Analyzing bone, blood vessels, and biomaterials with microcomputed tomography. Guldberg RE, Ballock RT, Boyan BD, Duvall CL, Lin AS, Nagaraja S, Oest M, Phillips J, Porter BD, Robertson G, Taylor WR (2003) IEEE Eng Med Biol Mag 22: 77-83 MiRNA inhibition in tissue engineering and regenerative medicine. Beavers KR, Nelson CE, Duvall CL (2015) Adv Drug Deliv Rev 88: 123-37 A novel model of urinary tract differentiation, tissue regeneration, and disease: reprogramming human prostate and bladder cells into induced pluripotent stem cells. Moad M, Pal D, Hepburn AC, Williamson SC, Wilson L, Lako M, Armstrong L, Hayward SW, Franco OE, Cates JM, Fordham SE, Przyborski S, Carr-Wilkinson J, Robson CN, Heer R (2013) Eur Urol 64: 753-61 Scaffold-mediated lentiviral transduction for functional tissue engineering of cartilage. Brunger JM, Huynh NP, Guenther CM, Perez-Pinera P, Moutos FT, Sanchez-Adams J, Gersbach CA, Guilak F (2014) Proc Natl Acad Sci U S A 111: E798-806 The effect of scaffold degradation rate on three-dimensional cell growth and angiogenesis. Sung HJ, Meredith C, Johnson C, Galis ZS (2004) Biomaterials 25: 5735-42 Tissue-engineered cartilage with inducible and tunable immunomodulatory properties. Glass KA, Link JM, Brunger JM, Moutos FT, Gersbach CA, Guilak F (2014) Biomaterials 35: 5921-31 3D imaging of tissue integration with porous biomaterials. Guldberg RE, Duvall CL, Peister A, Oest ME, Lin AS, Palmer AW, Levenston ME (2008) Biomaterials 29: 3757-61 Substrate modulus of 3D-printed scaffolds regulates the regenerative response in subcutaneous implants through the macrophage phenotype and Wnt signaling. Guo R, Merkel AR, Sterling JA, Davidson JM, Guelcher SA (2015) Biomaterials 73: 85-95 Characterization of the degradation mechanisms of lysine-derived aliphatic poly(ester urethane) scaffolds. Hafeman AE, Zienkiewicz KJ, Zachman AL, Sung HJ, Nanney LB, Davidson JM, Guelcher SA (2011) Biomaterials 32: 419-29 Response of bone marrow stromal cells to graded co-electrospun scaffolds and its implications for engineering the ligament-bone interface. Samavedi S, Guelcher SA, Goldstein AS, Whittington AR (2012) Biomaterials 33: 7727-35 Tissue-to-cellular level deformation coupling in cell micro-integrated elastomeric scaffolds. Stella JA, Liao J, Hong Y, David Merryman W, Wagner WR, Sacks MS (2008) Biomaterials 29: 3228-36 A porous tissue engineering scaffold selectively degraded by cell-generated reactive oxygen species. Martin JR, Gupta MK, Page JM, Yu F, Davidson JM, Guelcher SA, Duvall CL (2014) Biomaterials 35: 3766-76 Cell therapy with a tissue-engineered kidney reduces the multiple-organ consequences of septic shock. Humes HD, Buffington DA, Lou L, Abrishami S, Wang M, Xia J, Fissell WH (2003) Crit Care Med 31: 2421-8 Stromal reengineering to treat pancreas cancer. Stromnes IM, DelGiorno KE, Greenberg PD, Hingorani SR (2014) Carcinogenesis 35: 1451-60 Cellularized cylindrical fiber/hydrogel composites for ligament tissue engineering. Thayer PS, Dimling AF, Plessl DS, Hahn MR, Guelcher SA, Dahlgren LA, Goldstein AS (2014) Biomacromolecules 15: 75-83 Poly(ε-caprolactone)-carbon nanotube composite scaffolds for enhanced cardiac differentiation of human mesenchymal stem cells. Crowder SW, Liang Y, Rath R, Park AM, Maltais S, Pintauro PN, Hofmeister W, Lim CC, Wang X, Sung HJ (2013) Nanomedicine (Lond) 8: 1763-76 Synthesis and characterization of segmented poly(esterurethane urea) elastomers for bone tissue engineering. Kavlock KD, Pechar TW, Hollinger JO, Guelcher SA, Goldstein AS (2007) Acta Biomater 3: 475-84 Gel microstructure regulates proliferation and differentiation of MC3T3-E1 cells encapsulated in alginate beads. Lee BH, Li B, Guelcher SA (2012) Acta Biomater 8: 1693-702 Synthesis of biocompatible segmented polyurethanes from aliphatic diisocyanates and diurea diol chain extenders. Guelcher SA, Gallagher KM, Didier JE, Klinedinst DB, Doctor JS, Goldstein AS, Wilkes GL, Beckman EJ, Hollinger JO (2005) Acta Biomater 1: 471-84 T17b murine embryonal endothelial progenitor cells can be induced towards both proliferation and differentiation in a fibrin matrix. Bleiziffer O, Horch RE, Hammon M, Arkudas A, Naschberger E, Rath S, Pryymachuk G, Beier JP, Hatzopoulos AK, Stürzl M, Kneser U (2009) J Cell Mol Med 13: 926-35 Injectable biodegradable polyurethane scaffolds with release of platelet-derived growth factor for tissue repair and regeneration. Hafeman AE, Li B, Yoshii T, Zienkiewicz K, Davidson JM, Guelcher SA (2008) Pharm Res 25: 2387-99 Engineering artificial signaling centers to polarize embryoid body differentiation. Petersen DR, Gustavsen C, Lindskog SR, Magnuson MA, Zaret KS, Serup P (2012) Stem Cells Dev 21: 647-53 Light-guided surface engineering for biomedical applications. Jayagopal A, Stone GP, Haselton FR (2008) Bioconjug Chem 19: 792-6 Differences in tissue-remodeling potential of aortic and pulmonary heart valve interstitial cells. Merryman WD, Liao J, Parekh A, Candiello JE, Lin H, Sacks MS (2007) Tissue Eng 13: 2281-9 Matrix metalloproteinase 9 facilitates collagen remodeling and angiogenesis for vascular constructs. Sung HJ, Johnson CE, Lessner SM, Magid R, Drury DN, Galis ZS (2005) Tissue Eng 11: 267-76 Biologic properties of endothelial progenitor cells and their potential for cell therapy. Young PP, Vaughan DE, Hatzopoulos AK (2007) Prog Cardiovasc Dis 49: 421-9 Temporal-spatial protein expression in bladder tissue derived from embryonic stem cells. Thomas JC, Oottamasathien S, Makari JH, Honea L, Sharif-Afshar AR, Wang Y, Adams C, Wills ML, Bhowmick NA, Adams MC, Brock JW, Hayward SW, Matusik RJ, Pope JC (2008) J Urol 180: 1784-9 Composite thin film and electrospun biomaterials for urologic tissue reconstruction. Kundu AK, Gelman J, Tyson DR (2011) Biotechnol Bioeng 108: 207-15 The application of a murine bone bioreactor as a model of tumor: bone interaction. Halpern J, Lynch CC, Fleming J, Hamming D, Martin MD, Schwartz HS, Matrisian LM, Holt GE (2006) Clin Exp Metastasis 23: 345-56 3D bone models to study the complex physical and cellular interactions between tumor and the bone microenvironment. Vanderburgh JP, Guelcher SA, Sterling JA (2018) J Cell Biochem 119: 5053-5059 EMT-inducing biomaterials for heart valve engineering: taking cues from developmental biology. Sewell-Loftin MK, Chun YW, Khademhosseini A, Merryman WD (2011) J Cardiovasc Transl Res 4: 658-71 The bioartificial kidney: current status and future promise. Humes HD, Buffington D, Westover AJ, Roy S, Fissell WH (2014) Pediatr Nephrol 29: 343-51 Evolution of an in vivo bioreactor. Holt GE, Halpern JL, Dovan TT, Hamming D, Schwartz HS (2005) J Orthop Res 23: 916-23 Molecular, cellular and developmental biology of urothelium as a basis of bladder regeneration. Staack A, Hayward SW, Baskin LS, Cunha GR (2005) Differentiation 73: 121-33 Fiber/collagen composites for ligament tissue engineering: influence of elastic moduli of sparse aligned fibers on mesenchymal stem cells. Thayer PS, Verbridge SS, Dahlgren LA, Kakar S, Guelcher SA, Goldstein AS (2016) J Biomed Mater Res A 104: 1894-901 Imaging analysis of the in vivo bioreactor: a preliminary study. Holt GE, Halpern JL, Lynch CC, Devin CJ, Schwartz HS (2008) Clin Orthop Relat Res 466: 1890-6 Bladder tissue formation from cultured bladder urothelium. Oottamasathien S, Williams K, Franco OE, Thomas JC, Saba K, Bhowmick NA, Staack A, Demarco RT, Brock JW, Hayward SW, Pope JC (2006) Dev Dyn 235: 2795-801 3D Printing of Tissue Engineered Constructs for In Vitro Modeling of Disease Progression and Drug Screening. Vanderburgh J, Sterling JA, Guelcher SA (2017) Ann Biomed Eng 45: 164-179 Developments towards an artificial kidney. Fissell WH (2006) Expert Rev Med Devices 3: 155-65 Physiologic properties of small intestine submucosa. Poulose BK, Scholz S, Moore DE, Schmidt CR, Grogan EL, Lao OB, Nanney L, Davidson J, Holzman MD (2005) J Surg Res 123: 262-7
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