The Resource Musculoskeletal modeling of the human elbow joint, Munsur Rahman
Musculoskeletal modeling of the human elbow joint, Munsur Rahman
Resource Information
The item Musculoskeletal modeling of the human elbow joint, Munsur Rahman represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Missouri University of Science & Technology Library.This item is available to borrow from all library branches.
Resource Information
The item Musculoskeletal modeling of the human elbow joint, Munsur Rahman represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Missouri University of Science & Technology Library.
This item is available to borrow from all library branches.
- Summary
- Comprehensive knowledge of the in vivo loading of elbow structures is essential in understanding the biomechanical causes associated with elbow diseases and injuries, and to find appropriate treatment. Currently, in vivo measurements of ligament, and muscle forces, and cartilage contact pressures during elbow activities is not possible. Therefore, computational models needs to be employed for prediction. A dynamic computational model in which muscle, ligament and articular surface contact forces are predicted concurrently would be the ideal tool for patient specific pre-operative planning, computer aided surgery and rehabilitation. Computational models of the elbow have been developed to study joint behavior, but all of these models have limited applicability because the joint structure was modeled as an idealized joint (e.g. hinge joint) rather than a true anatomical joint. Three dimensional studies of elbow passive motion showed that the elbow does not function as a simple hinge joint. An accurate elbow model should reflect the intrinsic laxity of the elbow especially for clinical applications. Presented here are methods for developing an anatomically based computational model of the human elbow joint that replicates the mechanical behavior of the joint and is capable of concurrent prediction of articular contact, ligament, and muscle forces under dynamic conditions. The model performance was evaluated in both a cadaveric study and a living human subject experiment. The validated models were then used to investigate the effects of medial and lateral collateral ligament deficiency on elbow joint kinematics, ligament loads, and articular contact pressure distribution
- Language
- eng
- Extent
- 1 online resource (140 pages)
- Note
-
- "A dissertation in Engineering and Mathematics."
- Advisors: Antonis P. Stylianou and Majid Bani-Yaghoub
- Vita
- Contents
-
- Introduction
- Background
- Prediction of elbow joint contact mechanics in the multibody framework
- Lateral collateral ligament deficiency of the elbow joint: a modeling approach
- A modeling approach to simulating medial collateral ligament deficiency of the elbow joint
- Muscle driven elbow joint simulation: a computational approach
- Conclusion
- Label
- Musculoskeletal modeling of the human elbow joint
- Title
- Musculoskeletal modeling of the human elbow joint
- Statement of responsibility
- Munsur Rahman
- Language
- eng
- Summary
- Comprehensive knowledge of the in vivo loading of elbow structures is essential in understanding the biomechanical causes associated with elbow diseases and injuries, and to find appropriate treatment. Currently, in vivo measurements of ligament, and muscle forces, and cartilage contact pressures during elbow activities is not possible. Therefore, computational models needs to be employed for prediction. A dynamic computational model in which muscle, ligament and articular surface contact forces are predicted concurrently would be the ideal tool for patient specific pre-operative planning, computer aided surgery and rehabilitation. Computational models of the elbow have been developed to study joint behavior, but all of these models have limited applicability because the joint structure was modeled as an idealized joint (e.g. hinge joint) rather than a true anatomical joint. Three dimensional studies of elbow passive motion showed that the elbow does not function as a simple hinge joint. An accurate elbow model should reflect the intrinsic laxity of the elbow especially for clinical applications. Presented here are methods for developing an anatomically based computational model of the human elbow joint that replicates the mechanical behavior of the joint and is capable of concurrent prediction of articular contact, ligament, and muscle forces under dynamic conditions. The model performance was evaluated in both a cadaveric study and a living human subject experiment. The validated models were then used to investigate the effects of medial and lateral collateral ligament deficiency on elbow joint kinematics, ligament loads, and articular contact pressure distribution
- Cataloging source
- UMK
- http://library.link/vocab/creatorName
- Rahman, Munsur
- Degree
- Ph.D.
- Dissertation note
- (School of Computing and Engineering and Department of Mathematics and Statistics).
- Dissertation year
- 2017.
- Granting institution
- University of Missouri-Kansas City,
- Illustrations
- illustrations
- Index
- no index present
- Literary form
- non fiction
- Nature of contents
-
- dictionaries
- bibliography
- theses
- http://library.link/vocab/relatedWorkOrContributorName
-
- Stylianou, Antonis P.
- Bani-Yaghoub, Majid
- http://library.link/vocab/subjectName
-
- Elbow
- Elbow
- Label
- Musculoskeletal modeling of the human elbow joint, Munsur Rahman
- Note
-
- "A dissertation in Engineering and Mathematics."
- Advisors: Antonis P. Stylianou and Majid Bani-Yaghoub
- Vita
- Antecedent source
- not applicable
- Bibliography note
- Includes bibliographical references (pages 130-139)
- Carrier category
- online resource
- Carrier category code
-
- cr
- Carrier MARC source
- rdacarrier
- Color
- black and white
- Content category
- text
- Content type code
-
- txt
- Content type MARC source
- rdacontent
- Contents
- Introduction -- Background -- Prediction of elbow joint contact mechanics in the multibody framework -- Lateral collateral ligament deficiency of the elbow joint: a modeling approach -- A modeling approach to simulating medial collateral ligament deficiency of the elbow joint -- Muscle driven elbow joint simulation: a computational approach -- Conclusion
- Control code
- 989515969
- Dimensions
- unknown
- Extent
- 1 online resource (140 pages)
- File format
- one file format
- Form of item
- online
- Level of compression
- mixed
- Media category
- computer
- Media MARC source
- rdamedia
- Media type code
-
- c
- Other physical details
- illustrations.
- Quality assurance targets
- not applicable
- Specific material designation
- remote
- System control number
- (OCoLC)989515969
- System details
-
- The full text of the dissertation is available as an Adobe Acrobat .pdf file; Adobe Acrobat Reader required to view the file
- Mode of access: World Wide Web
- Label
- Musculoskeletal modeling of the human elbow joint, Munsur Rahman
- Note
-
- "A dissertation in Engineering and Mathematics."
- Advisors: Antonis P. Stylianou and Majid Bani-Yaghoub
- Vita
- Antecedent source
- not applicable
- Bibliography note
- Includes bibliographical references (pages 130-139)
- Carrier category
- online resource
- Carrier category code
-
- cr
- Carrier MARC source
- rdacarrier
- Color
- black and white
- Content category
- text
- Content type code
-
- txt
- Content type MARC source
- rdacontent
- Contents
- Introduction -- Background -- Prediction of elbow joint contact mechanics in the multibody framework -- Lateral collateral ligament deficiency of the elbow joint: a modeling approach -- A modeling approach to simulating medial collateral ligament deficiency of the elbow joint -- Muscle driven elbow joint simulation: a computational approach -- Conclusion
- Control code
- 989515969
- Dimensions
- unknown
- Extent
- 1 online resource (140 pages)
- File format
- one file format
- Form of item
- online
- Level of compression
- mixed
- Media category
- computer
- Media MARC source
- rdamedia
- Media type code
-
- c
- Other physical details
- illustrations.
- Quality assurance targets
- not applicable
- Specific material designation
- remote
- System control number
- (OCoLC)989515969
- System details
-
- The full text of the dissertation is available as an Adobe Acrobat .pdf file; Adobe Acrobat Reader required to view the file
- Mode of access: World Wide Web
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<div class="citation" vocab="http://schema.org/"><i class="fa fa-external-link-square fa-fw"></i> Data from <span resource="http://link.library.mst.edu/portal/Musculoskeletal-modeling-of-the-human-elbow/b2N4sFRGM38/" typeof="Book http://bibfra.me/vocab/lite/Item"><span property="name http://bibfra.me/vocab/lite/label"><a href="http://link.library.mst.edu/portal/Musculoskeletal-modeling-of-the-human-elbow/b2N4sFRGM38/">Musculoskeletal modeling of the human elbow joint, Munsur Rahman</a></span> - <span property="potentialAction" typeOf="OrganizeAction"><span property="agent" typeof="LibrarySystem http://library.link/vocab/LibrarySystem" resource="http://link.library.mst.edu/"><span property="name http://bibfra.me/vocab/lite/label"><a property="url" href="http://link.library.mst.edu/">Missouri University of Science & Technology Library</a></span></span></span></span></div>
