Training Masters Students to Advance the Regenerative Medicine Field

Our training program is an interdisciplinary Specialization in Regenerative Medicine, offered within the MS degrees in Biomedical Engineering, Biological Sciences, and Animal Science. The MS specialization is a 2-year program, which includes one academic-year of coursework plus a course-capstone project at our institution, a two-quarter T-Cell Techniques Course, and a full-time/off-site ten-month internship at a non-profit research institution or for-profit biotech company. Students also complete patient-engagement activities throughout the program. During this reporting period, our thirteenth cohort (5 students) completed their coursework, course-capstone projects, Techniques Course, and started their internship (August 15). These students worked on their capstone project with faculty from Biomedical Engineering and Animal Science, and are completing their internship at CSL Behring, ThermoFisher Scientific, ViaCyte, and the University of California San Diego. Finally, our thirteenth cohort (11 students) was admitted to the program and will begin coursework in the fall. The graduates of this program have strengthened the future of cell-based therapies in California by contributing to all aspects of the field. Graduates of our program are directly strengthening stem cell research and regenerative medicine by performing fundamental investigations in both academic laboratories (as research associates and doctoral students) and for-profit companies, developing and manufacturing regenerative medicine products at biotech companies, and participating in clinical-trial organization. Detailed Descriptions Coursework: Our core coursework (i.e. courses taken by students from all three majors) is laboratory intensive, and includes Tissue Engineering, Biomedical Imaging, Cell Transplantation, and Molecular Techniques. In these courses this year, students learned to grow cells/tissues, evaluate native and engineered tissue structure, label cellular structures and proteins, perform all manner of advanced optical microscopy, perform micro-surgical procedures to induce rodent disease models and test cell therapies, and learn fundamental molecular techniques, such as DNA amplification, nucleic acid isolation, and cloning. In addition to these laboratory-intensive courses, the core coursework also included a quarterly Seminar, a seminar-style Principles of Stem Cell Biology course, and an activity course in Communicating Biology. Through this coursework, students learn both the theoretical knowledge and practical skills that are important for regenerative medicine and gain important preparation for their internship projects. Techniques Course: During this reporting period, we offered for the first time, a training course in advanced cell culture techniques at our institution, spread over over two quarters, students learned to culture, isolate, and purify human T-lymphocytes. Course Capstone: Before embarking on their internship, students finish their training with a capstone project. The capstone project challenges students to apply the knowledge and skills gained through the coursework to an open-ended project. This allows the students to complete and receive feedback on an independent project with a written report and poster presentation before embarking on a rigorous 10-month project that culminates in an extensive report and presentation. Examples of projects from the thirteenth cohort include evaluating the impact of mesenchymal stem cell-derived exosomes on oocyte maturation, implementing a new hydogel for 3D culturing of vascularized tissue models, and determining the impact of humidity on fabrication of biomaterials for tissue engineered blood vessels. Internship: After completing their coursework, our students began their internship with one of our partners, listed above. Our internship hosts for this cohort provide a wide variety of project opportunities for our students, from fundamental biological studies in academic labs to device engineering at for-profit companies, and encompass several of the major physiological systems- immune, hematopoietic, cardiovascular, and endocrine. Over the 10-month internship, students work full-time, live away from their home institution, and do not enroll in any formal coursework, so they can focus all of their efforts on the internship project. Patient Engagement: In the first year of the Program, students read an article, write a summary, and participate in a discussion on racial disparities in peripheral amputation in patients with peripheral artery disease, and counted carbs like a diabetic for 2 days. They also participated in community events, such as Camp Reach for the Stars, a weekend nature camp for children with cancer/cancer survivors.

Our training program is an interdisciplinary Specialization in Regenerative Medicine, offered within the MS degrees in Biomedical Engineering, Biological Sciences, and Animal Science. The MS specialization is a 2-year program, which includes one academic-year of coursework plus a course-capstone project at our institution, a two-quarter T-Cell Techniques Course, and a full-time/off-site ten-month internship at a non-profit research institution or for-profit biotech company. Students also complete patient-engagement activities throughout the program. During this reporting period, our thirteenth cohort (5 students) completed their internships at CSL Behring, ThermoFisher Scientific, ViaCyte, and UCSD. Additionally, our fourteenth cohort (11 students) completed their coursework, course-capstone projects, Techniques Course, and started their internship (August 14). These students worked on their capstone project with faculty from Biomedical Engineering, Biological Sciences, and Animal Science, and are completing their internship at Allogene Therapeutics, CSL Behring, Novo Nordisk, Stemson Therapeutics, ThermoFisher Scientific, UCSD, and Sarepta Therapeutics (privately funded). Finally, our fifteenth cohort (12 students) was admitted to the program and will begin coursework in the fall. Our graduates have strengthened the future of cell-based therapies in California by contributing to all aspects of the field. They aredirectly strengthening stem cell research and regenerative medicine by performing fundamental investigations in both academic laboratories and for-profit companies, developing and manufacturing regenerative medicine products at biotech companies, and participating in clinical-trial organization. Detailed Descriptions Coursework: Our core coursework (i.e. courses taken by students from all three majors) is laboratory intensive, and includes Tissue Engineering, Biomedical Imaging, and Molecular Techniques. In these courses this year, students learned to grow cells/tissues, evaluate native and engineered tissue structure, label cellular structures and proteins, perform all manner of advanced optical microscopy, and learn fundamental molecular techniques, such as DNA amplification, nucleic acid isolation, and cloning. In addition to these laboratory-intensive courses, the core coursework also included a quarterly Seminar, a seminar-style Principles of Stem Cell Biology course, and an activity course in Communicating Biology. Through this coursework, students learn both the theoretical knowledge and practical skills that are important for regenerative medicine and gain important preparation for their internship projects. Techniques Course: During this reporting period, we offered for the second time, a training course in advanced cell culture techniques at our institution, spread over over two quarters, students learned to culture, isolate, and purify human T-lymphocytes. Course Capstone: Before embarking on their internship, students finish their training with a capstone project. The capstone project challenges students to apply the knowledge and skills gained through the coursework to an open-ended project. This allows the students to complete and receive feedback on an independent project with a written report and poster presentation before embarking on a rigorous 10-month project that culminates in an extensive report and presentation. Examples of projects from the thirteenth cohort include evaluating the directed differentiation of equine induced pluripotent stem cells into cardiomyocytes, evaluating the impact of skeletal muscle progenitor cells on macrophage phenotype, and determining the impact of polymer solvent on fabrication of biomaterials for tissue engineered blood vessels. Internship: After completing their coursework, our students began their internship with one of our partners, listed above. Our internship hosts for this cohort provide a wide variety of project opportunities for our students, from fundamental biological studies in academic labs to device engineering at for-profit companies, and encompass several of the major physiological systems- immune, hematopoietic, integumentary, musculoskeletal, neural, vascular, and endocrine. Over the 10-month internship, students work full-time, live away from their home institution, and do not enroll in any formal coursework, so they can focus all of their efforts on the internship project. Patient Engagement: In the first year of the Program, students read an article, write a summary, and participate in a discussion on racial disparities in peripheral amputation in patients with peripheral artery disease, and counted carbs like a diabetic for 2 days. They also participated in community events, such as Camp Reach for the Stars, a weekend nature camp for children with cancer/cancer survivors. First and second year students attended a Zoom-based Patient Panel Discussion.

Our training program is an interdisciplinary Specialization in Regenerative Medicine, offered within the MS degrees in Biomedical Engineering, Biological Sciences, and Animal Science. The MS specialization is a 2-year program, which includes one academic-year of coursework plus a course-capstone project at our institution, a two-quarter T-Cell Techniques Course, and a full-time/off-site ten-month internship at a non-profit research institution or for-profit biotech company. Students also complete patient-engagement activities throughout the program. During this reporting period, our fourteenth cohort (11 students) completed their internships at Allogene Therapeutics, CSL Behring, Novo Nordisk, Stemson Therapeutics, ThermoFisher Scientific, UCSD, and Sarepta Therapeeutics (privately funded). Additionally, our fifteenth cohort (11 students) completed their coursework, course-capstone projects, Techniques Course, and started their internship (August 13). These students worked on their capstone project with faculty from Biomedical Engineering, Biological Sciences, and Animal Science, and are completing their internship at A2 Biotherapeutics, Genentech, Novo Nordisk, ThermoFisher Scientific, UCSD, and Sarepta Therapeutics (privately funded). Finally, our sixteenth cohort (11 students) was admitted to the program and will begin coursework in the fall. Our graduates have strengthened the future of cell-based therapies in California by contributing to all aspects of the field. They are directly strengthening stem cell research and regenerative medicine by performing fundamental investigations in both academic laboratories and for-profit companies, developing and manufacturing regenerative medicine products at biotech companies, and participating in clinical-trial organization. Detailed Descriptions Coursework: Our core coursework (i.e. courses taken by students from all three majors) is laboratory intensive, and includes Tissue Engineering, Biomedical Imaging, Molecular Techniques, and Cell Transplantation. In these courses this year, students learned to grow cells/tissues, evaluate native and engineered tissue structure, label cellular structures and proteins, perform all manner of advanced optical microscopy, learn fundamental molecular techniques, such as DNA amplification, nucleic acid isolation, and cloning, and perform microsurgery to create a rodent model of disease, transplant therapeutic cells, and evaluate cell transplant efficacy. In addition to these laboratory-intensive courses, the core coursework also included a quarterly Seminar, a seminar-style Principles of Stem Cell Biology course, and an activity course in Communicating Biology. Through this coursework, students learn both the theoretical knowledge and practical skills that are important for regenerative medicine and gain important preparation for their internship projects. Techniques Course: During this reporting period, we offered for the third time, a training course in advanced cell culture techniques at our institution, spread over over two quarters, students learned to culture, isolate, purify, and assay human T-lymphocytes. Course Capstone: Before embarking on their internship, students finish their training with a capstone project. The capstone project challenges students to apply the knowledge and skills gained through the coursework to an open-ended project. This allows the students to complete and receive feedback on an independent project with a written report and poster presentation before embarking on a rigorous 10-month project that culminates in an extensive report and presentation. Examples of projects from the fifteenth cohort include evaluating the directed differentiation of equine induced pluripotent stem cells into pancreatic beta cells, evaluating the impact of arteriogenesis on innervation, and determining the impact of culture conditions on the production of vascularized tumor organoids used for drug screening. Internship: After completing their coursework, our students began their internship with one of our partners, listed above. Our internship hosts for this cohort provide a wide variety of project opportunities for our students, from fundamental biological studies in academic labs to device engineering at for-profit companies, and encompass several of the major physiological systems- immune, hematopoietic, digestive, musculoskeletal, neural, cardiovascular, and endocrine. Over the 10-month internship, students work full-time, live away from their home institution, and do not enroll in any formal coursework, so they can focus all of their efforts on the internship project. Patient Engagement: In the first year of the Program, students participated in community events, such as Pure Stoke Surf Camp, for kids whose parents are going through a cancer battle, attended a Zoom-based Patient Panel Discussion,. Second year students participated in a variety of activities in the communities near their internship locations.