Publications |
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Journals International (Published) 9. Dutta
A, Mukherjee K, Dhara S, Gupta S
(2019) “Design of Porous Titanium Scaffold for Complete Mandibular
Reconstruction: the Influence of Pore Architecture Parameters” Computers
in Biology and Medicine, 108: 31 - 41, doi:
10.1016/j.compbiomed.2019.03.004; Publisher: Elsevier; URL: https://www.sciencedirect.com/science/article/pii/S0010482519300769?via%3Dihub 8. Mukherjee K and Gupta S (2017), “Combined Bone Ingrowth and
Remodelling around Uncemented Acetabular Component: a Multiscale Mechanobiology based Finite Element Analysis”,
Trans. ASME, Journal of Biomechanical Engineering, 139(9): 091007-1 –
091007-12, doi:10.1115/1.4037223; Publisher: ASME; URL: http://biomechanical.asmedigitalcollection.asme.org/article.aspx?articleid=2644120 7. Mukherjee K and Gupta S (2017), “Influence of Implant
Surface Texture Design on Peri-acetabular Bone Ingrowth: A Mechanobiology Based Finite Element Analysis”,
Trans. ASME, Journal of Biomechanical Engineering, 139(3): 031006-1 –
031006-8, doi: 10.1115/1.4035369; Publisher: ASME;
URL: http://biomechanical.asmedigitalcollection.asme.org/article.aspx?articleid=2592752 6. Mukherjee K and Gupta S (2017), “Mechanobiological
Simulations of Periacetabular Bone Ingrowth: A
Comparative Analysis of Cell-phenotype Specific and Phenomenological
Algorithms”, Medical & Biological Engineering & Computing,
55(3): 449 – 465, doi:
10.1007/s11517-016-1528-3; Publisher: Springer; URL: https://link.springer.com/article/10.1007/s11517-016-1528-3 5. Mukherjee K and Gupta S (2016), “The Effects of
Musculoskeletal Loading Regimes on Pre-clinical Analysis of Acetabular
Component”, Proc Inst
Mech Eng Part H: Journal of Engineering in
Medicine, 230(10): 918 – 929, doi:
10.1177/0954411916661368; Publisher: Sage Publishing; URL: http://journals.sagepub.com/doi/10.1177/0954411916661368 4. Mukherjee K and Gupta S (2016), “Bone Ingrowth around
Porous Coated Acetabular Implant: A Three-dimensional Finite Element Study
using Mechanoregulatory Algorithm”, Biomechanics and Modeling in Mechanobiology,
15(2): 389 – 403, doi:
10.1007/s10237-015-0696-7; Publisher: Springer; URL: https://link.springer.com/article/10.1007/s10237-015-0696-7 3. Mukherjee K and Gupta S (2014), “Simulation of tissue
differentiation around acetabular cups: the effects of implant-bone relative
displacement and polar gap”, Advances in Biomechanics and Applications,
1(2): 95-109, doi: 10.12989/aba.2014.1.2.095;
Publisher: Techno-Press; URL: http://www.techno-press.org/?page=container&volumeno=1/2&journal=aba 2. Ghosh
R, Mukherjee K, Gupta S (2013),
“Bone remodelling around uncemented metallic and ceramic acetabular
components”, Proc Inst
Mech Eng Part H: Journal of Engineering in
Medicine, 227(5): 490–502, doi:
10.1177/0954411913478703; Publisher: Sage Publishing; URL: http://journals.sagepub.com/doi/10.1177/0954411913478703 National (Published) 1. Mukherjee K, Pal B, Chanda S, Ghosh D,
Gupta S (2012) “A Numerical Study on the Possibilities of Cemented
Short-stem Ceramic Femoral Resurfacing Implant”, Indian Journal of
Biomechanics, 3 (1-2): 61 – 68; URL: http://oldwww.becs.ac.in/archive International
(Under review) Chanda
S, Mukherjee K, Pratihar DK, Gupta S (2019)
“Can rule-based computational techniques predict osseointegration around
hip implants” (under review). International
(Under preparation) Dutta A, Mukherjee K, Dhara S,
Gupta S (2018) “The effects of lesion size and location on load
transfer in an osteonecrotic mandible: a
three-dimensional finite element analysis”. Conferences of
International Repute 14. Mukherjee K, Sotiriu
P, Verbruggen S, Nowlan N (2018) “Musculoskeletal forces and prenatal skeletogenesis: a murine model”, 8th World Congress
of Biomechanics (WCB), Dublin, Ireland, July 8–12,2018. 13. Dutta
A, Mukherjee K, Dhara S, Gupta S
(2018), “A Numerical Investigation on the Influence of Location and
Size of Lesion on Load Transfer in an Osteonecrotic
Mandible”, 8th World Congress of Biomechanics (WCB), Dublin, Ireland,
July 8–12,2018. 12. Mukherjee K, Gupta S (2018), “A
multiscale mechanobiology based finite element
study on combined bone ingrowth and remodelling around uncemented acetabular
component”, 8th World Congress of Biomechanics (WCB), Dublin, Ireland,
July 8–12,2018. 11. Dutta
A, Mukherjee K, Dhara S, Gupta S
(2018), “Design of 3D-printed Patient-specific Porous Titanium
Scaffolds for Total Mandibular Reconstruction: a Multiscale Finite Element
Study”, 8th World Congress of Biomechanics (WCB), Dublin, Ireland, July
8–12,2018. 10. Chanda S, Mukherjee K, Pratihar
DK, Gupta S (2018) “Can rule based techniques predict osseointegration
around hip stems?: A finite element study based on evolutionary interfacial
conditions”, the 2nd World Congress & Expo on Biotechnology &
Bioengineering, Dubai, UAE, June 25–27,2018. 09. Dutta
A, Mukherjee K, Dhara S, Gupta S
(2017), “Influence of Fiber Spacing on
Mechanical Properties of Lattice Structured Titanium Bone Grafts: A
Three-dimensional Finite Element Study”, Tissue Engineering and
Regenerative Medicine International Society (TERMIS) European Chapter
Meeting, Davos, Switzerland, June 26–30,2017, URL:
http://www.ecmconferences.org/abstracts/2017/Collection2/pdf/collection2_poster.pdf (P 94; #P119) 08. Mukherjee K and Gupta S (2017),
“The Effect of Implant Surface Texture Design on Peri-acetabular Bone
Ingrowth: A Multiscale Mechanobiology Based
Numerical Analysis", Tissue Engineering and Regenerative Medicine
International Society (TERMIS) European Chapter Meeting, Davos, Switzerland,
June 26–30,2017, URL: http://www.ecmconferences.org/abstracts/2017/Collection2/pdf/collection2_oral.pdf
(P 232; #O229) 07. Mukherjee K and Gupta S (2016),
“The Effects of Cellular Activities on Acetabular Cup Fixation: A
Parametric Study using Three-Dimensional Finite Element Analysis”, Orthopaedic
Proceedings: Bone Joint J, 98-B (supp 8), 12, 28th
Annual Congress of The International Society for Technology in Arthroplasty
(ISTA), Vienna, Austria, September 30–October 3,2015; URL:
http://bjjprocs.boneandjoint.org.uk/content/98-B/SUPP_8/12 06. Mukherjee K and Gupta S (2016),
“A Numerical Study on Bone Adaptation around Uncemented Press-fit
Acetabular Components”, 2016 International Conference on Systems in
Medicine and Biology (ICSMB), Kharagpur, India,
January 04–07, 2016; DOI: 10.1109/ICSMB.2016.7915097 URL:
http://ieeexplore.ieee.org/document/7915097/ 05. Mukherjee K and Gupta S (2014),
“Comparison between Phenomenological and Cell-phenotype Specific
Algorithms to Quantify Mechanoregulatory Peri-prosthetic Bone Ingrowth - A
Three Dimensional Finite Element Study”, 12th International Symposium
on Computer Methods in Biomechanics and Biomedical Engineering (CMBBE),
Amsterdam, The Netherlands, October 13–15,2014.
URL:https://static.tue.nl/fileadmin/content/faculteiten/bmt/onderzoek/Soft_Tissue_Biomechanics_Engineering/Symposium/CMBBE/abstracts_CMBBE2014_final.pdf
04. Mukherjee K and Gupta S (2014),
“Investigations on Bone Ingrowth on a Porous Coated Implant using
Three-dimensional Finite Element Analysis and Mechano-regulatory
Algorithm”, 7th World Congress of Biomechanics (WCB), Boston, US, July
6–11,2014. 03. Mukherjee K, Pal B, Gupta S (2013),
“Analysis of Failure Mechanisms in Cemented Short-Stem Femoral
Resurfacing Implant”, Orthopaedic Proceedings: Bone Joint J, 95-B (supp 15), 185, 25th Annual Congress of The International
Society for Technology in Arthroplasty (ISTA), Sydney, Australia October
3–6,2012; URL:
http://bjjprocs.boneandjoint.org.uk/content/95-B/SUPP_15/185 02. Ghosh
R, Mukherjee K, Gupta S (2013),
“Bone Remodelling around Uncemented Acetabular Prosthesis”,
Orthopaedic Proceedings: Bone Joint J, 95-B (supp
15), 184, 25th Annual Congress of The International Society for Technology in
Arthroplasty (ISTA), Sydney, Australia October 3–6,2012; URL:
http://bjjprocs.boneandjoint.org.uk/content/95-B/SUPP_15/184 01. Mukherjee K, Pal B, Gupta S (2012),
“Bone Adaptation around a Cemented Short-stem Ceramic Femoral
Resurfacing Component”, J Biomech, 45 (supp 1), S99, 18th Congress of European Society of Biomechanics
(ESB), Lisbon, Portugal, July 1–4,2012; URL:
http://www.jbiomech.com/article/S0021-9290(12)70100-8/abstract |
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