science, Vol.131, Year. 2014,
15.

A Porous Hydroxyapatite/Gelatin Nanocomposite Scaffold for Bone Tissue Repair: In Vitro and In Vivo Evaluation


Authors: Azami, Mahmoud and Tavakol, Shima and Samadikuchaksaraei, Ali and Hashjin, Mehran Solati and Baheiraei, Nafiseh and Kamali, Mehdi and Nourani, Mohammad Reza
Journal of Biomaterials Science, Polymer Edition, Vol.23, No.Azami, Mahmoud and Tavakol, Shim, Year. 2012, Page:2353--2368,
16.

Influence of the value of the pH on the preparation of nano hydroxyapatite polyvinyl alcohol composites


Authors: Poursamar, SA and Rabiee, M and Samadikuchaksaraei, V and Karimi, M and Azami, M
J. Ceram. Process. Res, Vol.10, No.Azami, Mahmoud and Orang, Fariba, Year. 2009, Page:679--682,
17.

Preparation of laminated poly ($\varepsilon$-caprolactone)-gelatin-hydroxyapatite nanocomposite scaffold bioengineered via compound techniques for bone substitution


Authors: Hamlekhan, Azhang and Moztarzadeh, Fathollah and Mozafari, Masoud and Azami, Mahmoud and Nezafati, Nader
Biomatter, Vol.1, Year. 2011, Page:91--101,
18.

Novel bioactive poly ($\varepsilon$-caprolactone)-gelatin-hydroxyapatite nanocomposite scaffolds for bone regeneration


Authors: Hamlehkhan, Azhang and Mozafari, Masoud and Nezafati, Nader and Azami, Mahmoud and Samadikuchaksaraei, Ali
Key Engineering Materials, Vol.493, Year. 2012, Page:909--915,
19.

Calcium fluoride/hydroxyfluorapatite nanocrystals as novel biphasic solid solution for tooth tissue engineering and regenerative dentistry


Authors: Azami, Mahmoud and Jalilifiroozinezhad, Sasan and Mozafari, Masoud
Key Engineering Materials, Vol.493, No.Azami, Mahmoud and Jalilifiroozi, Year. 2012, Page:626--631,
20.

Glutaraldehyde crosslinked gelatin/hydroxyapatite nanocomposite scaffold, engineered via compound techniques


Authors: Azami, Mahmoud and Rabiee, Mohammad and Moztarzadeh, Fathollah
Polymer Composites, Vol.31, Year. 2010, Page:2112--2120,
21.

Preparation of a biomimetic nanocomposite scaffold for bone tissue engineering via mineralization of gelatin hydrogel and study of mineral transformation in simulated body fluid


Authors: Azami, Mahmoud and Moosavifar, Mir Javad and Baheiraei, Nafiseh and Moztarzadeh, Fathollah and Ai, Jafar
Journal of Biomedical Materials Research Part A, Vol.100, No.Azami, Mahmoud and Moosavifar, M, Year. 2012, Page:1347--1355,
22.

DEVELOPMENT OF 3 D BIOACTIVE NANOCOMPOSITE SCAFFOLDS MADE FROM GELATIN AND NANO BIOACTIVE GLASS FOR BIOMEDICAL APPLICATIONS


Authors: Mozafari, M and Moztarzadeh, F and Rabiee, M and Azami, M and Nezafati, N and Moztarzadeh, Z and Tahriri, M
Advanced Composites Letters, Vol.19, Year. 2010, Page:91--96,
23.

Synthesis and solubility of calcium fluoride/hydroxy-fluorapatite nanocrystals for dental applications


Authors: Azami, Mahmoud and Jalilifiroozinezhad, Sasan and Mozafari, Masoud and Rabiee, Mohammad
Ceramics International, Vol.37, Year. 2011, Page:2007--2014,
24.

A proposed fabrication method of novel PCL-GEL-HAp nanocomposite scaffolds for bone tissue engineering applications


Authors: Hamlekhan, A and Mozafari, M and Nezafati, N and Azami, M and Hadipour, H
Advanced Composites Letters, Vol.19, No.Hamlekhan, A and Mozafari, M and, Year. 2010, Page:123--130,
25.

Synthesis and characterization of a laminated hydroxyapatite/gelatin nanocomposite scaffold with controlled pore structure for bone tissue engineering


Authors: Azami, Mahmoud and Samadikuchaksaraei, Ali and SEYED, ALI POURSAMAR
International journal of artificial organs, Vol.33, No.Azami, Mahmoud and Samadikuchaks, Year. 2010, Page:86--95,
26.

Preparation and characterization of nanocomposite polyelectrolyte membranes based on Nafion< sup>\textregistered


Authors: Hasani-Sadrabadi, Mohammad Mahdi and Mokarram, Nassir and Azami, Mahmoud and Dashtimoghadam, Erfan and Majedi, Fatemeh Sadat and Jacob, Karl I
Polymer, Vol.52, Year. 2011, Page:1286--1296,
27.

Preparation, characterization and mechanical properties of controlled porous gelatin/hydroxyapatite nanocomposite through layer solvent casting combined with freeze-drying and lamination techniques


Authors: Azami, Mahmoud and Moztarzadeh, Fathollah and Tahriri, Mohammadreza
Journal of Porous Materials, Vol.17, Year. 2010, Page:313--320,
28.

Controllable synthesis and characterization of porous polyvinyl alcohol/hydroxyapatite nanocomposite scaffolds via an< i> in situ colloidal technique


Authors: Poursamar, S Ali and Azami, Mahmoud and Mozafari, Masoud
Colloids and Surfaces B: Biointerfaces, Vol.84, Year. 2011, Page:310--316,
29.

Development of macroporous nanocomposite scaffolds of gelatin/bioactive glass prepared through layer solvent casting combined with lamination technique for bone tissue engineering


Authors: Mozafari, Masoud and Moztarzadeh, Fathollah and Rabiee, Mohammad and Azami, Mahmoud and Maleknia, Saied and Tahriri, Mohammadreza and Moztarzadeh, Zoha and Nezafati, Nader
Ceramics International, Vol.36, No.Mozafari, Masoud and Moztarzadeh, Year. 2010, Page:2431--2439,
30.

Biomimetic formation of apatite on the surface of porous gelatin/bioactive glass nanocomposite scaffolds


Authors: Mozafari, Masoud and Rabiee, Mohammad and Azami, Mahmoud and Maleknia, Saied
Applied Surface Science, Vol.257, Year. 2010, Page:1740--1749,
32.

Preparation of mineralised electrospun fibers as a biomimetic nanocomposite


Authors: Mir Javad Moosavifar, Fatholah Moztarzadeh , Mahmoud Azami
International Journal of Polymeric Materials, Year. 2013,
1. Scaffold for tissue engineering

Scaffold for tissue engineering

Bone tissue engineering

Biomimetic scaffolds for bone repair

Biomineralisation

Design and synthesis of nano and micro structural materials for medical applications 

Biomaterials synthesis(Calcium phosphate, Bioactive glasses, ....)

Nanotechnology in medicine and tissue engineering

Controlled drug delivery systems

 

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