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555555ternational Centre for Mechanical Sciences
CISM (Centre International des Sciences Mecaniques)
Announces a
BONE CELL AND TISSUE MECHANICS COURSE
July 9-15, 1995
The goal of this course will be to review the entire
area of bone cell and tissue mechanics, with an emphasis
on bone remodeling. Besides being informative, it is
planned that the course will function as a forum for the
exchange of data, philosophy, and ideas across disciplinary
divides and so provide further stimulus for a
comprehensive approach to the problems of bone
mechanics.
LECTURERS
Elisabeth Burger
Oral Cell Biology
ACTA-Free University, Amsterdam
John Currey
Biology
University of York, ENGLAND
Stephen C. Cowin
Mechanical Engineering
City University of New York
Rik Huiskes
Orthopaedics
University of Nijmegen
Lance E. Lanyon
Principal, Royal Veterinary College
London
Information and fees for the course may be obtained from:
CENTRO INTERNAZIONALE Dl SCIENZE MECCANICHE
Palazzo del Torso? Piazza Garibaldi, 18
33100 UDINE (ITALY)
Tel.: +39 0432 - Secretariat 294989 or 508251 -
Administration 294795, Fax 501523
>From US
Tel.: Secretariat 011-39-432-294989 or 011-39-432-
508251 Administration 011-39-432-294795, FAX: 011-
39-432-501523
SUBJECT LIST AND LECTURERS-1995
E. BURGER ACTA-Free University, Amsterdam
1. Bone histology
2. Bone cells: osteocytes, osteoblasts
3. Bone cells: osteoclasts
4. Bone development
5. Local growth- and differentiation factors in bone.
6. Osteocytes as mechanosensors of bone.
S.C. COWIN City University of New York
1. Introduction
2. Mechanical and microstructural properties of bone
3. Bone blood supply and bone hydraulics
4. The mechanosensory system in bone
5. Bone remodeling theories
6. Local surface remodeling around implants; influence on global stability
7. Closure
J.D. CURREY University of York, England
1. Form-function relationships in whole bones
2. Structure property-function relationships in bone tissue
3. Organic-mineral interactions in bone mechanics
4. Pre-yield and post-yield behavior in bone
5. Role of microdamage in the mechanical behavior of bone
6. Fatigue, damage and repair in bone
7. Age changes in bone behavior
R. HUISKES University of Nijmegen
1. Stress analysis of bones and implant structures
2. Micro-structural FE models : stresses and strains in trabeculae
3. The mechanical optimality of bone structures
4. Mechanical effects on osteogenesis and morphogenesis of bone
5. Regulation models for strain-adaptive remodeling
6. Validation of bone remodeling theories
7. Bone-remodeling around implants; implant design
L. LANYON Royal College of Veterinary, London
1. Bone modeling and remodeling
2. The dynamics of mechanically related remodeling
3. Functional adaptation in bone tissue
4. Mechanically related responses in bone cells
5. Mechanically related responses in bone cells (con't)
6. Practical applications, osteoporosis, implant design
7. Closure
CISM (Centre International des Sciences Mecaniques)
Announces a
BONE CELL AND TISSUE MECHANICS COURSE
July 9-15, 1995
The goal of this course will be to review the entire
area of bone cell and tissue mechanics, with an emphasis
on bone remodeling. Besides being informative, it is
planned that the course will function as a forum for the
exchange of data, philosophy, and ideas across disciplinary
divides and so provide further stimulus for a
comprehensive approach to the problems of bone
mechanics.
LECTURERS
Elisabeth Burger
Oral Cell Biology
ACTA-Free University, Amsterdam
John Currey
Biology
University of York, ENGLAND
Stephen C. Cowin
Mechanical Engineering
City University of New York
Rik Huiskes
Orthopaedics
University of Nijmegen
Lance E. Lanyon
Principal, Royal Veterinary College
London
Information and fees for the course may be obtained from:
CENTRO INTERNAZIONALE Dl SCIENZE MECCANICHE
Palazzo del Torso? Piazza Garibaldi, 18
33100 UDINE (ITALY)
Tel.: +39 0432 - Secretariat 294989 or 508251 -
Administration 294795, Fax 501523
>From US
Tel.: Secretariat 011-39-432-294989 or 011-39-432-
508251 Administration 011-39-432-294795, FAX: 011-
39-432-501523
SUBJECT LIST AND LECTURERS-1995
E. BURGER ACTA-Free University, Amsterdam
1. Bone histology
2. Bone cells: osteocytes, osteoblasts
3. Bone cells: osteoclasts
4. Bone development
5. Local growth- and differentiation factors in bone.
6. Osteocytes as mechanosensors of bone.
S.C. COWIN City University of New York
1. Introduction
2. Mechanical and microstructural properties of bone
3. Bone blood supply and bone hydraulics
4. The mechanosensory system in bone
5. Bone remodeling theories
6. Local surface remodeling around implants; influence on global stability
7. Closure
J.D. CURREY University of York, England
1. Form-function relationships in whole bones
2. Structure property-function relationships in bone tissue
3. Organic-mineral interactions in bone mechanics
4. Pre-yield and post-yield behavior in bone
5. Role of microdamage in the mechanical behavior of bone
6. Fatigue, damage and repair in bone
7. Age changes in bone behavior
R. HUISKES University of Nijmegen
1. Stress analysis of bones and implant structures
2. Micro-structural FE models : stresses and strains in trabeculae
3. The mechanical optimality of bone structures
4. Mechanical effects on osteogenesis and morphogenesis of bone
5. Regulation models for strain-adaptive remodeling
6. Validation of bone remodeling theories
7. Bone-remodeling around implants; implant design
L. LANYON Royal College of Veterinary, London
1. Bone modeling and remodeling
2. The dynamics of mechanically related remodeling
3. Functional adaptation in bone tissue
4. Mechanically related responses in bone cells
5. Mechanically related responses in bone cells (con't)
6. Practical applications, osteoporosis, implant design
7. Closure