CONNECT WITH US
© Globus Medical, 2021. All Rights Reserved.
Back to top
References
1. Protopsaltis, T. et al. Surgical Testing Comparison of Single-Position Robot-Assisted Surgery Utilizing ExcelsiusGPS or Conventional MIS Screw Trajectory During LLIF Procedure. White Paper (GMWP58). Globus Medical, Inc. (January 2020).
2. Vaccaro, A.R. et al. (2019) Assessment of Surgical Procedural Time, Pedicle Screw Accuracy, and Clinician Radiation Exposure of a Novel Robotic Navigation System Compared With Conventional Open and Percutaneous Freehand Techniques: A Cadaveric Investigation. Global Spine Journal. doi: 10.1177/2192568219879083
3. Li, Y. M., Huang, Z., Towner, J., Li Y.I., Riggleman, J.R., et al. (2019) Laterally Placed Expandable Interbody Spacers with Adjustable Lordosis Improve Radiographic and Clinical Outcomes. J Spine S8:001. doi: 10.4172/2165-7939. S8-001
4. Li, Y. M., Frisch, R. F., Huang, Z., Towner, J., Li, Y. I., Greeley, S. L., & Ledonio, C. (2019). Comparative Effectiveness of Expandable Versus Static Interbody Spacers via MIS LLIF: A 2-Year Radiographic and Clinical Outcomes Study. Global Spine Journal. https://doi. org/10.1177/2192568219886278
5. Brady R.L., Riggleman, J.R., Edsall, A.L., Ledonio, C.G. (2019) A Novel Lateral Titanium Expandable Interbody Spacer with Integrated Plate Restores Anterior and Posterior Disc Height and Intervertebral Lordosis. J Spine S8:002. doi: 10.4172/2165-7939. S8-002
6. Van Horn, M.R., Beard, R., Bucklen, B.S. A Rough, Biomimetic Titanium-Alloy Surface is Associated with Increased Alkaline Phosphatase (ALP) Activity in Human Mesenchymal Stem Cells in an In Vitro Cell Culture Model. White Paper (GMWP62). Globus Medical, Inc. (March 2020).
Company
Procedure
position
THE POWER OF ONE
*CORBEL™ spacers are not indicated for use (navigation) with ExcelsiusGPS®. CORBEL™ spacers require supplemental fixation, except under certain conditions described in the product insert.
The Power of Surgimap®
Surgimap® enables digital manipulation of patient imaging to establish alignment goals prior to entering the OR.
Novel retractor blade mounts allow for manipulation of the blade angle, which can be critical for the medial blade
Independent blades and table mounts maximize the retractor’s versatility for a controlled working corridor
Streamlined holder with guided anchor impactors eliminates in situ assembly for fast and simple fixation
SintrOS™ Surface Technology has been shown to encourage more cellular activity than smooth PEEK and smooth titanium implants
6
Lateral ALIF
The CORBEL™ Lateral ALIF system provides the benefits of a traditional ALIF and increased OR efficiency by eliminating the need for staged patient repositioning.*
*CORBEL™ spacers are not indicated for use (navigation) with ExcelsiusGPS®. CORBEL™ spacers require supplemental fixation, except under certain conditions described in the product insert.
Contracted starting heights and continuous expansion have been shown to help reduce subsidence compared to static spacers.
The large height expansion range is designed to achieve controlled disc height restoration and aid in sagittal realignment.
3-5
4
Navigated LLIF
The most comprehensive robotic navigation spine surgery platform enables surgeons to navigate instruments and implants from the most advanced expandable interbody portfolio available. Surgeons can plan their optimal interbody implant placement for minimally invasive transpsoas or anterior-to-psoas lateral lumbar interbody fusion procedures.
Navigation instruments enhance real-time visualization without the need for added intraoperative imaging
Constant real-time feedback of instruments during dilation, disc preparation, and insertion to help achieve the desired implant placement
Rigid robotic mounted retractor eliminates the need for a table mounted retractor and is designed to maximize stability
ExcelsiusGPS® Planning
ExcelsiusGPS® software allows for implant selection and pre-planning prior to the first incision.
Robotically navigated posterior fixation with ExcelsiusGPS® has been shown to improve screw placement accuracy while maintaining navigation integrity. The use of the ExcelsiusGPS® rigid robotic arm assists in challenging trajectories with improved ergonomics.
1-2
Posterior Fixation
Unique real-time safety alerts help to maintain navigational integrity
Reduced radiation exposure with navigational tracking compared to conventional MIS surgery using intraoperative fluoroscopy
1-2
Accurate screw placement through an actively navigated end effector, without the use of K-wires
1
Rigid robotic arm aligns to the plan and maintains trajectories throughout implant placement
Lateral ALIF
Navigated LLIF
Posterior Fixation
THE POWER OF ONE position
More Info
Developed to improve outcomes by focusing on the areas that matter most:
The Excelsius™ Lateral 360 platform is designed for versatility and adaptability, providing customized patient care with:
- Robotically navigated posterior fixation
- Navigated instruments for lateral lumbar interbody
fusion (LLIF)
- Lateral position anterior lumbar interbody fusion
(ALIF) technology
SCROLL
DOWN
Leverage the industry’s leading robotic navigation and implant technologies to transform staged procedures into a single-position lateral surgery with Excelsius™ Lateral 360.
Intro
Features
Surgeries
Products
Posterior Fixation
Navigated LLIF
Lateral ALIF
CONNECT WITH US
© Globus Medical, 2021. All Rights Reserved.
Back to top
References
1. Protopsaltis, T. et al. Surgical Testing Comparison of Single-Position Robot-Assisted Surgery Utilizing ExcelsiusGPS or Conventional MIS Screw Trajectory During LLIF Procedure. White Paper (GMWP58). Globus Medical, Inc. (January 2020).
2. Vaccaro, A.R. et al. (2019) Assessment of Surgical Procedural Time, Pedicle Screw Accuracy, and Clinician Radiation Exposure of a Novel Robotic Navigation System Compared With Conventional Open and Percutaneous Freehand Techniques: A Cadaveric Investigation. Global Spine Journal. doi: 10.1177/2192568219879083
3. Li, Y. M., Huang, Z., Towner, J., Li Y.I., Riggleman, J.R., et al. (2019) Laterally Placed Expandable Interbody Spacers with Adjustable Lordosis Improve Radiographic and Clinical Outcomes. J Spine S8:001. doi: 10.4172/2165-7939. S8-001
4. Li, Y. M., Frisch, R. F., Huang, Z., Towner, J., Li, Y. I., Greeley, S. L., & Ledonio, C. (2019). Comparative Effectiveness of Expandable Versus Static Interbody Spacers via MIS LLIF: A 2-Year Radiographic and Clinical Outcomes Study. Global Spine Journal. https://doi. org/10.1177/2192568219886278
5. Brady R.L., Riggleman, J.R., Edsall, A.L., Ledonio, C.G. (2019) A Novel Lateral Titanium Expandable Interbody Spacer with Integrated Plate Restores Anterior and Posterior Disc Height and Intervertebral Lordosis. J Spine S8:002. doi: 10.4172/2165-7939. S8-002
6. Van Horn, M.R., Beard, R., Bucklen, B.S. A Rough, Biomimetic Titanium-Alloy Surface is Associated with Increased Alkaline Phosphatase (ALP) Activity in Human Mesenchymal Stem Cells in an In Vitro Cell Culture Model. White Paper (GMWP62). Globus Medical, Inc. (March 2020).
4. Li, Y. M., Frisch, R. F., Huang, Z., Towner, J., Li, Y. I., Greeley, S. L., & Ledonio, C. (2019). Comparative Effectiveness of Expandable Versus Static Interbody Spacers via MIS LLIF: A 2-Year Radiographic and Clinical Outcomes Study. Global Spine Journal. https://doi. org/10.1177/2192568219886278
5. Brady R.L., Riggleman, J.R., Edsall, A.L., Ledonio, C.G. (2019) A Novel Lateral Titanium Expandable Interbody Spacer with Integrated Plate Restores Anterior and Posterior Disc Height and Intervertebral Lordosis. J Spine S8:002. doi: 10.4172/2165-7939. S8-002
6. Van Horn, M.R., Beard, R., Bucklen, B.S. A Rough, Biomimetic Titanium-Alloy Surface is Associated with Increased Alkaline Phosphatase (ALP) Activity in Human Mesenchymal Stem Cells in an In Vitro Cell Culture Model. White Paper (GMWP62). Globus Medical, Inc. (March 2020).
*CORBEL™ spacers are not indicated for use (navigation) with ExcelsiusGPS®. CORBEL™ spacers require supplemental fixation, except under certain conditions described in the product insert.
Company
Procedure
position
THE POWER OF ONE
The Power of Surgimap®
Surgimap® enables digital manipulation of patient imaging to establish alignment goals prior to entering the OR.
Novel retractor blade mounts allow for manipulation of the blade angle, which can be critical for the medial blade
Independent blades and table mounts maximize the retractor’s versatility for a controlled working corridor
Streamlined holder with guided anchor impactors eliminates in situ assembly for fast and simple fixation
SintrOS™ Surface Technology has been shown to encourage more cellular activity than smooth PEEK and smooth titanium implants
6
Lateral ALIF
The CORBEL™ Lateral ALIF system provides the benefits of a traditional ALIF and increased OR efficiency by eliminating the need for staged patient repositioning.*
*CORBEL™ spacers are not indicated for use (navigation) with ExcelsiusGPS®. CORBEL™ spacers require supplemental fixation, except under certain conditions described in the product insert.
The large height expansion range is designed to achieve controlled disc height restoration and aid in sagittal realignment.
Contracted starting heights and continuous expansion have been shown to help reduce subsidence compared to static spacers.
3-5
4
Navigated LLIF
The most comprehensive robotic navigation spine surgery platform enables surgeons to navigate instruments and implants from the most advanced expandable interbody portfolio available. Surgeons can plan their optimal interbody implant placement for minimally invasive transpsoas or anterior-to-psoas lateral lumbar interbody fusion procedures.
Navigation instruments enhance real-time visualization without the need for added intraoperative imaging
Constant real-time feedback of instruments during dilation, disc preparation, and insertion to help achieve the desired implant placement
Rigid robotic mounted retractor eliminates the need for a table mounted retractor and is designed to maximize stability
ExcelsiusGPS® Planning
ExcelsiusGPS® software allows for implant selection and pre-planning prior to the first incision.
Robotically navigated posterior fixation with ExcelsiusGPS® has been shown to improve screw placement accuracy while maintaining navigation integrity. The use of the ExcelsiusGPS® rigid robotic arm assists in challenging trajectories with improved ergonomics.
1-2
Posterior Fixation
Unique real-time safety alerts help to maintain navigational integrity
Reduced radiation exposure with navigational tracking compared to conventional MIS surgery using intraoperative fluoroscopy
1-2
Accurate screw placement through an actively navigated end effector, without the use of K-wires
1
Rigid robotic arm aligns to the plan and maintains trajectories throughout implant placement
Lateral ALIF
Learn more
Navigated LLIF
Learn more
The most comprehensive robotic navigation spine surgery platform enables surgeons to navigate instruments and implants from the most advanced expandable interbody portfolio available. Surgeons can plan their optimal interbody implant placement for minimally invasive transpsoas or anterior-to-psoas lateral lumbar interbody fusion procedures.
Posterior Fixation
Learn more
Robotically navigated posterior fixation with ExcelsiusGPS® has been shown to improve screw placement accuracy while maintaining navigation integrity. The use of the ExcelsiusGPS® rigid robotic arm assists in challenging trajectories with improved ergonomics.
1-2
THE POWER OF ONE position
More Info
Developed to improve outcomes by focusing on the areas that matter most:
The Excelsius™ Lateral 360 platform is designed for versatility and adaptability, providing customized patient care with:
- Robotically navigated posterior fixation
- Navigated instruments for lateral lumbar interbody
fusion (LLIF)
- Lateral position anterior lumbar interbody fusion
(ALIF) technology
SCROLL
DOWN
Leverage the industry’s leading robotic navigation
and implant technologies to transform staged
procedures into a single-position lateral surgery
with Excelsius™ Lateral 360.
Intro
Features
Surgeries
Products
Posterior Fixation
Navigated LLIF
Lateral ALIF
Leverage the industry’s leading robotic navigation and implant technologies to transform staged procedures into a single-position lateral surgery with Excelsius™ Lateral 360.
- Robotically navigated posterior fixation
- Navigated instruments for lateral lumbar interbody
fusion (LLIF)
- Lateral position anterior lumbar interbody fusion
(ALIF) technology
The Excelsius™ Lateral 360 platform is designed for versatility and adaptability, providing customized patient care with:
More Info
Posterior Fixation
Robotically navigated posterior fixation with ExcelsiusGPS® has been shown to improve screw placement accuracy while maintaining navigation integrity. The use of the ExcelsiusGPS® rigid robotic arm assists in challenging trajectories with improved ergonomics.
Learn more
SCROLL
DOWN
Navigated LLIF
Learn more
The most comprehensive robotic navigation spine surgery platform enables surgeons to navigate instruments and implants from the most advanced expandable interbody portfolio available. Surgeons can plan their optimal interbody implant placement for minimally invasive transpsoas or anterior-to-psoas lateral lumbar interbody fusion procedures.
Navigated LLIF
The most comprehensive robotic navigation spine surgery platform enables surgeons to navigate instruments and implants from the most advanced expandable interbody portfolio available. Surgeons can plan their optimal interbody implant placement for minimally invasive transpsoas or anterior-to-psoas lateral lumbar interbody fusion procedures.
Navigation instruments enhance real-time visualization without the need for added intraoperative imaging
Constant real-time feedback of instruments during dilation, disc preparation, and insertion to help achieve the desired implant placement
Rigid robotic mounted retractor eliminates the need for a table mounted retractor and is designed to maximize stability
Robotically navigated posterior fixation with ExcelsiusGPS® has been shown to improve screw placement accuracy while maintaining navigation integrity. The use of the ExcelsiusGPS® rigid robotic arm assists in challenging trajectories with improved ergonomics.
Posterior Fixation
Unique real-time safety alerts help to maintain navigational integrity
Reduced radiation exposure with navigational tracking compared to conventional MIS surgery using intraoperative fluoroscopy
Accurate screw placement through an actively navigated end effector, without the use of K-wires
Rigid robotic arm aligns to the plan and maintains trajectories throughout implant placement
The large height expansion range is designed to achieve controlled disc height restoration and aid in sagittal realignment.
Contracted starting heights and continuous expansion have been shown to help reduce subsidence compared to static spacers.
Lateral ALIF
The CORBEL™ Lateral ALIF system provides the benefits of a traditional ALIF and increased OR efficiency by eliminating the need for staged patient repositioning.*
Novel retractor blade mounts allow for manipulation of the blade angle, which can be critical for the medial blade
Independent blades and table mounts maximize the retractor’s versatility for a controlled working corridor
Streamlined holder with guided anchor impactors eliminates in situ assembly for fast and simple fixation
SintrOS™ Surface Technology has been shown to encourage more cellular activity than smooth PEEK and smooth titanium implants
ExcelsiusGPS® Planning
ExcelsiusGPS® software allows for implant selection and pre-planning prior to the first incision.
The Power of Surgimap®
Surgimap® enables digital manipulation of patient imaging to establish alignment goals prior to entering the OR.
THE POWER OF ONE position
Lateral ALIF
Learn more
Developed to improve outcomes by focusing on the areas that matter most:
*CORBEL™ spacers are not indicated for use (navigation) with ExcelsiusGPS®. CORBEL™ spacers require supplemental fixation, except under certain conditions described in the product insert.
1-2
1
1-2
THE POWER OF ONE
Procedure
position
Company
1-2
3-5
4
CONNECT WITH US
© Globus Medical, 2021. All Rights Reserved.
Back to top
Intro
Features
Surgeries
Products
Posterior Fixation
Navigated LLIF
Lateral ALIF
References
1. Protopsaltis, T. et al. Surgical Testing Comparison of Single-Position Robot-Assisted Surgery Utilizing ExcelsiusGPS or Conventional MIS Screw Trajectory During LLIF Procedure. White Paper (GMWP58). Globus Medical, Inc. (January 2020).
2. Vaccaro, A.R. et al. (2019) Assessment of Surgical Procedural Time, Pedicle Screw Accuracy, and Clinician Radiation Exposure of a Novel Robotic Navigation System Compared With Conventional Open and Percutaneous Freehand Techniques: A Cadaveric Investigation. Global Spine Journal. doi: 10.1177/2192568219879083
3. Li, Y. M., Huang, Z., Towner, J., Li Y.I., Riggleman, J.R., et al. (2019) Laterally Placed Expandable Interbody Spacers with Adjustable Lordosis Improve Radiographic and Clinical Outcomes. J Spine S8:001. doi: 10.4172/2165-7939. S8-001
4. Li, Y. M., Frisch, R. F., Huang, Z., Towner, J., Li, Y. I., Greeley, S. L., & Ledonio, C. (2019). Comparative Effectiveness of Expandable Versus Static Interbody Spacers via MIS LLIF: A 2-Year Radiographic and Clinical Outcomes Study. Global Spine Journal. https://doi. org/10.1177/2192568219886278
5. Brady R.L., Riggleman, J.R., Edsall, A.L., Ledonio, C.G. (2019) A Novel Lateral Titanium Expandable Interbody Spacer with Integrated Plate Restores Anterior and Posterior Disc Height and Intervertebral Lordosis. J Spine S8:002. doi: 10.4172/2165-7939. S8-002
6. Van Horn, M.R., Beard, R., Bucklen, B.S. A Rough, Biomimetic Titanium-Alloy Surface is Associated with Increased Alkaline Phosphatase (ALP) Activity in Human Mesenchymal Stem Cells in an In Vitro Cell Culture Model. White Paper (GMWP62). Globus Medical, Inc. (March 2020).
6
*CORBEL™ spacers are not indicated for use (navigation) with ExcelsiusGPS®. CORBEL™ spacers require supplemental fixation, except under certain conditions described in the product insert.
CONNECT WITH US
© Globus Medical, 2021. All Rights Reserved.
Back to top
References
1. Protopsaltis, T. et al. Surgical Testing Comparison of Single-Position Robot-Assisted Surgery Utilizing ExcelsiusGPS or Conventional MIS Screw Trajectory During LLIF Procedure. White Paper (GMWP58). Globus Medical, Inc. (January 2020).
2. Vaccaro, A.R. et al. (2019) Assessment of Surgical Procedural Time, Pedicle Screw Accuracy, and Clinician Radiation Exposure of a Novel Robotic Navigation System Compared With Conventional Open and Percutaneous Freehand Techniques: A Cadaveric Investigation. Global Spine Journal. doi: 10.1177/2192568219879083
3. Li, Y. M., Huang, Z., Towner, J., Li Y.I., Riggleman, J.R., et al. (2019) Laterally Placed Expandable Interbody Spacers with Adjustable Lordosis Improve Radiographic and Clinical Outcomes. J Spine S8:001. doi: 10.4172/2165-7939. S8-001
4. Li, Y. M., Frisch, R. F., Huang, Z., Towner, J., Li, Y. I., Greeley, S. L., & Ledonio, C. (2019). Comparative Effectiveness of Expandable Versus Static Interbody Spacers via MIS LLIF: A 2-Year Radiographic and Clinical Outcomes Study. Global Spine Journal. https://doi. org/10.1177/2192568219886278
5. Brady R.L., Riggleman, J.R., Edsall, A.L., Ledonio, C.G. (2019) A Novel Lateral Titanium Expandable Interbody Spacer with Integrated Plate Restores Anterior and Posterior Disc Height and Intervertebral Lordosis. J Spine S8:002. doi: 10.4172/2165-7939. S8-002
6. Van Horn, M.R., Beard, R., Bucklen, B.S. A Rough, Biomimetic Titanium-Alloy Surface is Associated with Increased Alkaline Phosphatase (ALP) Activity in Human Mesenchymal Stem Cells in an In Vitro Cell Culture Model. White Paper (GMWP62). Globus Medical, Inc. (March 2020).
Company
Procedure
position
THE POWER OF ONE
*CORBEL™ spacers are not indicated for use (navigation) with ExcelsiusGPS®. CORBEL™ spacers require supplemental fixation, except under certain conditions described in the product insert.
The Power of Surgimap®
Surgimap® enables digital manipulation of patient imaging to establish alignment goals prior to entering the OR.
Novel retractor blade mounts allow for manipulation of the blade angle, which can be critical for the medial blade
Independent blades and table mounts maximize the retractor’s versatility for a controlled working corridor
Streamlined holder with guided anchor impactors eliminates in situ assembly for fast and simple fixation
SintrOS™ Surface Technology has been shown to encourage more cellular activity than smooth PEEK and smooth titanium implants
6
Lateral ALIF
The CORBEL™ Lateral ALIF system provides the benefits of a traditional ALIF and increased OR efficiency by eliminating the need for staged patient repositioning.*
*CORBEL™ spacers are not indicated for use (navigation) with ExcelsiusGPS®. CORBEL™ spacers require supplemental fixation, except under certain conditions described in the product insert.
Contracted starting heights and continuous expansion have been shown to help reduce subsidence compared to static spacers.
The large height expansion range is designed to achieve controlled disc height restoration and aid in sagittal realignment.
3-5
4
Navigated LLIF
The most comprehensive robotic navigation spine surgery platform enables surgeons to navigate instruments and implants from the most advanced expandable interbody portfolio available. Surgeons can plan their optimal interbody implant placement for minimally invasive transpsoas or anterior-to-psoas lateral lumbar interbody fusion procedures.
Navigation instruments enhance real-time visualization without the need for added intraoperative imaging
Constant real-time feedback of instruments during dilation, disc preparation, and insertion to help achieve the desired implant placement
Rigid robotic mounted retractor eliminates the need for a table mounted retractor and is designed to maximize stability
ExcelsiusGPS® Planning
ExcelsiusGPS® software allows for implant selection and pre-planning prior to the first incision.
Robotically navigated posterior fixation with ExcelsiusGPS® has been shown to improve screw placement accuracy while maintaining navigation integrity. The use of the ExcelsiusGPS® rigid robotic arm assists in challenging trajectories with improved ergonomics.
1-2
Posterior Fixation
Unique real-time safety alerts help to maintain navigational integrity
Reduced radiation exposure with navigational tracking compared to conventional MIS surgery using intraoperative fluoroscopy
1-2
Accurate screw placement through an actively navigated end effector, without the use of K-wires
1
Rigid robotic arm aligns to the plan and maintains trajectories throughout implant placement
Lateral ALIF
Navigated LLIF
Posterior Fixation
THE POWER OF ONE position
More Info
Developed to improve outcomes by focusing on the areas that matter most:
The Excelsius™ Lateral 360 platform is designed for versatility and adaptability, providing customized patient care with:
- Robotically navigated posterior fixation
- Navigated instruments for lateral lumbar interbody
fusion (LLIF)
- Lateral position anterior lumbar interbody fusion
(ALIF) technology
SCROLL
DOWN
Leverage the industry’s leading robotic navigation and implant technologies to transform staged procedures into a single-position lateral surgery with Excelsius™ Lateral 360.
Intro
Features
Surgeries
Products
Posterior Fixation
Navigated LLIF
Lateral ALIF
CONNECT WITH US
© Globus Medical, 2021. All Rights Reserved.
Back to top
References
1. Protopsaltis, T. et al. Surgical Testing Comparison of Single-Position Robot-Assisted Surgery Utilizing ExcelsiusGPS or Conventional MIS Screw Trajectory During LLIF Procedure. White Paper (GMWP58). Globus Medical, Inc. (January 2020).
2. Vaccaro, A.R. et al. (2019) Assessment of Surgical Procedural Time, Pedicle Screw Accuracy, and Clinician Radiation Exposure of a Novel Robotic Navigation System Compared With Conventional Open and Percutaneous Freehand Techniques: A Cadaveric Investigation. Global Spine Journal. doi: 10.1177/2192568219879083
3. Li, Y. M., Huang, Z., Towner, J., Li Y.I., Riggleman, J.R., et al. (2019) Laterally Placed Expandable Interbody Spacers with Adjustable Lordosis Improve Radiographic and Clinical Outcomes. J Spine S8:001. doi: 10.4172/2165-7939. S8-001
4. Li, Y. M., Frisch, R. F., Huang, Z., Towner, J., Li, Y. I., Greeley, S. L., & Ledonio, C. (2019). Comparative Effectiveness of Expandable Versus Static Interbody Spacers via MIS LLIF: A 2-Year Radiographic and Clinical Outcomes Study. Global Spine Journal. https://doi. org/10.1177/2192568219886278
5. Brady R.L., Riggleman, J.R., Edsall, A.L., Ledonio, C.G. (2019) A Novel Lateral Titanium Expandable Interbody Spacer with Integrated Plate Restores Anterior and Posterior Disc Height and Intervertebral Lordosis. J Spine S8:002. doi: 10.4172/2165-7939. S8-002
6. Van Horn, M.R., Beard, R., Bucklen, B.S. A Rough, Biomimetic Titanium-Alloy Surface is Associated with Increased Alkaline Phosphatase (ALP) Activity in Human Mesenchymal Stem Cells in an In Vitro Cell Culture Model. White Paper (GMWP62). Globus Medical, Inc. (March 2020).
Company
Procedure
position
THE POWER OF ONE
*CORBEL™ spacers are not indicated for use (navigation) with ExcelsiusGPS®. CORBEL™ spacers require supplemental fixation, except under certain conditions described in the product insert.
The Power of Surgimap®
Surgimap® enables digital manipulation of patient imaging to establish alignment goals prior to entering the OR.
Novel retractor blade mounts allow for manipulation of the blade angle, which can be critical for the medial blade
Independent blades and table mounts maximize the retractor’s versatility for a controlled working corridor
Streamlined holder with guided anchor impactors eliminates in situ assembly for fast and simple fixation
SintrOS™ Surface Technology has been shown to encourage more cellular activity than smooth PEEK and smooth titanium implants
6
Lateral ALIF
The CORBEL™ Lateral ALIF system provides the benefits of a traditional ALIF and increased OR efficiency by eliminating the need for staged patient repositioning.*
*CORBEL™ spacers are not indicated for use (navigation) with ExcelsiusGPS®. CORBEL™ spacers require supplemental fixation, except under certain conditions described in the product insert.
Contracted starting heights and continuous expansion have been shown to help reduce subsidence compared to static spacers.
The large height expansion range is designed to achieve controlled disc height restoration and aid in sagittal realignment.
3-5
4
Navigated LLIF
The most comprehensive robotic navigation spine surgery platform enables surgeons to navigate instruments and implants from the most advanced expandable interbody portfolio available. Surgeons can plan their optimal interbody implant placement for minimally invasive transpsoas or anterior-to-psoas lateral lumbar interbody fusion procedures.
Navigation instruments enhance real-time visualization without the need for added intraoperative imaging
Constant real-time feedback of instruments during dilation, disc preparation, and insertion to help achieve the desired implant placement
Rigid robotic mounted retractor eliminates the need for a table mounted retractor and is designed to maximize stability
ExcelsiusGPS® Planning
ExcelsiusGPS® software allows for implant selection and pre-planning prior to the first incision.
Robotically navigated posterior fixation with ExcelsiusGPS® has been shown to improve screw placement accuracy while maintaining navigation integrity. The use of the ExcelsiusGPS® rigid robotic arm assists in challenging trajectories with improved ergonomics.
1-2
Posterior Fixation
Unique real-time safety alerts help to maintain navigational integrity
Reduced radiation exposure with navigational tracking compared to conventional MIS surgery using intraoperative fluoroscopy
1-2
Accurate screw placement through an actively navigated end effector, without the use of K-wires
1
Rigid robotic arm aligns to the plan and maintains trajectories throughout implant placement
Lateral ALIF
Navigated LLIF
Posterior Fixation
THE POWER OF ONE position
More Info
Developed to improve outcomes by focusing on the areas that matter most:
The Excelsius™ Lateral 360 platform is designed for versatility and adaptability, providing customized patient care with:
- Robotically navigated posterior fixation
- Navigated instruments for lateral lumbar interbody
fusion (LLIF)
- Lateral position anterior lumbar interbody fusion
(ALIF) technology
SCROLL
DOWN
Leverage the industry’s leading robotic navigation and implant technologies to transform staged procedures into a single-position lateral surgery with Excelsius™ Lateral 360.
Intro
Features
Surgeries
Products
Posterior Fixation
Navigated LLIF
Lateral ALIF
CONNECT WITH US
© Globus Medical, 2021. All Rights Reserved.
Back to top
References
1. Protopsaltis, T. et al. Surgical Testing Comparison of Single-Position Robot-Assisted Surgery Utilizing ExcelsiusGPS or Conventional MIS Screw Trajectory During LLIF Procedure. White Paper (GMWP58). Globus Medical, Inc. (January 2020).
2. Vaccaro, A.R. et al. (2019) Assessment of Surgical Procedural Time, Pedicle Screw Accuracy, and Clinician Radiation Exposure of a Novel Robotic Navigation System Compared With Conventional Open and Percutaneous Freehand Techniques: A Cadaveric Investigation. Global Spine Journal. doi: 10.1177/2192568219879083
3. Li, Y. M., Huang, Z., Towner, J., Li Y.I., Riggleman, J.R., et al. (2019) Laterally Placed Expandable Interbody Spacers with Adjustable Lordosis Improve Radiographic and Clinical Outcomes. J Spine S8:001. doi: 10.4172/2165-7939. S8-001
4. Li, Y. M., Frisch, R. F., Huang, Z., Towner, J., Li, Y. I., Greeley, S. L., & Ledonio, C. (2019). Comparative Effectiveness of Expandable Versus Static Interbody Spacers via MIS LLIF: A 2-Year Radiographic and Clinical Outcomes Study. Global Spine Journal. https://doi. org/10.1177/2192568219886278
5. Brady R.L., Riggleman, J.R., Edsall, A.L., Ledonio, C.G. (2019) A Novel Lateral Titanium Expandable Interbody Spacer with Integrated Plate Restores Anterior and Posterior Disc Height and Intervertebral Lordosis. J Spine S8:002. doi: 10.4172/2165-7939. S8-002
6. Van Horn, M.R., Beard, R., Bucklen, B.S. A Rough, Biomimetic Titanium-Alloy Surface is Associated with Increased Alkaline Phosphatase (ALP) Activity in Human Mesenchymal Stem Cells in an In Vitro Cell Culture Model. White Paper (GMWP62). Globus Medical, Inc. (March 2020).
4. Li, Y. M., Frisch, R. F., Huang, Z., Towner, J., Li, Y. I., Greeley, S. L., & Ledonio, C. (2019). Comparative Effectiveness of Expandable Versus Static Interbody Spacers via MIS LLIF: A 2-Year Radiographic and Clinical Outcomes Study. Global Spine Journal. https://doi. org/10.1177/2192568219886278
5. Brady R.L., Riggleman, J.R., Edsall, A.L., Ledonio, C.G. (2019) A Novel Lateral Titanium Expandable Interbody Spacer with Integrated Plate Restores Anterior and Posterior Disc Height and Intervertebral Lordosis. J Spine S8:002. doi: 10.4172/2165-7939. S8-002
6. Van Horn, M.R., Beard, R., Bucklen, B.S. A Rough, Biomimetic Titanium-Alloy Surface is Associated with Increased Alkaline Phosphatase (ALP) Activity in Human Mesenchymal Stem Cells in an In Vitro Cell Culture Model. White Paper (GMWP62). Globus Medical, Inc. (March 2020).
*CORBEL™ spacers are not indicated for use (navigation) with ExcelsiusGPS®. CORBEL™ spacers require supplemental fixation, except under certain conditions described in the product insert.
Company
Procedure
position
THE POWER OF ONE
The Power of Surgimap®
Surgimap® enables digital manipulation of patient imaging to establish alignment goals prior to entering the OR.
Novel retractor blade mounts allow for manipulation of the blade angle, which can be critical for the medial blade
Independent blades and table mounts maximize the retractor’s versatility for a controlled working corridor
Streamlined holder with guided anchor impactors eliminates in situ assembly for fast and simple fixation
SintrOS™ Surface Technology has been shown to encourage more cellular activity than smooth PEEK and smooth titanium implants
6
Lateral ALIF
The CORBEL™ Lateral ALIF system provides the benefits of a traditional ALIF and increased OR efficiency by eliminating the need for staged patient repositioning.*
*CORBEL™ spacers are not indicated for use (navigation) with ExcelsiusGPS®. CORBEL™ spacers require supplemental fixation, except under certain conditions described in the product insert.
The large height expansion range is designed to achieve controlled disc height restoration and aid in sagittal realignment.
Contracted starting heights and continuous expansion have been shown to help reduce subsidence compared to static spacers.
3-5
4
Navigated LLIF
The most comprehensive robotic navigation spine surgery platform enables surgeons to navigate instruments and implants from the most advanced expandable interbody portfolio available. Surgeons can plan their optimal interbody implant placement for minimally invasive transpsoas or anterior-to-psoas lateral lumbar interbody fusion procedures.
Navigation instruments enhance real-time visualization without the need for added intraoperative imaging
Constant real-time feedback of instruments during dilation, disc preparation, and insertion to help achieve the desired implant placement
Rigid robotic mounted retractor eliminates the need for a table mounted retractor and is designed to maximize stability
ExcelsiusGPS® Planning
ExcelsiusGPS® software allows for implant selection and pre-planning prior to the first incision.
Robotically navigated posterior fixation with ExcelsiusGPS® has been shown to improve screw placement accuracy while maintaining navigation integrity. The use of the ExcelsiusGPS® rigid robotic arm assists in challenging trajectories with improved ergonomics.
1-2
Posterior Fixation
Unique real-time safety alerts help to maintain navigational integrity
Reduced radiation exposure with navigational tracking compared to conventional MIS surgery using intraoperative fluoroscopy
1-2
Accurate screw placement through an actively navigated end effector, without the use of K-wires
1
Rigid robotic arm aligns to the plan and maintains trajectories throughout implant placement
Lateral ALIF
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Navigated LLIF
Learn more
The most comprehensive robotic navigation spine surgery platform enables surgeons to navigate instruments and implants from the most advanced expandable interbody portfolio available. Surgeons can plan their optimal interbody implant placement for minimally invasive transpsoas or anterior-to-psoas lateral lumbar interbody fusion procedures.
Posterior Fixation
Learn more
Robotically navigated posterior fixation with ExcelsiusGPS® has been shown to improve screw placement accuracy while maintaining navigation integrity. The use of the ExcelsiusGPS® rigid robotic arm assists in challenging trajectories with improved ergonomics.
1-2
THE POWER OF ONE position
More Info
Developed to improve outcomes by focusing on the areas that matter most:
The Excelsius™ Lateral 360 platform is designed for versatility and adaptability, providing customized patient care with:
- Robotically navigated posterior fixation
- Navigated instruments for lateral lumbar interbody
fusion (LLIF)
- Lateral position anterior lumbar interbody fusion
(ALIF) technology
SCROLL
DOWN
Leverage the industry’s leading robotic navigation
and implant technologies to transform staged
procedures into a single-position lateral surgery
with Excelsius™ Lateral 360.
Intro
Features
Surgeries
Products
Posterior Fixation
Navigated LLIF
Lateral ALIF