Invited Presentations

137. JP Fisher*. 3D Printing of Complex Engineered Tissues. Advances in Tissue Engineering, 28th Annual Short Course at Rice University. Virtual Presentation. (2022).

136. JP Fisher*. 3D Printing for Engineering Complex Tissues. Regenerative Medicine Essentials Course. Wake Forest School of Medicine. Virtual Presentation. (2022).

135. JP Fisher*. 3D Printing Strategies for Stem Cells in Complex Engineered Tissues. International Society for Stem Cell Research Annual Meeting. San Francisco, CA (2022).

134. JP Fisher*. Regeneration: 3D Printing for Human Tissues. Healthquake. Detroit International Research and Education Foundation. Detroit, MI (2022).

133. JP Fisher*. 3D Printing for Engineering Complex Tissues. Department of Bioengineering. Rice University. Virtual Presentation. (2022).

132. JP Fisher*. 3D Printing for Engineering Complex Tissues. Department of Biomedical Engineering. Washington University. Virtual Presentation. (2022).

131. JP Fisher*. 3D Printing for Engineering Complex Tissues. Tissue Engineering and Regenerative Medicine International Society – World Congress (TERMIS-WC). Virtual Presentation. (2021).

130. JP Fisher*. 3D Printing Human Tissues. Distinguished Scholar-Teacher Lecture Series. University of Maryland. College Park, MD. (2021).

129. JP Fisher*. Commercialization Workshop. Next Generation Tissue Engineering Workshop at Columbia University. Virtual Presentation. (2021).

128. JP Fisher*. 3D Printing for Engineering Complex Tissues. 3D Bioprinting Technical Conference. American Institute of Chemical Engineers. Virtual Presentation. (2021).

127. JP Fisher*. 3D Printed Bioreactors for Cell Culture. Advances in Tissue Engineering, 28th Annual Short Course at Rice University. Virtual Presentation. (2021).

126. JP Fisher*. Clinical Applications of 3D Printed Biomaterials. Regenerative Medicine Essentials Course. Wake Forest School of Medicine. Virtual Presentation. (2021).

125. JP Fisher*. 3D Printing for Engineering Complex Tissues. Division of Nephrology. Vanderbilt University. Virtual Presentation. (2021).

124. JP Fisher*. Tissue Engineering and 3D Bioprinting for Female Reproductive Organs: Building a 3D Placenta Model. 15th Annual Conference of the Korean Society for Fertility Preservation. Virtual Presentation. (2021).

123. JP Fisher*. Applied Biomaterials & Tissue Engineering: Clemson Award for Contributions to the Literature. World Biomaterials Congress. Virtual Presentation. (2020).

122. JP Fisher*. 3D Printing for Engineering Complex Tissues. Biomanufacturing Workshop. World Biomaterials Congress. Virtual Presentation. (2020).

121. JP Fisher*. 3D Printing for Engineering Complex Tissues. Department of Biomedical Engineering. Virginia Commonwealth University. Virtual Presentation. (2020).

120. JP Fisher*. 3D Printing for Engineering Complex Tissues. Cell Therapy Working Group, Center for Biologics Evaluation and Research. US Food and Drug Administration. White Oak, MD (2020).

119. JP Fisher*. 3D Printing for Engineering Complex Tissues. Department of Biomedical Engineering. Columbia University. New York, NY (2020).

118. JP Fisher*. 3D Printing for Engineering Complex Tissues. Department of Biomedical Engineering. SUNY, Stony Brook University. Stony Brook, NY (2020).

117. JP Fisher*. 3D Printing for Engineering Complex Tissues. Department of Polymer Science. University of Akron. Akron, OH (2020).

116. JP Fisher*. 3D Printing for Engineering Complex Tissues. Department of Biomedical Engineering. University of North Carolina / North Carolina State University. Raleigh, NC (2020).

115. A Jones, J Katsnelson, B Mahadik, T Mollot, D Najafali, D Rivkin, C Piard, J Pinsky, A Robinson, G Yang, and JP Fisher*. Perfusion Based Liver Engineering: University of Maryland’s Fearless Mpact. Vascular Tissue Challenge Meeting. NASA Ames Research Center, Mountain View, CA (2019).

114. JP Fisher*. 3D Printing for Engineering Complex Tissues. Department of Bioengineering Distinguished Seminar Series. University of Louisville. Louisville, KY (2019).

113. JP Fisher*. 3D Printed Bioreactors for Cell Culture. 27th Annual Short Course. Houston, TX (2019).

112. JP Fisher*. 3D Printing for Engineering Complex Tissues. Department of Orthopedics, University of Maryland School of Medicine. Baltimore, MD (2019).

111. JP Fisher*. Engineering and Applications of Biomaterials in 3D Printing. Regenerative Medicine Essentials Course. Wake Forest School of Medicine. Winston-Salem, NC (2019).

110. JP Fisher*. Building a 3D Placenta Model to Better Understand its Functionality as a Tissue Barrier. Society For Biomaterials Annual Meeting. Seattle, WA (2019).

109. JP Fisher*. Foundation, Challenges, and Future Directions in Tissue Engineering. Translational Science 2019: Association for Clinical and Translational Science Workshop: Regenerative Medicine in Translation. Washington, DC (2019).

108. JP Fisher*. 3D Printing for Engineering Complex Tissues. University of Illinois. Urbana-Champaign, IL (2018).

107. B Mahadik* and JP Fisher. Workshop on 3D Printing and Bioprinting for Complex Tissue Engineering. 3rd Annual 3D Tissue Models. Boston, MA (2018).

106. B Mahadik* and JP Fisher. 3D Printing for Engineering Complex Tissues. Tissue Engineering and Regenerative Medicine International Society (TERMIS) World Congress. Kyoto, Japan (2018).

105. JP Fisher*. 3D Printing for Engineering Complex Tissues. Biomedical Engineering Society (BMES) Annual Meeting. Atlanta, GA (2018).

104. JP Fisher. Professional Development in Academic Careers. 2018 NIBIB Training Grantees Meeting. National Institutes of Health. Bethesda, MD (2018).

103. JP Fisher. Engineering and Applications of Biomaterials in 3D Printing. Regenerative Medicine Essentials Course. Wake Forest School of Medicine. Winston-Salem, NC (2018).

102. JP Fisher. 3D Printing for Engineering Complex Tissues. ARMI’s Automated Manufacturing: Tissue Design and Biofabrication Strategies Workshop. Manchester, NH (2018).

101. JP Fisher. 3D Printing for Engineering Complex Tissues. 12th Annual Nano-Bio Symposium: Advanced Biomanufacturing. Johns Hopkins University, Baltimore, MD (2018).

100. JP Fisher. 3D Printing for Engineering Complex Tissues: Bone and Cartilage. Grand Rounds, Department of Orthopedic Surgery, University of California, Davis. Sacramento, CA (2018).

99. JP Fisher*. 3D Printing for Engineering Complex Tissues. Rice University’s Biomaterials Lab Workshop. Houston, TX (2018).

98. JP Fisher*. Senior Scientist Award: A Brief (Pictorial) History… Tissue Engineering and Regenerative Medicine International Society – Americas Chapter (TERMIS-AM) Annual Meeting. Charlotte, NC (2017).

97. JP Fisher*. 3D Printing of Medical Products: Emerging Science. Tissue Engineering and Regenerative Medicine International Society – Americas Chapter (TERMIS-AM) Annual Meeting. Charlotte, NC (2017).

96. JP Fisher*. 3D Printing for Engineering Complex Tissues. Maryland Stem Cell Research Fund Symposium. Baltimore, MD (2017).

95. JP Fisher*. 3D Printing for Engineering Complex Tissues. University of Minnesota, Department of Biomedical Engineering. Minneapolis, MN (2017).

94. B Mahadik, C Piard, and JP Fisher. 3D Printing of Medical Products: Emerging Science. Regulatory Science to Advance Precision Medicine Forum. Washington, DC (2017).

93. JP Fisher*. 3D Printing for Engineering Complex Tissues. 25th Annual Short Course. Houston, TX (2017).

92. JP Fisher*. 3D Printing for Engineering Complex Tissues. The Johns Hopkins University Applied Physics Laboratory. Laurel, MD (2017).

91. JP Fisher*. 3D Printing for Engineering Complex Tissues. 2nd International Conference on Tissue Engineering and Regenerative Medicine. Vanderbijlpark, South Africa (2017).

90. JP Fisher*. 3D Printing for Engineering Complex Tissues. 12th International Symposium on Frontiers in Biomedical Polymers. Seoul, South Korea (2017).

89. JP Fisher*. 3D Printing for Engineering Complex Tissues. Hanyang University. Seoul, South Korea (2017).

88. JP Fisher*. 3D Printing for Engineering Complex Tissues. 3D Bioprinting: Physical and Chemical Processes. Winston-Salem, NC (2017).

87. C Piard and JP Fisher*. 3D Bioprinting: State of the Field. 3D Bioprinting Roadmapping Workshop. Winston-Salem, NC (2017).

86. J Lembong and JP Fisher*. 3D Printing for Engineering Complex Tissues. 2nd Musculoskeletal Development and Regeneration Conference. Cancun, Mexico (2017).

85. J Lembong and JP Fisher*. 3D Printing for Engineering Complex Tissues. 7th PERSH Meeting. Alexandria, VA (2017).

84. JP Fisher*, JA Jansen, P Johnson, AG Mikos. How to Write a Good Scientific Manuscript. Tissue Engineering and Regenerative Medicine International Society – Americas Chapter (TERMIS-AM) Annual Meeting. San Diego, CA (2016).

83. JP Fisher*. 3D Printing and Bioprinting for Regenerative Medicine Applications. Department of Chemical and Biomedical Engineering, West Virginia University. Morgantown, WV (2016).

82. JP Fisher*. 3D Printing and Bioprinting in Vascularized Bone Tissue Engineering. Biofabrication 2016. Winston-Salem, NC (2016).

81. JP Fisher*. 3D Printing and Bioprinting for Regenerative Medicine Applications. Annual ACS National Meeting. Philadelphia, PA (2016).

80. JP Fisher*. 3D Printed Scaffolds for Tissue Engineering. 24th Annual Short Course. Houston, TX (2016).

79. JP Fisher*. 3D Printing and Bioprinting for Regenerative Medicine Applications. Department of Biomedical Engineering, University of Arkansas. Fayetteville, AR (2016).

78. JP Fisher*. Current Status and Future Perspectives of 3D Printing and Bioprinting for Regenerative Medicine. NSF Workshop on Additive Manufacturing for Health. Arlington, VA (2016).

77. JP Fisher*. 3D Printing and Bioprinting in Complex Engineered Tissues. The 19th US-Japan Cellular and Gene Therapy Conference: 3D Modeling and Printing of Tissues and Organs. U.S. Food and Drug Administration. White Oak, MD (2016).

76. JP Fisher*. Biomaterials for Tissue Vascularization in Regenerative Medicine. Research and Education in Nanotoxicology IGERT, West Virginia University. Morgantown, West Virginia (2016).

75. JP Fisher*. Bridging Stem Cell Engineering with Tissue Vascularization in Regenerative Medicine. Radboud University Medical Center, Department of Dentistry – Biomaterials, Nijmegen, The Netherlands (2015).

74. JP Fisher*. Bridging Stem Cell Engineering with Tissue Vascularization in Regenerative Medicine. National Institutes of Health / National Eye Institute, Rockville, MD (2015).

73. JP Fisher*. Bridging Stem Cell Engineering with Tissue Vascularization in Regenerative Medicine. Ludwig Boltzmann Institute, Vienna, Austria (2015).

72. JP Fisher*. Bridging Stem Cell Engineering with Tissue Vascularization in Regenerative Medicine. University of Leipzig, Leipzig, Germany (2015).

71. AJ Melchiorri* and JP Fisher. Bioreactors for Bone Tissue Engineering. IBC Life Sciences Conference: Cell Therapy Bioprocessing and Commercialization. Alexandria, VA (2015).

70. JP Fisher*. Bridging Stem Cell Engineering with Tissue Vascularization in Regenerative Medicine. Trinity Centre of Bioengineering, Trinity College Dublin, Dublin, Ireland (2015).

69. JP Fisher*. Bridging Stem Cell Engineering with Tissue Vascularization in Regenerative Medicine. Department of Biomedical Engineering, National University of Ireland, Galway. Galway, Ireland (2015).

68. JP Fisher*. Bridging Stem Cell Engineering with Tissue Vascularization in Regenerative Medicine. Department of Biomedical Engineering, National University of Ireland, Galway. Galway, Ireland (2015).

67. JP Fisher*. Bioprinting of Vascularized Tissues for Orthopedic Regenerative Medicine. ORS Sun Valley Workshop. Sun Valley, ID (2015).

66. JP Fisher*. Reinforced Pericardium for Cardiovascular Applications. Cook Biotech. College Park, MD (2015).

65. JP Fisher*. Applications of Vasculogenesis in Orthopedic Regenerative Medicine. International Conference on Regenerative Biomedical Materials. Wuhan, China (2015).

64. JP Fisher*. Expansion of Mesenchymal Stem Cells in Bireactors. Center for Stem Cell Biology and Regenerative Medicine, University of Maryland School of Medicine. Baltimore, MD (2015).

63. JP Fisher*. Articular Cartilage Engineering and Cell-Matrix Interactions. Tsing Hua University. Hsinchu City, Taiwan (2015).

62. JP Fisher*. Bioreactors for Bone Tissue Engineering. Tsing Hua University. Hsinchu City, Taiwan (2015).

61. JP Fisher*. Vascular Engineering and 3D Printing. Tsing Hua University. Hsinchu City, Taiwan (2015).

60. JP Fisher*. Three Dimensional Printing of Biodegradable Tissue Engineered Materials. Maryland 3D Printing Expert User Group – Maryland Center for Entrepreneurship. Columbia, MD (2015).

59. JP Fisher*. Bridging Stem Cell Technology with Tissue Vascularization in for Tissue Engineering. U.S. Food and Drug Administration. White Oak, MD (2014).

58. JP Fisher*. Bridging Stem Cell Technology with Tissue Vascularization in for Tissue Engineering. Hanyang University. Seoul, South Korea (2014).

57. JP Fisher*. Bridging Stem Cell Technology with Tissue Vascularization in for Tissue Engineering. 21st Annual Short Course. Houston, TX (2014).

56. JP Fisher*. Synthetic Biomaterials: From Degradable Polymers to 3D Printed Materials. Regenerative Medicine Essentials Course. Wake Forest School of Medicine. Winston-Salem, NC (2014).

55. JP Fisher*. Bridging Stem Cell Technology with Tissue Vascularization in Regenerative Medicine. Centre for Integrative Biology, University of Trento. Trento, Italy (2014).

54. JP Fisher*. Biomaterials in Tissue Engineering and Regenerative Medicine: Materials Cooperating with the Human Environment. Smithsonian Associates. Washington, DC (2014).

53. JP Fisher*. Bridging Stem Cell Technology with Tissue Vascularization in Regenerative Medicine. Department of Biomedical Engineering, Rutgers University. Piscataway, NJ (2013).

52. JP Fisher*, JA Jansen, P Johnson, AG Mikos. Writing Scientific Manuscripts. Tissue Engineering and Regenerative Medicine International Society – Asia Pacific Chapter (TERMIS-AP) Annual Meeting. Wuzhen, China (2013).

51. JP Fisher*. Bridging Stem Cell Technology with Tissue Vascularization in Regenerative Medicine. Department of Biomedical Engineering, University of Texas. Austin, TX (2013).

50. JP Fisher*. Bridging Stem Cell Technology with Tissue Vascularization in Orthopedic Regenerative Medicine. Advances in Tissue Engineering, 21st Annual Short Course. Houston, TX (2013).

49. JP Fisher*. Bridging Stem Cell Technology with Tissue Vascularization in Musculoskeletal Tissue Engineering. Department of Biomedical Engineering, University of Virginia. Charlottesville, VA (2013).

48. JP Fisher*. Bridging Stem Cell Technology with Tissue Vascularization in Regenerative Medicine. Sheikh Zayed Institute for Pediatric Surgical Innovation, Children’s National Medical Center. Washington, DC (2013).

47. JP Fisher*. Bridging Stem Cell Technology with Tissue Vascularization in Regenerative Medicine. The 16th US-Japan Cellular and Gene Therapy Conference: Potential Applications of Mesenchymal Multipotent Stromal Cells. National Institutes of Health, Bethesda, MD (2013).

46. JP Fisher*. Bridging Stem Cell Technology with Tissue Vascularization in Orthopedic Regenerative Medicine. Department of Orthopaedic Surgery, University of Virginia. Charlottesville, VA (2013).

45. JP Fisher*. Bioreactors & Biomaterials in Bone Tissue Engineering. Department of Mechanical and Aerospace Engineering, George Washington University, Washington, DC (2012).

44. JP Fisher*. Biomaterials & Bioreactors in Bone Tissue Engineering. Institute for Bioscience and Biotechnology Research, University of Maryland, Shady Grove Campus, Rockville, MD (2012).

43. JP Fisher*. Cellular & Biomaterial Engineering of Craniofacial Bone Tissue. Advances in Tissue Engineering, 20th Annual Short Course. Houston, TX (2012).

42.  JP Fisher*. Stem Cell Bioengineering and Biomedical Devices in Regenerative Medicine. Cardiac Surgery Research Meeting, Children’s National Medical Center. Washington, DC (2012).

41. JP Fisher*. Cellular Bioengineering and Biomedical Devices in Regenerative Medicine. Department of Mechanical, Aeronautical, and Biomedical Engineering, University of Limerick. Limerick, Ireland (2012).

40. JP Fisher*. Cellular & Biomaterial Strategies for Engineering Craniofacial Bone Tissue. Advances in Tissue Engineering, 18th Annual Short Course. Houston, TX (2011).

39. JP Fisher*. Biodegradable Materials for Tissue Engineering: Applications and Safety Assessment. Society of Toxicology Annual Meeting. Washington, DC (2011).

38.  JP Fisher*. Biodegradable Materials for Tissue Engineering: Applications and Safety Assessment. U.S. Food and Drug Administration. White Oak, MD (2011).

37.  JP Fisher*. Considerations of Paracrine Signaling within Engineered Bone Tissue. Department of Biomedical Engineering, Illinois Institute of Technology, Chicago, IL (2011).

36.  JP Fisher*. Bone Tissue Engineering with Scaffold Guided Paracrine Signaling. Department of Chemical and Biomolecular Engineering, The Johns Hopkins University, Baltimore, MD (2010).

35.  JP Fisher*. Engineering Bone Tissue through Scaffold Directed Paracrine Signaling. Department of Biomedical Engineering, University of Virginia. Charlottesville, VA (2010).

34.  JP Fisher*. Cellular & Biomaterial Strategies for Engineering Craniofacial Bone Tissue. Advances in Tissue Engineering, 18th Annual Short Course. Houston, TX (2010).

33.  JP Fisher*. Engineering Tissues with Scaffold Directed Signal Expression. BioMET 2010: UMB Center for Biomedical Engineering and Technology Retreat. Baltimore, MD (2010).

32.  JP Fisher*. Engineering Tissues with Scaffold Directed Signal Expression. Northeast Bioengineering Conference / Biomaterials Day. Columbia University. New York, NY (2010).

31.  JP Fisher*. Bioengineering Research and Education at the University of Maryland College Park. University of Salerno. Salerno, Italy (2009).

30.  JP Fisher*. Craniofacial Bone Tissue Engineering. District of Columbia Dental Society Meeting. Washington, DC (2009).

29.  JP Fisher*. ProlifiTEC: Proliferative Tissue Engineering Concepts. University of Maryland Biosciences Day. College Park, MD (2009).

28.  JP Fisher*. Hot Topics in BME II: Biomaterials & Tissue Engineering. Southeast Biomedical Engineering Career Conference. Washington, DC (2009).

27.  JP Fisher*. Biomaterial Regulation of Intercellular Signaling in Engineered Tissues. Fall Seminar Series. University of Oklahoma, Norman, OK (2009).

26.  JP Fisher*. Regenerative Medicine for Wounded Soldiers and Civilians. 2009 World Stem Cell Summit. Baltimore, MD (2009).

25.  JP Fisher*. Developing Trends in Tissue Engineering & Regenerative Medicine. The 3rd Annual Fischell Festival. University of Maryland. College Park, MD (2009).

24.  JP Fisher*. Engineering Tissues with Scaffold Directed Signal Expression. University of Maryland Dental School. Baltimore, MD (2009).

23.  JP Fisher*. Biomaterial Regulation of IGF-1 Signaling in Engineered Cartilage. 2nd Nanotechnology Symposium, Howard University, Washington, DC (2008).

22.  JP Fisher*. Biomaterial and Molecular Signaling Considerations in Engineered Cartilage. Segal North American Osteoarthritis Workshop II (SNOW-II). Rush University Medical Center, Chicago, IL (2008).

21.  JP Fisher*. New Strategies in Tissue Engineering: Biomaterials & Cell Signaling. Spring 2008 Bioengineering Colloquium, University of Kansas, Lawrence, KS (2008).

20.  JP Fisher*. Tissue Engineering and the Influence of Biomaterials and Growth Factor Signaling. Center for Biosystems Research, University of Maryland Biotechnology Institute, College Park, MD (2007).

19.  JP Fisher*. Biomaterials and Growth Factor Signaling in Tissue Engineering. Fischell Department of Bioengineering, University of Maryland, College Park, MD (2007).

18.  JP Fisher*. Biomaterials and Growth Factor Signaling in Engineered Tissues. National Centre for Biomedical Engineering Science. National University of Ireland, Galway. Galway, Ireland (2007).

17.  JP Fisher*. In Vivo Evaluation of Engineered Tissues. PharmaMedDevice 2007. New York, NY (2007).

16.  JP Fisher*. Growth Factor Signaling in Engineered Tissues. U.S. Food and Drug Administration. White Oak, MD (2007).

15.  AD Thompson*, MW Betz, DM Yoon, and JP Fisher. Mesenchymal Stem Cell Osteodifferentiation through Chondrocyte Coculture. U.S. Food and Drug Administration. White Oak, MD (2007).

14.  JP Fisher*. Biomaterials and Molecular Signaling in Engineered Tissues. Center for Tissue Regeneration and Repair, University of California Davis Medical Center (2006).

13.  JP Fisher*. Injectable Tissue Engineering Scaffolds. Advances in Tissue Engineering, 14th Annual Short Course. Houston, TX (2006).

12.  A Thompson and JP Fisher*. Injectable Biomaterials in Engineered Tissues. Advances in Tissue Engineering, 13th Annual Short Course. Houston, TX (2005).

11.  JP Fisher*. Engineering Synthetic Tissue Grafts. University of Maryland Dental School. Baltimore, MD (2004).

10.  JP Fisher*. Injectable Biomaterials. Advances in Tissue Engineering, 12th Annual Short Course. Houston, TX (2004).

9.  JP Fisher*. Biomaterials in Engineered Tissue Grafts. National Institutes of Standards and Technology. Gaithersburg, MD (2004).

8.  JP Fisher*. Biomaterials for the Engineering of Orthopaedic Tissues. University of Maryland Biosciences Day. College Park, MD (2003).

7.  JP Fisher*. Novel Biodegradable Scaffolds for Bone Tissue Engineering Scaffolds. Industrial Science & Technology Network, Inc. Springfield, VA (2003).

6.  JP Fisher*. Novel Biodegradable Bone Tissue Engineering Scaffolds. Department of Biomedical Engineering, Rensselaer Polytechnic Institute. Troy, NY (2002).

5.  JP Fisher*. Novel Biodegradable Bone Tissue Engineering Scaffolds. Department of Chemical Engineering, University of Maryland. College Park, MD (2002).

4.  JP Fisher*. Novel Biodegradable Bone Tissue Engineering Scaffolds. Department of Bioengineering, University of Utah. Salt Lake City, UT (2002).

3.  JP Fisher*. Novel Biodegradable Bone Tissue Engineering Scaffolds. Department of Chemical Engineering, University of Delaware. Newark, DE (2002).

2.  JP Fisher*. Novel Biodegradable Bone Tissue Engineering Scaffolds. Department of Chemical Engineering, University of Notre Dame. South Bend, IN (2002).

1.  JP Fisher*. Novel Biodegradable Bone Tissue Engineering Scaffolds. Department of Biomedical Engineering, Purdue University. West Lafayette, IN (2002).

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