PATENTS |
|
1.
Chanda, A., Flynn, Z., and Unnikrishnan, V.,
"Biofidelic Skin Simulant", 2018, US
Patent No. 10,049,601 B2 2.
Chanda, A., et al., "Biofidelic Conductive
Skin Simulant", 2017, US Patent App. No. 16/106,934 3.
Chanda, A., and Unnikrishnan, V.,
"Customized Insoles for Diabetic and Pressure Ulcers", 2016, US
Patent App. No. 15/646,046 4.
Chanda, A., and Robbins, T., "3D Printed Custom Orthotic Insole
Assembly", 2017, US Patent App. No. 62/472,408 5.
Chanda, A., Flynn, Z., and Unnikrishnan, V.,
"Vaginal Tissue Surrogate", 2016, US Patent App. No. 62/263,942 6.
Chanda, A., Griffin, D.J., and Egnoto, M.J.,
"Smart Olfactory Warning Localized Systems (OWLS)", 2016, US Patent
App. No. 62/389,223 7.
Chanda, A., et al., "Biofidelic Coronary
Artery Surrogates", 2015, US Patent App. No. 62/326,643 |
JOURNAL PUBLICATIONS |
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1.
Chanda, A., T. Ruchti, and V. Unnikrishnan,
Computational modeling of wound suture: a
review. IEEE Reviews in Biomedical Engineering, 2018.
2.
Chanda, A. and
C. Callaway, Tissue Anisotropy Modeling Using Soft
Composite Materials. Applied bionics and biomechanics, 2018. ID 4838157.
3.
Chanda, A.,
Biomechanical modeling of human skin tissue
surrogates. Biomimetics, 2018. 3(3): p. 18.
4.
Chanda, A. and
V. Unnikrishnan, Novel insole design for diabetic
foot ulcer management. Proceedings of the Institution of Mechanical
Engineers, Part H: Journal of Engineering in Medicine, 2018. (Accepted
Manuscript)
5.
Chanda, A. and
K. Curry, Patient-Specific Biofidelic Human Coronary
Artery Surrogates. Journal of Mechanics in Medicine and Biology, 2018. 18.
6.
Chanda, A. and
C. Callaway, Computational modeling of blast induced
whole-body injury: a review. Journal of medical engineering &
technology, 2018: p. 1-17.
7.
Chanda, A., T.
Jones, and K. Beschorner, Generalizability of
Footwear Traction Performance across Flooring and Contaminant Conditions. IISE
Transactions on Occupational Ergonomics and Human Factors, 2018. 6.
8.
Chanda, A., Z.
Flynn, and V. Unnikrishnan, Biomechanical
characterization of normal and prolapsed vaginal tissue surrogates. Journal
of Mechanics in Medicine and Biology, 2018. 18(03): p. 1750100.
9.
Chanda, A. and
W. Upchurch, Modeling of Stress and Strain Effects in
Wounded Skin. Journal of Applied Physics, 2018. (Accepted Manuscript).
10. Chanda, A., T. Ruchti, and W. Upchurch, Biomechanical Modeling
of Prosthetic Mesh and Human Tissue Surrogate Interaction. Biomimetics, 2018. 3(3): p. 27.
11. Chanda, A. and S. McClain,
Mechanical Modeling of Healthy and Diseased Calcaneal
Fat Pad Surrogates. Biomimetics, 2018. 3.
12. Chanda, A., V. Unnikrishnan, and K. Lackey, Biofidelic
Conductive Soft Tissue Surrogates. International Journal of Polymeric
Materials and Polymeric Biomaterials, 2018. (In Minor Revision)
13. Chanda, A., et al., Vaginal
changes due to varying degrees of rectocele prolapse: A computational
study. Journal of Biomechanical Engineering, 2017. 139(10): p. 101001.
14. Chanda, A. and V. Unnikrishnan, Effect of bladder and rectal loads on the
vaginal canal and levator ani
in varying pelvic floor conditions. Mechanics of Advanced Materials and
Structures, 2017.
15. Chanda, A., et al., Experimental
study on tissue phantoms to understand the effect of injury and suturing on
human skin mechanical properties. Proceedings of the Institution of
Mechanical Engineers, Part H: Journal of Engineering in Medicine, 2017. 231(1):
p. 80-91.
16. Chanda, A. and V. Unnikrishnan, A realistic 3D
computational model of the closure of skin wound with interrupted
sutures. Journal of Mechanics in Medicine and Biology, 2017. 17(01): p.
1750025.
17. Chanda, A., et al., A biofidelic computational model of the female pelvic system
to understand effect of bladder fill and progressive vaginal tissue stiffening
due to prolapse on anterior vaginal wall. International journal for
numerical methods in biomedical engineering, 2016. 32(11): p. e02767.
18. Chanda, A., et al., Biofidelic human brain tissue surrogates. Mechanics of
Advanced Materials and Structures, 2016.
19. Chanda, A., R. Graeter, and V. Unnikrishnan,
Effect of blasts on subject-specific computational models of skin and bone
sections at various locations on the human body. AIMS Mater. Sci, 2015. 2(4): p. 425-447.
20. Chanda, A. and H. Ghoneim, Pumping potential of a
two-layer left-ventricle-like flexible-matrix-composite structure. Composite
Structures, 2015. 122: p. 570-575.
21. Chanda, A., et al., Computational
modeling of the female pelvic support structures and
organs to understand the mechanism of pelvic organ prolapse: a review. ASME
Applied Mechanics Reviews, 2015. 67(4): p. 040801.
22. Chanda, Arnab, Aiden Reuter, and
Kurt E. Beschorner. "Vinyl Composite Tile (VCT)
Surrogate for Mechanical Slip Testing." IISE Transactions on Occupational
Ergonomics and Human Factors just-accepted (2019): 1-12.
CONFERENCE PAPERS |
|
1.
A. Chanda,
and V. Unnikrishnan, "Anisotropic Soft
Composite Based Hyperelastic Model" Proceedings
of the American Society for Composites (ASC): Thirty-Third Technical
Conference, Seattle USA, 2018. 2.
Chanda, A. and W. Upchurch, Review of Recent Advances in Vaginal Mesh
Tissue Interaction, Research & Development in Material Science, New York
USA, 2018. 3.
A. Chanda,
K. Lackey, and V. Unnikrishnan, "Biofidelic Conductive Synthetic Skin
Composites" Proceedings of the American Society for Composites
(ASC): Thirty-Second Technical Conference, West Lafayette USA, 2017. 4.
A. Chanda,
and V. Unnikrishnan, "Human Tissue Simulants
for Study of Traumatic Brain Injury (TBI)." Proceedings of the
American Society for Composites: Thirty-First Technical Conference,
Williamsburg USA, 2016 5.
A. Chanda,
et al. "Computational Modeling of Anterior and
Posterior Pelvic Organ Prolapse (POP)." ASME 2016 International
Mechanical Engineering Congress and Exposition (IMECE), Phoenix USA, 2016. 6.
A. Chanda,
Z. Flynn, and V. Unnikrishnan, "Customizable
Human Skin Simulants." American Institute of Aeronautics and
Astronautics (AIAA), NASA, Huntsville USA, 2015. 7.
. Ghoneim,
H. and A. Chanda. Pumping potential of a
left-ventricle-like flexiblematrix-composite
structure. in eProceedings of the 19th
international conference on composite materials (ICCM19), Montreal Canada,
2013. INVITED TALKS AND CONFERENCE
PRESENTATIONS |
|
1.
A. Chanda,
and V. Unnikrishnan, "Biofidelic
Anisotropic Soft Tissue Modeling" International
Conference on Mechanics of Advanced Materials and Structures (ICMAMS), Politecnico di Torino University, Torino, Italy, 2018.
2.
A. Chanda,
and V. Unnikrishnan, "Multi-fiber
Anisotropic Characterization of Soft Bio-Composite Systems" International
Conference on Composite Materials and Structures (ICCMS), Indian Institute of
Technology (IIT) Hyderabad, India, 2017.
3.
A. Chanda,
K. Lackey, and V. Unnikrishnan, "Biofidelic Conductive Synthetic Skin Composites" Proceedings
of the American Society for Composites (ASC): Thirty-Second Technical
Conference, Purdue University, West Lafayette, USA, 2017.
4.
A. Chanda,
and V.U. Unnikrishnan, "Mechanics of interaction
of the pelvic organs and muscles in pelvic organ prolapse (POP)" Society
of Engineering Science 53rd Annual Technical Meeting, University of Maryland,
College Park, USA, 2016.
5.
A. Chanda,
and V.U. Unnikrishnan, "Interrupted Suture Force
Estimation for Skin Wound Closure: A Computational Approach" Society
of Engineering Science 52nd Annual Technical Meeting, Texas A&M University,
College Station, USA, 2015.
6.
A. Chanda,
and V.U. Unnikrishnan, "Subject-Specific
Computational Study of Blast Induced Traumatic Injuries" Society of
Engineering Science 52nd Annual Technical Meeting, Texas A&M University,
College Station, USA, 2015.
7.
A. Chanda,
and V.U. Unnikrishnan, "Numerical Modeling of Skin Wound Closure with Interrupted Sutures," NanoBio Summit, University of Alabama at Birmingham (UAB),
Birmingham, USA, 2015.
8.
A. Chanda,
W. Upchurch, and V.U. Unnikrishnan, "Human
Skin-Like Biofidelic Sutures," NanoBio Summit, University of Alabama at Birmingham (UAB),
Birmingham, USA, 2015.
9.
A. Chanda,
V. Unnikrishnan, S. Roy, H. E. Richter and M. E
Lockhart, “Computational Modeling of the
Mechanics of Progression of Anterior Vaginal Prolapse (AVP)” 13th
U.S. National Congress for Computational Mechanics (USNCCM 13), San Diego, USA,
2015.
10. A. Chanda and H. Ghoneim,
“Pumping potential of Two-Layer-Left-Ventricle-Like Flexible Matrix
Composite (FMC) Structure,” Proceedings of the 1st International
Conference on Mechanics of Composites (MECHCOMP 2014), Stony Brook University,
New York, USA, 2014.
11. A. Chanda and P. Prajapati,
“Finite Element Modeling and Cost Effective
Analysis of Formula SAE Impact Attenuator Design,” 21st
International Conference, SAE, University of Victoria, Melbourne, Australia,
2009.