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Title
Autologous bone grafting and regeneration : clinical applications of biophysical osteoblast stimulation / Nahum Rosenberg.
ISBN
9783031069208 (electronic bk.)
303106920X (electronic bk.)
9783031069192
3031069196
Published
Cham : Springer, [2023]
Copyright
©2023
Language
English
Description
1 online resource (xv, 76 pages) : illustrations (some color)
Item Number
10.1007/978-3-031-06920-8 doi
Call Number
RD123
Dewey Decimal Classification
617.4/710592
Summary
This book integrates the current basic and clinical knowledge in the area of biophysical stimulation of osteoblast for in vitro and in vivo live bone generation. This innovative methodology and its applications are presented and discussed in several clinical conditions: treatment of fracture nonunion, spine stabilization, bone replacement after tumor resections, stabilization of failed joint endoprostheses in revision surgery and in treatment of bone loss (osteoporosis and osteopenia). The author analyses different types of biophysical stimulation of osteoblasts for bone regeneration, e.g. mechanical (static and alternating, including distraction osteogenesis), electromagnetic (pulsed, alternating, static), light (at different spectrum range, including laser), acoustic (including ultrasound), RF etc. Moreover, he summarizes and discusses the most significant findings for in vitro bone generation and its resulting clinical use as autologous bone graft without surgical morbidity. Reflecting the authors extensive experience this book is an excellent source of knowledge and a valuable aid to clinical practice for all orthopedic surgeons, fellows, and researchers wanting to gain insights into this promising field. .
Bibliography, etc. Note
Includes bibliographical references.
Access Note
Access limited to authorized users.
Source of Description
Description based on print version record.
1 Theoretical framework supporting the research of biophysical stimulation of osteoblasts
2. Methodologies used and their rationale
3. Osteoblast explant cultures
4. End parameters
5. Determination of in vitro generated tissue
6. In vitro safety studies
7. In vivo safety evaluation
8. Efficacy in vivo studies
9. Setups for external application of biophysical energy
10. Mechanical stimulation
11. The original contribution to knowledge
12. Contribution to developing the theory in the field
13. The impact of the work on professional practice
14. The nature of the works academic impact
15. The strengths and weaknesses of the methodologies used (critical analysis)
16. Conclusion.
