Varadraj N Vernekar
Overview
Explore the profile of Varadraj N Vernekar including associated specialties, affiliations and a list of published articles.
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Articles
12
Citations
315
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Recent Articles
1.
Prabhath A, Vernekar V, Esdaille C, Eisenberg E, Lebaschi A, Badon M, et al.
J Biomed Mater Res A
. 2022 Mar;
110(7):1356-1371.
PMID: 35253991
Tears in the rotator cuff are challenging to repair because of the complex, hypocellular, hypovascular, and movement-active nature of the tendon and its enthesis. Insulin-like Growth Factor-1 (IGF-1) is a...
2.
Prabhath A, Vernekar V, Vasu V, Badon M, Avochinou J, Asandei A, et al.
J Biomed Mater Res A
. 2021 May;
109(11):2137-2153.
PMID: 33974735
Whereas synthetic biodegradable polymers have been successfully applied for the delivery of biologics in other tissues, the anatomical complexity, poor blood supply, and reduced clearance of degradation byproducts in the...
3.
Tang X, Shemshaki N, Vernekar V, Prabhath A, Kuyinu E, Kan H, et al.
Regen Eng Transl Med
. 2021 Apr;
7(1):1-9.
PMID: 33816776
Rotator cuff tears (RCTs) are a common cause of disability and pain in the adult population. Despite the successful repair of the torn tendon, the delay between the time of...
4.
Vernekar V, LaPlaca M
Biomed Eng Lett
. 2020 Nov;
10(4):579-591.
PMID: 33194249
Three-dimensional (3-D) neural cultures represent a promising platform for studying disease and drug screening. Tools and methodologies for measuring the electrophysiological function in these cultures are needed. Therefore, the purpose...
5.
Prabhath A, Vernekar V, Sanchez E, Laurencin C
Int J Pharm
. 2018 Jan;
544(2):358-371.
PMID: 29317260
The high incidence of degenerative tears and prevalence of retears (20-95%) after surgical repair makes rotator cuff injuries a significant health problem. This high retear rate is attributed to the...
6.
Narayanan G, Vernekar V, Kuyinu E, Laurencin C
Adv Drug Deliv Rev
. 2016 Apr;
107:247-276.
PMID: 27125191
Regenerative engineering converges tissue engineering, advanced materials science, stem cell science, and developmental biology to regenerate complex tissues such as whole limbs. Regenerative engineering scaffolds provide mechanical support and nanoscale...
7.
Killian N, Vernekar V, Potter S, Vukasinovic J
Front Neurosci
. 2016 Apr;
10:135.
PMID: 27065793
Distributed microelectrode array (MEA) recordings from consistent, viable, ≥500 μm thick tissue preparations over time periods from days to weeks may aid in studying a wide range of problems in...
8.
Kasir R, Vernekar V, Laurencin C
Regen Eng Transl Med
. 2016 Mar;
1(1):42-49.
PMID: 26998511
Injury to the articular cartilage occurs commonly in the general population and undergoes minimal spontaneous healing. Traditional methods of cartilage repair provide no long-term cure and are significant causes of...
9.
Vernekar V, Wallace C, Wu M, Chao J, OConnor S, Raleigh A, et al.
Colloids Surf B Biointerfaces
. 2014 Sep;
123:225-35.
PMID: 25262410
A bioactive platform for the quantitative observation of cell migration is presented by (1) presenting migration factors in a well-defined manner on 2-D substrates, and (2) enabling continuous cell tracking....
10.
Cullen D, Vernekar V, LaPlaca M
J Neurotrauma
. 2011 Oct;
28(11):2219-33.
PMID: 22023556
Traumatic brain injury (TBI) results from cell dysfunction or death following supra-threshold physical loading. Neural plasmalemma compromise has been observed following traumatic neural insults; however, the biomechanical thresholds and time-course...