![autodesk inventor 2010 lesson 1 jcs autodesk inventor 2010 lesson 1 jcs](http://www.sportmarketing-peters.de/sportmarketing-peters.data/images/cadcam/Inv_Druckluftkolbenmotor.jpg)
Deocaris CC, de Guzman RC, Abilo RML, Deocaris CC, Gutierrez AKO, Cruz AC, dela Rosa AM. Journal of Biomedical Materials Research Part A (2008) 85:14-24. Variations in astrocyte and fibroblast response due to biomaterial particulates in vitro. Alginate-matrigel microencapsulated Schwann cells for inducible secretion of glial cell line derived neurotrophic factor. de Guzman RC, Ereifej ES, Broadrick KM, Rogers RA, VandeVord PJ. Electrospinning of matrigel to deposit a basal lamina-like nanofiber surface. Journal of Biomedical Materials Research Part A (2011) 98:544-553. Keratin hydrogels support the sustained release of bioactive ciprofloxacin. Saul JM, Ellenburg MD, de Guzman RC, Van Dyke ME. Mechanisms of hepatocyte attachment to keratin biomaterials. Mechanical and biological properties of keratose biomaterials. de Guzman RC, Merrill MR, Richter JR, Hamzi RI, Greengauz-Roberts OK, Van Dyke ME. Structure-property relationships of meta-kerateine biomaterials derived from human hair. Richter JR, de Guzman RC, Greengauz-Roberts OK, Van Dyke ME.
![autodesk inventor 2010 lesson 1 jcs autodesk inventor 2010 lesson 1 jcs](https://www.nejm.org/na101/home/literatum/publisher/mms/journals/content/nejm/2013/nejm_2013.368.issue-3/nejmoa1110039/20130731/images/img_medium/nejmoa1110039_f1.jpeg)
Bone regeneration with BMP-2 delivered from keratose scaffolds. de Guzman RC, Saul JM, Ellenburg MD, Merrill MR, Coan HB, Smith TL, Van Dyke ME. Binding interactions of keratin-based hair fiber extract to gold, keratin, and BMP-2. *de Guzman RC, Tsuda SM, Ton MN, Zhang X, Esker AR, Van Dyke ME. PEG-immobilized keratin for protein drug sequestration and pH-mediated delivery. Silicone substrate with collagen and carbon nanotubes exposed to pulsed current for MSC osteodifferentiation. Biomaterials and Tissue Technology (2017) 1:1-6. Electroresponsive PEG-chitosan matrix for anion release. Biomedical Journal of Scientific and Technical Research (2018) 7(3):1-4. PABA release from chitosan-PCL with induced electric current. Compressive strengths of PEG gels with glycerol and bioglass particles. *Golshan A, Curtis JA, Lianos V, Rabbany SY, de Guzman RC. Peer Reviewed Publications (Single-blinded)ġ. He is also very interested in applied mathematical concepts, particularly in vector calculus, 1st order constitutive partial differential equations (PDEs): such as Hooke’s, Fick’s, Fourier’s, and Newton’s viscosity laws, and 2nd order linear PDEs: elliptic (steady-state, Laplace’s, Poisson’s, and Helmholtz), parabolic (diffusion-advection and heat), and hyperbolic (wave) functions. At Hofstra University (since 2014), he is currently teaching general engineering and bioengineering courses, specializing in programs: MATLAB & Simulink (MathWorks) for programming and numerical computations, COMSOL Multiphysics (COMSOL) for simulations, and Inventor (Autodesk) for 3D drawing, and runs his research group called Bioengineering Materials Lab. His postdoctoral jobs, afterwards, were at the Wake Forest Institute for Regenerative Medicine (Winston-Salem, NC) and at Virginia Tech (Blacksburg, VA), where he conducted extensive research on biomaterials, tissue engineering, protein chemistry, and surface science. in Biomedical Engineering at Wayne State University (Detroit, MI). He worked in the biotechnology and environmental industries after receiving his undergraduate and master’s degrees from the University of the Philippines (Diliman), then moved to the US and obtained a Ph.D. de Guzman was born and raised in Bataan (an important WWII battle site), Philippines. PHD, 2008, Wayne State Univ MS, 2003, Univ Philippines BS, 1998, Univ Philippinesĭr.