Initial Experience Using a High-Definition 3-Dimensional Exoscope System for Microneurosurgery

2017 ◽  
Vol 14 (4) ◽  
pp. 395-401 ◽  
Author(s):  
Jayson Sack ◽  
Jeffrey A Steinberg ◽  
Robert C Rennert ◽  
Dustin Hatefi ◽  
Jeffrey S Pannell ◽  
...  
Keyword(s):  
Neutral Position ◽  
The Novel ◽  
Operating Microscope ◽  
High Definition ◽  
Team Members ◽  
3 Dimensional ◽  
Primary Operator ◽  
Low Profile ◽  
Standard Operating ◽  
Operative Microscope

Abstract BACKGROUND The operative microscope and endoscope have significantly advanced modern neurosurgery. These devices are nonetheless limited by high costs and suboptimal optics, ergonomics, and maneuverability. A recently developed extracorporeal telescope (“exoscope”) operative system combines characteristics from both the operative microscope and endoscope and provides an affordable, portable, high-definition operative experience. Widespread use of exoscopes in neurosurgery has previously been limited by a lack of stereopsis with 2-dimensional(2-D) monitors. OBJECTIVE To assess the surgical potential of a novel, 3-D, high-definition (4K-HD) exoscope system. METHODS Assess dissection time and visualization of critical structures in a series of human cadaveric cranial neurosurgical approaches with the 3-D 4K-HD exoscope as compared to a standard operating microscope. RESULTS Dissection times and visualization of critical structures was comparable with the 3-D 4K-HD exoscope and a standard operating microscope. The low-profile exoscope nonetheless allowed for larger operative corridors, enhanced instrument maneuverability, and less obstruction in passing instrumentation. The large monitor also resulted in an immersive surgical experience, and gave multiple team members the same high-quality view as the primary operator. Finally, the exoscope possessed a more ergonomically favorable setup as compared to the traditional microscope, allowing the surgeon to be in a neutral position despite the operative angle. CONCLUSION The novel 3-D 4K-HD exoscope system possesses favorable optics, ergonomics, and maneuverability as compared to the traditional operating microscope, with the exoscope's shared surgical view possessing obvious educational and workflow advantages. Further clinical trials are justified to validate this initial cadaveric experience.

First-in-Man Clinical Experience Using a High-Definition 3-Dimensional Exoscope System for Microneurosurgery

2018 ◽  
Vol 16 (6) ◽  
pp. 717-725 ◽  
Author(s):  
Alexander A Khalessi ◽  
Ralph Rahme ◽  
Robert C Rennert ◽  
Pia Borgas ◽  
Jeffrey A Steinberg ◽  
...  
Keyword(s):  
Clinical Experience ◽  
Arteriovenous Malformations ◽  
Foramen Magnum ◽  
Depth Of Field ◽  
Neutral Position ◽  
Surgical Experience ◽  
High Definition ◽  
Cavernous Malformations ◽  
3 Dimensional ◽  
Low Profile

ABSTRACT BACKGROUND During its development and preclinical assessment, a novel, 3-dimensional (3D), high-definition (4K-HD) exoscope system was formerly shown to provide an immersive surgical experience, while maintaining a portable, low-profile design. OBJECTIVE To assess the clinical applicability of this 3D 4K-HD exoscope via first-in-man surgical use. METHODS The operative workflow, functionality, and visual haptics of the 3D 4K-HD exoscope were assessed in a variety of microneurosurgical cases at 2 US centers. RESULTS Nineteen microneurosurgical procedures in 18 patients were performed exclusively using the 3D 4K-HD exoscope. Pathologies treated included 4 aneurysms, 3 cavernous malformations (1 with intraoperative electrocorticography), 2 arteriovenous malformations, 1 foramen magnum meningioma, 1 convexity meningioma, 1 glioma, 1 occipital cyst, 1 chiari malformation, 1 carotid endarterectomy, 1 subdural hematoma, 1 anterior cervical discectomy and fusion, and 2 lumbar laminectomies. All patients experienced good surgical and clinical outcomes. Similar to preclinical assessments, the 3D 4K-HD exoscope provided an immersive 3D surgical experience for the primary surgeon, assistants, and trainees. The small exoscope frame, large depth of field, and hand/foot pedal controls improved exoscope mobility, decreased need to re-focus, and provided unobstructed operative corridors. Flexible positioning of the camera allows the surgeon's posture to be kept in a neutral position with uncompromised viewing angles. CONCLUSION The first-in-man clinical experience with the 3D 4K-HD exoscope confirms its excellent optics and ergonomics for the entire operative team, with high workflow adaptability for a variety of microneurosurgical cases. Expanded clinical use of the 3D 4K-HD exoscope is justified.

Initial Experience with 3-Dimensional Exoscope-Assisted Transmastoid and Lateral Skull Base Surgery

2019 ◽  
Vol 160 (2) ◽  
pp. 364-367 ◽  
Author(s):  
Sullivan Smith ◽  
Elliott D. Kozin ◽  
Vivek V. Kanumuri ◽  
Samuel R. Barber ◽  
Douglas Backous ◽  
...  
Keyword(s):  
Visual Experience ◽  
Skull Base Surgery ◽  
Perioperative Complications ◽  
Surgical Approaches ◽  
Operating Microscope ◽  
Proof Of Concept ◽  
High Definition ◽  
3 Dimensional ◽  
Lateral Skull Base ◽  
Compact Size

Extracorporeal video microscopes, or “exoscopes,” provide high-definition views of the operative field and are alternatives to the operating microscope or loupes for large-corridor surgical approaches. In this proof-of-concept study, we aim to determine the feasibility of 3-dimensional exoscopes as alternatives to operating microscopes in otology and neurotology, espeically in conjunction with endoscopes. Eleven consecutive cases were performed using 3-dimensional exoscopes in place of, or as adjuncts to, the operating microscope. The exoscope was the sole visualization tool in 7 cases, with 4 including the use of an endoscope or microscope. There were no perioperative complications. Potential subjective advantages include superior ergonomics, compact size, and an equal visual experience for surgeons and observers. Limitations include low lighting in small surgical corridors and pixilation at high magnification. Exoscopes are potentially viable alternatives to the microscope in otologic and neurotologic surgery.

Minimally Invasive Navigated Foraminal Discectomy via Contralateral Approach Using a 3-Dimensional 4K High-Definition Exoscope: 2-Dimensional Operative Video

2019 ◽  
Vol 19 (2) ◽  
pp. E188-E188
Author(s):  
Jonathan Oren ◽  
Kevin Kwan ◽  
Julia Schneider ◽  
Mitchell Levine ◽  
David Langer
Keyword(s):  
Informed Consent ◽  
Minimally Invasive ◽  
Invasive Technique ◽  
High Definition ◽  
High Quality ◽  
Tubular Retractor ◽  
3 Dimensional ◽  
Intraoperative Fluoroscopy ◽  
Disc Herniations ◽  
Operative Microscope

Abstract This surgical video is the first to demonstrate a novel minimally invasive technique of utilization of surgically navigated foraminal discectomy using a 3-dimensional 4k high-definition exoscope (Sony Olympus). Typical approaches for foraminal disc herniations may involve violation of the facet resulting in subsequent destabilization requiring fusion.1 Although minimally invasive facet-sparing contralateral techniques have previously been described,2 there is continued limitations stemming from rudimentary localization with standard fluoroscopy and impaired visualization with the bulky traditional operative microscope.3 We demonstrate that high-quality real-time navigation is possible using standard Iso-C intraoperative fluoroscopy for 3-dimensional reconstructions, allowing for intraoperative routing. Navigation is particularly advantageous for adjustments in the trajectory of the tubular retractor and for confirmation of complete foraminal decompression. Visualization from the 4k high-definition exoscope also allows for an unparalleled view of the narrow operative corridor and allows for participation from the operative team. Informed consent was obtained from the patient for the surgery in its entirety.

Lessons Learned Using a High-Definition 3-Dimensional Exoscope for Spinal Surgery

2018 ◽  
Vol 16 (5) ◽  
pp. 619-625 ◽  
Author(s):  
Kevin Kwan ◽  
Julia R Schneider ◽  
Victor Du ◽  
Lukas Falting ◽  
John A Boockvar ◽  
...  
Keyword(s):  
Spinal Surgery ◽  
Clinical Effectiveness ◽  
Lessons Learned ◽  
Depth Of Field ◽  
Surgical Approaches ◽  
Quantitative Methodology ◽  
High Definition ◽  
3D Vision ◽  
Team Members ◽  
3 Dimensional

Abstract BACKGROUND The operative microscope has significantly advanced modern neurosurgical spine surgery but continues to be limited by high costs, suboptimal optics, poor ergonomics, and difficulties with maneuverability. We believe the novel 4K high-definition (4K-HD) 3-dimensional (3D) exoscope (EX), may improve the surgical corridor through advancements in illumination, ergonomics, magnification, and depth of field and has the potential to be utilized in neurosurgical education and training. OBJECTIVE To evaluate the surgical potential of a novel 3D EX system in spinal surgery. METHODS Retrospective analysis over 6 mo of all patients who have undergone spinal surgery at Northwell Health using the 3D EX. Nuances of surgical theater positioning, advantages/disadvantages of the EX and clinical sequelae of the patients were analyzed. RESULTS All 10 patients who underwent spinal surgery utilizing the EX experienced excellent surgical and clinical outcomes without complications. The low-profile EX allowed for excellent operative corridors and instrument maneuverability. The large monitor also resulted in an immersive surgical experience, and gave team members the same 3D vision as the operator. CONCLUSION This study demonstrates the feasibility of utilizing the 3D 4K-HD EX system and highlights potential technical assets of this novel technology in regard to optics, ergonomics, and maneuverability. Further clinical research is needed to examine the clinical effectiveness of the EX system for different surgical approaches through quantitative methodology.

In reply to “The novel whole-organ high-definition CT scanner: A promising diagnostic method for coronary stented patients with unfavorable HR”

2019 ◽  
Vol 282 ◽  
pp. 111
Author(s):  
Daniele Andreini ◽  
Edoardo Conte ◽  
Flavia Nicoli ◽  
Alessandra Tanzilli ◽  
Saima Mushtaq
Keyword(s):  
Diagnostic Method ◽  
The Novel ◽  
Ct Scanner ◽  
High Definition

3D Modelling Of The Novel Nanoscale Screen-Grid FET

2006 ◽  
Vol 913 ◽  
Author(s):  
Pei W. Ding ◽  
Kristel Fobelets ◽  
Jesus E Velazquez-Perez
Keyword(s):  
Field Effect ◽  
Field Effect Transistor ◽  
Simulation Software ◽  
The Novel ◽  
Channel Coupling ◽  
3 Dimensional ◽  
Gate Control ◽  
Effect Transistor ◽  
Screen Grid ◽  
Output Characteristics

AbstractA novel field effect transistor (FET) that uses 3-dimensional (3-D) embedded gate fingers – the Screen-Grid Field Effect Transistor (SGFET) – is proposed. The gating action of the SGFET is based on the design of multiple gating cylinders into the channel region, perpendicular to the current flow. Such configuration allows a full 3-D gate control of the current which improves the device characteristics by increasing the gate to channel coupling. Initial investigations of the SGFET using 3-D TCAD TaurusTM simulation software are presented in this paper. The results indicate that the proposed SGFET offers the possibility of downscaling without degrading the output characteristics. A comparison between the SGFET and both bulk and SOI MOSFETs shows the superior characteristics of the SGFET for low power operation.

Three-Dimensional Magneto-Optical Recording

2004 ◽  
Vol 834 ◽  
Author(s):  
Akiyoshi Itoh
Keyword(s):  
Storage System ◽  
Three Dimensional ◽  
Optical Recording ◽  
High Density ◽  
The Novel ◽  
National Project ◽  
3 Dimensional ◽  
Disk Storage ◽  
High Density Recording ◽  
New Type

ABSTRACTIn this report, the newly developed three-dimensional magneto-optical (MO) recording scheme and the experimental results are reported. A part of this work has been done as the national project of 3D-MO (3-dimensional MO) project. It started at September 1998 and ended March 2002 as a part of the national project “Nanometer-Scale Optical High Density Disk Storage System” and aimed at achieving 100 Gb/in2 in storage density. Three-dimensional MO recording is one of the prosperous candidates of next generation ultra high density recording. Magnetic amplifying MO system (MAMMOS) is employed for achieving the novel three-dimensional MO recording. Double-MAMMOS scheme consists of 2-recording layers of differing compensation temperature (Tcomp ) and one readout layer was proposed and discussed.With write/read test it is succeeded to show the results corresponding to a 100 Gb/in2 (50 Gb/in2 × 2) recording density. We also proposed and showed results of simulations of a new type of Double-MAMMOS in which the recording layers can hold quadri-valued information by single writing process.

High-Definition 3-D Exoscope for Micro-Laryngeal Surgery: A Preliminary Clinical Experience in 41 Patients

2021 ◽  
pp. 000348942110637
Author(s):  
Armando De Virgilio ◽  
Andrea Costantino ◽  
Giuseppe Mercante ◽  
Fabio Ferreli ◽  
Phil Yiu ◽  
...  
Keyword(s):  
Clinical Study ◽  
Ease Of Use ◽  
Prospective Clinical Study ◽  
Operating Microscope ◽  
Scrub Nurse ◽  
High Definition ◽  
Advantages And Disadvantages ◽  
Laryngeal Surgery ◽  
Real Value ◽  
The Individual

Objective: The aim of this prospective clinical study is to evaluate the feasibility of the micro-laryngeal surgery (MLS) using a 3D operating exoscope (OE) in substitution to a conventional operating microscope (OM). Methods: A total of 41 consecutive patients were included (male: 26; median age: 55.0 years; IQR: 46.0-68.0). After each procedure, the surgeon and the scrub nurse were asked to fill out a tailored questionnaire on a 3-point Likert scale (1—not acceptable, 2—acceptable, 3—good) including 12 items. Results: The majority of the procedures were therapeutic (n = 31, 75.6%), while the remaining were diagnostic (n = 10, 24.4%). All surgeries were successfully completed without the support of the OM, and no complications or unwanted delays were detected. The majority of the individual items were judged “good” either by surgeons (n = 399, 81.1%) and scrub nurses (n = 287, 87.5%). The natural posture during the procedure, and the ease of use the joystick and focusing were the best-rated items by the surgeons. Conclusions: This study demonstrates the feasibility of MLS using the OE. Further comparative clinical studies are needed to clarify its real value in substitution to a conventional operating microscope and to better define advantages and disadvantages.

scholarly journals High-Definition and 3-dimensional Imaging of Macular Pathologies with High-speed Ultrahigh-Resolution Optical Coherence Tomography

Ophthalmology ◽  
2006 ◽  
Vol 113 (11) ◽  
pp. 2054-2065.e3 ◽  
Author(s):  
Vivek J. Srinivasan ◽  
Maciej Wojtkowski ◽  
Andre J. Witkin ◽  
Jay S. Duker ◽  
Tony H. Ko ◽  
...  
Keyword(s):  
Optical Coherence Tomography ◽  
High Speed ◽  
Optical Coherence ◽  
High Definition ◽  
Ultrahigh Resolution ◽  
3 Dimensional

Thermal Modeling and Luminosity Characterization of a Plasma Display Panel

2007 ◽  
Author(s):  
Jeffry Kahn ◽  
Avram Bar-Cohen
Keyword(s):  
Heat Generation ◽  
Thermal Model ◽  
Temporal Variations ◽  
High Definition ◽  
3 Dimensional ◽  
Beneficial Effects ◽  
Large Size ◽  
Plasma Display ◽  
Graphite Heat ◽  
Color Analyzer

Plasma Display Panels (PDPs) are a popular technology for large size television displays. Screen inefficiencies, which result in significant localized heat generation, necessitate the use of advanced thermal management materials to reduce both the peak temperatures and the spatial temperature variations across the screen. In the current study, infrared thermography was used to obtain thermal maps of a typical, 42", high-definition PDP screen for different illumination patterns and for several configurations of externally controlled heaters, simulating PDP heat generation. The results were used to validate a 3-dimensional numerical thermal model of the PDP which was then used to predict the beneficial effects of anisotropic graphite heat spreaders on the temperature distribution of the PDP. In addition, a color analyzer was used to determine the spatial and temporal variations in luminosity across the PDP when operated continuously for 1750 hours with different illumination patterns. The thermal model and experimental luminosity characteristics are used to evaluate the deleterious effects of temperature on PDP performance.

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