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Cais do Sodré. Lisboa, Portugal Cais do Sodré. Lisboa, Portugal

Description

Subjects

fundaçãocaloustegulbenkian | fundaçãocaloustegulbenkian | gulbenkian | gulbenkian | bibliotecadearte | bibliotecadearte | biblioteca | biblioteca | arte | arte | márionovais | márionovais | mário | mário | novais | novais | edifício | edifício | parceriadosvaporeslisbonense | parceriadosvaporeslisbonense | vaporeslisbonense | vaporeslisbonense | vapores | vapores | lisbonense | lisbonense | caisdosodré | caisdosodré | lisboa | lisboa | portugal | portugal

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HST.021 Musculoskeletal Pathophysiology (MIT) HST.021 Musculoskeletal Pathophysiology (MIT)

Description

This course covers the growth, development and structure of normal bone and joints, the biomechanics of bone connective tissues, and their response to stress, calcium and phosphate homeostasis. Additional topics include regulation by parathyroid hormone and vitamin D, the pathogenesis of metabolic bone diseases and diseases of connective tissues, joints and muscle with consideration of possible mechanisms and underlying metabolic derangements. Lecturers Dr. Paul Joseph Anderson Dr. Robert Horatio Brown, Jr. Dr. Marie Demay Dr. Stephen Martin Krane Dr. Young-Jo Kim Dr. Henry Jay Mankin Dr. Bjorn Reino Olsen Dr. John Thomas Potts Dr. Alan Lewis Schiller Dr. Brian Dale Snyder   This course covers the growth, development and structure of normal bone and joints, the biomechanics of bone connective tissues, and their response to stress, calcium and phosphate homeostasis. Additional topics include regulation by parathyroid hormone and vitamin D, the pathogenesis of metabolic bone diseases and diseases of connective tissues, joints and muscle with consideration of possible mechanisms and underlying metabolic derangements. Lecturers Dr. Paul Joseph Anderson Dr. Robert Horatio Brown, Jr. Dr. Marie Demay Dr. Stephen Martin Krane Dr. Young-Jo Kim Dr. Henry Jay Mankin Dr. Bjorn Reino Olsen Dr. John Thomas Potts Dr. Alan Lewis Schiller Dr. Brian Dale Snyder  

Subjects

musculoskeletal | musculoskeletal | bone | bone | joints | joints | connective tissue | connective tissue | biomechanics | biomechanics | muscle | muscle | metabolic bone diseases | metabolic bone diseases | calcium homeostasis | calcium homeostasis | phosphate homeostasis | phosphate homeostasis | mineralization | mineralization

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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Ilustração Abril de 1929. Lisboa, Portugal Ilustração Abril de 1929. Lisboa, Portugal

Description

Subjects

fundaçãocaloustegulbenkian | fundaçãocaloustegulbenkian | gulbenkian | gulbenkian | bibliotecadearte | bibliotecadearte | biblioteca | biblioteca | arte | arte | márionovais | márionovais | mário | mário | novais | novais | ilustração | ilustração | 1929 | 1929 | exposiçãocolectiva | exposiçãocolectiva | exposição | exposição | júliodesousa | júliodesousa | júlio | júlio | sousa | sousa | josétagarro | josétagarro | josé | josé | tagarro | tagarro | lázarovelloso | lázarovelloso | lázaro | lázaro | velloso | velloso | galeriabobone | galeriabobone | galeria | galeria | bobone | bobone | lisboa | lisboa | portugal | portugal

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Revista Ilustração - Fevereiro 1929. Lisboa, Portugal Revista Ilustração - Fevereiro 1929. Lisboa, Portugal

Description

Subjects

fundaçãocaloustegulbenkian | fundaçãocaloustegulbenkian | gulbenkian | gulbenkian | bibliotecadearte | bibliotecadearte | biblioteca | biblioteca | arte | arte | márionovais | márionovais | mário | mário | novais | novais | ilustração | ilustração | 1929 | 1929 | inauguração | inauguração | exposição | exposição | pintura | pintura | faustosampaio | faustosampaio | fausto | fausto | sampaio | sampaio | salãobobone | salãobobone | salão | salão | bobone | bobone | ruaserpapinto | ruaserpapinto | rua | rua | serpa | serpa | pinto | pinto | lisboa | lisboa | portugal | portugal

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Life Support (MIT) Life Support (MIT)

Description

Fundamentals of human performance, physiology, and life support impacting engineering design and aerospace systems. Topics include: effects of gravity on the muscle, skeletal, cardiovascular, and neurovestibular systems; human/pilot modeling and human/machine design; flight experiment design; and life support engineering for extravehicular activity (EVA). Case studies of current research are presented. Assignments include a design project, quantitative homework sets, and quizzes emphasizing engineering and systems aspects.Technical RequirementsMATLAB® software is required to run the .m files found on this course site.MATLAB® is a trademark of The MathWorks, Inc. Fundamentals of human performance, physiology, and life support impacting engineering design and aerospace systems. Topics include: effects of gravity on the muscle, skeletal, cardiovascular, and neurovestibular systems; human/pilot modeling and human/machine design; flight experiment design; and life support engineering for extravehicular activity (EVA). Case studies of current research are presented. Assignments include a design project, quantitative homework sets, and quizzes emphasizing engineering and systems aspects.Technical RequirementsMATLAB® software is required to run the .m files found on this course site.MATLAB® is a trademark of The MathWorks, Inc.

Subjects

physiological adaptation | physiological adaptation | weightlessness | weightlessness | human space flight | human space flight | bone mechanics | bone mechanics | muscle mechanics | muscle mechanics | musculoskeletal dynamics | musculoskeletal dynamics | cardiovascular system | cardiovascular system | neurovestibular system | neurovestibular system | extravehicular activity | extravehicular activity

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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3.052 Nanomechanics of Materials and Biomaterials (MIT) 3.052 Nanomechanics of Materials and Biomaterials (MIT)

Description

This course focuses on the latest scientific developments and discoveries in the field of nanomechanics, the study of forces and motion on extremely tiny (10-9 m) areas of synthetic and biological materials and structures. At this level, mechanical properties are intimately related to chemistry, physics, and quantum mechanics. Most lectures will consist of a theoretical component that will then be compared to recent experimental data (case studies) in the literature. The course begins with a series of introductory lectures that describes the normal and lateral forces acting at the atomic scale. The following discussions include experimental techniques in high resolution force spectroscopy, atomistic aspects of adhesion, nanoindentation, molecular details of fracture, chemical force microsc This course focuses on the latest scientific developments and discoveries in the field of nanomechanics, the study of forces and motion on extremely tiny (10-9 m) areas of synthetic and biological materials and structures. At this level, mechanical properties are intimately related to chemistry, physics, and quantum mechanics. Most lectures will consist of a theoretical component that will then be compared to recent experimental data (case studies) in the literature. The course begins with a series of introductory lectures that describes the normal and lateral forces acting at the atomic scale. The following discussions include experimental techniques in high resolution force spectroscopy, atomistic aspects of adhesion, nanoindentation, molecular details of fracture, chemical force microsc

Subjects

biology | biology | biological engineering | biological engineering | cells | cells | AFM | AFM | atomic force microscope | atomic force microscope | nanoindentation | nanoindentation | gecko | gecko | malaria | malaria | nanotube | nanotube | collagen | collagen | polymer | polymer | seashell | seashell | biomimetics | biomimetics | molecule | molecule | atomic | atomic | bonding | bonding | adhesion | adhesion | quantum mechanics | quantum mechanics | physics | physics | chemistry | chemistry | protein | protein | DNA | DNA | bone | bone | lipid | lipid

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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3.A26 Freshman Seminar: The Nature of Engineering (MIT) 3.A26 Freshman Seminar: The Nature of Engineering (MIT)

Description

Are you interested in investigating how nature engineers itself? How engineers copy the shapes found in nature ("biomimetics")? This Freshman Seminar investigates why similar shapes occur in so many natural things and how physics changes the shape of nature. Why are things in nature shaped the way they are? How do birds fly? Why do bird nests look the way they do? How do woodpeckers peck? Why can't trees grow taller than they are? Why is grass skinny and hollow? What is the wood science behind musical instruments? Questions such as these are the subject of biomimetic research and they have been the focus of investigation in this course for the past three years. Are you interested in investigating how nature engineers itself? How engineers copy the shapes found in nature ("biomimetics")? This Freshman Seminar investigates why similar shapes occur in so many natural things and how physics changes the shape of nature. Why are things in nature shaped the way they are? How do birds fly? Why do bird nests look the way they do? How do woodpeckers peck? Why can't trees grow taller than they are? Why is grass skinny and hollow? What is the wood science behind musical instruments? Questions such as these are the subject of biomimetic research and they have been the focus of investigation in this course for the past three years.

Subjects

biomimicry | biomimicry | bird | bird | feather | feather | bone | bone | structure | structure | plant structure | plant structure | cellular solids | cellular solids | freshman seminar | freshman seminar | service learning | service learning | biomimetic research | biomimetic research | biomimetics | biomimetics | biology | biology | mimetic | mimetic | physics | physics | nature | nature | natural engineering | natural engineering | wood | wood | tree | tree | tree trunk | tree trunk

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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2.782J Design of Medical Devices and Implants (MIT) 2.782J Design of Medical Devices and Implants (MIT)

Description

This design course targets the solution of clinical problems by use of implants and other medical devices. Topics include the systematic use of cell-matrix control volumes; the role of stress analysis in the design process; anatomic fit, shape and size of implants; selection of biomaterials; instrumentation for surgical implantation procedures; preclinical testing for safety and efficacy, including risk/benefit ratio assessment evaluation of clinical performance and design of clinical trials. Student project materials are drawn from orthopedic devices, soft tissue implants, artificial organs, and dental implants. This design course targets the solution of clinical problems by use of implants and other medical devices. Topics include the systematic use of cell-matrix control volumes; the role of stress analysis in the design process; anatomic fit, shape and size of implants; selection of biomaterials; instrumentation for surgical implantation procedures; preclinical testing for safety and efficacy, including risk/benefit ratio assessment evaluation of clinical performance and design of clinical trials. Student project materials are drawn from orthopedic devices, soft tissue implants, artificial organs, and dental implants.

Subjects

2.782 | 2.782 | 3.961 | 3.961 | 20.451 | 20.451 | HST.524 | HST.524 | clinical problems | clinical problems | implants | implants | medical devices | medical devices | cell-matrix control volumes | cell-matrix control volumes | stress analysis | stress analysis | anatomic fit | anatomic fit | biomaterials | biomaterials | surgical implantation procedures | surgical implantation procedures | Preclinical testing | Preclinical testing | risk/benefit ratio assessment | risk/benefit ratio assessment | clinical performance | clinical performance | clinical trials | clinical trials | orthopedic devices | orthopedic devices | soft tissue implants | soft tissue implants | artificial organs | artificial organs | dental implants | dental implants | stent | stent | prosthesis | prosthesis | scaffold | scaffold | bio-implant | bio-implant | scar | scar | genetics | genetics | skin | skin | nerve | nerve | bone | bone | tooth | tooth | joint | joint | FDA | FDA | FDA approval | FDA approval | cartilage | cartilage | ACL | ACL | health | health | regulation | regulation | healthcare | healthcare | medicine | medicine | bioengineering | bioengineering

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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21H.346 France, 1660-1815: Enlightenment, Revolution, Napoleon (MIT) 21H.346 France, 1660-1815: Enlightenment, Revolution, Napoleon (MIT)

Description

This course covers French politics, culture, and society from Louis XIV to Napoleon Bonaparte. Attention is given to the growth of the central state, the beginnings of a modern consumer society, the Enlightenment, the French Revolution, including its origins, and the rise and fall of Napoleon. This course covers French politics, culture, and society from Louis XIV to Napoleon Bonaparte. Attention is given to the growth of the central state, the beginnings of a modern consumer society, the Enlightenment, the French Revolution, including its origins, and the rise and fall of Napoleon.

Subjects

French Revolution | French Revolution | history | history | french history | french history | european history | european history | napolean boneparte | napolean boneparte | Louis XVI | Louis XVI | the rights of man | the rights of man | Molière | Molière | Voltaire | Voltaire

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.535 Principles and Practice of Tissue Engineering (MIT) HST.535 Principles and Practice of Tissue Engineering (MIT)

Description

The principles and practice of tissue engineering (and regenerative medicine) are taught by faculty of the Harvard-MIT Division of Health Sciences and Technology (HST) and Tsinghua University, Beijing, China. The principles underlying strategies for employing selected cells, biomaterial scaffolds, soluble regulators or their genes, and mechanical loading and culture conditions, for the regeneration of tissues and organs in vitro and in vivo are addressed. Differentiated cell types and stem cells are compared and contrasted for this application, as are natural and synthetic scaffolds. Methodology for the preparation of cells and scaffolds in practice is described. The rationale for employing selected growth factors is covered and the techniques for incorporating their genes into the scaffol The principles and practice of tissue engineering (and regenerative medicine) are taught by faculty of the Harvard-MIT Division of Health Sciences and Technology (HST) and Tsinghua University, Beijing, China. The principles underlying strategies for employing selected cells, biomaterial scaffolds, soluble regulators or their genes, and mechanical loading and culture conditions, for the regeneration of tissues and organs in vitro and in vivo are addressed. Differentiated cell types and stem cells are compared and contrasted for this application, as are natural and synthetic scaffolds. Methodology for the preparation of cells and scaffolds in practice is described. The rationale for employing selected growth factors is covered and the techniques for incorporating their genes into the scaffol

Subjects

tissue engineering | tissue engineering | scaffold | scaffold | cell | cell | stem cell | stem cell | collagen | collagen | GAG | GAG | ECM | ECM | extracellular matrix | extracellular matrix | biomimetics | biomimetics | healing | healing | skin | skin | nerve | nerve | bone | bone | cartilage | cartilage

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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B0092P0011

Description

A cat with an external fixator supporting a tibial fracture

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | intramedullary | pinfracture | repaircirclage | wireexternal | fixatorbone | repairorthopaedic | repair | orthopaedics

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B0092P0010

Description

A cat with an external fixator supporting a tibial fracture

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics

License

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B0092P0009

Description

A cat with an external fixator supporting a tibial fracture

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics

License

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

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B0092P0008

Description

A cat with an external fixator supporting a tibial fracture

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | fracturedtibiaradiograph | image | radiographic | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics

License

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

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B0092P0007

Description

A vet removes a dressing covering an external fixator on a cat

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | fracturedtibiaradiograph | image | radiographic | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics | dressing | bandage | legbandage | legdressing

License

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B0092P0005

Description

A radiographic image of a fractued tibia repaired with an intramedullary rod and pins ready to have an external fixator attached

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | fracturedtibiaradiograph | image | radiographic | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics | postopradiograph

License

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

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B0092P0004

Description

A radiographic image of a fractued tibia repaired with an intramedullary rod and pins ready to have an external fixator attached

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | fracturedtibiaradiograph | image | radiographic | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics | postopradiograph

License

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B0092P0003

Description

A radiographic image of a fractued tibia repaired with an intramedullary rod and pins ready to have an external fixator attached

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | fracturedtibiaradiograph | image | radiographic | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics | postopradiograph

License

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B0092P0002

Description

A radiographic image of a fractued tibia repaired with an intramedullary rod and pins ready to have an external fixator attached

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | fracturedtibiaradiograph | image | radiographic | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics | postopradiograph

License

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

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Adventures in Forensic Anthropology

Description

Authors:  Professor Alan Morris Professor Morris of the Department of Human Biology (Faculty of Health Sciences, UCT) presented this talk for the Friends of the South African Museum at the Iziko Museum. Clicked 764 times. Last clicked 07/31/2014 - 22:02. Teaching & Learning Context:  The content of this audio lecture will be of interest to anthropology and anatomy students, as well as anyone who enjoys crime series and wishes to learn more about forensic anthropology.

Subjects

Centre for Higher Education Development | Centre for Open Learning | Audio | Audio Lectures | English | Post-secondary | Alan Morris | anatomy | anthropology | archeology | bone analysis | bones | forensic anthropology

License

http://creativecommons.org/licenses/by-nd/2.5/za/

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MAS.S63 Engineering Health: Towards the Tricorder (MIT) MAS.S63 Engineering Health: Towards the Tricorder (MIT)

Description

Students will learn to fabricate, remix, and design detection and monitoring devices for health following the core focus of the Tricorder: a portable, handheld diagnostic device which can brings health solutions to consumers at home or in remote parts of the world. Inspired by the Tricorder X-Prize (with a purse of $10 million), students will aim to create specific component technologies that integrate into a comprehensive Tricorder mechanism capable of reading vital signs and specific disease biomarker detection. Component areas will include optical, electric, biochemical, and molecular diagnostics. Students will learn to fabricate, remix, and design detection and monitoring devices for health following the core focus of the Tricorder: a portable, handheld diagnostic device which can brings health solutions to consumers at home or in remote parts of the world. Inspired by the Tricorder X-Prize (with a purse of $10 million), students will aim to create specific component technologies that integrate into a comprehensive Tricorder mechanism capable of reading vital signs and specific disease biomarker detection. Component areas will include optical, electric, biochemical, and molecular diagnostics.

Subjects

Medical | Medical | tricorder | tricorder | prototyping | prototyping | diagnostic | diagnostic | health | health | microscopy | microscopy | imaging | imaging | antibodies | antibodies | Crusher | Crusher | nanoparticles | nanoparticles | sensor | sensor | pulse | pulse | bones | bones | McCoy | McCoy | biomarker | biomarker | nerd | nerd | microfluid | microfluid | Beverly | Beverly | immunoassay | immunoassay | immune | immune | telemedicine | telemedicine

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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B0092P0011

Description

A cat with an external fixator supporting a tibial fracture

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | intramedullary | pinfracture | repaircirclage | wireexternal | fixatorbone | repairorthopaedic | repair | orthopaedics

License

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

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B0092P0010

Description

A cat with an external fixator supporting a tibial fracture

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics

License

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

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B0092P0009

Description

A cat with an external fixator supporting a tibial fracture

Subjects

svmsvet | cat | cats | feline | felines | rta | roadtrafficaccident | neurological | monoplegia | paralysis | neurology | hindlimb | limb | deeppain | deeppaindeficit | nodeeppain | catrta | felinerta | legtrauma | limbtrauma | hindlimbtrauma | cathindlimb | cathindleg | catleg | catlimb | hindlimbparalysis | cathindlimbparalysis | vetconsultation | vetexamination | clinicalexamination | b0090 | radiography | radiograph | xray | legxray | limbxray | legradiograph | limbradiograph | hindlimbradiograph | cathindlimbradiograph | tibialfracture | brokenleg | fracturedleg | brokenbone | fracturedtibia | tibia | fracture | intramedullarypin | fracturerepair | circlagewire | externalfixator | bonerepair | orthopaedicrepair | orthopaedics

License

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

Site sourced from

Nottingham Vet School | FlickR

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