Courses:

Molecular Principles of Biomaterials >> Content Detail



Calendar / Schedule



Calendar

LEC #TOPICSKEY DATES
1

Overview of Course, Orientation to Current Approaches and Types of Molecularly-designed Biomaterials



Biodegradable Polymeric Solids


Chemistry and Physical Chemistry of Hydrolysis

Links between Materials Structure and Hydrolysis Mechanisms

2

Biodegradable Polymeric Solids (cont.)


Factors Controlling Polymer Degradation Rates

Theory of Solid Polymer Erosion

Tailoring Degradable Polymer Structure and Composition

Problem set 1 out
3

Controlled Release Devices


Types of Controlled Release Devices

Degradable Materials in Controlled Release Devices

Physical Chemistry Principles in Delivering Small Molecules vs. Proteins

4

Controlled Release Devices (cont.)


Theory of Drug Release in Eroding Systems

Problem set 1 due

Problem set 2 out

5

Case Studies in Complex Controlled Release


Pulsatile Release from Programmed Eroding Systems

Controlled Release Microchips

Combining Drug Delivery with Tissue Engineering

Problem set 2 due

Problem set 3 out

6

Hydrogels as Biomaterials


Hydrogel Structure and Physical Chemistry

Methods of Polymerization

7

Hydrogels as Biomaterials (cont.)


Theory of Hydrogel Swelling

Physical Hydrogels

  • Ionic and Hydrogen Bonding in Gels
  • Association of Amphiphilic Block Copolymers

Problem set 3 due

Problem set 4 out

8

Hydrogels as Biomaterials (cont.)


Polyelectrolyte Hydrogels

Coacervates

Polyelectrolyte Multi-layers

9

Hydrogels as Biomaterials (cont.)


Theory of Polyelectrolyte Gel Swelling

Problem set 4 due

Problem set 5 out

10

Hydrogels as Biomaterials (cont.)


Applications of Hydrogels: Molecular Imprinting

Applications of Hydrogels: Glucose-sensitive Drug Delivery

Kinetics of Drug Diffusion Through Hydrogels

11

Engineering Biological Recognition of Biomaterials


Biological Recognition in Vivo

Protein-resistant and Cell-resistant Surfaces

Engineering Recognition of Biomaterials: Adhesion and Migration

Problem set 5 due
Exam 1
12

Engineering Biological Recognition of Biomaterials (cont.)


Enzymatic Recognition of Biomaterials

Cytokine Signaling from Biomaterials

13

Engineering Biological Recognition of Biomaterials (cont.)


Mimicking Cell-cell Contacts with Surfaces

Problem set 6 out
14

Bioceramics and Biocomposites


Introduction to Biological Approaches to Biomineralization

Interfacial Biomineralization

15

Bioceramics and Biocomposites (cont.)


Biological Control of Mineralization within Vesicles

Biomimetic Syntheses: Microemulsion and Micellar Reactions Organic Templating of Inorganic Biomaterials: Natural and Synthetic Approaches

Problem set 6 due

Problem set 7 out

16

Bioceramics and Biocomposites (cont.)


Theory of Controlled Nucleation

Bone Structure and Bone Biomimesis

Biocomposites in Device Applications and Drug Delivery

17

Molecular Devices


Molecular Switches via Proteins and 'Smart' Polymers

  • Temperature, pH, and Light-sensitive Switches

Molecular Motors

  • Kinesin-based Molecular Shuttles
  • ATP Synthase-based Nano-rotors

Problem set 7 due

Problem set 8 out

18

Nanoparticle and Microparticle Biomolecule Drug Carriers


Pro-drugs, Micelles, Liposomes, Polymerosomes, Nanoparticles, and Microparticles

Delivery of Drugs to Tissues via Systemic Circulation

Materials for Anti-Cancer Drug Delivery

19

Nanoparticle and Microparticle Biomolecule Drug Carriers (cont.)


Barriers to Systemic / Oral Delivery and Delivery of Molecules to Tissues

'Stealth' Particles

  • Theory of Protein-resistant Particles

Experimental Function of Long-circulating Carriers and PEGylated Compounds

Problem set 8 due

Take-home exam distributed

Focus Topic: Integrating Biological Knowledge Into Biomaterials Design For Vaccines
20

Basic Biology of Vaccination and Viral Infections


Rudiments of Adaptive Immunity: The Basis of Vaccination

Viral Infections

21

Basic Biology of Vaccination and Viral Infections (cont.)


Vaccination Against Viruses: Parallels between Immunization and Infection

22

Drug Targeting and Intracellular Drug Delivery for Vaccines


Targeting Nano-carriers and Micro-carriers to Specific Cell Types

Chemistry of Antibodies for Targeting

Pathways of Intracellular Transport

23

Drug Targeting and Intracellular Drug Delivery for Vaccines (cont.)


Mechanisms of Intracellular Delivery

Mimicking Viral Entry Strategies

24

DNA Vaccines


Gene Therapy and DNA Immunization

Mechanisms of DNA Vaccines

25

DNA Vaccines (cont.)


Delivery Systems for DNA

Systemic vs. Local Delivery

Take-home exam due

 








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