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Challenges in Clinical Applications for Nanotechnology • N. Tony Eissa, MD • Table 3 Identifying Clinical Targets • Short-term Goal: • Take existing mature conventional approach (either diagnostic or therapeutic) and enhance their efficacy using nano technology. Identifying Clinical Targets • Diagnosis: • Early Detection of Cancer: Use nanoparticles with multiple probes to detect pre-defined changes in specific protein levels in pre-cancerous cells. • Imaging for micrometastasis • Staging of Cancer Identifying Clinical Targets • Therapy: • Drug Delivery: Use nanoparticles targeted to specific cancer cell surface receptors to guide delivery • Form translational alliance between current biotechnology and nanomedicine Identifying Clinical Targets • Some clinical areas amenable to wide use of nanomedicine include Cancer, Diabetes, Thrombosis, Vascular diseases, etc. • It is important to emphasize to keep openmind approach for potential clinical applications. Key Barriers • • • • Toxicity: short term - no toxicity in animals long term- not known Toxicity for both the host and the environment should be addressed Key Barriers • • • • • Conjugation Chemistry Challenges: Making nanoparticles that are application-specific Putting the “drug” on the particle Maintaining drug activity on the particle Making the drug come off the particle once application is done Key Barriers • Delivery: • Ensuring Delivery to target organ/cell • Allow systemic administration but deliver to localized distant sites. Key Barriers • “Language” Barriers: between various team involved in nano medicine such as: • Chemists • Physicists • Engineers • Mathematicians • Molecular cell biologists • Clinical Physicians Key Barriers • • • • • GMP Challenges No standards for: Purity and homogeneity of nanoparticles Manufacturing Methods Testing and Validation Action Items • Encourage nano applications to already mature area of research • Use nano technology to enhance existing diagnostic or therapeutic applications, e.g., imaging, drug delivery • Use established cellular recognition systems for delivery testing Action Items • Establish NIH programs and review groups that are “nano-friendly” • Fund more toxicological studies for nano applications • Increase funding for conjugation chemistry for nano particles Action Items • Establish training programs in nano medicine with a focus on interdisciplinary approach • Undergraduate • T32 graduate and post-graduate • K12 program for nano medicine scholars • K08, K23 physician scientist programs in nano medicine Action Items • GMP • NIH and FDA need to discuss with the scientific community standards for GMP and made this information available to investigators rather than leaving the burden of proof to individual investigators
