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Vivek A. Kumar

Kumar, Vivek A.
Assistant Professor, Biomedical Engineering & CBPE
Life Sciences and Engineering Center 316

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Vivek A. Kumar, PhD is assistant professor in the departments of biomedical engineering and chemical engineering at New Jersey Institute of Technology.

Vivek Kumar received his bachelor’s degree in biomedical engineering from Northwestern University in 2006, and doctorate degree in biomedical engineering from the Georgia Institute of Technology in 2011. His expertise is in the area of tissue engineering, drug development and delivery, and specific research interests are in the area of inflammation modulation and angiogenesis, especially in understanding the role of small growth factor or cytokine mimics’ ability to signal biological processes. He is the co-author of over 30 peer-reviewed journal articles, over 2 dozen abstracts, co-inventor on over a half dozen patents/applications, and serial entrepreneur (2 startups to-date). Dr. Kumar has served at the New Jersey Institute of Technology as an Assistant Professor in Biomedical Engineering with courtesy appointments in the Chemical Engineering department and the Rutgers School of Dental Medicine. In addition to teaching a graduate class in Biomedical Translation and Entrepreneurship, Dr. Kumar teaches Advanced Biomaterials to budding Undergraduate Tissue Engineers. As the Biomaterials track chair, pre-health advisor and a member of the BME Faculty search committee, Dr. Kumar strives to encourage research involvement in undergraduate pedagogy, developed holistic and well-rounded bioengineers, capable of interacting, adapting and contributing to the rapidly changing research arena. From biomaterials design, drug discovery to drug delivery – research in the KumarLab ( aims at translating technologies in startups ( towards treating a wide array of pathologies. To this end, Dr. Kumar has served on numerous NSF SBIR/STTR panels. For those who made it this far into the abstract – check out my latest start-up in a completely different space – Parking! (

Ongoing collaborations include:

Regeneration of soft and hard tissue in the oral cavity (collaboration with Dr. Saul Weiner (Rutgers))

Stimulation of robust angiogenic responses for the treatment of ischemic tissue disease (critical limb ischemia)

Development of composite vascular grafts that mitigate inflammation and promote functional media/ adventitia

Delivery of novel antiangiogenic molecules to mitigate abnormal angiogenesis in diabetic retinopathy

Development of novel pro-/anti-coagulants for management of traumatic/ surgical bleeding, and hypercoagulability

Development of new targets and strategies for enhanced vaccination against HIV (collaboration with Dr. Abraham Pinter (Rutgers))

Stem cell delivery for treatment myocardial (heart muscle) regeneration post-MI (heart attack), and islet cell transplantation (collaboration with Dr. Eun Jung Lee (NJIT))

Neural tissue regeneration after traumatic brain injury (TBI) / ischemic stroke / spinal cord injury (collaborations with Dr. James Haorah (NJIT) | Dr. Bonnie Firestein (Rutgers) | Dr. Hilton Kaplan (Rutgers))

Post-doc, Chemistry, Rice University (2012-2016)
Post-doc, Surgery, BIDMC, Harvard Medical School (2011-2012)
Ph.D., Bioengineering, Georgia Institute of Technology | Emory University Hospital, 2006-2011
B.S., Biomedical Engineering, Northwestern University, 2003-2006

Assistant Professor, New Jersey Institute of Technology, Department of Biomedical Engineering, 2016 – present
Start-up entrepreneur, 2015 – present


Fellowship Awards:
Ruth L. Kirchstein National Research post-doctoral Fellow, 2013 – 2016
American Heart Association Pre-doctoral Fellowship, 2010 – 2012

Other awards:
Mid Atlantic BioAngels – Winner of start-up pitch competition, 2016
OPEN, NangioTx, Inc – Winner of start-up pitch competition ($10,000), 2015
TMCx | Bioventures, NangioTx, Inc – Winner of start-up pitch competition ($10,000), 2015
Materials Research Society - Symposium Travel Award, 2014
Gordon Research Conference - Biomaterials & Tissue Engineering Outstanding Poster, 2013
Harold B. Gotaas Award - Outstanding Research, Northwestern University, 2006
Undergraduate Research Honors - Research and Academic Accomplishment, Northwestern University, 2006
Top prize in engineering design competition, Northwestern University, 2004


Served as reviewer for:
NSF SBIT/STTR panel Fall - 2016
Tissue Engineering
Materials Research Society
Public Library of Science One
Journal of AIDS and HIV Infections


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Biomedical Translation and Entrepreneurship, Special Topics, TBD.

The focus of this course is to understand the fundamentals behind biomaterials design and biomaterials translation. A focus on materials synthesis, mechanics, and host responses will be followed by developing your idea for clinical translation. We will teach you how to take an idea, refine it scientifically, and develop components of what will ultimately form the basis of a company to take your idea to market. Part 1 will be a discussion of papers in the literature that provide the foundation for translational research at the “bench”, followed by a quiz (2 quizzes in total for part 1). Part 2 will focus on translation of biomaterials with a focus on entrepreneurship. You will learn how to evaluate, critique, and pitch your technology to future investors in your own “startup”. Overall, this course is designed to provide an understanding in the translation of biomedicine – defining on the bench to market paradigm.


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Ongoing Research Support
NJIT Faculty seed grant Kumar(PI) 09/16-06/17
“Development of Cytocompatible, Injectable Hydrogel Matrices for Soft Tissue Repair”.
This seed grant will allow for the development of electro-conductive multidomain peptide scaffolds capable of carrying charge for synchronous cardiomyocyte beating, prior to implantation.

NJIT startup funds Kumar (PI) 08/16-08/19

Completed Research Support
MacDonald Foundation, 15RDM001 Kumar (Co-I) 01/15-01/16
“Multidomain peptides for therapeutic regeneration of myocardial tissue post infarct.”
The goal of this work is to understand and develop proangiogenic strategies for healing of myocardial tissue post-MI. This was in conjunction with Jeffery Hartgerink, PhD and Richard Dixon, PhD.

NIH/NIDCR, F32 DE023696-01A1 Kumar (PI) 09/13-08/16
“Multidomain peptides for inflammation and angiogenic mediated tissue regeneration.”
This work provided the foundation for the multidomain peptides that are being investigated in this proposal. This funding opportunity allow for prolific productivity with over a half dozen publications resulting from funding from this post-doctoral grant with advisor Jeffrey Hartgerink.

AHA (10PRE 3060026) Kumar (PI) 07/10-03/12
“Biomimetic arterial grafts with mesenchymal stem cell based media equivalents”
This pre-doctoral fellowship investigated the development of tissue engineered vascular grafts for small diameter blood vessel tissue engineering and hernia patches. This fellowship aided in over a dozen publications with graduate thesis advisor Elliot Chaikof, MD, PhD.

Research Interests

  • Soft tissue regeneration (vascular, muscle, neural)
  • Hard tissue engineering (bone)
  • Neural engineering and repair (stroke, TBI)
  • Coagulants/ anti-coagulants
  • Vaccine development
  • Drug, stem cell and growth factor delivery (diabetic retinopathy, therapeutic angiogenesis)
  • Translational biomedical sciences

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  1. S. Shi, P. Nguyen, H. Cabral, R. Diez-Barroso, P. Derry, V. Kumar. Development of peptide inhibitors of HIV transmission. Bioactive Materials, DOI: 10.1016/j.bioactmat.2016.09.004.
  2. V. Kumar, Q. Liu, N. Wickremasinghe, Siyu Shi, T. Cornwright, Y. Deng, A. Azares, A. Jake, N. Agudo, S. Pan, D. Woodside, J. Willerson, R. Dixon and J. Hartgerink. Treatment of hind limb ischemia using angiogenic peptide nanofibers. Biomaterials, 98, 113, 2016
  3. V. Kumar* and B. Wang. Rational design of fiber forming supramolecular structures. Experimental Biology and Medicine, 241, 899, 2016
  4. V. Kumar, N. Wickremasinghe, S. Shi, J. Hartgerink. A nanofibrous snake venom based hemostat. ACS Biomaterials Science and Engineering, 1, 12, 1300, 2015
  5. V. Kumar, B. Wang, S. Shi, I. Li, A. Jalan, B. Sarkar, N. Wickremasinghe and J. Hartgerink. Drug-triggered and crosslinked self-assembling nanofibrous hydrogels. Journal of the American Chemical Society, 137, 14, 4823, 2015
  6. V. Kumar, N. Taylor, S. Shi, N. Wickremasinghe, R. D’Souza and J. Hartgerink. Self-assembling multidomain peptides modulate immune responses through biphasic release. Biomaterials, 52, 71, 2015
  7. V. Kumar, N. Taylor, S. Shi, B. Wang, A. Jalan, M. Kang, N. Wickremasinghe and J. Hartgerink. Highly Angiogenic Peptide Nanofibers. ACS Nano, 9, 860, 2015
  8. V. Kumar, R. Vissapragada, L. Hwang, M. Fusco, C. Ogilvy, A. Thomas. Cerebral AVMs and dural AVFs: Pathology and management. Endovascular Today, 14, 2, 2015
  9. N. Wickremasinghe, V. Kumar, Siyu Shi and J. Hartgerink. Tuning in vivo response through temporal controlled release from Multi Domain Peptide composite hydrogels. ACS Biomaterials Science and Engineering, 1, 845, 2015
  10. R. Vissapragada, V. Kumar, O. Merchant, L. Hwang, M. Fusco, C. Ogilvy, A. Thomas. Material Requirements for Therapeutic Embolization of Intracranial Vascular Malformations. Endovascular Today, 14, 4, 2015.
  11. L. Hwang, V. Kumar, R. Vissapragada, K. Lui, M. Fusco, C. Ogilvy, A. Thomas. Treatment Options for Cerebral AVMs and Dural AVFs Endovascular Today, 14, 3, 2015.
  12. V. Kumar, N. Taylor, A. Jalan, L. Hwang, B. Wang and J. Hartgerink. A novel synthetic collagen mimic for hemostasis. Biomacromolecules, 15, 4, 1484, 2014
  13. V. Kumar, A. Martinez, J. Caves, N. Naik, C. Haller and E. Chaikof. Microablation of collagen-based substrates for tissue engineering. Biomedical Materials, 9,1, 1002, 2014
  14. N. Wickremasinghe, V. Kumar, J. Hartgerink. Two step self-assembly of liposome-multidomain peptide nanofiber hydrogel for time-controlled release. Biomacromolecules, 15, 10, 3587, 2014
  15. R. Vissapragada, M. Contreras, C. DaSilva, V. Kumar, A. Ochoa, A. Vasudevan, C. Ferran and A. Thomas. Bidirectional crosstalk between periventricular endothelial cells and neural progenitor cells promotes the formation of a neurovascular unit. Cover art. Brain Research, 1561, 8, 2014
  16. V. Kumar, J. Caves, C. Haller, E. Dai, L. Liu, S. Grainger and E. Chaikof. Mechanically tunable extracellular matrix mimetics for soft tissue engineering. Biomaterials Science, 1, 11, 1193, 2013
  17. V. Kumar, J. Caves, C. Haller, E. Dai, L. Liu, S. Grainger and E. Chaikof. Acellular Vascular Grafts Generated from Collagen and Elastin Analogues. Acta Biomaterialia, 9, 3, 8067, 2013
  18. Z. Qu, S. Muthukrishnan, M. Urlam, C. Haller, S. Jordan, V. Kumar, U. Marzec, Y. Elkasabi, J. Lahann, S. Hanson, E. Chaikof. A biologically active surface enzyme assembly that attenuated thrombus formation. Advanced Functional Materials, 21, 24, 4746, 2011
  19. N. Naik, V. Kumar, E. Chaikof and M. Allen. MEMS-assisted spatially homogeneous endothelialization of a high length-to-depth aspect ratio microvascular network. IEEE Eng Med Bio Soc., 8, 290, 2011
  20. V. Kumar, L. Brewster, J. Caves, E. Chaikof. Tissue Engineering of blood vessels: current status, requirements and future challenges. Cardiovascular Engineering and Technology, 2, 3, 137, 2011
  21. J. Caves, W. Cui, J. Wen, V. Kumar, A. Martinez, E. Chaikof. Elastin-like protein matrix reinforced with collagen microfibers for soft tissue repair. Biomaterials, 32, 23, 5371, 2011
  22. J. Wilson, W. Cui, V. Kozlovskaya, E. Kharlampieva, D. Pan, Z. Qu, V. Krishnamurthy, J. Mets, V. Kumar, J. Wen, Y. Song, V. Tsukruk, and E. Chaikof. Cell Surface Engineering with Polyelectrolyte Multilayer Thin Films. Journal of the American Chemical Society, 133, 18, 7054, 2011
  23. J. Caves%, V. Kumar%, A. Martinez, J. Kim, C. Ripberger, C. Haller, E. Chaikof. The use of microfiber composites of elastin-like protein matrix reinforced with synthetic collagen in the design of vascular grafts. (% co-first authorship) Biomaterials, 31, 7175, 2010.
  24. J. Caves, V. Kumar, W. Xu, N. Naik, M. Allen, E. Chaikof. Microcrimped collagen fiber-elastin composites. Advanced Materials 24, 2041, 2010. Research Highlights, Nature Materials 9, 285, 2010
  25. J. Caves, V. Kumar, J. Wen, W. Cui, A. Martinez, R. Apkarian, J. Coats, K. Berland, E. Chaikof. Fibrillogenesis in continuously spun synthetic collagen fiber. Journal of Biomedical Materials Research Part B. Applied Biomaterials, 93b, 24, 2009
  26. N. Naik, J. Caves, V. Kumar, E. Chaikof, M. Allen. A template-based fabrication technique for spatially-designed polymer micro/nanofiber composites. Transducers, 21, 1869, 2009
  27. A. Webb, V. Kumar and G. Ameer. Biodegradable poly(diol citrate) nanocomposite elastomers for soft tissue engineering. Journal of Materials Chemistry, 17, 900, 2007