2017

  1. Zarifpour, M, Andersson, KE, Kelkar, SS, Mohs, A, Mendelsohn, C, Schneider, K, Marini, F, Christ, GJ. 2017. Characterization of a Murine Model of Bioequivalent Bladder Wound Healing and Repair Following Subtotal Cystectomy. Biores Open Access 6:35-45.
  2. Passipieri, JA, Baker, HB, Siriwardane, M, Ellenburg, MD, Vadhavkar, M, Saul, JM, Tomblyn, S, Burnett, L, Christ, GJ. 2017. Keratin Hydrogel Enhances In Vivo Skeletal Muscle Function in a Rat Model of Volumetric Muscle Loss. Tissue Eng Part A 23:556-571.
  3. Baker, HB, Passipieri, JA, Siriwardane, M, Ellenburg, MD, Vadhavkar, M, Bergman, CR, Saul, JM, Tomblyn, S, Burnett, L, Christ, GJ. 2017. Cell and Growth Factor-Loaded Keratin Hydrogels for Treatment of Volumetric Muscle Loss in a Mouse Model. Tissue Eng Part A 23:572-584.
  4. Scott, JB, Ward, CL, Corona, BT, Deschenes, MR, Harrison, BS, Saul, JM, Christ, GJ. 2016. Achieving Acetylcholine Receptor Clustering in Tissue-Engineered Skeletal Muscle Constructs In vitro through a Materials-Directed Agrin Delivery Approach. Front Pharmacol 7:508.
  5. Martin, KS, Kegelman, CD, Virgilio, KM, Passipieri, JA, Christ, GJ, Blemker, SS, Peirce, SM. 2017. In Silico and In Vivo Experiments Reveal M-CSF Injections Accelerate Regeneration Following Muscle Laceration. Ann Biomed Eng 45:747-760.
  6. Scott, JB, Ward, CL, Corona, BT, Deschenes, MR, Harrison, BS, Saul, JM, Christ GJ. Achieving Acetylcholine Receptor Clustering in Tissue-Engineered Skeletal Muscle Constructs In Vitro through a Materials-Directed Agrin Delivery Approach. Front. Pharmacol., 11 January 2017. doi: 10.3389/fphar.2016.00508.

2016

  1. Scott, JB, Ward, CL, Corona, BT, Deschenes, MR, Harrison, BS, Saul, JM, Christ, GJ. 2016. Achieving Acetylcholine Receptor Clustering in Tissue-Engineered Skeletal Muscle Constructs In vitro through a Materials-Directed Agrin Delivery Approach. Front Pharmacol 7:508.
  2. Christ, GJ. 2016. Introduction. Cells Tissues Organs (Print) 202:141-142.
  3. Passipieri, JA, Christ, GJ. 2016. The Potential of Combination Therapeutics for More Complete Repair of Volumetric Muscle Loss Injuries: The Role of Exogenous Growth Factors and/or Progenitor Cells in Implantable Skeletal Muscle Tissue Engineering Technologies. Cells Tissues Organs (Print) 202:202-213.
  4. Mintz, EL, Passipieri, JA, Lovell, DY, Christ, GJ. 2016. Applications of In Vivo Functional Testing of the Rat Tibialis Anterior for Evaluating Tissue Engineered Skeletal Muscle Repair. J Vis Exp :.
  5. Martin, KS, Kegelman, CD, Virgilio, KM, Passipieri, JA, Christ, GJ, Blemker, SS, Peirce, SM. 2017. In Silico and In Vivo Experiments Reveal M-CSF Injections Accelerate Regeneration Following Muscle Laceration. Ann Biomed Eng 45:747-760.

2015

  1. Ross, CL, Siriwardane, M, Almeida-Porada, G, Porada, CD, Brink, P, Christ, GJ, Harrison, BS. 2015. The effect of low-frequency electromagnetic field on human bone marrow stem/progenitor cell differentiation. Stem Cell Res 15:96-108.
  2. Christ, GJ, Siriwardane, ML, de Coppi, P. 2015. Engineering muscle tissue for the fetus: getting ready for a strong life. Front Pharmacol 6:53.
  3. Burmeister, D, et al, Christ, GJ. The potential utility of non-invasive imaging to monitor restoration of bladder structure and function following subtotal cystectomy (STC). BMC Urol. 2015 Oct 14;15:103. doi: 10.1186/s12894-015-0094-6. PMID:26463481.

2014

  1. Zhou, Y, Lovell, D, Bethea, M, Wang, Z, Christ, GJ, Soker, S, Criswell, T. 2014. Age-dependent changes cooperatively impact skeletal muscle regeneration after compartment syndrome injury. Am. J. Pathol. 184:2225-36.
  2. Corona, BT, Ward, CL, Baker, HB, Walters, TJ, Christ, GJ. 2014. Implantation of in vitro tissue engineered muscle repair constructs and bladder acellular matrices partially restore in vivo skeletal muscle function in a rat model of volumetric muscle loss injury. Tissue Eng Part A 20:705-15.
  3. Christ, GJ, Passipieri, J, Treasure, T, Freeman, P, Wong, M, Martin, NRW, Player, D, Lewis, MP. Chapter 43: Skeletal Muscle Tissue Engineering, p. 567-592, In: Stem Cell Biology and Tissue Engineering in Dental Science, Vishwakarma & Sharp, Eds. Elsevier, 2014.

2013

  1. Corona, BT, Ward, CL, Baker, HB, Walters, TJ, Christ, GJ. 2014. Implantation of in vitro tissue engineered muscle repair constructs and bladder acellular matrices partially restore in vivo skeletal muscle function in a rat model of volumetric muscle loss injury. Tissue Eng Part A 20:705-15.
  2. Liu, C, Zhao, W, Christ, GJ, Gladwin, MT, Kim-Shapiro, DB. 2013. Nitric oxide scavenging by red cell microparticles. Free Radic. Biol. Med. 65:1164-73.
  3. Burmeister, DM, AbouShwareb, T, Bergman, CR, Andersson, KE, Christ, GJ. 2013. Age-related alterations in regeneration of the urinary bladder after subtotal cystectomy. Am. J. Pathol. 183:1585-95.
  4. Ward, CL, Corona, BT, Yoo, JJ, Harrison, BS, Christ, GJ. 2013. Oxygen generating biomaterials preserve skeletal muscle homeostasis under hypoxic and ischemic conditions. PLoS ONE 8:e72485.
  5. Christ, GJ, Saul, JM, Furth, ME, Andersson, KE. 2013. The pharmacology of regenerative medicine. Pharmacol. Rev. 65:1091-133.
  6. Criswell, TL, Corona, BT, Wang, Z, Zhou, Y, Niu, G, Xu, Y, Christ, GJ, Soker, S. 2013. The role of endothelial cells in myofiber differentiation and the vascularization and innervation of bioengineered muscle tissue in vivo. Biomaterials 34:140-9.
  7. Zhao, W, Ju, YM, Christ, G, Atala, A, Yoo, JJ, Lee, SJ. Diaphragmatic muscle reconstruction with an aligned electrospun poly(ε-caprolactone)/collagen hybrid scaffold. Biomaterials. 2013 Nov;34(33):8235-40. doi: 10.1016/j.biomaterials.2013.07.057. PubMed PMID: 23932497.