Your search keyword '"nonpenetrating titanium clips"' showing total 5 results

1. Primary Repair of Posteriorly Located Anterior Skull Base Dural Defects Using Nonpenetrating Titanium Clips in Cranial Trauma.

Author

Milton, Camille K., Andrews, Bethany J., Baker, Cordell M., O'Connor, Kyle P., Conner, Andrew K., Sughrue, Michael E., McKinney, Kibwei A., El Rassi, Edward T., Sanclement, Jose A., and Glenn, Chad A.

Subjects

*SKULL base, *DURA mater, *CEREBROSPINAL fluid leak, *TITANIUM, *FRONTAL sinus, *IMAGE analysis

Abstract

Objective  Primary repair of posteriorly located anterior skull base (ASB) dural defects following cranial trauma is made difficult by narrow operative corridors and adherent dura mater. Inadequate closure may result in continued cerebrospinal fluid (CSF) leak and infectious sequelae. Here, we report surgical outcomes following the use of nonpenetrating titanium microclips as an adjunctive repair technique in traumatic anterior skull base dural defects extending from the olfactory groove to the tuberculum sellae. Methods  All trauma patients who underwent a bifrontal craniotomy from January 2013 to October 2019 were retrospectively reviewed. Patients with ASB defects located at posterior to the olfactory groove were analyzed. Patients with isolated frontal sinus fractures were excluded. All patients presented with CSF leak or radiographic signs of dural compromise. Patients were divided according to posterior extent of injury. Patient characteristics, imaging, surgical technique, and outcomes are reported. Results  A total of 19 patients who underwent a bifrontal craniotomy for repair of posteriorly located ASB dural defects using nonpenetrating titanium microclips were included. Defects were divided by location: olfactory groove (10/19), planum sphenoidale (6/19), and tuberculum sellae (3/19). No patients demonstrated a postoperative CSF leak. No complications related to the microclip technique was observed. Clip artifact did not compromise postoperative imaging interpretation. Conclusion  Primary repair of posteriorly located ASB dural defects is challenging due to narrow working angles and thin dura mater. Use of nonpenetrating titanium microclips for primary repair of posteriorly located dural defects is a reasonable adjunctive repair technique and was associated with no postoperative CSF leaks in this cohort. [ABSTRACT FROM AUTHOR]

Published

2022

2. Durotomy repair in minimally invasive transforaminal lumbar interbody fusion by nonpenetrating clips.

Author

Yen-Po Cheng, Ping-Yi Lin, Abel Po-Hao Huang, Chun-Yuan Cheng, Chien-Min Chen, and Dueng-Yuan Hueng

Subjects

INTERVERTEBRAL disk prostheses, SURGICAL anastomosis, SPINAL stenosis, SPINAL canal diseases, TITANIUM

Abstract

Background: Closure of the dura defect may be easy to perform in open lumbar surgery but could be difficult in minimally invasive transforaminal lumbar interbody fusions (MIS-TLIF) since MIS-TLIF was done through a small tube, which limited the use of standard dural repair instruments. We used nonpenetrating titanium clips that were originally designed for the vascular anastomoses to repair the dura defect, which is never described in the literature. Methods: We presented a case of spinal stenosis with incidental durotomy while performing MIS-TLIF. We closed the dura laceration with three medium-sized nonpenetrating titanium clips (AnastoClip Vessel Closure System, LeMaitre Vascular, Inc., Burlington, MA). Results: Nonpenetrating titanium clips have the benefits of being technically easy to use, reduced durotomy repair time, decreased bed rest due to related medical complications, superior postoperation with immediate hydrostatic strength, and better reapproximation if it fails to clip successfully. As for the postoperation follow up, clips are tiny and reveal no obvious artifact, especially in cases where the pedicle screws are already causing much artifact. Conclusion: Primary dural closure during MIS-TLIF with clips is an effective way in cases that involve limited tubular space. [ABSTRACT FROM AUTHOR]

Published

2014

3. Primary Repair of Posteriorly Located Anterior Skull Base Dural Defects Using Nonpenetrating Titanium Clips in Cranial Trauma.

Author

Milton CK, Andrews BJ, Baker CM, O'Connor KP, Conner AK, Sughrue ME, McKinney KA, El Rassi ET, Sanclement JA, and Glenn CA

Abstract

Objective  Primary repair of posteriorly located anterior skull base (ASB) dural defects following cranial trauma is made difficult by narrow operative corridors and adherent dura mater. Inadequate closure may result in continued cerebrospinal fluid (CSF) leak and infectious sequelae. Here, we report surgical outcomes following the use of nonpenetrating titanium microclips as an adjunctive repair technique in traumatic anterior skull base dural defects extending from the olfactory groove to the tuberculum sellae. Methods  All trauma patients who underwent a bifrontal craniotomy from January 2013 to October 2019 were retrospectively reviewed. Patients with ASB defects located at posterior to the olfactory groove were analyzed. Patients with isolated frontal sinus fractures were excluded. All patients presented with CSF leak or radiographic signs of dural compromise. Patients were divided according to posterior extent of injury. Patient characteristics, imaging, surgical technique, and outcomes are reported. Results  A total of 19 patients who underwent a bifrontal craniotomy for repair of posteriorly located ASB dural defects using nonpenetrating titanium microclips were included. Defects were divided by location: olfactory groove (10/19), planum sphenoidale (6/19), and tuberculum sellae (3/19). No patients demonstrated a postoperative CSF leak. No complications related to the microclip technique was observed. Clip artifact did not compromise postoperative imaging interpretation. Conclusion  Primary repair of posteriorly located ASB dural defects is challenging due to narrow working angles and thin dura mater. Use of nonpenetrating titanium microclips for primary repair of posteriorly located dural defects is a reasonable adjunctive repair technique and was associated with no postoperative CSF leaks in this cohort., Competing Interests: Conflict of Interest None declared., (Thieme. All rights reserved.)

Published

2020

4. Durotomy repair in minimally invasive transforaminal lumbar interbody fusion by nonpenetrating clips

Author

Ping-Yi Lin, Yen-Po Cheng, Chien-Min Chen, Chun-Yuan Cheng, Dueng-Yuan Hueng, and Abel Po-Hao Huang

Subjects

Repair time, medicine.medical_specialty, Spinal stenosis, business.industry, nonpenetrating titanium clips, Anastomosis, Durotomy, medicine.disease, minimally invasive lumbar fusion, Surgery, nervous system diseases, Lumbar, Lumbar interbody fusion, medicine, Technical Note, Dural closure, Neurology (clinical), CLIPS, Pedicle screw, business, computer, computer.programming_language

Abstract

Background Closure of the dura defect may be easy to perform in open lumbar surgery but could be difficult in minimally invasive transforaminal lumbar interbody fusions (MIS-TLIF) since MIS-TLIF was done through a small tube, which limited the use of standard dural repair instruments. We used nonpenetrating titanium clips that were originally designed for the vascular anastomoses to repair the dura defect, which is never described in the literature. Methods We presented a case of spinal stenosis with incidental durotomy while performing MIS-TLIF. We closed the dura laceration with three medium-sized nonpenetrating titanium clips (AnastoClip Vessel Closure System, LeMaitre Vascular, Inc., Burlington, MA). Results Nonpenetrating titanium clips have the benefits of being technically easy to use, reduced durotomy repair time, decreased bed rest due to related medical complications, superior postoperation with immediate hydrostatic strength, and better reapproximation if it fails to clip successfully. As for the postoperation follow up, clips are tiny and reveal no obvious artifact, especially in cases where the pedicle screws are already causing much artifact. Conclusion Primary dural closure during MIS-TLIF with clips is an effective way in cases that involve limited tubular space.

Published

2014

5. Durotomy repair in minimally invasive transforaminal lumbar interbody fusion by nonpenetrating clips.

Author

Cheng YP, Lin PY, Huang AP, Cheng CY, Chen CM, and Hueng DY

Abstract

Background: Closure of the dura defect may be easy to perform in open lumbar surgery but could be difficult in minimally invasive transforaminal lumbar interbody fusions (MIS-TLIF) since MIS-TLIF was done through a small tube, which limited the use of standard dural repair instruments. We used nonpenetrating titanium clips that were originally designed for the vascular anastomoses to repair the dura defect, which is never described in the literature., Methods: We presented a case of spinal stenosis with incidental durotomy while performing MIS-TLIF. We closed the dura laceration with three medium-sized nonpenetrating titanium clips (AnastoClip Vessel Closure System, LeMaitre Vascular, Inc., Burlington, MA)., Results: Nonpenetrating titanium clips have the benefits of being technically easy to use, reduced durotomy repair time, decreased bed rest due to related medical complications, superior postoperation with immediate hydrostatic strength, and better reapproximation if it fails to clip successfully. As for the postoperation follow up, clips are tiny and reveal no obvious artifact, especially in cases where the pedicle screws are already causing much artifact., Conclusion: Primary dural closure during MIS-TLIF with clips is an effective way in cases that involve limited tubular space.

Published

2014