TOC

Microfluidics for Biological Applications. by Editors Wei-Cheng Tian & Erin Finehout

(c) 2008 Springer Science + Business Media, LLC

ISBN: 0387094792 9780387094793

Chapter 1 Introduction to Microfluidics ...1

Abstract ...1

1 Introduction to Microfluidics ...2

1.2 History of Microfluidics ...3

1.2.1 The beginning: Gas chromatography and capillary electrophoresis ...3

1.2.2 The microfluidic advantage ...5

1.2.3 Modular separation, reaction and hybridization systems ...7

1.2.4 Integrated systems ...8

1.3 Fluidics and Transport Fundamentals ...10

1.3.1 The continuum approximation ...10

1.3.2 Laminar flow ...10

1.3.3 Diffusion in microfluidic systems ...12

1.3.4 Surface forces and droplets ...14

1.3.5 Pumps and valves ...16

1.3.6 Electrokinetics ...16

1.3.7 Thermal management ...18

1.4 Device Fabrication ...18

1.4.1 Materials ...19

1.4.2 Fabrication and assembly ...20

1.5 Biological Applications ...21

1.5.1 Genetic analysis (DNA/RNA) ...22

1.5.2 Proteomics ...22

1.5.3 Cellular assays ...23

1.5.4 Drug delivery and compatibility ...24

1.6 The Future ...26

1.6.1 Potential demand/market for microfluidic devices ...26

1.6.2 Current products ...27

1.6.3 Challenges and the future ...28

References ...29

Chapter 2 Materials and Microfabrication Processes for Microfluidic Devices ...35

Abstract ...35

2.1 Introduction ...36

2.2 Silicon Based Materials ...37

2.2.1 Micromachining of silicon ...39

2.2.2 Bulk micromachining ...39

2.2.3 Surface micromachining ...46

2.3 Glass Based Materials ...49

2.3.1 Microfabrication in glass ...51

2.4 Wafer Bonding ...56

2.4.1 Fusion bonding ...57

2.4.2 Anodic bonding ...57

2.4.3 Adhesive bonding ...58

2.5 Polymers ...59

2.5.1 Microfabrication ...59

2.5.2 Polymer materials: ...64

2.6 Conclusion ...82

References ...82

Chapter 3 Interfacing Microfluidic Devices with the Macro World ...93

Abstract ...93

3.1 Introduction ...94

3.2 Typical Requirements for Microfluidic Interfaces ...94

3.3 Review of Microfluidic Interfaces ...95

3.3.1 World-to-chip interfaces ...95

3.3.2 Chip-to-world interfaces ...103

3.4. Future Perspectives ...112

References ...113

Chapter 4 Genetic Analysis in Miniaturized Electrophoresis Systems ...117

Abstract ...117

4.1 Introduction ...118

4.1.1 Status of genetic analyses ...118

4.1.2 Genetic analysis by miniaturized electrophoresis system ...119

4.2 Microchip Electrophoresis for Genomic Analysis ...122

4.2.1 Material and fabrication of electrophoresis microchips ...123

4.2.2 Theory of gel electrophoresis of DNA ...125

4.2.3 Gel matrices ...126

4.2.4 Novel DNA separation strategies on microchips ...130

4.2.5 Surface coating methods for microchannel walls ...134

4.3 Parallelization in Microchip Electrophoresis ...137

4.4 Integration in Microchip Electrophoresis for Genetic Analysis ...139

4.4.1 Sample preparation on microchip ...139

4.4.2 System integration ...141

4.5 Commercial Microfluidic Instruments for Genetic Analyses ...144

4.5.1 Commercial microchip electrophoresis instruments for genetic analysis ...145

4.5.2 Integrated microfluidic instruments for genetic analyses ...147

4.6 Microfluidic Markets and Future Perspectives ...150

References ...151

Chapter 5 Microfluidic Systems for Protein Separations ...165

Abstract ...165

5.1 Introduction ...166

5.1.1 Advantages of microfluidic chips for protein separations ...166

5.1.2 Limitations of microfluidic chips in proteomics applications ...167

5.1.3 Substrates used for proteomic analysis ...167

5.2. Microfluidic Chips for Protein Separation ...168

5.2.1 Microchip-based electrophoretic techniques ...169

5.2.2 Microchip chromatography ...172

5.3 Integrated Analysis in Microchips ...175

5.3.1 Integration of sample preparation with analysis ...175

5.3.2 Multi-dimensional separation in microchips ...177

5.3.3 Chips integrated with mass spectrometry ...180

5.4. Future Directions ...180

References ...181

Chapter 6 Microfluidic Systems for Cellular Applications ...185

Abstract ...185

6.1 Introduction ...186

6.1.1 Physiological advantages ...188

6.1.2 Biological advantages ...189

6.1.3 Economical advantages ...191

6.2 Microfluidic Technology for Cellular Applications ...191

6.2.1 Microfluidic cell isolation/separation ...191

6.2.2 Microfluidic cell culture ...200

6.2.3 Microfluidic cell analysis ...208

6.3 Commercialization of Microfluidic Technology ...211

6.4 Concluding Remarks ...214

References ...215

Chapter 7 Microfluidic Systems for Engineering Vascularized Tissue Constructs ...223

Abstract: ...224

7.1 Introduction ...224

7.2 Generating 2D Vascularized Tissue Constructs Using Microfluidic Systems ...226

7.3 Generating 3D Vascularized Tissue Constructs Using Microfluidic Systems ...230

7.4 Hydrogel-based Microfluidic Systems for Generating Vascularized Tissue Constructs ...232

7.5 Mathematical Modeling to Optimize the Microfluidic Systems for Generating Vascularized Tissue Constructs ...235

7.6 Future Challenges ...237

7.7 Conclusions ...237

References ...237

Chapter 8 High Throughput Screening Using Microfluidics ...241

Abstract ...241

8.1 Introduction ...242

8.2 Cell-Based Assays ...244

8.2.1 High throughput cell culture ...245

8.2.2 Cell sorting for high throughput applications ...252

8.3 Biochemical Assays ...254

8.3.1 PCR ...254

8.3.2 Electrophoresis ...255

8.3.3 Others ...255

8.4 Drug Screening Applications ...258

8.5 Users and Developers of мF HTS Platforms ...259

8.5.1 Users: Research labs, academic screening facilities, and pharmaceutical ...260

8.5.2 Commercialized products in HTS ...261

8.6 Conclusion ...262

8.7 Acknowledgements ...263

References ...263

Chapter 9 Microfluidic Diagnostic Systems for the Rapid Detection and Quantification of Pathogens ...271

Abstract ...271

9.1 Introduction ...272

9.1.1 Infectious pathogens and their prevalence ...272

9.1.2 Traditional pathogen detection methods ...274

9.1.3 Microfluidic techniques ...276

9.2 Review of Research ...277

9.2.1. Pathogen detection/quantification techniques based on

detecting whole cells ...277

9.2.2 Pathogen detection/quantification techniques based on

detecting metabolites released or consumed ...294

9.2.3 Pathogen detection/quantification through microfluidic immunoassays and nucleic acid based detection platforms ...297

9.3 Future Research Directions ...305

References ...307

Chapter 10 Microfluidic Applications in Biodefense ...323

Abstract ...323

10.1 Introduction ...324

10.2 Biodefense Monitoring ...326

10.2.1 Civilian biodefense ...326

10.2.2 Military biodefense ...328

10.3 Current Biodefense Detection and Identification Methods ...330

10.3.1 Laboratory detection ...331

10.3.2 Field detection ...332

10.4 Microfluidic Challenges for Advanced Biodefense Detection and Identification Methods ...333

10.5 Microscale Sample Preparation Methods ...335

10.5.1 Spore disruption ...336

10.5.2 Pre-separations ...336

10.5.3 Nucleic acid purifications ...337

10.6 Immunomagnetic Separations and Immunoassays ...339

10.6.1 Immunomagnetic separations ...340

10.6.2 Immunoassays ...341

10.7 Proteomic Approaches ...345

10.8 Nucleic Acid Amplification and Detection Methods ...346

10.8.1 PCR and qPCR detection of pathogens for biodefense ...347

10.8.2 Miniaturized and Microfluidic PCR ...348

10.8.3 Heating and cooling approaches ...349

10.8.4 Miniaturized PCR and qPCR for biodefense ...350

10.8.5 Other Nucleic acid amplification methods ...351

10.9 Microarrays ...352

10.9.1 Microarrays and microfluidics ...353

10.10 Microelectrophoresis and Biodefense ...354

10.10.1 Microelectrophoresis technologies ...356

10.11 Integrated lab-on-a-chip systems and biodefense ...358

10.11.1 Full microfluidic integration for biodefense ...363

10.12 Summary and Perspectives ...363

References ...365

Chapter 11 Current and Future Trends in Microfluidics within Biotechnology Research ...385

Abstract ...385

11.1 The Past - Exciting Prospects ...386

11.2 The Present - Kaleidoscope-like Trends ...388

11.2.1 Droplet microfluidics ...389

11.2.2 Integrating Active Components in Microfluidics ...391

11.2.3 Third world - paper microfluidics - George Whitesides ...394

11.2.4 Microfluidic solutions for enhancing existing biotechnology platforms ...395

11.2.5 Microfluidics for cell biology - seeing inside the cell with molecular probes ...400

11.2.6 Microfluidics for cell biology - high throughput platforms ...401

11.3 The Future - Seamless and Ubiquitous MicroTAS ...403

References ...405

Index ...413