Neurosurgery
Beyond the Cutting Edge
Herausgeber: Hartley, Benjamin; Apuzzo, Michael L J; Ramakrishna, Rohan; Stieg, Philip E
Neurosurgery
Beyond the Cutting Edge
Herausgeber: Hartley, Benjamin; Apuzzo, Michael L J; Ramakrishna, Rohan; Stieg, Philip E
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Explores the evolution and future of brain surgery, detailing key ideas and technologies that have and will shape the field. Written by leading experts, this book connects non-neurosurgical readers with the latest advancements and insights, offering a comprehensive look at where neurosurgery is headed, and how they can be involved.
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Explores the evolution and future of brain surgery, detailing key ideas and technologies that have and will shape the field. Written by leading experts, this book connects non-neurosurgical readers with the latest advancements and insights, offering a comprehensive look at where neurosurgery is headed, and how they can be involved.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 408
- Erscheinungstermin: 18. September 2025
- Englisch
- Abmessung: 236mm x 163mm x 28mm
- Gewicht: 822g
- ISBN-13: 9781009597883
- ISBN-10: 1009597884
- Artikelnr.: 73738196
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- gpsr@libri.de
- Verlag: Cambridge University Press
- Seitenzahl: 408
- Erscheinungstermin: 18. September 2025
- Englisch
- Abmessung: 236mm x 163mm x 28mm
- Gewicht: 822g
- ISBN-13: 9781009597883
- ISBN-10: 1009597884
- Artikelnr.: 73738196
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- gpsr@libri.de
Part I. What Came Before: 1. Pivotal Moments in the Development of Modern
Neurosurgery Benjamin Hartley, Philip E. Stieg and Michael L. J. Apuzzo;
Part II. Ideas and Concepts in Modern Neurosurgical Innovation: 2. Surgical
and Other Therapeutic Minimalism: Reducing the Risk Vincent N. Nguyen,
Jonathan Dallas, Saman Sizdahkhani, Alexandra N. Demetriou, Arun P. Amar
and William Mack; 3. Neurorestoration - A New Synthesis: Repair, Replace,
and Optimize Charles Liu, Aidin Abedi, Jordan L. W. Lam, Yu Tung Jack Lo
and Christopher C. Young; 4. Modulation: Fine Tuning and Resetting of
Neurological Function Kate Gelman, Manish Ranjan, Peter Konrad and Ali
Rezai; 5. The Computer as a Tool in Understanding and Managing Brain
Disease; 5a. Artificial Intelligence in Neurosurgery Sumedha Rai, Sean
Neifert, Zoran M. Budimlija, Aleksandar Beric and Eric K. Oermann; 5b.
Augmented Reality in Neurosurgery Stefan Vilsmeier; 5c. Epilepsy Monitoring
Kayton Rotenberg, Eun-Hyoung Park, Michelle Chiu, Scellig S. Stone and
Joseph R. Madsen; Part III. Areas of Biological and Technical Advances
Driving Neurosurgical Innovation: 6. Molecular Neurosurgery: Understanding
and Harnessing Human Chemical Structure and Function Daniel Aaronson,
Umberto Tosi and Rohan Ramakrishna; 7. Cell Biology: Creating Structure and
Function Nicholas M. Boulis, Yuliya Lakhina and Ramiz H. Kara; 8.
Nanotechnology: Ideas for Therapies at the Atomic Level Mark A. Damante,
Jr., David Gibbs, Daniel Kreatsoulas and James Bradley Elder; 9. Computer
Science: The Computer as a Neurosurgical Tool Andrew B. Koo and Joseph
King, Jr.; Part IV. The Surgeon's Armamentarium: 10. Microscopy: Enhancing
Visualization in the Surgical Challenge Kate Rosen, Evan Bander and
Theodore H. Schwartz; 11. Endoscopy: Minimally Invasive Visualization and
Therapy Umberto Tosi and Mark M. Souweidane; 12. Imaging: Defining the
Challenges and Establishing Navigational Maps Alexandra E. Reis, Kristen
Leeman, Sara B. Strauss and Apostolos John Tsiouris; 13. Robotics: Refined
Assistance and Enhanced Minimalism Sanju Lama and Garnette Sutherland; 14.
High Energy Forms: Employing the Spectrum of Energy as Surgical Adjuvants;
14a. Photons and Particles Stylianos Pikis, Georgios Mantziaris, Chloe
Dumot and Jason P. Sheehan; 14b. Radiation Modifiers: Enhancements of
Therapeutic Effects Paul Pagnini and Silvia Chiara Formenti; 14c. Focused
Ultrasound: Controlled Mechanical Energy Ying Meng, Karim Mithani, Neal
Kassell and Nir Lipsman; 14d. Laser Energy: Explanation of Light in a Broad
Spectrum of Challenges Kelsey A. Templeton and Veronica Chiang; 15. Virtual
Systems: Simulation and Rehearsal of Clinical Skills and Events Antonio
Bernardo; 16. Endovascular Technology: Exploitation of Endovascular
Corridors in the Broad Catalogue of Challenges Jennifer E. Kim, Joshua S.
Catapano, Badih Daou, Ashutosh P. Jadhav, Andrew Ducruet and Felipe C.
Albuquerque; Part V. The Neurosurgeons of the Future: A Striking
Metamorphosis: 17. The 'Neurosurgeon'-Quo Vadis Andrew B. Koo, Brianna
Carusillo Theriault and Michael L. J. Apuzzo.
Neurosurgery Benjamin Hartley, Philip E. Stieg and Michael L. J. Apuzzo;
Part II. Ideas and Concepts in Modern Neurosurgical Innovation: 2. Surgical
and Other Therapeutic Minimalism: Reducing the Risk Vincent N. Nguyen,
Jonathan Dallas, Saman Sizdahkhani, Alexandra N. Demetriou, Arun P. Amar
and William Mack; 3. Neurorestoration - A New Synthesis: Repair, Replace,
and Optimize Charles Liu, Aidin Abedi, Jordan L. W. Lam, Yu Tung Jack Lo
and Christopher C. Young; 4. Modulation: Fine Tuning and Resetting of
Neurological Function Kate Gelman, Manish Ranjan, Peter Konrad and Ali
Rezai; 5. The Computer as a Tool in Understanding and Managing Brain
Disease; 5a. Artificial Intelligence in Neurosurgery Sumedha Rai, Sean
Neifert, Zoran M. Budimlija, Aleksandar Beric and Eric K. Oermann; 5b.
Augmented Reality in Neurosurgery Stefan Vilsmeier; 5c. Epilepsy Monitoring
Kayton Rotenberg, Eun-Hyoung Park, Michelle Chiu, Scellig S. Stone and
Joseph R. Madsen; Part III. Areas of Biological and Technical Advances
Driving Neurosurgical Innovation: 6. Molecular Neurosurgery: Understanding
and Harnessing Human Chemical Structure and Function Daniel Aaronson,
Umberto Tosi and Rohan Ramakrishna; 7. Cell Biology: Creating Structure and
Function Nicholas M. Boulis, Yuliya Lakhina and Ramiz H. Kara; 8.
Nanotechnology: Ideas for Therapies at the Atomic Level Mark A. Damante,
Jr., David Gibbs, Daniel Kreatsoulas and James Bradley Elder; 9. Computer
Science: The Computer as a Neurosurgical Tool Andrew B. Koo and Joseph
King, Jr.; Part IV. The Surgeon's Armamentarium: 10. Microscopy: Enhancing
Visualization in the Surgical Challenge Kate Rosen, Evan Bander and
Theodore H. Schwartz; 11. Endoscopy: Minimally Invasive Visualization and
Therapy Umberto Tosi and Mark M. Souweidane; 12. Imaging: Defining the
Challenges and Establishing Navigational Maps Alexandra E. Reis, Kristen
Leeman, Sara B. Strauss and Apostolos John Tsiouris; 13. Robotics: Refined
Assistance and Enhanced Minimalism Sanju Lama and Garnette Sutherland; 14.
High Energy Forms: Employing the Spectrum of Energy as Surgical Adjuvants;
14a. Photons and Particles Stylianos Pikis, Georgios Mantziaris, Chloe
Dumot and Jason P. Sheehan; 14b. Radiation Modifiers: Enhancements of
Therapeutic Effects Paul Pagnini and Silvia Chiara Formenti; 14c. Focused
Ultrasound: Controlled Mechanical Energy Ying Meng, Karim Mithani, Neal
Kassell and Nir Lipsman; 14d. Laser Energy: Explanation of Light in a Broad
Spectrum of Challenges Kelsey A. Templeton and Veronica Chiang; 15. Virtual
Systems: Simulation and Rehearsal of Clinical Skills and Events Antonio
Bernardo; 16. Endovascular Technology: Exploitation of Endovascular
Corridors in the Broad Catalogue of Challenges Jennifer E. Kim, Joshua S.
Catapano, Badih Daou, Ashutosh P. Jadhav, Andrew Ducruet and Felipe C.
Albuquerque; Part V. The Neurosurgeons of the Future: A Striking
Metamorphosis: 17. The 'Neurosurgeon'-Quo Vadis Andrew B. Koo, Brianna
Carusillo Theriault and Michael L. J. Apuzzo.
Part I. What Came Before: 1. Pivotal Moments in the Development of Modern
Neurosurgery Benjamin Hartley, Philip E. Stieg and Michael L. J. Apuzzo;
Part II. Ideas and Concepts in Modern Neurosurgical Innovation: 2. Surgical
and Other Therapeutic Minimalism: Reducing the Risk Vincent N. Nguyen,
Jonathan Dallas, Saman Sizdahkhani, Alexandra N. Demetriou, Arun P. Amar
and William Mack; 3. Neurorestoration - A New Synthesis: Repair, Replace,
and Optimize Charles Liu, Aidin Abedi, Jordan L. W. Lam, Yu Tung Jack Lo
and Christopher C. Young; 4. Modulation: Fine Tuning and Resetting of
Neurological Function Kate Gelman, Manish Ranjan, Peter Konrad and Ali
Rezai; 5. The Computer as a Tool in Understanding and Managing Brain
Disease; 5a. Artificial Intelligence in Neurosurgery Sumedha Rai, Sean
Neifert, Zoran M. Budimlija, Aleksandar Beric and Eric K. Oermann; 5b.
Augmented Reality in Neurosurgery Stefan Vilsmeier; 5c. Epilepsy Monitoring
Kayton Rotenberg, Eun-Hyoung Park, Michelle Chiu, Scellig S. Stone and
Joseph R. Madsen; Part III. Areas of Biological and Technical Advances
Driving Neurosurgical Innovation: 6. Molecular Neurosurgery: Understanding
and Harnessing Human Chemical Structure and Function Daniel Aaronson,
Umberto Tosi and Rohan Ramakrishna; 7. Cell Biology: Creating Structure and
Function Nicholas M. Boulis, Yuliya Lakhina and Ramiz H. Kara; 8.
Nanotechnology: Ideas for Therapies at the Atomic Level Mark A. Damante,
Jr., David Gibbs, Daniel Kreatsoulas and James Bradley Elder; 9. Computer
Science: The Computer as a Neurosurgical Tool Andrew B. Koo and Joseph
King, Jr.; Part IV. The Surgeon's Armamentarium: 10. Microscopy: Enhancing
Visualization in the Surgical Challenge Kate Rosen, Evan Bander and
Theodore H. Schwartz; 11. Endoscopy: Minimally Invasive Visualization and
Therapy Umberto Tosi and Mark M. Souweidane; 12. Imaging: Defining the
Challenges and Establishing Navigational Maps Alexandra E. Reis, Kristen
Leeman, Sara B. Strauss and Apostolos John Tsiouris; 13. Robotics: Refined
Assistance and Enhanced Minimalism Sanju Lama and Garnette Sutherland; 14.
High Energy Forms: Employing the Spectrum of Energy as Surgical Adjuvants;
14a. Photons and Particles Stylianos Pikis, Georgios Mantziaris, Chloe
Dumot and Jason P. Sheehan; 14b. Radiation Modifiers: Enhancements of
Therapeutic Effects Paul Pagnini and Silvia Chiara Formenti; 14c. Focused
Ultrasound: Controlled Mechanical Energy Ying Meng, Karim Mithani, Neal
Kassell and Nir Lipsman; 14d. Laser Energy: Explanation of Light in a Broad
Spectrum of Challenges Kelsey A. Templeton and Veronica Chiang; 15. Virtual
Systems: Simulation and Rehearsal of Clinical Skills and Events Antonio
Bernardo; 16. Endovascular Technology: Exploitation of Endovascular
Corridors in the Broad Catalogue of Challenges Jennifer E. Kim, Joshua S.
Catapano, Badih Daou, Ashutosh P. Jadhav, Andrew Ducruet and Felipe C.
Albuquerque; Part V. The Neurosurgeons of the Future: A Striking
Metamorphosis: 17. The 'Neurosurgeon'-Quo Vadis Andrew B. Koo, Brianna
Carusillo Theriault and Michael L. J. Apuzzo.
Neurosurgery Benjamin Hartley, Philip E. Stieg and Michael L. J. Apuzzo;
Part II. Ideas and Concepts in Modern Neurosurgical Innovation: 2. Surgical
and Other Therapeutic Minimalism: Reducing the Risk Vincent N. Nguyen,
Jonathan Dallas, Saman Sizdahkhani, Alexandra N. Demetriou, Arun P. Amar
and William Mack; 3. Neurorestoration - A New Synthesis: Repair, Replace,
and Optimize Charles Liu, Aidin Abedi, Jordan L. W. Lam, Yu Tung Jack Lo
and Christopher C. Young; 4. Modulation: Fine Tuning and Resetting of
Neurological Function Kate Gelman, Manish Ranjan, Peter Konrad and Ali
Rezai; 5. The Computer as a Tool in Understanding and Managing Brain
Disease; 5a. Artificial Intelligence in Neurosurgery Sumedha Rai, Sean
Neifert, Zoran M. Budimlija, Aleksandar Beric and Eric K. Oermann; 5b.
Augmented Reality in Neurosurgery Stefan Vilsmeier; 5c. Epilepsy Monitoring
Kayton Rotenberg, Eun-Hyoung Park, Michelle Chiu, Scellig S. Stone and
Joseph R. Madsen; Part III. Areas of Biological and Technical Advances
Driving Neurosurgical Innovation: 6. Molecular Neurosurgery: Understanding
and Harnessing Human Chemical Structure and Function Daniel Aaronson,
Umberto Tosi and Rohan Ramakrishna; 7. Cell Biology: Creating Structure and
Function Nicholas M. Boulis, Yuliya Lakhina and Ramiz H. Kara; 8.
Nanotechnology: Ideas for Therapies at the Atomic Level Mark A. Damante,
Jr., David Gibbs, Daniel Kreatsoulas and James Bradley Elder; 9. Computer
Science: The Computer as a Neurosurgical Tool Andrew B. Koo and Joseph
King, Jr.; Part IV. The Surgeon's Armamentarium: 10. Microscopy: Enhancing
Visualization in the Surgical Challenge Kate Rosen, Evan Bander and
Theodore H. Schwartz; 11. Endoscopy: Minimally Invasive Visualization and
Therapy Umberto Tosi and Mark M. Souweidane; 12. Imaging: Defining the
Challenges and Establishing Navigational Maps Alexandra E. Reis, Kristen
Leeman, Sara B. Strauss and Apostolos John Tsiouris; 13. Robotics: Refined
Assistance and Enhanced Minimalism Sanju Lama and Garnette Sutherland; 14.
High Energy Forms: Employing the Spectrum of Energy as Surgical Adjuvants;
14a. Photons and Particles Stylianos Pikis, Georgios Mantziaris, Chloe
Dumot and Jason P. Sheehan; 14b. Radiation Modifiers: Enhancements of
Therapeutic Effects Paul Pagnini and Silvia Chiara Formenti; 14c. Focused
Ultrasound: Controlled Mechanical Energy Ying Meng, Karim Mithani, Neal
Kassell and Nir Lipsman; 14d. Laser Energy: Explanation of Light in a Broad
Spectrum of Challenges Kelsey A. Templeton and Veronica Chiang; 15. Virtual
Systems: Simulation and Rehearsal of Clinical Skills and Events Antonio
Bernardo; 16. Endovascular Technology: Exploitation of Endovascular
Corridors in the Broad Catalogue of Challenges Jennifer E. Kim, Joshua S.
Catapano, Badih Daou, Ashutosh P. Jadhav, Andrew Ducruet and Felipe C.
Albuquerque; Part V. The Neurosurgeons of the Future: A Striking
Metamorphosis: 17. The 'Neurosurgeon'-Quo Vadis Andrew B. Koo, Brianna
Carusillo Theriault and Michael L. J. Apuzzo.