Biblio

2019
Bauer, A.-T., Lukowicz, D.V., Lossagk, K., Hopfner, U., Kirsch, M., Moog, P., Bauer, H., Machens, H.-G., and Schmauss, D. (2019). Adipose stem cells from lipedema and control adipose tissue respond differently to adipogenic stimulation in vitro.Plast Reconstr Surg.
Bauer, A.-T., von Lukowicz, D., Lossagk, K., Hopfner, U., Kirsch, M., Moog, P., Bauer, H., Machens, H.-G., and Schmauss, D. (2019). Adipose Stem Cells from Lipedema and Control Adipose Tissue Respond Differently to Adipogenic Stimulation In Vitro.Plast Reconstr Surg144, 623-632.
van Dongen, J.A., Getova, V., Brouwer, L.A., Liguori, G.R., Sharma, P., Stevens, H.P., van der Lei, B., and Harmsen, M.C. (2019). Adipose tissue-derived extracellular matrix hydrogels as a release platform for secreted paracrine factors.J Tissue Eng Regen Med.
Ebrahim, N., Mandour, Y.Mohammad H., Farid, A.Samir, Nafie, E., Mohamed, A.Zaky, Safwat, M., Taha, R., Sabry, D., Sorour, S.M., and Refae, A. (2019). Adipose Tissue-Derived Mesenchymal Stem Cell Modulates the Immune Response of Allergic Rhinitis in a Rat Model.Int J Mol Sci20.
Nishi, Y., Murakami, A., Murayama, Y., Tsukahara, N., Okamoto, S., Nakachi, S., Morichika, K., Tamaki, K., Noguchi, H., Matsushita, M., et al. (2019). Adipose tissue-derived mesenchymal stem cells ameliorate bone marrow aplasia related with graft-versus-host disease in experimental murine models.Transpl Immunol.
Villanueva, S., González, F., Lorca, E., Tapia, A., López, V.G., Strodthoff, R., Fajre, F., Carreño, J.E., Valjalo, R., Vergara, C., et al. (2019). Adipose tissue-derived mesenchymal stromal cells for treating chronic kidney disease: A pilot study assessing safety and clinical feasibility.Kidney Res Clin Pract38, 176-185.
Villanueva, S., González, F., Lorca, E., Tapia, A., G, V.López, Strodthoff, R., Fajre, F., Carreño, J.E., Valjalo, R., Vergara, C., et al. (2019). Adipose tissue-derived mesenchymal stromal cells in patients with chronic kidney disease: A pilot study assessing safety and clinical feasibility.Kidney Res Clin Pract.
Suh, A., Pham, A., Cress, M.Jean, Pincelli, T., TerKonda, S.P., Bruce, A.J., Zubair, A.C., Wolfram, J., and Shapiro, S.A. (2019). Adipose-derived cellular and cell-derived regenerative therapies in dermatology and aesthetic rejuvenation.Ageing Res Rev100933.
Fang, Y., Zhang, Y., Zhou, J., and Cao, K. (2019). Adipose-derived mesenchymal stem cell exosomes: a novel pathway for tissues repair.Cell Tissue Bank.
Liang, H., Ding, X., Yu, Y., Zhang, H., Wang, L., Kan, Q., Ma, S., Guan, F., and Sun, T. (2019). Adipose-derived mesenchymal stem cells ameliorate acute liver injury in rat model of CLP induced-septic via sTNFR1.Exp Cell Res.
Yoshida, Y., Matsubara, H., Fang, X., Hayashi, K., Nomura, I., Ugaji, S., Hamada, T., and Tsuchiya, H. (2019). Adipose-derived stem cell sheets accelerate bone healing in rat femoral defects.Plos One14, e0214488.
Ejaz, A., Epperly, M.W., Hou, W., Greenberger, J.S., and Rubin, P.J. (2019). Adipose-derived stem cell therapy ameliorates ionizing irradiation fibrosis (RIF) via hepatocyte growth factor mediated TGF-β down regulation and recruitment of bone marrow cells.Stem Cells.
Tatebayashi, K., Takagi, T., Fujita, M., Doe, N., Nakagomi, T., Matsuyama, T., and Yoshimura, S. (2019). Adipose-derived stem cell therapy inhibits the deterioration of cerebral infarction by altering macrophage kinetics.Brain Res.
Sasahara, Y., Kubota, Y., Kosaka, K., Adachi, N., Yamaji, Y., Nagano, H., Akita, S., Kuroda, M., Tanaka, T., Bujo, H., et al. (2019). Adipose-Derived Stem Cells and Ceiling Culture-Derived Preadipocytes Cultured from Subcutaneous Fat Tissue Differ in Their Epigenetic Characteristics and Osteogenic Potential.Plast Reconstr Surg144, 644-655.
Sasahara, Y., Kubota, Y., Kosaka, K., Adachi, N., Yamaji, Y., Nagano, H., Akita, S., Kuroda, M., Tanaka, T., Bujo, H., et al. (2019). Adipose-Derived Stem Cells (ASCs) and Ceiling Culture-Derived Preadipocytes (ccdPAs) Cultured from Subcutaneous Fat Tissue Differ in their Epigenetic Characteristics and Osteogenic Potential.Plast Reconstr Surg.
Si, Z., Wang, X., Sun, C., Kang, Y., Xu, J., Wang, X., and Hui, Y. (2019). Adipose-derived stem cells: Sources, potency, and implications for regenerative therapies.Biomed Pharmacother114, 108765.
Niada, S., Giannasi, C., Gomarasca, M., Stanco, D., Casati, S., and Brini, A.Teresa (2019). Adipose-derived stromal cell secretome reduces TNFα-induced hypertrophy and catabolic markers in primary human articular chondrocytes.Stem Cell Res38, 101463.
Polly, S.S., Nichols, A.Ec, Donnini, E., Inman, D.J., Scott, T.J., Apple, S.M., Werre, S.R., and Dahlgren, L.A. (2019). Adipose-derived stromal vascular fraction and cultured stromal cells as trophic mediators for tendon healing.J Orthop Res.
Coscia, M., Vitale, C., Cerrano, M., Maffini, E., Giaccone, L., Boccadoro, M., and Bruno, B. (2019). Adoptive immunotherapy with CAR modified T cells in cancer: current landscape and future perspectives.Front Biosci (Landmark Ed)24, 1284-1315.
Tal, R., Shaikh, S., Pallavi, P., Tal, A., López-Giráldez, F., Lyu, F., Fang, Y.-Y., Chinchanikar, S., Liu, Y., Kliman, H.J., et al. (2019). Adult bone marrow progenitors become decidual cells and contribute to embryo implantation and pregnancy.Plos Biol17, e3000421.
Prentice, D.A. (2019). Adult Stem Cells.Circ Res124, 837-839.
Chen, Y.-C., Aui, S.-P., Lai, Y.-S., and Chang, K.-T. (2019). Adult Stem Cells in Hibernation: Future Perspectives of Space Travel.Int J Stem Cells.
Midha, S., Dalela, M., Sybil, D., Patra, P., and Mohanty, S. (2019). Advances in 3D Bioprinting of Bone: Progress and Challenges.J Tissue Eng Regen Med.
Oliveira, E.P., Malysz-Cymborska, I., Golubczyk, D., Kalkowski, L., Kwiatkowska, J., Reis, R.L., J Oliveira, M., and Walczak, P. (2019). Advances in bioinks and in vivo imaging of biomaterials for CNS applications.Acta Biomater.
Arai, A. (2019). Advances in the Study of Chronic Active Epstein-Barr Virus Infection: Clinical Features Under the 2016 WHO Classification and Mechanisms of Development.Front Pediatr7, 14.

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