Kooperativer Bibliotheksverbund

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Format: Online-Ressource (XVIII, 291 p. 77 illus., 62 illus. in color, digital)

ISBN: 9781461414452

Series Statement: Advances in Experimental Medicine and Biology 734

Content: This volume is based on the Workshop on Systems Biology of Tumor Dormancy meeting, held July 25th to July 28th, 2011. The first annual CCSB workshop brought together biologists, clinicians, mathematicians, and computer scientists to discuss various aspects of tumor dormancy and develop novel mathematical/computational models with the keynote speakers. Specific topics included the angiogenic switch, immune system interactions, cancer stem cells and signaling.

Content: This volume is based on the Workshop on Systems Biology of Tumor Dormancy meeting, held July 25th to July 28th, 2011. The first annual CCSB workshop brought together biologists, clinicians, mathematicians, and computer scientists to discuss various aspects of tumor dormancy and develop novel mathematical/computational models with the keynote speakers. Specific topics included the angiogenic switch, immune system interactions, cancer stem cells and signaling

Note: Description based upon print version of record , Systems Biology ofTumor Dormancy; Foreword; Introduction; Preface; Contents; Contributors; Part I: Angiogenesis; Chapter 1: Genes and Regulatory Pathways Involved in Persistence of Dormant Micro-tumors; Introduction; Dormant Primary Tumors; Experimental In Vivo Models of Human Tumor Dormancy: How Can You Measure what You can't See?; Angiogenesis Regulation of Tumor Dormancy; Molecular Signature of Tumor Dormancy; Future Direction: What Needs to be Changed?; References; Chapter 2: The Host Support Niche as a Control Point for Tumor Dormancy: Implications for Tumor Development and Beyond , IntroductionThe Bottlenecks of Tumor Dormancy; The Post-vascular Dormant Tumor; A Dynamic Carrying Capacity Representation for Angiogenesis-Dependent Tumor Growth; The Mathematics of Control of Distant Metastases; Human Cancers; Conclusion; References; Chapter 3: Insights into the Regulation of Tumor Dormancy by Angiogenesis in Experimental Tumors; Aim of the Chapter; The Angiogenic Switch and Tumor Dormancy; Angiogenesis Triggers Both Positive and Negative Regulatory Signals in Tumor Cells: Implications for the Homeostasis of Cancer Stem Cells , Counteracting the Angiogenic Switch with Anti-VEGF Drugs: Implications for Tumor DormancyConclusions; References; Part II: Stem Cells and Signaling Pathways; Chapter 4: Cancer Stem Cells and Tumor Dormancy; Introduction; Cancer Stem Cells and Non-stem Cancer Cells; An Agent-Based Model of Cancer Stem Cell-Initiated Tumor Growth; A Homogeneous Population of Cancer Stem Cells; A Homogeneous Population of Non-Stem Cancer Cells and Tumor Dormancy; Tumor Dormancy in Heterogeneous Tumors; Discussion; References; Chapter 5: Regulation of Tumor Cell Dormancy by Tissue Microenvironments and Autophagy , IntroductionEarly Dissemination as a Contributing Factor to Dormancy and MRD; The Target Organ Microenvironment and DTC Dormancy; ER-Stress Signaling Pathways Contribute to Growth Arrest and Survival Programs During Tumor Cell Dormancy; Autophagy and Survival of Residual Disease; Concluding Remarks; References; Chapter 6: Tumor Dormancy, Oncogene Addiction, Cellular Senescence, and Self-Renewal Programs; Oncogene Addiction: A Mechanism of Tumor Regression; Oncogene Addiction, Tumor Dormancy, Senescence, and Self-renewal Programs , Oncogene Addiction, Tumor Dormancy, and the Tumor MicroenvironmentImmune Effectors and Tumor Dormancy Versus Elimination; Therapeutic Implications: Tumor Dormancy Versus Elimination; Modeling and Predicting Tumor Dormancy Versus Elimination; Summary; References; Part III: Immune System; Chapter 7: Multifaceted Kinetics of Immuno-Evasion from Tumor Dormancy; Introduction; Case Study 1: Mathematical Modeling of Immuno-Editing: Tumor Evasion at Large Timescales; The Kuznetsov Model of Tumor-Immune System Interplay; Modeling Immuno-Escape; Simulations , Case Study 2: Modeling the Mesoscale Immuno-Evasion of a ``Dormant'' Tumor , Foreword -- Preface -- Part 1: Angiogenesis -- Genes and Regulatory Pathways Involved in Persistence of Dormant Micro-Tumors -- The Host Support Niche as a Control Point for Tumor Dormancy - Implications for Tumor Development and Beyond -- Insights into the Regulation of Tumor Dormancy by Angiogenesis in Experimental Tumors -- Part 2: Stem Cells and Signaling Pathways -- Cancer Stem Cells and Tumor Dormancy -- Regulation of Tumor Cell Dormancy by Tissue Microenvironments and Autophagy -- Tumor Dormancy, Oncogene Addiction, Cellular Senescence and Self Renewal Programs -- Part 3: Immune System -- Multifaceted Kinetics of Immuno-Evasion from Tumor Dormancy -- Tumor Dormancy and Cancer Stem Cells: Two Sides of the Same Coin? -- Tumor Dormncy: Long-Term Survival in a Hostile Environment -- A Review of Mathematical Models of Cancer-Immune Interactions in the Context of Tumor Dormancy -- Part 4: Mathematical Biosciences and Dynamical Systems Modeling -- Regulation of Tumor Dormancy and Role of Microenvironment: A Mathematical Model -- Seeing the Invisible -- How Mathematical Models Uncover Tumor Dormancy, Reconstruct the Natural History of Cancer, and Assess the Effects of Treatment -- Index.

Additional Edition: 9781461414445

Additional Edition: Buchausg. u.d.T. 978-1-461-41444-5

Language: English

DOI: 10.1007/978-1-4614-1445-2

URL: Volltext

URL: Volltext  (lizenzpflichtig)

URL: Cover

UID:

Format: 1 online resource (297 pages)

Edition: 1st ed.

ISBN: 9781461414452

Series Statement: Advances in Experimental Medicine and Biology Ser. v.734

Content: This volume is based on the Workshop on Systems Biology of Tumor Dormancy meeting, held July 25th to July 28th, 2011. The first annual CCSB workshop brought together biologists, clinicians, mathematicians, and computer scientists to discuss various aspects of tumor dormancy and develop novel mathematical/computational models with the keynote speakers. Specific topics included the angiogenic switch, immune system interactions, cancer stem cells and signaling.

Content: Intro -- Systems Biology ofTumor Dormancy -- Foreword -- Introduction -- Preface -- Contents -- Contributors -- Part I : Angiogenesis -- Chapter 1: Genes and Regulatory Pathways Involved in Persistence of Dormant Micro-tumors -- Introduction -- Dormant Primary Tumors -- Experimental In Vivo Models of Human Tumor Dormancy: How Can You Measure what You can't See? -- Angiogenesis Regulation of Tumor Dormancy -- Molecular Signature of Tumor Dormancy -- Future Direction: What Needs to be Changed? -- References -- Chapter 2: The Host Support Niche as a Control Point for Tumor Dormancy: Implications for Tumor Development and Beyond -- Introduction -- The Bottlenecks of Tumor Dormancy -- The Post-vascular Dormant Tumor -- A Dynamic Carrying Capacity Representation for Angiogenesis-Dependent Tumor Growth -- The Mathematics of Control of Distant Metastases -- Human Cancers -- Conclusion -- References -- Chapter 3: Insights into the Regulation of Tumor Dormancy by Angiogenesis in Experimental Tumors -- Aim of the Chapter -- The Angiogenic Switch and Tumor Dormancy -- Angiogenesis Triggers Both Positive and Negative Regulatory Signals in Tumor Cells: Implications for the Homeostasis of Cancer Stem Cells -- Counteracting the Angiogenic Switch with Anti-VEGF Drugs: Implications for Tumor Dormancy -- Conclusions -- References -- Part II: Stem Cells and Signaling Pathways -- Chapter 4: Cancer Stem Cells and Tumor Dormancy -- Introduction -- Cancer Stem Cells and Non-stem Cancer Cells -- An Agent-Based Model of Cancer Stem Cell-Initiated Tumor Growth -- A Homogeneous Population of Cancer Stem Cells -- A Homogeneous Population of Non-Stem Cancer Cells and Tumor Dormancy -- Tumor Dormancy in Heterogeneous Tumors -- Discussion -- References -- Chapter 5: Regulation of Tumor Cell Dormancy by Tissue Microenvironments and Autophagy -- Introduction.

Note: Description based on publisher supplied metadata and other sources

Additional Edition: 9781489998828

Additional Edition: Erscheint auch als Druck-Ausgabe 9781489998828

Language: English

URL: lizenzpflichtig

UID:

Format: Online-Ressource (XVIII, 291 p. 77 illus., 62 illus. in color, digital)

ISBN: 9781461414452

Series Statement: Advances in Experimental Medicine and Biology 734

Content: This volume is based on the Workshop on Systems Biology of Tumor Dormancy meeting, held July 25th to July 28th, 2011. The first annual CCSB workshop brought together biologists, clinicians, mathematicians, and computer scientists to discuss various aspects of tumor dormancy and develop novel mathematical/computational models with the keynote speakers. Specific topics included the angiogenic switch, immune system interactions, cancer stem cells and signaling.

Content: This volume is based on the Workshop on Systems Biology of Tumor Dormancy meeting, held July 25th to July 28th, 2011. The first annual CCSB workshop brought together biologists, clinicians, mathematicians, and computer scientists to discuss various aspects of tumor dormancy and develop novel mathematical/computational models with the keynote speakers. Specific topics included the angiogenic switch, immune system interactions, cancer stem cells and signaling

Note: Description based upon print version of record , Systems Biology ofTumor Dormancy; Foreword; Introduction; Preface; Contents; Contributors; Part I: Angiogenesis; Chapter 1: Genes and Regulatory Pathways Involved in Persistence of Dormant Micro-tumors; Introduction; Dormant Primary Tumors; Experimental In Vivo Models of Human Tumor Dormancy: How Can You Measure what You can't See?; Angiogenesis Regulation of Tumor Dormancy; Molecular Signature of Tumor Dormancy; Future Direction: What Needs to be Changed?; References; Chapter 2: The Host Support Niche as a Control Point for Tumor Dormancy: Implications for Tumor Development and Beyond , IntroductionThe Bottlenecks of Tumor Dormancy; The Post-vascular Dormant Tumor; A Dynamic Carrying Capacity Representation for Angiogenesis-Dependent Tumor Growth; The Mathematics of Control of Distant Metastases; Human Cancers; Conclusion; References; Chapter 3: Insights into the Regulation of Tumor Dormancy by Angiogenesis in Experimental Tumors; Aim of the Chapter; The Angiogenic Switch and Tumor Dormancy; Angiogenesis Triggers Both Positive and Negative Regulatory Signals in Tumor Cells: Implications for the Homeostasis of Cancer Stem Cells , Counteracting the Angiogenic Switch with Anti-VEGF Drugs: Implications for Tumor DormancyConclusions; References; Part II: Stem Cells and Signaling Pathways; Chapter 4: Cancer Stem Cells and Tumor Dormancy; Introduction; Cancer Stem Cells and Non-stem Cancer Cells; An Agent-Based Model of Cancer Stem Cell-Initiated Tumor Growth; A Homogeneous Population of Cancer Stem Cells; A Homogeneous Population of Non-Stem Cancer Cells and Tumor Dormancy; Tumor Dormancy in Heterogeneous Tumors; Discussion; References; Chapter 5: Regulation of Tumor Cell Dormancy by Tissue Microenvironments and Autophagy , IntroductionEarly Dissemination as a Contributing Factor to Dormancy and MRD; The Target Organ Microenvironment and DTC Dormancy; ER-Stress Signaling Pathways Contribute to Growth Arrest and Survival Programs During Tumor Cell Dormancy; Autophagy and Survival of Residual Disease; Concluding Remarks; References; Chapter 6: Tumor Dormancy, Oncogene Addiction, Cellular Senescence, and Self-Renewal Programs; Oncogene Addiction: A Mechanism of Tumor Regression; Oncogene Addiction, Tumor Dormancy, Senescence, and Self-renewal Programs , Oncogene Addiction, Tumor Dormancy, and the Tumor MicroenvironmentImmune Effectors and Tumor Dormancy Versus Elimination; Therapeutic Implications: Tumor Dormancy Versus Elimination; Modeling and Predicting Tumor Dormancy Versus Elimination; Summary; References; Part III: Immune System; Chapter 7: Multifaceted Kinetics of Immuno-Evasion from Tumor Dormancy; Introduction; Case Study 1: Mathematical Modeling of Immuno-Editing: Tumor Evasion at Large Timescales; The Kuznetsov Model of Tumor-Immune System Interplay; Modeling Immuno-Escape; Simulations , Case Study 2: Modeling the Mesoscale Immuno-Evasion of a ``Dormant'' Tumor , Foreword -- Preface -- Part 1: Angiogenesis -- Genes and Regulatory Pathways Involved in Persistence of Dormant Micro-Tumors -- The Host Support Niche as a Control Point for Tumor Dormancy - Implications for Tumor Development and Beyond -- Insights into the Regulation of Tumor Dormancy by Angiogenesis in Experimental Tumors -- Part 2: Stem Cells and Signaling Pathways -- Cancer Stem Cells and Tumor Dormancy -- Regulation of Tumor Cell Dormancy by Tissue Microenvironments and Autophagy -- Tumor Dormancy, Oncogene Addiction, Cellular Senescence and Self Renewal Programs -- Part 3: Immune System -- Multifaceted Kinetics of Immuno-Evasion from Tumor Dormancy -- Tumor Dormancy and Cancer Stem Cells: Two Sides of the Same Coin? -- Tumor Dormncy: Long-Term Survival in a Hostile Environment -- A Review of Mathematical Models of Cancer-Immune Interactions in the Context of Tumor Dormancy -- Part 4: Mathematical Biosciences and Dynamical Systems Modeling -- Regulation of Tumor Dormancy and Role of Microenvironment: A Mathematical Model -- Seeing the Invisible -- How Mathematical Models Uncover Tumor Dormancy, Reconstruct the Natural History of Cancer, and Assess the Effects of Treatment -- Index.

Additional Edition: ISBN 9781461414445

Additional Edition: Buchausg. u.d.T. ISBN 978-1-461-41444-5

Language: English

DOI: 10.1007/978-1-4614-1445-2

URL: Volltext

URL: Volltext  (lizenzpflichtig)

URL: Cover

UID:

Format: XVIII, 291 p. 77 illus., 62 illus. in color

ISBN: 9781461414452

Series Statement: Advances in Experimental Medicine and Biology 734

Additional Edition: Erscheint auch als Druck-Ausgabe 9781461414445

Language: English

DOI: 10.1007/978-1-4614-1445-2

URL: http://dx.doi.org/10.1007/978-1-4614-1445-2

UID:

Format: XVIII, 291 S. , Ill

ISBN: 146141444X , 9781461414445

Series Statement: Advances in experimental medicine and biology 734

Note: Pt. 1. Angiogenesis. Genes and regulatory pathways involved in persistence of dormant micro-tumors / Nava AlmogThe host support niche as a control point for tumor dormancy: implications for tumor development and beyond / Philip Hahnfeldt -- Insights into the regulation of tumor dormancy by angiogenesis in experimental tumors / Stefano Indraccolo -- pt. 2. Stem cells and signaling pathways. Cancer stem cells and tumor dormancy / Heiko Enderling -- Regulation of tumor cell dormancy by tissue microenvironments and autophagy / Maria Soledad Sosa ... [et al.] -- Tumor dormancy, oncogene addiction, cellular senescence, and self-renewal programs / David I. Bellovin, Bikul Das and Dean W. Felsher -- pt. 3. Immune System. Multifaceted kinetics of immuno-evasion from tumor dormancy / Alberto d'Onofrio -- Tumor dormancy and cancer stem cells: two sides of the same coin? / Sonja Kleffel and Tobias Schatton -- Tumor dormancy: long-term survival in a hostile environment / Bruno Quesnel -- A review of mathematical models of cancer-immune interactions in the context of tumor dormancy / Kathleen P. Wilkie -- pt. 4. Mathematical biosciences and dynamical systems modeling. Regulation of tumor dormancy and role of microenvironment: a mathematical model / Yangjin Kim and Khalid Boushaba -- Seeing the invisible: how mathematical models uncover tumor dormancy, reconstruct the natural history of cancer, and assess the effects of treatment / Leonid Hanin. , Pt. 1. Angiogenesis. Genes and regulatory pathways involved in persistence of dormant micro-tumors / Nava Almog -- The host support niche as a control point for tumor dormancy: implications for tumor development and beyond / Philip Hahnfeldt -- Insights into the regulation of tumor dormancy by angiogenesis in experimental tumors / Stefano Indraccolo -- pt. 2. Stem cells and signaling pathways. Cancer stem cells and tumor dormancy / Heiko Enderling -- Regulation of tumor cell dormancy by tissue microenvironments and autophagy / Maria Soledad Sosa ... [et al.] -- Tumor dormancy, oncogene addiction, cellular senescence, and self-renewal programs / David I. Bellovin, Bikul Das and Dean W. Felsher -- pt. 3. Immune System. Multifaceted kinetics of immuno-evasion from tumor dormancy / Alberto d'Onofrio -- Tumor dormancy and cancer stem cells: two sides of the same coin? / Sonja Kleffel and Tobias Schatton -- Tumor dormancy: long-term survival in a hostile environment / Bruno Quesnel -- A review of mathematical models of cancer-immune interactions in the context of tumor dormancy / Kathleen P. Wilkie -- pt. 4. Mathematical biosciences and dynamical systems modeling. Regulation of tumor dormancy and role of microenvironment: a mathematical model / Yangjin Kim and Khalid Boushaba -- Seeing the invisible: how mathematical models uncover tumor dormancy, reconstruct the natural history of cancer, and assess the effects of treatment / Leonid Hanin.

Language: English

URL: Verlagsangaben

URL: Inhaltsverzeichnis

UID:

Format: Online-Ressource , online resource.

ISSN: 1745-6150 , 1745-6150

In: volume:5

In: number:1

In: day:20

In: month:4

In: year:2010

In: pages:1-9

In: date:12.2010

In: Biology direct, London : BioMed Central, 2006-, 5, Heft 1 (20.4.2010), 1-9, 12.2010, 1745-6150

Language: English

DOI: 10.1186/1745-6150-5-23

URN: urn:nbn:de:1111-2016073121758

URL: https://doi.org/10.1186/1745-6150-5-23

URL: https://nbn-resolving.org/urn:nbn:de:1111-2016073121758

URL: https://d-nb.info/1109544324/34

URL: http://dx.doi.org/10.1186/1745-6150-5-23

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Format: Online-Ressource , online resource.

ISSN: 1742-4682 , 1742-4682

In: volume:9

In: number:1

In: day:28

In: month:7

In: year:2012

In: pages:1-9

In: date:12.2012

In: Theoretical biology and medical modelling, London : BioMed Central, 2004-, 9, Heft 1 (28.7.2012), 1-9, 12.2012, 1742-4682

Language: English

DOI: 10.1186/1742-4682-9-31

URN: urn:nbn:de:101:1-2021081619450277624537

URL: https://doi.org/10.1186/1742-4682-9-31

URL: https://nbn-resolving.org/urn:nbn:de:101:1-2021081619450277624537

URL: https://d-nb.info/1239101481/34

URL: https://doi.org/10.1186/1742-4682-9-31

UID:

Format: Online-Ressource , online resource.

ISSN: 1550-7416 , 1550-7416

In: volume:17

In: number:2

In: day:7

In: month:2

In: year:2015

In: pages:447-456

In: date:3.2015

In: American Association of Pharmaceutical Scientists, The AAPS journal, Arlington, Va. : Soc., 2004-, 17, Heft 2 (7.2.2015), 447-456, 3.2015, 1550-7416

Language: English

DOI: 10.1208/s12248-014-9715-3

URN: urn:nbn:de:1111-2016031026240

URL: https://doi.org/10.1208/s12248-014-9715-3

URL: https://nbn-resolving.org/urn:nbn:de:1111-2016031026240

URL: https://d-nb.info/1088770622/34

URL: http://dx.doi.org/10.1208/s12248-014-9715-3

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Format: Online-Ressource , online resource.

ISSN: 1742-4682 , 1742-4682

In: volume:8

In: number:1

In: day:30

In: month:12

In: year:2011

In: pages:1-13

In: date:12.2011

In: Theoretical biology and medical modelling, London : BioMed Central, 2004-, 8, Heft 1 (30.12.2011), 1-13, 12.2011, 1742-4682

Language: English

DOI: 10.1186/1742-4682-8-48

URN: urn:nbn:de:101:1-2021080919300163555977

URL: https://doi.org/10.1186/1742-4682-8-48

URL: https://nbn-resolving.org/urn:nbn:de:101:1-2021080919300163555977

URL: https://d-nb.info/1238581587/34

URL: https://doi.org/10.1186/1742-4682-8-48

UID:

Format: Online-Ressource , online resource.

ISSN: 1432-2099 , 1432-2099

In: volume:50

In: number:4

In: day:24

In: month:8

In: year:2011

In: pages:607-608

In: date:11.2011

In: Radiation and environmental biophysics, Berlin ; Heidelberg ; New York, NY : Springer, 1963-, 50, Heft 4 (24.8.2011), 607-608, 11.2011, 1432-2099

Language: English

DOI: 10.1007/s00411-011-0378-5

URN: urn:nbn:de:101:1-2023050609294975635558

URL: https://doi.org/10.1007/s00411-011-0378-5

URL: https://nbn-resolving.org/urn:nbn:de:101:1-2023050609294975635558

URL: https://d-nb.info/1288389256/34

URL: https://doi.org/10.1007/s00411-011-0378-5