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Willard, Martin Collection _000107

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submarine | convair | sdv | generaldynamics | submersible | swimmerdeliveryvehicle | martinwillard | model48charger | convairmodel14 | swimmerdeliveryvehiclemarkvii | sdvmarkvii | swimmerdeliveryvehiclemark7 | sdvmark7 | swimmerdeliveryvehiclemkvii | sdvmkvii | swimmerdeliveryvehiclemk7 | sdvmk7 | swimmerdeliveryvehiclemarkviimod6 | sdvmarkviimod6 | swimmerdeliveryvehiclemark7mod6 | sdvmark7mod6 | swimmerdeliveryvehiclemkviimod6 | sdvmkviimod6 | swimmerdeliveryvehiclemk7mod6 | sdvmk7mod6 | mkviisdv | mkviimod6sdv | mk7sdv | mk7mod6sdv

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Willard, Martin Collection _000104

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submarine | convair | sdv | generaldynamics | submersible | swimmerdeliveryvehicle | vision:text=0619 | vision:outdoor=0834 | vision:car=0677 | martinwillard | model48charger | convairmodel14 | swimmerdeliveryvehiclemarkvii | sdvmarkvii | swimmerdeliveryvehiclemark7 | sdvmark7 | swimmerdeliveryvehiclemkvii | sdvmkvii | swimmerdeliveryvehiclemk7 | sdvmk7 | swimmerdeliveryvehiclemarkviimod6 | sdvmarkviimod6 | swimmerdeliveryvehiclemark7mod6 | sdvmark7mod6 | swimmerdeliveryvehiclemkviimod6 | sdvmkviimod6 | swimmerdeliveryvehiclemk7mod6 | sdvmk7mod6 | mkviisdv | mkviimod6sdv | mk7sdv | mk7mod6sdv

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Willard, Martin Collection _000103

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submarine | convair | sdv | generaldynamics | submersible | swimmerdeliveryvehicle | vision:car=0776 | vision:outdoor=0725 | martinwillard | model48charger | convairmodel14 | swimmerdeliveryvehiclemarkvii | sdvmarkvii | swimmerdeliveryvehiclemark7 | sdvmark7 | swimmerdeliveryvehiclemkvii | sdvmkvii | swimmerdeliveryvehiclemk7 | sdvmk7 | swimmerdeliveryvehiclemarkviimod6 | sdvmarkviimod6 | swimmerdeliveryvehiclemark7mod6 | sdvmark7mod6 | swimmerdeliveryvehiclemkviimod6 | sdvmkviimod6 | swimmerdeliveryvehiclemk7mod6 | sdvmk7mod6 | mkviisdv | mkviimod6sdv | mk7sdv | mk7mod6sdv

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Willard, Martin Collection _000108

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crane | submarine | convair | sdv | generaldynamics | submersible | swimmerdeliveryvehicle | loraincrane | vision:outdoor=0903 | vision:car=057 | martinwillard | model48charger | convairmodel14 | swimmerdeliveryvehiclemarkvii | sdvmarkvii | swimmerdeliveryvehiclemark7 | sdvmark7 | swimmerdeliveryvehiclemkvii | sdvmkvii | swimmerdeliveryvehiclemk7 | sdvmk7 | swimmerdeliveryvehiclemarkviimod6 | sdvmarkviimod6 | swimmerdeliveryvehiclemark7mod6 | sdvmark7mod6 | swimmerdeliveryvehiclemkviimod6 | sdvmkviimod6 | swimmerdeliveryvehiclemk7mod6 | sdvmk7mod6 | mkviisdv | mkviimod6sdv | mk7sdv | mk7mod6sdv

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3.051J Materials for Biomedical Applications (MIT) 3.051J Materials for Biomedical Applications (MIT)

Description

This course gives an introduction to the interactions between proteins, cells and surfaces of biomaterials. It includes surface chemistry and physics of selected metals, polymers and ceramics, modification of biomaterials surfaces, and surface characterization methodology; quantitative assays of cell behavior in culture and methods of statistical analysis; organ replacement therapies and acute and chronic response to implanted biomaterials. The course includes topics in biosensors, drug delivery and tissue engineering. This course gives an introduction to the interactions between proteins, cells and surfaces of biomaterials. It includes surface chemistry and physics of selected metals, polymers and ceramics, modification of biomaterials surfaces, and surface characterization methodology; quantitative assays of cell behavior in culture and methods of statistical analysis; organ replacement therapies and acute and chronic response to implanted biomaterials. The course includes topics in biosensors, drug delivery and tissue engineering.

Subjects

Interactions between proteins | Interactions between proteins | cells | cells | Surface chemistry and physics of metals | Surface chemistry and physics of metals | polymers and ceramics | polymers and ceramics | Surface characterization methodology | Surface characterization methodology | Quantitative assays of cell behavior | Quantitative assays of cell behavior | Organ replacement therapies | Organ replacement therapies | Acute and chronic response to implanted biomaterials | Acute and chronic response to implanted biomaterials | Biosensors | Biosensors | drug delivery and tissue engineering | drug delivery and tissue engineering | Interactions between proteins | cells | Interactions between proteins | cells | Surface chemistry and physics of metals | polymers and ceramics | Surface chemistry and physics of metals | polymers and ceramics | Biosensors | drug delivery and tissue engineering | Biosensors | drug delivery and tissue engineering | BE.340J | BE.340J | 3.051 | 3.051 | BE.340 | BE.340 | 20.340 | 20.340

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Liver Fat Metabolism

Description

Dr Leanne Hodson talks about her research on liver fat metabolism. Dr Leanne Hodson's research focuses on fatty liver disease, defined as having over 5 percent liver fat, and a 'silent disease' as many people are not diagnosed. Dr Hodson aims to find targets for new medications which will help lower the risk of accumulating liver fat. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

obesity | diabetes | liver fat | liver disease | obesity | diabetes | liver fat | liver disease

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Liver Fat Metabolism

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Dr Leanne Hodson talks about her research on liver fat metabolism. Dr Leanne Hodson's research focuses on fatty liver disease, defined as having over 5 percent liver fat, and a 'silent disease' as many people are not diagnosed. Dr Hodson aims to find targets for new medications which will help lower the risk of accumulating liver fat. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

obesity | diabetes | liver fat | liver disease | obesity | diabetes | liver fat | liver disease

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MapAction: Geospatial support for humanitarian disasters

Description

Special seminar by Roy Wood (MapAction) recorded on 30 April 2013 at the Oxford Department of International Development, University of Oxford. This talk will describe the British charity MapAction and its work in providing rapid response geospatial support to decision making and information management in humanitarian situations. The charity has been operational for over ten years and has deployed its teams of highly trained and self-sufficient professional volunteers to almost 40 emergencies covering both sudden onset natural disasters and complex crises. These deployments are usually but not exclusively in support of the UN Office for the Coordination of Humanitarian Affairs. The methods used by MapAction will be covered with examples from its deployments to illustrate its extensive fiel Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

logistics | disaster | humanitarian | mapaction | delivery | relief | aid | haiti | geography | logistics | disaster | humanitarian | mapaction | delivery | relief | aid | haiti | geography

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http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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11.165 Infrastructure in Crisis: Energy and Security Challenges (MIT) 11.165 Infrastructure in Crisis: Energy and Security Challenges (MIT)

Description

The purpose of this seminar is to examine efforts in developing and advanced nations and regions to create, finance and regulate infrastructure systems and services that affect energy security. We will introduce a variety of methodological and disciplinary perspectives. During the seminar, students will explore how an energy crisis can be an opportunity for making fundamental changes to improve collapsing infrastructure networks. The sessions will be used to introduce the challenges to modern society concerning energy security, and for students to study how food security and energy security are intertwined, as well as how infrastructure supports the energy system. We will review the moral hazard aspects of infrastructure and the common arguments for withholding adequate support to the reb The purpose of this seminar is to examine efforts in developing and advanced nations and regions to create, finance and regulate infrastructure systems and services that affect energy security. We will introduce a variety of methodological and disciplinary perspectives. During the seminar, students will explore how an energy crisis can be an opportunity for making fundamental changes to improve collapsing infrastructure networks. The sessions will be used to introduce the challenges to modern society concerning energy security, and for students to study how food security and energy security are intertwined, as well as how infrastructure supports the energy system. We will review the moral hazard aspects of infrastructure and the common arguments for withholding adequate support to the reb

Subjects

Energy infrastructure | Energy infrastructure | energy crisis | energy crisis | energy security | energy security | economics of public goods and infrastructure | economics of public goods and infrastructure | Infrastructure development | Infrastructure development | infrastructure policy | infrastructure policy | infrastructure financing | infrastructure financing | energy system | energy system | food security | food security | political economy of energy | political economy of energy | long term development of energy | long term development of energy | infrastructure delivery | infrastructure delivery

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3.40J Physical Metallurgy (MIT) 3.40J Physical Metallurgy (MIT)

Description

This course examines how the presence of 1-, 2- and 3D defects and second phases control the mechanical, electromagnetic and chemical behavior of metals and alloys. It considers point, line and interfacial defects in the context of structural transformations including annealing, spinodal decomposition, nucleation, growth, and particle coarsening. In addition, it concentrates on structure-function relationships, and in particular how grain size, interstitial and substitutional solid solutions, and second-phase particles impact mechanical and other properties. Examples include microelectronic circuitry, magnetic memory and drug delivery applications. This course examines how the presence of 1-, 2- and 3D defects and second phases control the mechanical, electromagnetic and chemical behavior of metals and alloys. It considers point, line and interfacial defects in the context of structural transformations including annealing, spinodal decomposition, nucleation, growth, and particle coarsening. In addition, it concentrates on structure-function relationships, and in particular how grain size, interstitial and substitutional solid solutions, and second-phase particles impact mechanical and other properties. Examples include microelectronic circuitry, magnetic memory and drug delivery applications.

Subjects

1- | 2- and 3D defects | 1- | 2- and 3D defects | second phases | second phases | mechanical | electromagnetic and chemical behavior of metals and alloys | mechanical | electromagnetic and chemical behavior of metals and alloys | point | line and interfacial defects | point | line and interfacial defects | structural transformations | structural transformations | annealing | annealing | spinodal decomposition | spinodal decomposition | nucleation | nucleation | growth | growth | particle coarsening | particle coarsening | structure-function relationships | structure-function relationships | grain size | grain size | interstitial and substitutional solid solutions | interstitial and substitutional solid solutions | second-phase particles | second-phase particles | microelectronic circuitry | microelectronic circuitry | magnetic memory | magnetic memory | drug delivery applications | drug delivery applications | 3.40 | 3.40 | 22.71 | 22.71

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BE.462J Molecular Principles of Biomaterials (MIT) BE.462J Molecular Principles of Biomaterials (MIT)

Description

Analysis and design at a molecular scale of materials used in contact with biological systems, including biotechnology and biomedical engineering. Topics include molecular interactions between bio- and synthetic molecules and surfaces; design, synthesis, and processing approaches for materials that control cell functions; and application of state-of-the-art materials science to problems in tissue engineering, drug delivery, biosensors, and cell-guiding surfaces.Technical RequirementsMicrosoft® Excel software is recommended for viewing the .xls files found on this course site. Free Microsoft® Excel viewer software can also be used to view the .xls files.Microsoft® is a registered trademark or trademark of Microsoft Corporation in the U.S Analysis and design at a molecular scale of materials used in contact with biological systems, including biotechnology and biomedical engineering. Topics include molecular interactions between bio- and synthetic molecules and surfaces; design, synthesis, and processing approaches for materials that control cell functions; and application of state-of-the-art materials science to problems in tissue engineering, drug delivery, biosensors, and cell-guiding surfaces.Technical RequirementsMicrosoft® Excel software is recommended for viewing the .xls files found on this course site. Free Microsoft® Excel viewer software can also be used to view the .xls files.Microsoft® is a registered trademark or trademark of Microsoft Corporation in the U.S

Subjects

Analysis | Analysis | design | design | molecular scale | molecular scale | biological systems | biological systems | biotechnology | biotechnology | biomedical engineering | biomedical engineering | molecular interactions | molecular interactions | synthetic molecules | synthetic molecules | synthesis | synthesis | processing approaches | processing approaches | cell functions | cell functions | materials science | materials science | tissue engineering | tissue engineering | drug delivery | drug delivery | biosensors | biosensors | cell-guiding surfaces | cell-guiding surfaces | 3.962J | 3.962J | BE.462 | BE.462 | 3.962 | 3.962

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HST.121 Gastroenterology (MIT) HST.121 Gastroenterology (MIT)

Description

The most recent knowledge of the anatomy, physiology, biochemistry, biophysics, and bioengineering of the gastrointestinal tract and the associated pancreatic, liver and biliary tract systems is presented and discussed. Gross and microscopic pathology and the clinical aspects of important gastroenterological diseases are then presented, with emphasis on integrating the molecular, cellular and pathophysiological aspects of the disease processes to their related symptoms and signs. The most recent knowledge of the anatomy, physiology, biochemistry, biophysics, and bioengineering of the gastrointestinal tract and the associated pancreatic, liver and biliary tract systems is presented and discussed. Gross and microscopic pathology and the clinical aspects of important gastroenterological diseases are then presented, with emphasis on integrating the molecular, cellular and pathophysiological aspects of the disease processes to their related symptoms and signs.

Subjects

gastroenterology | gastroenterology | anatomy | anatomy | physiology | physiology | biochemistry | biochemistry | biophysics | biophysics | bioengineering | bioengineering | gastrointestinal tract | gastrointestinal tract | pancreas | pancreas | liver | liver | biliary tract system | biliary tract system | gross pathology | gross pathology | microscopic pathology | microscopic pathology | clinical diseases | clinical diseases | molecular | molecular | cellular | cellular | pathophysiological processes | pathophysiological processes | symptoms | symptoms | medical | medical | health | health

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20.462J Molecular Principles of Biomaterials (BE.462J) (MIT) 20.462J Molecular Principles of Biomaterials (BE.462J) (MIT)

Description

Analysis and design at a molecular scale of materials used in contact with biological systems, including biotechnology and biomedical engineering. Topics include molecular interactions between bio- and synthetic molecules and surfaces; design, synthesis, and processing approaches for materials that control cell functions; and application of state-of-the-art materials science to problems in tissue engineering, drug delivery, biosensors, and cell-guiding surfaces.Technical RequirementsMicrosoft® Excel software is recommended for viewing the .xls files found on this course site. Free Microsoft® Excel viewer software can also be used to view the .xls files.Microsoft® is a registered trademark or trademark of Microsoft Corporation in the U.S Analysis and design at a molecular scale of materials used in contact with biological systems, including biotechnology and biomedical engineering. Topics include molecular interactions between bio- and synthetic molecules and surfaces; design, synthesis, and processing approaches for materials that control cell functions; and application of state-of-the-art materials science to problems in tissue engineering, drug delivery, biosensors, and cell-guiding surfaces.Technical RequirementsMicrosoft® Excel software is recommended for viewing the .xls files found on this course site. Free Microsoft® Excel viewer software can also be used to view the .xls files.Microsoft® is a registered trademark or trademark of Microsoft Corporation in the U.S

Subjects

Analysis | Analysis | design | design | molecular scale | molecular scale | biological systems | biological systems | biotechnology | biotechnology | biomedical engineering | biomedical engineering | molecular interactions | molecular interactions | synthetic molecules | synthetic molecules | synthesis | synthesis | processing approaches | processing approaches | cell functions | cell functions | materials science | materials science | tissue engineering | tissue engineering | drug delivery | drug delivery | biosensors | biosensors | cell-guiding surfaces | cell-guiding surfaces | BE.462J | BE.462J | BE.462 | BE.462 | 3.962 | 3.962

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1.463J The Impact of Globalization on the Built Environment (MIT) 1.463J The Impact of Globalization on the Built Environment (MIT)

Description

The course is designed to provide a better understanding of the built environment, globalization, the current financial crisis and the impact of these factors on the rapidly changing and evolving international architecture, engineering, construction fields. We will, hopefully, obtain a better understanding of how these forces of globalization and the current financial crisis are having an impact on the built environment and how they will affect firms and your future career opportunities. We will also identify, review and discuss best practices and lessons that can be learned from recent events. We will explore the "international built environment" in detail, examining how it functions and asking what are the managerial, entrepreneurial and professional opportunities, challenges a The course is designed to provide a better understanding of the built environment, globalization, the current financial crisis and the impact of these factors on the rapidly changing and evolving international architecture, engineering, construction fields. We will, hopefully, obtain a better understanding of how these forces of globalization and the current financial crisis are having an impact on the built environment and how they will affect firms and your future career opportunities. We will also identify, review and discuss best practices and lessons that can be learned from recent events. We will explore the "international built environment" in detail, examining how it functions and asking what are the managerial, entrepreneurial and professional opportunities, challenges a

Subjects

1.463 | 1.463 | 11.342 | 11.342 | ESD.53 | ESD.53 | management | management | construction | construction | engineering | engineering | architecture | architecture | global markets | global markets | concessions | concessions | partnering | partnering | finance | finance | privatization | privatization | outsourcing | outsourcing | information technology | information technology | international | international | globalization | globalization | greatest construction projects | greatest construction projects | project delivery system | project delivery system | risk management | risk management | megacities | megacities | competitiveness | competitiveness

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3.042 Materials Project Laboratory (MIT) 3.042 Materials Project Laboratory (MIT)

Description

As its name implies, the 3.042 Materials Project Laboratory involves working with such operations as investment casting of metals, injection molding of polymers, and sintering of ceramics. After all the abstraction and theory in the lecture part of the DMSE curriculum, many students have found this hands-on experience with materials to be very fun stuff - several have said that 3.042/3.082 was their favorite DMSE subject. The lab is more than operating processing equipment, however. It is intended also to emulate professional practice in materials engineering project management, with aspects of design, analysis, teamwork, literature and patent searching, Web creation and oral presentation, and more. As its name implies, the 3.042 Materials Project Laboratory involves working with such operations as investment casting of metals, injection molding of polymers, and sintering of ceramics. After all the abstraction and theory in the lecture part of the DMSE curriculum, many students have found this hands-on experience with materials to be very fun stuff - several have said that 3.042/3.082 was their favorite DMSE subject. The lab is more than operating processing equipment, however. It is intended also to emulate professional practice in materials engineering project management, with aspects of design, analysis, teamwork, literature and patent searching, Web creation and oral presentation, and more.

Subjects

Student project teams design and fabricate a materials engineering prototype using processing technologies (injection molding | Student project teams design and fabricate a materials engineering prototype using processing technologies (injection molding | thermoforming | thermoforming | investment casting | investment casting | powder processing | powder processing | three-dimensional printing | three-dimensional printing | physical vapor deposition | physical vapor deposition | etc.) appropriate for the materials and device of interest. Goals include using MSE fundamentals in a practical application; understanding trade-offs between design | etc.) appropriate for the materials and device of interest. Goals include using MSE fundamentals in a practical application; understanding trade-offs between design | processing and performance; and fabrication of a deliverable prototype. Emphasis on teamwork | processing and performance; and fabrication of a deliverable prototype. Emphasis on teamwork | project management | project management | communications and computer skills | communications and computer skills | and hands-on work using student and MIT laboratory shops. Teams document their progress and final results by means of web pages and weekly oral presentations. Instruction and practice in oral communication provided. | and hands-on work using student and MIT laboratory shops. Teams document their progress and final results by means of web pages and weekly oral presentations. Instruction and practice in oral communication provided.

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3.051J Materials for Biomedical Applications (MIT) 3.051J Materials for Biomedical Applications (MIT)

Description

This class provides an introduction to the interactions between cells and the surfaces of biomaterials. The course covers: surface chemistry and physics of selected metals, polymers, and ceramics; surface characterization methodology; modification of biomaterials surfaces; quantitative assays of cell behavior in culture; biosensors and microarrays; bulk properties of implants; and acute and chronic response to implanted biomaterials. General topics include biosensors, drug delivery, and tissue engineering. This class provides an introduction to the interactions between cells and the surfaces of biomaterials. The course covers: surface chemistry and physics of selected metals, polymers, and ceramics; surface characterization methodology; modification of biomaterials surfaces; quantitative assays of cell behavior in culture; biosensors and microarrays; bulk properties of implants; and acute and chronic response to implanted biomaterials. General topics include biosensors, drug delivery, and tissue engineering.

Subjects

interactions between proteins | cells and surfaces of biomaterials | interactions between proteins | cells and surfaces of biomaterials | surface chemistry and physics of metals | polymers and ceramics | surface chemistry and physics of metals | polymers and ceramics | Surface characterization methodology | Surface characterization methodology | Quantitative assays of cell behavior in culture | Quantitative assays of cell behavior in culture | Organ replacement therapies | Organ replacement therapies | Acute and chronic response to implanted biomaterials | Acute and chronic response to implanted biomaterials | biosensors | drug delivery and tissue engineering | biosensors | drug delivery and tissue engineering

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7.342 Developmental and Molecular Biology of Regeneration (MIT) 7.342 Developmental and Molecular Biology of Regeneration (MIT)

Description

How does a regenerating animal "know" what's missing? How are stem cells or differentiated cells used to create new tissues during regeneration? In this class we will take a comparative approach to explore this fascinating problem by critically examining classic and modern scientific literature about the developmental and molecular biology of regeneration. We will learn about conserved developmental pathways that are necessary for regeneration, and we will discuss the relevance of these findings for regenerative medicine. This course is one of many Advanced Undergraduate Seminars offered by the Biology Department at MIT. These seminars are tailored for students with an interest in using primary research literature to discuss and learn about current biological research in a highl How does a regenerating animal "know" what's missing? How are stem cells or differentiated cells used to create new tissues during regeneration? In this class we will take a comparative approach to explore this fascinating problem by critically examining classic and modern scientific literature about the developmental and molecular biology of regeneration. We will learn about conserved developmental pathways that are necessary for regeneration, and we will discuss the relevance of these findings for regenerative medicine. This course is one of many Advanced Undergraduate Seminars offered by the Biology Department at MIT. These seminars are tailored for students with an interest in using primary research literature to discuss and learn about current biological research in a highl

Subjects

Regeneration | Regeneration | blastema | blastema | embryo | embryo | progenitor | progenitor | stem cells | stem cells | differentiation | differentiation | dedifferentiation | dedifferentiation | hydra | hydra | morphallaxis | morphallaxis | limb | limb | organ | organ | zebrafish | zebrafish | homeostasis | homeostasis | self-renewal | self-renewal | regenerative medicine | regenerative medicine | differentitate | differentitate | regulate | regulate | salamander | salamander | catenin | catenin | newt | newt | liver | liver | pluriptent | pluriptent | fibroblast | fibroblast

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11.165 Infrastructure and Energy Technology Challenges (MIT) 11.165 Infrastructure and Energy Technology Challenges (MIT)

Description

This seminar examines efforts in developing and advanced nations and regions to create, finance, and regulate infrastructure and energy technologies from a variety of methodological and disciplinary perspectives. It is conducted with intensive in-class discussions and debates. This seminar examines efforts in developing and advanced nations and regions to create, finance, and regulate infrastructure and energy technologies from a variety of methodological and disciplinary perspectives. It is conducted with intensive in-class discussions and debates.

Subjects

Energy infrastructure | Energy infrastructure | energy crisis | energy crisis | energy security | energy security | economics of public goods and infrastructure | economics of public goods and infrastructure | Infrastructure development | Infrastructure development | infrastructure policy | infrastructure policy | infrastructure financing | infrastructure financing | energy system | energy system | food security | food security | political economy of energy | political economy of energy | long term development of energy | long term development of energy | infrastructure delivery | infrastructure delivery

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Institutional Processes in Developing Countries (MIT) Institutional Processes in Developing Countries (MIT)

Description

This introductory course helps students learn to pose questions and analyze problems in the field of planning in developing countries. Not arguing for one "right" approach, the course draws on grounded empirical experiences - historical and recent - to help students navigate the way they approach their future work in developing-country governments, NGOs and international organizations. This introductory course helps students learn to pose questions and analyze problems in the field of planning in developing countries. Not arguing for one "right" approach, the course draws on grounded empirical experiences - historical and recent - to help students navigate the way they approach their future work in developing-country governments, NGOs and international organizations.

Subjects

developing--country governments | developing--country governments | international | international | international organizations | international organizations | NGOs | NGOs | economies of scale | economies of scale | diseconomies of scale | diseconomies of scale | international development planning | international development planning | externality | externality | historical advances in developing and developing countries | historical advances in developing and developing countries | interaction between planners and institutions | interaction between planners and institutions | ecentralization | provision of low-cost housing | ecentralization | provision of low-cost housing | new--town development | new--town development | decentralization | decentralization | provision of low--cost housing | provision of low--cost housing | developing countries | developing countries | national planning | national planning | planners | planners | government institutions | government institutions | national government | national government | local government | local government | low-cost housing | low-cost housing | new-town development | new-town development | reform | reform | politics | politics | patronage | patronage | clientelism | clientelism | corruption | corruption | civil servants | civil servants | service-delivery organizations | service-delivery organizations | public vs. private | public vs. private

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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20.462J Molecular Principles of Biomaterials (MIT) 20.462J Molecular Principles of Biomaterials (MIT)

Description

This course covers the analysis and design at a molecular scale of materials used in contact with biological systems, including biotechnology and biomedical engineering. Topics include molecular interactions between bio- and synthetic molecules and surfaces; design, synthesis, and processing approaches for materials that control cell functions; and application of state-of-the-art materials science to problems in tissue engineering, drug delivery, vaccines, and cell-guiding surfaces. This course covers the analysis and design at a molecular scale of materials used in contact with biological systems, including biotechnology and biomedical engineering. Topics include molecular interactions between bio- and synthetic molecules and surfaces; design, synthesis, and processing approaches for materials that control cell functions; and application of state-of-the-art materials science to problems in tissue engineering, drug delivery, vaccines, and cell-guiding surfaces.

Subjects

biomaterials | biomaterials | biomaterial engineering | biomaterial engineering | biotechnology | biotechnology | cell-guiding surface | cell-guiding surface | molecular biomaterials | molecular biomaterials | drug release | drug release | polymers | polymers | pulsatile release | pulsatile release | polymerization | polymerization | polyer erosion | polyer erosion | tissue engineering | tissue engineering | hydrogels | hydrogels | adhesion | adhesion | migration | migration | drug diffusion | drug diffusion | molecular switches | molecular switches | molecular motors | molecular motors | nanoparticles | nanoparticles | microparticles | microparticles | vaccines | vaccines | drug targeting | drug targeting | micro carriers | micro carriers | nano carriers | nano carriers | intracellular drug delivery | intracellular drug delivery | 20.462 | 20.462 | 3.962 | 3.962

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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ESD.69 Seminar on Health Care Systems Innovation (MIT) ESD.69 Seminar on Health Care Systems Innovation (MIT)

Description

This seminar applies a systems perspective to understand health care delivery today, its stakeholders and problems as well as opportunities. Students are introduced to the 'systems perspective' that has been used successfully in other industries, and will address the introduction of new processes, technologies and strategies to improve overall health outcomes. Students are assigned to teams to work on a semester‐long group project, in collaboration with staff of a nearby Boston hospital. This seminar applies a systems perspective to understand health care delivery today, its stakeholders and problems as well as opportunities. Students are introduced to the 'systems perspective' that has been used successfully in other industries, and will address the introduction of new processes, technologies and strategies to improve overall health outcomes. Students are assigned to teams to work on a semester‐long group project, in collaboration with staff of a nearby Boston hospital.

Subjects

HST.926 | HST.926 | health systems | health systems | quality improvement | quality improvement | safety | safety | health care delivery | health care delivery | payment by results | payment by results | health care and information technology | health care and information technology | process change | process change | uncertainty in clinical decision | uncertainty in clinical decision | variation in clinical decision | variation in clinical decision | performance measures in health care | performance measures in health care

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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HST.525J Tumor Pathophysiology and Transport Phenomena (MIT) HST.525J Tumor Pathophysiology and Transport Phenomena (MIT)

Description

Tumor pathophysiology plays a central role in the growth, invasion, metastasis and treatment of solid tumors. This class applies principles of transport phenomena to develop a systems-level, quantitative understanding of angiogenesis, blood flow and microcirculation, metabolism and microenvironment, transport and binding of small and large molecules, movement of cancer and immune cells, metastatic process, and treatment response. Additional Faculty Dr. Pat D'Amore Dr. Dan Duda Dr. Robert Langer Prof. Robert Weinberg Dr. Marsha Moses Dr. Raghu Kalluri Dr. Lance Munn Tumor pathophysiology plays a central role in the growth, invasion, metastasis and treatment of solid tumors. This class applies principles of transport phenomena to develop a systems-level, quantitative understanding of angiogenesis, blood flow and microcirculation, metabolism and microenvironment, transport and binding of small and large molecules, movement of cancer and immune cells, metastatic process, and treatment response. Additional Faculty Dr. Pat D'Amore Dr. Dan Duda Dr. Robert Langer Prof. Robert Weinberg Dr. Marsha Moses Dr. Raghu Kalluri Dr. Lance Munn

Subjects

HST.525 | HST.525 | 10.548 | 10.548 | tumor | tumor | cancer | cancer | tumor vasculature | tumor vasculature | antiangiogenesis | antiangiogenesis | bone marrow-derived stem cells | bone marrow-derived stem cells | BMDC | BMDC | stem cell research | stem cell research | experimental cancer therapy | experimental cancer therapy | cancer research | cancer research | tumor-host interactions | tumor-host interactions | vascular normalization | vascular normalization | vascular transport | vascular transport | interstitial transport | interstitial transport | lymphatic transport | lymphatic transport | microcirculation | microcirculation | molecular therapeutics | molecular therapeutics | blood vessels | blood vessels | angiogenesis | angiogenesis | drug delivery | drug delivery | intravital microscopy | intravital microscopy

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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HST.121 Gastroenterology (MIT) HST.121 Gastroenterology (MIT)

Description

The most recent knowledge of the anatomy, physiology, biochemistry, biophysics, and bioengineering of the gastrointestinal tract and the associated pancreatic, liver and biliary tract systems is presented and discussed. Gross and microscopic pathology and the clinical aspects of important gastroenterological diseases are then presented, with emphasis on integrating the molecular, cellular and pathophysiological aspects of the disease processes to their related symptoms and signs. The most recent knowledge of the anatomy, physiology, biochemistry, biophysics, and bioengineering of the gastrointestinal tract and the associated pancreatic, liver and biliary tract systems is presented and discussed. Gross and microscopic pathology and the clinical aspects of important gastroenterological diseases are then presented, with emphasis on integrating the molecular, cellular and pathophysiological aspects of the disease processes to their related symptoms and signs.

Subjects

gastroenterology | gastroenterology | anatomy | anatomy | physiology | physiology | biochemistry | biochemistry | biophysics | biophysics | bioengineering | bioengineering | gastrointestinal tract | gastrointestinal tract | pancreas | pancreas | liver | liver | biliary tract system | biliary tract system | gross pathology | gross pathology | microscopic pathology | microscopic pathology | clinical diseases | clinical diseases | molecular | molecular | cellular | cellular | pathophysiological processes | pathophysiological processes | symptoms | symptoms | medical | medical | health | health

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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s Points of View

Description

Professor Jon Mee, University of Warwick, discusses how Dickens's fiction can be considered 'cinematic' by drawing attention to the shifting points of view in Oliver Twist, Our Mutual Friend, and other novels. He relates this to work done in recent and historical adaptations of Dickens's work. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

#greatwriters | points of view | Our Mutual Friend | Victorian literature | cinematic | Oliver Twist | dickens | #greatwriters | points of view | Our Mutual Friend | Victorian literature | cinematic | Oliver Twist | dickens

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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Viruses, how to be the perfect host

Description

Professor Paul Klenerman talks about our relationship with persistent viruses, such as Hepatitis C. Prof. Paul Klenerman studies the evolutionary relationships between persistent viruses and their human hosts. He aims to understand the role of our immune responses in determining the outcome of Hepatitis C virus infection. Hepatitis C virus infects around 200 million people worldwide and is a major cause of liver disease. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

Hepatitis C virus | T cells | virus | hiv | liver and flow cytometry | Hepatitis C virus | T cells | virus | hiv | liver and flow cytometry

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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