Dr. Raymond P. Mariella
Senior Scientist at Lawrence Livermore National Lab
SPIE Involvement:
Conference Program Committee | Conference Chair | Author | Instructor
Publications (13)

Proceedings Article | 18 June 2003
Proc. SPIE. 5001, Optical Engineering at the Lawrence Livermore National Laboratory
KEYWORDS: Defense and security, Polymers, Spectroscopy, Annealing, Silicon, Organisms, Manufacturing, Flow cytometry, Chemical reactions, Microtechnology

SPIE Conference Volume | 21 June 2002

SPIE Conference Volume | 21 June 2002

Proceedings Article | 21 May 2001
Proc. SPIE. 4265, Biomedical Instrumentation Based on Micro- and Nanotechnology
KEYWORDS: Thin films, Polymers, Annealing, Silicon, Photography, Heart, Micromachining, Microfabrication, Temperature metrology, Bulk micromachining

Proceedings Article | 29 December 2000
Proc. SPIE. 4200, Biochemical and Biomolecular Sensing
KEYWORDS: Light emitting diodes, Sensors, Calibration, Silicon, Organisms, Control systems, LCDs, Signal processing, Pathogens, Microcontrollers

Showing 5 of 13 publications
Conference Committee Involvement (11)
Microfluidics, BioMEMS, and Medical Microsystems IV
23 January 2006 | San Jose, California, United States
Microfluidics, BioMEMS and Medical Microsystems III
25 January 2005 | San Jose, California, United States
Microfluidics, BioMEMS and Medical Microsystems II
26 January 2004 | San Jose, California, United States
Microarrays, Combinatorial Techniques and High Throughput Screening
25 January 2004 | San Jose, CA, United States
Manipulation and Analysis of Biomolecules, Cells and Tissues
28 January 2003 | San Jose, CA, United States
Showing 5 of 11 published special sections
Course Instructor
SC248: Instrumentation for Individualized Medicine
This course addresses the current advances being made in micro-electro-mechanical-systems- (MEMS-) based instrumentation which deal with increasing the throughput of established processes, and also looks at a future application, that of providing information and capabilities to the physician that are not available today. The course provides an introduction to immunoassays, nucleic-acid-based assays, such as PCR and RCA, and array-based hybridization assays. One desirable goal for BioMEMS-based instrumentation would be to determine the ailment of a patient while he/she is in the physician's office, such as viral, bacterial (including antibiotic resistance or susceptibility, etc.), parasite, or "none of the above" (which requires a background genetic "fingerprint" of each patient). Armed with genetic information about infections and the patient, and after determining the biomarkers for allergies, exposure to toxins, as well as those for infections, the physician could select which medicines/treatments would be the most efficacious.
SC462: MEMS for Biomedical Assays
This course will address both the current advances being made in microelectromechanical-systems- (MEMS-) based instrumentation which deal with increasing the throughput of established processes, and will also look at future applications, that of providing information and capabilities to the physician that are not available today. The course will provide an introduction to immunoassays, nucleic-acid-based assays, such as PCR and RCA, and array-based hybridization assays. One desirable goal for BioMEMS-based instrumentation would be to determine the ailment of a patient while he/she is in the physician's office, such as viral, bacterial (including antibiotic resistance or susceptibility, etc.), parasite, or "none of the above."
SIGN IN TO:
  • View contact details

UPDATE YOUR PROFILE
Is this your profile? Update it now.
Don’t have a profile and want one?

Advertisement
Advertisement
Back to Top