■Qayoom, I., Raina, D. B., Širka, A.,Tarasevičius, S.,Tägil, M., Kumar, A. and Lidgren, L.,(2018). Bone Repair Using Carriers for Local Delivery of Bisphosphonates: A Review. Bone & Joint Research 7:548–560.
■Tyeb, S., Kumar, N., Kumar, A. and Verma, V., (2018). Flexible Agar-Sericin Hydrogel Film Dressing for Chronic Wounds. Carbohydrate Polymers Nov 15;200:572-582. doi: 10.1016/j.carbpol. 2018.08.030
■Raina, D. B., Qayoom, I., Larsson, D., Zheng, M. H., Kumar, A., Isaksson, H., Lidgren, L., Tägil, M., (2018). Differences in metaphyseal and cortical bone regeneration using local delivery of bone morphogenic protein-2 and zoledronic acid: A step towards guided tissue engineering.Orthopaedic Proceeding 100, SUPP_15, 33-33.
■Singh, A., Asikainen, S., Teotia, A.K., Shiekh, P.A., Huotilainen, E., Qayoom, I., Partanen, J., Seppälä, J.V. and Kumar, A. (2018). Biomimetic Photocurable 3D Printed Nerve Guidance Channels with Aligned Cryomatrix Lumen for Peripheral Nerve Regeneration. ACS applied materials & interfaces. 10 (50), pp 43327–43342.
■Shiekh, P.A., Singh, A. and Kumar, A., (2018). Engineering bioinspired antioxidant materials promoting cardiomyocyte functionality and maturation for tissue engineering application. ACS applied materials & interfaces, 10(4), pp.3260-3273.
■ Raina, D.B., Larsson, D., Mrkonjic, F., Isaksson, H., Kumar, A., Lidgren, L. and Tägil, M., (2018). Gelatin-hydroxyapatite-calcium sulphate based biomaterial for long term sustained delivery of bone morphogenic protein-2 and zoledronic acid for increased bone formation: In-vitro and in-vivo carrier properties. Journal of Controlled Release, 272, pp.83-96..
■Pal, H.A., Singh, A., Sheikh, P.A., Panjla, A., Kumar, A. and Verma, S., (2018). Peptide‐based scaffold for nitric oxide induced differentiation of neuroblastoma cells. ChemBioChem.19(11): (2018) 1127-1131.
■Bhadauriya, P., Mamtani, H., Ashfaq, M., Raghav, A., Teotia, A. K., Kumar, A., Verma, N. (2018). Synthesis of yeast-immobilized and copper nanoparticle-dispersed carbon nanofiber-based diabetic wound dressing material: Simultaneous control of glucose and bacterial infections. ACS Applied Biomaterials 1(2), pp246-258.
■Shiekh, P.A., Singh, A. and Kumar, A., (2018). Oxygen-Releasing Antioxidant Cryogel Scaffolds with Sustained Oxygen Delivery for Tissue Engineering Applications. ACS applied materials & interfaces, 10(22), pp.18458-18469.
■ Širka , Raina DB, Isaksson H, Tanner KE, Smailys , Kumar A, Tarasevičius Š, Tägil M, Lidgren L., (2018) Calcium Sulphate/Hydroxyapatite Carrier for Bone Formation in the Femoral Neck of Osteoporotic Rats. Tissue Engineering Part A 24: 1753-1764 .
■ Damania, A., Jaiman, D., Teotia, A.K. and Kumar, A., (2018). Mesenchymal stromal cell-derived exosome-rich fractionated secretome confers a hepatoprotective effect in liver injury. Stem cell research & therapy, 9(1), p.31.
■ Damania, A., Kumar, A., Sarin, S.K. and Kumar, A., (2018). Optimized performance of the integrated hepatic cell‐loaded cryogel‐based bioreactor with intermittent perfusion of acute liver failure plasma. Journal of Biomedical Materials Research Part B: Applied Biomaterials, 106(1), pp.259-269.
■ Damania, A., Hassan, M., Shirakigawa, N., Mizumoto, H., Kumar, A., Sarin, S.K., Ijima, H., Kamihira, M. and Kumar, A., (2017). Alleviating liver failure conditions using an integrated hybrid cryogel based cellular bioreactor as a bioartificial liver support. Scientific Reports, 7, p.40323.
■Sonker, A.K., Teotia, A.K., Kumar, A., Nagarale, R.K. and Verma, V., (2017). Development of Polyvinyl Alcohol Based High Strength Biocompatible Composite Films. Macromolecular Chemistry and Physics, 218(15), p.1700130..
■Mishra, S.K., Teotia, A.K., Kumar, A. and Kannan, S., (2017). Mechanically tuned nanocomposite coating on titanium metal with integrated properties of biofilm inhibition, cell proliferation, and sustained drug delivery. Nanomedicine: Nanotechnology, Biology and Medicine, 13(1), pp.23-35.
■Kumari, J. and Kumar, A., (2017). Development of polymer based cryogel matrix for transportation and storage of mammalian cells. Scientific Reports, 7, p.41551.
■Teotia, A.K., Raina, D.B., Singh, C., Sinha, N., Isaksson, H., Tägil, M., Lidgren, L. and Kumar, A., (2017). Nano-hydroxyapatite bone substitute functionalized with bone active molecules for enhanced cranial bone regeneration. ACS applied materials & interfaces, 9(8), pp.6816-6828.
■Sarkar, J. and Kumar, A., (2017). Immobilized metal affinity cryogel-based high-throughput platform for screening bioprocess and chromatographic parameters of His 6-GTPase. Analytical and bioanalytical chemistry, 409(11), pp.2951-2965.
■Sarkar, J., Kumari, J., Tonello, J.M., Kamihira, M. and Kumar, A., (2017). Enhanced hepatic functions of genetically modified mouse hepatoma cells by spheroid culture for drug toxicity screening. Biotechnology journal, 12(10), p.1700274.
■Tendulkar, G., Sreekumar, V., Rupp, F., Teotia, A.K., Athanasopulu, K., Kemkemer, R., Buck, A., Kaps, H.P., Geis-Gerstorfer, J., Kumar, A. and Nussler, A.K., (2017). Characterisation of porous knitted titanium for replacement of intervertebral disc nucleus pulposus. Scientific reports, 7(1), p.16611.
■Damania, A., Kumar, A., Teotia, A.K., Kimura, H., Kamihira, M., Ijima, H., Sarin, S.K. and Kumar, A., (2017). Decellularized Liver Matrix-Modified Cryogel Scaffolds as Potential Hepatocyte Carriers in Bioartificial Liver Support Systems and Implantable Liver Constructs. ACS applied materials & interfaces, 10(1), pp.114-126.
■Gupta, A., Bhat, S., Chaudhari, B.P., Gupta, K.C., Tägil, M., Zheng, M.H., Kumar, A. and Lidgren, L., (2017). Cell factory‐derived bioactive molecules with polymeric cryogel scaffold enhance the repair of subchondral cartilage defect in rabbits. Journal of tissue engineering and regenerative medicine, 11(6), pp.1689-1700.