Verfügbarkeit: Injectable oligomer-cross-linked gelatin hydrogels for regenerative applications

Injectable oligomer-cross-linked gelatin hydrogels for regenerative applications:

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1. Verfasser:	Nawaz, Hafiz Awais 1983- (VerfasserIn)
Format:	Abschlussarbeit Elektronisch Software E-Book
Sprache:	English
Veröffentlicht:	Leipzig [2018?]
Schlagworte:	Hochschulschrift CD-ROM
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	CD-Rom (234 Blätter) Illustrationen

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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS 1. INTRODUCTION............................................................................................................1 1.1 TISSUE REGENERATION........................................................................................... 2 1.2 TISSUE ENGINEERING SCAFFOLDS AS MECHANICAL SUPPORT STRUCTURES AND CELL CARRIERS 6 1.3.1 HYDROGELS AS SCAFFOLDS............................................................................... 10 1.3.2 EXTRACELLULAR MATRIX..................................................................................... 10 1.3.3 HYDROGELS MIMIC ECM................................................................................ 13 1.3.4 SYNTHETIC AND NATURAL HYDROGELS.................................................................16 1.3.5 ROLE OF MATRIX STIFFNESS IN CELL LADEN HYDROGELS .......................................... 18 1.3.6 GELATIN BASED HYDROGELS.............................................................................23 1.3.7 INJECTABLE HYDROGELS.................................................................................... 27 1.4 REACTIVE OLIGOMERS WITH ADDITIONAL FUNCTIONALITIES ............................................ 31 1.5 AIMS OF THESIS.................................................................................................... 34 2. MATERIALS AND METHODS........................................................................................ 36 2.1 MATERIALS........................................................................................................... 37 2.1.1 CHEMICALS................................................................................................... 37 2.1.2 LABWARE...................................................................................................... 38 2.2 METHODS............................................................................................................ 38 2.2.1 OLIGOMER SYNTHESIS ............ . ....................................................................... 38 2.2.2 TITRATIONS..................................................................................................... 39 2.2.2 2 BROWN-FUJIMORI TITRATIONS (BFT)........................................................... 40 2.2.3 DETERMINATION OF MOLECULAR WEIGHTS........................................................... 40 2.2.3.1 GEL PERMEATION CHROMATOGRAPHY (GPC).............................................. 40 2.2.5.2 MATRIX-ASSISTED LASER DESORPTION/IONIZATION TIME-OF-FLIGHT MASS SPECTROMETRY (MALDI-TOF MS)........................................................................41 2.2.4 NUCLEAR MAGNETIC RESONANCE (NMR) ANALYSIS............................................ 42 2.2.5 DETERMINATION OF OLIGOMER HYDROPHILICITY.................................................... 42 2.2.6 HYDROGEL FABRICATION....................................................................................43 2.2.7 RHEOLOGICAL CHARACTERIZATION.......................................................................44 2.2.8 TNBS ASSAY................................................................................................ 46 2.2.9 CYTOCOMPATIBILITY STUDIES............................................................................46 2.2.10 WST-ASSAY............................................................................................... 47 2.2.11 GEL MINERALIZATION.....................................................................................48 2.2.12 CYTOTOXICITY STUDIES FOR SOLVENT AND BASE MOLECULES................................49 2.2.13 EFFECT OF ULTRASOUND ON MECHANOSENSITIVE OLIGOMER CROSS-LINKED HYDROGELS AND RELEASE OF AMINOPYRENE................................................................................ 50 2.2.14 SIRNA/CATIONIC OLIGOMER COMPLEXATION .................................................... 51 2.2.15 STATISTICAL ANALYSIS.................................................................................... 52 3. PEDAS CONTAINING HYDROPHILIC OLIGOMERS........................................................53 3.1 COMONOMER SELECTION....................................................................................... 54 3.2 OLIGOMER SYNTHESIS............................................................................................ 55 3.2.1 SYNTHESIS OF TER-OLIGOMERS..........................................................................56 3.2.2 SYNTHESIS OF QUATER OLIGOMERS....................................................................57 3.3 TITRATIONS........................................................................................................... 60 3.4 MOLECULAR WEIGHT DETERMINATION........................................................................62 3.5 NUCLEAR MAGNETIC RESONANCE (NMR) ................................................................ 64 3.5.1 PROTON NMR (1H-NMR)...............................................................................64 3.5.2 CARBON NMR (13C-NMR).............................................................................67 3.6 DETERMINATION OF OLIGOMER HYDROPHILICITY .......................................................... 68 3.6.1 DISSOLUTION.................................................................................................. 68 3.6.2 HANSEN*S SOLUBILITY PARAMETERS (HSP) ....................................................... 71 3.7 DEVELOPMENT OF OLIGOMER CROSS-LINKED GELATIN HYDROGEL FORMULATION .............. 74 3.7.1 SELECTION OF GELATIN TYPE AND CONCENTRATION..............................................74 3.7.1.1 GELATIN TYPE B, 50 BLOOM......................................................................75 3.7.1.2 GELATIN TYPE A, 300 BLOOM AND TYPE B, 225 BLOOM.............................77 3.7.2 OPTIMIZING BASE AND OLIGOMER SOLVENT (TYPE AND CONCENTRATION) ............. 78 3.8 RHEOLOGICAL ASSESSMENT OF TWO COMPONENT (GELATIN/OLIGOMER) HYDROGELS ...... 83 3.8.1 GELATION KINETICS......................................................................................... 84 3.8.2 FREQUENCY SWEEP ASSESSMENT FOR INJECTED HYDROGELS ............................... 87 3.8.3 FREQUENCY SWEEP ASSESSMENT FOR PRE-FABRICATED HYDROGELS ................... 89 3.8.4 STRESS RELAXATION RHEOLOGY..........................................................................92 3.9 DEGREE OF CROSS-LINKING (TNBS ASSAY) ............................................................. 94 3.10 CYTOCOMPATIBILITY OF OLIGOMER CROSS-LINKED HYDROGELS ..................................... 95 3.11 ASSESSMENT OF CELL VIABILITY.............................................................................97 3.12 GEL MINERALIZATION........................................................................................... 99 4. HYDROPHILIC OLIGOMERS WITH VARIABLE HYDROPHOBIC DOMAINS ........................ 103 4.1 SPECIFIC AIM AND MOTIVATION............................................................................104 4.2 OLIGOMER DESIGN.............................................................................................. 105 4.3 TITRATIONS......................................................................................................... 107 4.4 MOLECULAR WEIGHTS DETERMINATION .............................................. 108 4.5 NUCLEAR MAGNETIC RESONANCE (NMR)...............................................................110 4.6 DETERMINATION OF OLIGOMER HYDROPHILICITY.........................................................113 4.7 RHEOLOGICAL ASSESSMENT................................................................................. 116 4.7.1 GELATION KINETICS ........... ............................................................................116 4.7.2 MECHANICAL STIFFNESS OF INJECTED HYDROGELS .............................................. 118 4.7.3 MECHANICAL STIFFNESS OF PRE-FABRICATED HYDROGELS ..................................... 120 4.7.4 STRESS RELAXATION RHEOLOGY........................................................................122 4.8 DEGREE OF CROSS-LINKING (TNBS ASSAY)............................................................123 4.9 CYTOCOMPATIBILITY............................................................................................. 125 4.10 ASSESSMENT OF CELL VIABILITY...........................................................................127 4.11 GEL AND HYDROGEL MINERALIZATION....................................................................128 5. MULTIFUNCTIONAL MATERIALS FOR REGENERATIVE APPLICATIONS ............................... 133 5.1 MECHANOSENSITIVE OLIGOMERS...........................................................................134 5.1.1 PERCEPTION................................................................................................ 134 5.1.2 OLIGOMER DESIGN....................................................................................... 136 5.1.3 TITRATIONS....................................................................................................138 5.1.4 MOLECULAR WEIGHTS DETERMINATION..............................................................139 5.1.5 PROTON NMR (1H-NMR)............................................................................. 140 5.1.6 FABRICATION OF CROSS-LINKED HYDROGELS WITH MECHANO-SENSITIVE OLIGOMERS141 5.1.7 EFFECT OF ULTRASOUND ON MECHANO-SENSITIVE OLIGOMER CROSS-LINKED HYDROGELS 144 5.2 CATIONIC OLIGOMERS........................................................................................... 147 5.2.1 MOTIVATION................................................................................................. 147 5.2.2 OLIGOMER DESIGN....................................................................................... 148 5.2.3 MOLECULAR WEIGHTS DETERMINATION..............................................................149 5.2.4 1H-NMR ANALYSIS...................................................................................... 151 5.2.5 SIRNA/CATIONIC OLIGOMER COMPLEXATION .................................................... 152 6. DISCUSSION..........................................................................................................154 6.1 PEDAS CONTAINING REACTIVE HYDROPHILIC OLIGOMERS .......................................... 157 6.2 HYDROPHILIC AND REACTIVE OLIGOMERS FOR INJECTABLE HYDROGELS WITH VARIABLE HYDROPHOBIC DOMAINS............................................................................................ 174 6.3 MULTIFUNCTIONAL OLIGOMERS FOR BIOMEDICAL APPLICATIONS .................................... 182 6.3.1 MECHANO-SENSITIVE OLIGOMERS...................................................................182 6.3.2 CATIONIC OLIGOMERS.................................................................................... 183 7. SUMMARY.............................................................................................................188 8. ZUSAMMENFASSUNG............................................................................................ 195 9. REFERENCES..........................................................................................................204 10. APPENDIX.............................................................................................................223 LIST OF ABBREVIATIONS.............................................................................................. 224 LIST OF FIGURES....................................................................................................... 226 LIST OF TABLES......................................................................................................... 229 DECLARATION OF AUTHORSHIP...................................................................................... 230 PUBLICATIONS........................................................................................................... 231 CURRICULUM VITAE........................................................................................... 232 ACKNOWLEDGEMENT................................................................................................. 233
adam_txt	TABLE OF CONTENTS 1. INTRODUCTION.1 1.1 TISSUE REGENERATION. 2 1.2 TISSUE ENGINEERING SCAFFOLDS AS MECHANICAL SUPPORT STRUCTURES AND CELL CARRIERS 6 1.3.1 HYDROGELS AS SCAFFOLDS. 10 1.3.2 EXTRACELLULAR MATRIX. 10 1.3.3 HYDROGELS MIMIC ECM. 13 1.3.4 SYNTHETIC AND NATURAL HYDROGELS.16 1.3.5 ROLE OF MATRIX STIFFNESS IN CELL LADEN HYDROGELS . 18 1.3.6 GELATIN BASED HYDROGELS.23 1.3.7 INJECTABLE HYDROGELS. 27 1.4 REACTIVE OLIGOMERS WITH ADDITIONAL FUNCTIONALITIES . 31 1.5 AIMS OF THESIS. 34 2. MATERIALS AND METHODS. 36 2.1 MATERIALS. 37 2.1.1 CHEMICALS. 37 2.1.2 LABWARE. 38 2.2 METHODS. 38 2.2.1 OLIGOMER SYNTHESIS . . . 38 2.2.2 TITRATIONS. 39 2.2.2 2 BROWN-FUJIMORI TITRATIONS (BFT). 40 2.2.3 DETERMINATION OF MOLECULAR WEIGHTS. 40 2.2.3.1 GEL PERMEATION CHROMATOGRAPHY (GPC). 40 2.2.5.2 MATRIX-ASSISTED LASER DESORPTION/IONIZATION TIME-OF-FLIGHT MASS SPECTROMETRY (MALDI-TOF MS).41 2.2.4 NUCLEAR MAGNETIC RESONANCE (NMR) ANALYSIS. 42 2.2.5 DETERMINATION OF OLIGOMER HYDROPHILICITY. 42 2.2.6 HYDROGEL FABRICATION.43 2.2.7 RHEOLOGICAL CHARACTERIZATION.44 2.2.8 TNBS ASSAY. 46 2.2.9 CYTOCOMPATIBILITY STUDIES.46 2.2.10 WST-ASSAY. 47 2.2.11 GEL MINERALIZATION.48 2.2.12 CYTOTOXICITY STUDIES FOR SOLVENT AND BASE MOLECULES.49 2.2.13 EFFECT OF ULTRASOUND ON MECHANOSENSITIVE OLIGOMER CROSS-LINKED HYDROGELS AND RELEASE OF AMINOPYRENE. 50 2.2.14 SIRNA/CATIONIC OLIGOMER COMPLEXATION . 51 2.2.15 STATISTICAL ANALYSIS. 52 3. PEDAS CONTAINING HYDROPHILIC OLIGOMERS.53 3.1 COMONOMER SELECTION. 54 3.2 OLIGOMER SYNTHESIS. 55 3.2.1 SYNTHESIS OF TER-OLIGOMERS.56 3.2.2 SYNTHESIS OF QUATER OLIGOMERS.57 3.3 TITRATIONS. 60 3.4 MOLECULAR WEIGHT DETERMINATION.62 3.5 NUCLEAR MAGNETIC RESONANCE (NMR) . 64 3.5.1 PROTON NMR (1H-NMR).64 3.5.2 CARBON NMR (13C-NMR).67 3.6 DETERMINATION OF OLIGOMER HYDROPHILICITY . 68 3.6.1 DISSOLUTION. 68 3.6.2 HANSEN*S SOLUBILITY PARAMETERS (HSP) . 71 3.7 DEVELOPMENT OF OLIGOMER CROSS-LINKED GELATIN HYDROGEL FORMULATION . 74 3.7.1 SELECTION OF GELATIN TYPE AND CONCENTRATION.74 3.7.1.1 GELATIN TYPE B, 50 BLOOM.75 3.7.1.2 GELATIN TYPE A, 300 BLOOM AND TYPE B, 225 BLOOM.77 3.7.2 OPTIMIZING BASE AND OLIGOMER SOLVENT (TYPE AND CONCENTRATION) . 78 3.8 RHEOLOGICAL ASSESSMENT OF TWO COMPONENT (GELATIN/OLIGOMER) HYDROGELS . 83 3.8.1 GELATION KINETICS. 84 3.8.2 FREQUENCY SWEEP ASSESSMENT FOR INJECTED HYDROGELS . 87 3.8.3 FREQUENCY SWEEP ASSESSMENT FOR PRE-FABRICATED HYDROGELS . 89 3.8.4 STRESS RELAXATION RHEOLOGY.92 3.9 DEGREE OF CROSS-LINKING (TNBS ASSAY) . 94 3.10 CYTOCOMPATIBILITY OF OLIGOMER CROSS-LINKED HYDROGELS . 95 3.11 ASSESSMENT OF CELL VIABILITY.97 3.12 GEL MINERALIZATION. 99 4. HYDROPHILIC OLIGOMERS WITH VARIABLE HYDROPHOBIC DOMAINS . 103 4.1 SPECIFIC AIM AND MOTIVATION.104 4.2 OLIGOMER DESIGN. 105 4.3 TITRATIONS. 107 4.4 MOLECULAR WEIGHTS DETERMINATION . 108 4.5 NUCLEAR MAGNETIC RESONANCE (NMR).110 4.6 DETERMINATION OF OLIGOMER HYDROPHILICITY.113 4.7 RHEOLOGICAL ASSESSMENT. 116 4.7.1 GELATION KINETICS . .116 4.7.2 MECHANICAL STIFFNESS OF INJECTED HYDROGELS . 118 4.7.3 MECHANICAL STIFFNESS OF PRE-FABRICATED HYDROGELS . 120 4.7.4 STRESS RELAXATION RHEOLOGY.122 4.8 DEGREE OF CROSS-LINKING (TNBS ASSAY).123 4.9 CYTOCOMPATIBILITY. 125 4.10 ASSESSMENT OF CELL VIABILITY.127 4.11 GEL AND HYDROGEL MINERALIZATION.128 5. MULTIFUNCTIONAL MATERIALS FOR REGENERATIVE APPLICATIONS . 133 5.1 MECHANOSENSITIVE OLIGOMERS.134 5.1.1 PERCEPTION. 134 5.1.2 OLIGOMER DESIGN. 136 5.1.3 TITRATIONS.138 5.1.4 MOLECULAR WEIGHTS DETERMINATION.139 5.1.5 PROTON NMR (1H-NMR). 140 5.1.6 FABRICATION OF CROSS-LINKED HYDROGELS WITH MECHANO-SENSITIVE OLIGOMERS141 5.1.7 EFFECT OF ULTRASOUND ON MECHANO-SENSITIVE OLIGOMER CROSS-LINKED HYDROGELS 144 5.2 CATIONIC OLIGOMERS. 147 5.2.1 MOTIVATION. 147 5.2.2 OLIGOMER DESIGN. 148 5.2.3 MOLECULAR WEIGHTS DETERMINATION.149 5.2.4 1H-NMR ANALYSIS. 151 5.2.5 SIRNA/CATIONIC OLIGOMER COMPLEXATION . 152 6. DISCUSSION.154 6.1 PEDAS CONTAINING REACTIVE HYDROPHILIC OLIGOMERS . 157 6.2 HYDROPHILIC AND REACTIVE OLIGOMERS FOR INJECTABLE HYDROGELS WITH VARIABLE HYDROPHOBIC DOMAINS. 174 6.3 MULTIFUNCTIONAL OLIGOMERS FOR BIOMEDICAL APPLICATIONS . 182 6.3.1 MECHANO-SENSITIVE OLIGOMERS.182 6.3.2 CATIONIC OLIGOMERS. 183 7. SUMMARY.188 8. ZUSAMMENFASSUNG. 195 9. REFERENCES.204 10. APPENDIX.223 LIST OF ABBREVIATIONS. 224 LIST OF FIGURES. 226 LIST OF TABLES. 229 DECLARATION OF AUTHORSHIP. 230 PUBLICATIONS. 231 CURRICULUM VITAE. 232 ACKNOWLEDGEMENT. 233
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spelling	Nawaz, Hafiz Awais 1983- Verfasser (DE-588)1171826427 aut Injectable oligomer-cross-linked gelatin hydrogels for regenerative applications von Dr. rer. nat. Hafiz Awais Nawaz Leipzig [2018?] CD-Rom (234 Blätter) Illustrationen txt rdacontent c rdamedia cd rdacarrier Dissertation Universität Leipzig 2018 (DE-588)4113937-9 Hochschulschrift gnd-content (DE-588)4139307-7 CD-ROM gnd-carrier B:DE-101 application/pdf http://d-nb.info/1171364032/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032134144&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Textdatei PDF
spellingShingle	Nawaz, Hafiz Awais 1983- Injectable oligomer-cross-linked gelatin hydrogels for regenerative applications
subject_GND	(DE-588)4113937-9 (DE-588)4139307-7
title	Injectable oligomer-cross-linked gelatin hydrogels for regenerative applications
title_auth	Injectable oligomer-cross-linked gelatin hydrogels for regenerative applications
title_exact_search	Injectable oligomer-cross-linked gelatin hydrogels for regenerative applications
title_exact_search_txtP	Injectable oligomer-cross-linked gelatin hydrogels for regenerative applications
title_full	Injectable oligomer-cross-linked gelatin hydrogels for regenerative applications von Dr. rer. nat. Hafiz Awais Nawaz
title_fullStr	Injectable oligomer-cross-linked gelatin hydrogels for regenerative applications von Dr. rer. nat. Hafiz Awais Nawaz
title_full_unstemmed	Injectable oligomer-cross-linked gelatin hydrogels for regenerative applications von Dr. rer. nat. Hafiz Awais Nawaz
title_short	Injectable oligomer-cross-linked gelatin hydrogels for regenerative applications
title_sort	injectable oligomer cross linked gelatin hydrogels for regenerative applications
topic_facet	Hochschulschrift CD-ROM
url	http://d-nb.info/1171364032/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032134144&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT nawazhafizawais injectableoligomercrosslinkedgelatinhydrogelsforregenerativeapplications

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