Your search keyword '"Intraoperative guidance"' showing total 229 results

1. Cerebral Microcirculation: Progress and Outlook of Laser Doppler Flowmetry in Neurosurgery and Neurointensive Care.

Author

Wårdell, Karin, Richter, Johan, and Zsigmond, Peter

Subjects

*DEEP brain stimulation, *MAGNETIC resonance imaging, *FIBER optics, *BLOOD flow, TUMOR surgery

Abstract

Laser Doppler flowmetry (LDF) is a well‐established technique for the investigation of tissue microcirculation. Compared to skin, the use in the human brain is sparse. The measurement of cerebral microcirculation in neurointensive care and during neurosurgery is challenging and requires adaptation to the respective clinical setting. The aim of the review is to present state of the art and progress in neurosurgery and neurointensive care where LDF has proven useful and can find clinical importance in the investigation of cerebral microcirculation. The literature in the field is summarized and recent technical improvements regarding LDF systems and fiber optical probe designs for neurosurgical and neurocritical care described. By combining two signals from the LDF unit, the measurement of the microcirculation (Perfusion) and gray whiteness (TLI) of the brain tissue, the full potential of the device is achieved. For example, a forward‐looking LDF‐probe detects high‐risk hemorrhage areas and gray‐white matter boundaries along intraoperative trajectories during stereotactic neurosurgery. Proof of principles are given for LDF as a guidance tool in deep brain stimulation implantation, brain tumor needle biopsies, and as long‐term monitoring device in neurocritical care. With well‐designed fiber optical probes, surgical fixation, and signal processing for movement reduction, LDF monitoring of the cerebral microcirculation is successful up to 10 days. The use of LDF can be combined with other physiological measurement techniques, for example, fluorescence spectroscopy for identification of glioblastoma during tumor surgery. Fiber optics can also be used during magnetic resonance imaging (MRI). Despite the many advantages, fiber optical LDF has not yet reached its full potential in clinical neuro‐applications. Multicenter studies are required to further evaluate LDF in neurosurgery and neurointensive care. In conclusion, the present status of LDF in neurosurgery and neurointensive care has been reviewed. By combining Perfusion and TLI with tailored probe designs the full potential of LDF can be achived in measuring cerebral microcirculation. This includes guidance during DBS implantation and needle biopsies, and long‐term monitoring in neurocritical care. [ABSTRACT FROM AUTHOR]

Published

2024

2. Current Applications of Raman Spectroscopy in Intraoperative Neurosurgery.

Author

Rivera, Daniel, Young, Tirone, Rao, Akhil, Zhang, Jack Y., Brown, Cole, Huo, Lily, Williams, Tyree, Rodriguez, Benjamin, and Schupper, Alexander J.

Subjects

LITERATURE reviews, RAMAN spectroscopy, OPERATING rooms, TUMOR grading, NEUROSURGEONS

Abstract

Background: Neurosurgery demands exceptional precision due to the brain's complex and delicate structures, necessitating precise targeting of pathological targets. Achieving optimal outcomes depends on the surgeon's ability to accurately differentiate between healthy and pathological tissues during operations. Raman spectroscopy (RS) has emerged as a promising innovation, offering real-time, in vivo non-invasive biochemical tissue characterization. This literature review evaluates the current research on RS applications in intraoperative neurosurgery, emphasizing its potential to enhance surgical precision and patient outcomes. Methods: Following PRISMA guidelines, a comprehensive systematic review was conducted using PubMed to extract relevant peer-reviewed articles. The inclusion criteria focused on original research discussing real-time RS applications with human tissue samples in or near the operating room, excluding retrospective studies, reviews, non-human research, and other non-relevant publications. Results: Our findings demonstrate that RS significantly improves tumor margin delineation, with handheld devices achieving high sensitivity and specificity. Stimulated Raman Histology (SRH) provides rapid, high-resolution tissue images comparable to traditional histopathology but with reduced time to diagnosis. Additionally, RS shows promise in identifying tumor types and grades, aiding precise surgical decision-making. RS techniques have been particularly beneficial in enhancing the accuracy of glioma surgeries, where distinguishing between tumor and healthy tissue is critical. By providing real-time molecular data, RS aids neurosurgeons in maximizing the extent of resection (EOR) while minimizing damage to normal brain tissue, potentially improving patient outcomes and reducing recurrence rates. Conclusions: This review underscores the transformative potential of RS in neurosurgery, advocating for continued innovation and research to fully realize its benefits. Despite its substantial potential, further research is needed to validate RS's clinical utility and cost-effectiveness. [ABSTRACT FROM AUTHOR]

Published

2024

3. Intraoperative image-guidance during robotic surgery: is there clinical evidence of enhanced patient outcomes?

Author

Tappero, Stefano, Fallara, Giuseppe, Chierigo, Francesco, Micalef, Andrea, Ambrosini, Francesca, Diaz, Raquel, Dorotei, Andrea, Pompeo, Edoardo, Limena, Alessia, Bravi, Carlo Andrea, Longoni, Mattia, Piccinelli, Mattia Luca, Barletta, Francesco, Albano, Luigi, Mazzone, Elio, and Dell'Oglio, Paolo

Subjects

*SURGICAL blood loss, *SURGERY, *SURGICAL margin, *OPERATIVE surgery, *KIDNEY physiology, *SURGICAL robots

Abstract

Background: To date, the benefit of image guidance during robot-assisted surgery (IGS) is an object of debate. The current study aims to address the quality of the contemporary body of literature concerning IGS in robotic surgery throughout different surgical specialties. Methods: A systematic review of all English-language articles on IGS, from January 2013 to March 2023, was conducted using PubMed, Cochrane library's Central, EMBASE, MEDLINE, and Scopus databases. Comparative studies that tested performance of IGS vs control were included for the quantitative synthesis, which addressed outcomes analyzed in at least three studies: operative time, length of stay, blood loss, surgical margins, complications, number of nodal retrievals, metastatic nodes, ischemia time, and renal function loss. Bias-corrected ratio of means (ROM) and bias-corrected odds ratio (OR) compared continuous and dichotomous variables, respectively. Subgroup analyses according to guidance type (i.e., 3D virtual reality vs ultrasound vs near-infrared fluoresce) were performed. Results: Twenty-nine studies, based on 11 surgical procedures of three specialties (general surgery, gynecology, urology), were included in the quantitative synthesis. IGS was associated with 12% reduction in length of stay (ROM 0.88; p = 0.03) and 13% reduction in blood loss (ROM 0.87; p = 0.03) but did not affect operative time (ROM 1.00; p = 0.9), or complications (OR 0.93; p = 0.4). IGS was associated with an estimated 44% increase in mean number of removed nodes (ROM 1.44; p < 0.001), and a significantly higher rate of metastatic nodal disease (OR 1.82; p < 0.001), as well as a significantly lower rate of positive surgical margins (OR 0.62; p < 0.001). In nephron sparing surgery, IGS significantly decreased renal function loss (ROM 0.37; p = 0.002). Conclusions: Robot-assisted surgery benefits from image guidance, especially in terms of pathologic outcomes, namely higher detection of metastatic nodes and lower surgical margins. Moreover, IGS enhances renal function preservation and lowers surgical blood loss. [ABSTRACT FROM AUTHOR]

Published

2024

4. Mixed-reality improves execution of templated glenoid component positioning in shoulder arthroplasty: a CT imaging analysis.

Author

Kopriva, John M., McKissack, Haley M., Griswold, B. Gage, Hussain, Zaamin B., Cooke, Hayden L., Gottschalk, Michael B., and Wagner, Eric R.

Abstract

Glenoid placement is critical for successful outcomes in total shoulder arthroplasty (TSA). Preoperative templating with three-dimensional imaging has improved implant positioning, but deviations from the planned inclination and version still occur. Mixed-Reality (MR) is a novel technology that allows surgeons intra-operative access to three-dimensional imaging and templates, capable of overlaying the surgical field to help guide component positioning. The purpose of this study was to compare the execution of preoperative templates using MR vs.standard instruments (SIs). Retrospective review of 97 total shoulder arthroplasties (18 anatomic, 79 reverse) from a single high-volume shoulder surgeon between January 2021 and February 2023, including only primary diagnoses of osteoarthritis, rotator cuff arthropathy, or a massive irreparable rotator cuff tear. To be included, patients needed a templated preoperative plan and then a postoperative computed tomography scan. Allocation to MR vs. SI was based on availability of the MR headset, industry technical personnel, and the templated preoperative plan loaded into the software, but preoperative or intraoperative patient factors did not contribute to the allocation decision. Postoperative inclination and version were measured by two independent, blinded physicians and compared to the preoperative template. From these measurements, we calculated the mean difference, standard deviation (SD), and variance to compare MR and SI. Comparing 25 MR to 72 SI cases, MR significantly improved both inclination (P <.001) and version (P <.001). Specifically, MR improved the mean difference from preoperative templates (by 1.9° inclination, 2.4° version), narrowed the SD (by 1.7° inclination, 1.8° version), and decreased the variance (11.7-3.0 inclination, 14.9-4.3 version). A scatterplot of the data demonstrates a concentration of MR cases within 5° of plan relative to SI cases typically within 10° of plan. There was no difference in operative time. MR improved the accuracy and precision of glenoid positioning. Although it is unlikely that 2° makes a detectable clinical difference, our results demonstrate the potential ability for technology like MR to narrow the bell curve and decrease the outliers in glenoid placement. This will be particularly relevant as MR and other similar technologies continue to evolve into more effective methods in guiding surgical execution. [ABSTRACT FROM AUTHOR]

Published

2024

5. 3D printing for preoperative planning and intraoperative surgical jigs - A prospective study on surgeon perception

Author

Carol Xiaoshu Zhao and Michael Yam

Subjects

Patient-specific 3D models, Preoperative planning, Intraoperative guidance, Improve understanding of patient anatomy, Orthopedic surgery, RD701-811

Abstract

Introduction: Patient-specific 3D printed models have been widely used as a complement to 2D imaging for preoperative planning in orthopaedic surgery. This study discusses surgeons’ views on the use of custom-made 3D models for preoperative planning and intraoperative guiding through two prospective surveys. Materials and methods: 70 surgeons were required to rate on a scale of 1–5 the effectiveness of preoperative use of 3D models in 1) improving surgeons’ understanding of patients’ anatomy, 2) aiding in preoperative planning and 3) explaining the condition to others, and 4) portraying the anatomy accurately. 14 surgeons were required to evaluate on the same scale the ease of use of intraoperative jibs, effectiveness of the jigs in improving the ease, accuracy, and outcomes of surgery, and in reducing surgery time. Results and discussion: Over 90 % of surgeons rated 4 and above (agree and strongly agree) for all areas evaluated on preoperative use of 3D models. Surgeons with shorter years of practice post exit gave higher mean ratings for all areas evaluated. Over 80 % surgeons rated 4 and above for all aspects of intraoperative jigs evaluated except for “reducing surgery time”. We opine that these full-scale individualized models allow clear visualization of complex anatomy from various angles and planes, and simulation of specific surgical procedures. When used intra-operatively, these guides facilitate accurate cuts and positioning of implants, therefore improving the ease and outcome of surgery. Conclusion: In conclusion, surgeons have optimistic views on preoperative and intraoperative use of patient specific 3D models.

Published

2024

6. Current Applications of Raman Spectroscopy in Intraoperative Neurosurgery

Author

Daniel Rivera, Tirone Young, Akhil Rao, Jack Y. Zhang, Cole Brown, Lily Huo, Tyree Williams, Benjamin Rodriguez, and Alexander J. Schupper

Subjects

Raman spectroscopy, neurosurgery, intraoperative guidance, tumor margin differentiation, real-time tissue characterization, Biology (General), QH301-705.5

Abstract

Background: Neurosurgery demands exceptional precision due to the brain’s complex and delicate structures, necessitating precise targeting of pathological targets. Achieving optimal outcomes depends on the surgeon’s ability to accurately differentiate between healthy and pathological tissues during operations. Raman spectroscopy (RS) has emerged as a promising innovation, offering real-time, in vivo non-invasive biochemical tissue characterization. This literature review evaluates the current research on RS applications in intraoperative neurosurgery, emphasizing its potential to enhance surgical precision and patient outcomes. Methods: Following PRISMA guidelines, a comprehensive systematic review was conducted using PubMed to extract relevant peer-reviewed articles. The inclusion criteria focused on original research discussing real-time RS applications with human tissue samples in or near the operating room, excluding retrospective studies, reviews, non-human research, and other non-relevant publications. Results: Our findings demonstrate that RS significantly improves tumor margin delineation, with handheld devices achieving high sensitivity and specificity. Stimulated Raman Histology (SRH) provides rapid, high-resolution tissue images comparable to traditional histopathology but with reduced time to diagnosis. Additionally, RS shows promise in identifying tumor types and grades, aiding precise surgical decision-making. RS techniques have been particularly beneficial in enhancing the accuracy of glioma surgeries, where distinguishing between tumor and healthy tissue is critical. By providing real-time molecular data, RS aids neurosurgeons in maximizing the extent of resection (EOR) while minimizing damage to normal brain tissue, potentially improving patient outcomes and reducing recurrence rates. Conclusions: This review underscores the transformative potential of RS in neurosurgery, advocating for continued innovation and research to fully realize its benefits. Despite its substantial potential, further research is needed to validate RS’s clinical utility and cost-effectiveness.

Published

2024

7. Three-Dimensional Printed Liver Models for Surgical Planning and Intraoperative Guidance of Liver Cancer Resection: A Systematic Review.

Author

Rossi, Timothy, Williams, Ally, and Sun, Zhonghua

Subjects

ONCOLOGIC surgery, LIVER cancer, ECONOMIC statistics, THREE-dimensional printing, DATABASES, BEAM steering

Abstract

Successful liver cancer resection requires a comprehensive pre- and intraoperative understanding of the spatial relationships between a patient's cancer and intrahepatic anatomy. The recent literature has highlighted that patient-specific 3D-printed liver models (3DPLMs) reconstructed from medical imaging data may enhance the comprehension of patients' liver anatomy and thereby provide a useful preoperative planning and intraoperative guidance tool for liver cancer resection (LCR). The purpose of this systematic review was to critically examine the utility and feasibility of 3DPLMs for LCR surgical planning and intraoperative guidance and explore whether these applications improve patient outcomes. Articles were retrieved from four electronic databases (Scopus, Embase, PubMed, and Curtin University Database) according to predetermined eligibility criteria. In total, 22 eligible articles were identified, including 11 original research articles and 11 case reports. Key concepts were synthesised using an inductive content analysis approach suitable for this heterogeneous body of literature. There is significant descriptive and case-report evidence that 3DPLMs strengthen pre- and intraoperative comprehension of patient liver and liver tumour anatomy and can enhance pre- and intraoperative surgical decision making for LCR. The analysis of these studies presents large variances in the times and costs necessary to produce 3DPLMs, as studies did not provide the full expenses of materials, software, and equipment. Production times were focused on different aspects of the 3D printing process and were not comparable. The review nonetheless demonstrates the potential value of 3DPLMs as preoperative planning and intraoperative guidance tools for LCR. Future studies should detail these economic data points to ensure 3DPLMs' viability. Further experimental research and randomised controlled trials are also necessary to examine the relationship between 3DPLMs and patient's intra- and postoperative outcomes. [ABSTRACT FROM AUTHOR]

Published

2023

8. Developing the surgeon-machine interface: using a novel instance-segmentation framework for intraoperative landmark labelling

Author

Jay J. Park, Nehal Doiphode, Xiao Zhang, Lishuo Pan, Rachel Blue, Jianbo Shi, and Vivek P. Buch

Subjects

artificial intelligence, intraoperative guidance, machine learning, surgical guidance, spine, arteriovenous fistula, Surgery, RD1-811

Abstract

IntroductionThe utilisation of artificial intelligence (AI) augments intraoperative safety, surgical training, and patient outcomes. We introduce the term Surgeon-Machine Interface (SMI) to describe this innovative intersection between surgeons and machine inference. A custom deep computer vision (CV) architecture within a sparse labelling paradigm was developed, specifically tailored to conceptualise the SMI. This platform demonstrates the ability to perform instance segmentation on anatomical landmarks and tools from a single open spinal dural arteriovenous fistula (dAVF) surgery video dataset.MethodsOur custom deep convolutional neural network was based on SOLOv2 architecture for precise, instance-level segmentation of surgical video data. Test video consisted of 8520 frames, with sparse labelling of only 133 frames annotated for training. Accuracy and inference time, assessed using F1-score and mean Average Precision (mAP), were compared against current state-of-the-art architectures on a separate test set of 85 additionally annotated frames.ResultsOur SMI demonstrated superior accuracy and computing speed compared to these frameworks. The F1-score and mAP achieved by our platform were 17% and 15.2% respectively, surpassing MaskRCNN (15.2%, 13.9%), YOLOv3 (5.4%, 11.9%), and SOLOv2 (3.1%, 10.4%). Considering detections that exceeded the Intersection over Union threshold of 50%, our platform achieved an impressive F1-score of 44.2% and mAP of 46.3%, outperforming MaskRCNN (41.3%, 43.5%), YOLOv3 (15%, 34.1%), and SOLOv2 (9%, 32.3%). Our platform demonstrated the fastest inference time (88ms), compared to MaskRCNN (90ms), SOLOV2 (100ms), and YOLOv3 (106ms). Finally, the minimal amount of training set demonstrated a good generalisation performance –our architecture successfully identified objects in a frame that were not included in the training or validation frames, indicating its ability to handle out-of-domain scenarios.DiscussionWe present our development of an innovative intraoperative SMI to demonstrate the future promise of advanced CV in the surgical domain. Through successful implementation in a microscopic dAVF surgery, our framework demonstrates superior performance over current state-of-the-art segmentation architectures in intraoperative landmark guidance with high sample efficiency, representing the most advanced AI-enabled surgical inference platform to date. Our future goals include transfer learning paradigms for scaling to additional surgery types, addressing clinical and technical limitations for performing real-time decoding, and ultimate enablement of a real-time neurosurgical guidance platform.

Published

2023

9. STEREOSCOPIC AUGMENTED REALITY FOR INTRAOPERATIVE GUIDANCE IN ROBOTIC SURGERY.

Author

TARTARINI, LORENZO, RICCARDO, SCHIAVINA, BIANCHI, LORENZO, LODI, SIMONE, GAUDIANO, CATERINA, BORTOLANI, BARBARA, CERCENELLI, LAURA, BRUNOCILLA, EUGENIO, and MARCELLI, EMANUELA

Subjects

*SURGICAL robots, *AUGMENTED reality, *RADICAL prostatectomy, *UROLOGICAL surgery, *COMPUTER vision, *SURGICAL & topographical anatomy

Abstract

Augmented reality (AR) technology is increasingly adopted in the surgical field and recently it has been also introduced in robotic-assisted urologic surgery. This work describes the design and development of an AR intraoperative guide system with stereoscopic visualization (SAR, stereoscopic augmented reality) for the Da Vinci surgical robot. As a major novelty, the developed SAR system allows the surgeon to have the virtual 3D model of patient anatomy superimposed on the real field, without losing the stereoscopic view of the operative field. The workflow starts with the 3D model generation of the anatomical district of interest for surgery, from patient diagnostic imaging. Then, the 3D model is uploaded in the developed SAR application, navigated using a 3D space mouse, and superimposed to the operative field using computer vision algorithms. The SAR system was tested during 30 robot-assisted surgeries, including 20 partial nephrectomies, 1 kidney explant, and 9 radical prostatectomies. The SAR guidance system received overall great appreciation from surgeons and helped in localizing hidden structures, such as arteries or tumoral masses, increasing the understanding of surgical anatomy with depth perception, and facilitating intraoperative navigation. Future efforts will be addressed to improve the automatic superimposition of digital 3D models on the intraoperative view. [ABSTRACT FROM AUTHOR]

Published

2023

10. Advances in surgical approaches for refractory pituitary adenomas.

Author

Pease, Matthew, Cohen, Marc A., and Tabar, Viviane

Abstract

Refractory pituitary adenomas are difficult to control tumors that progress through optimal surgical, medical, and radiation management. Repeat surgery is a valuable tool to reduce tumor volume for more effective radiation and/or medical therapy, and to decompress critical neurovascular structures. Advances in surgical techniques and technologies, including minimally invasive cranial approaches, intraoperative MRI suites, and cranial nerve monitoring, have improved surgical outcomes and expanded indications. Today, repeat transsphenoidal surgery has similar complications rates to upfront surgery in historical cohorts. The decision to operate on refractory adenomas should be made with multidisciplinary teams, balancing the benefit of tumor reduction with the potential for complications, including cranial nerve injury, carotid injury, and cerebrospinal fluid leak. [ABSTRACT FROM AUTHOR]

Published

2023

11. A Virtual Reality for the Digital Surgeon

Author

Velazquez-Pimentel, Diana, Hurkxkens, Thomas, Nehme, Jean, and Atallah, Sam, editor

Published

2021

12. Apple Vision Pro and Its Implications in Mohs Micrographic Surgery: A Narrative Review.

Author

Kaye AD, Islam RK, Islam KN, Khachemoune A, Haas C, Barrie S, Pasqualucci A, Shekoohi S, and Varrassi G

Abstract

Mohs micrographic surgery (MMS) is a precise and effective technique for treating skin cancers, necessitating high accuracy and real-time decision-making to ensure complete tumor removal while preserving healthy tissue. The introduction of the Apple Vision Pro (AVP), an advanced mixed-reality headset, presents a potential technological advancement in surgical practice. The present investigation explores the integration of AVP into Mohs surgery, focusing on its potential to enhance preoperative planning, intraoperative guidance, and postoperative analysis. The AVP's high-resolution displays, advanced eye-tracking technology, and real-time data overlay capabilities may assist in meticulous surgical planning and execution. In the preoperative phase, AVP enables the creation and manipulation of detailed 3D models, providing comprehensive visualizations of tumor margins and critical structures. During surgery, AVP's real-time data overlay aids in precise tumor excision and spatial orientation, reducing errors and improving outcomes. Postoperatively, the AVP facilitates detailed procedural reviews and serves as a robust educational tool for surgical trainees. Despite its promising applications, challenges such as real-time resolution limitations, potential eye strain from prolonged use, and high costs must be addressed for widespread clinical adoption. This review highlights the transformative potential of AVP in Mohs surgery and underscores the need for further research to optimize integration and maximize benefits in dermatological procedures., Competing Interests: Conflicts of interest: In compliance with the ICMJE uniform disclosure form, all authors declare the following: Payment/services info: All authors have declared that no financial support was received from any organization for the submitted work. Financial relationships: All authors have declared that they have no financial relationships at present or within the previous three years with any organizations that might have an interest in the submitted work. Other relationships: All authors have declared that there are no other relationships or activities that could appear to have influenced the submitted work., (Copyright © 2024, Kaye et al.)

Published

2024

13. Three-Dimensional Printed Liver Models for Surgical Planning and Intraoperative Guidance of Liver Cancer Resection: A Systematic Review

Author

Timothy Rossi, Ally Williams, and Zhonghua Sun

Subjects

three-dimensional printing, hepatic tumour, liver cancer resection, model, surgical planning, intraoperative guidance, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Successful liver cancer resection requires a comprehensive pre- and intraoperative understanding of the spatial relationships between a patient’s cancer and intrahepatic anatomy. The recent literature has highlighted that patient-specific 3D-printed liver models (3DPLMs) reconstructed from medical imaging data may enhance the comprehension of patients’ liver anatomy and thereby provide a useful preoperative planning and intraoperative guidance tool for liver cancer resection (LCR). The purpose of this systematic review was to critically examine the utility and feasibility of 3DPLMs for LCR surgical planning and intraoperative guidance and explore whether these applications improve patient outcomes. Articles were retrieved from four electronic databases (Scopus, Embase, PubMed, and Curtin University Database) according to predetermined eligibility criteria. In total, 22 eligible articles were identified, including 11 original research articles and 11 case reports. Key concepts were synthesised using an inductive content analysis approach suitable for this heterogeneous body of literature. There is significant descriptive and case-report evidence that 3DPLMs strengthen pre- and intraoperative comprehension of patient liver and liver tumour anatomy and can enhance pre- and intraoperative surgical decision making for LCR. The analysis of these studies presents large variances in the times and costs necessary to produce 3DPLMs, as studies did not provide the full expenses of materials, software, and equipment. Production times were focused on different aspects of the 3D printing process and were not comparable. The review nonetheless demonstrates the potential value of 3DPLMs as preoperative planning and intraoperative guidance tools for LCR. Future studies should detail these economic data points to ensure 3DPLMs’ viability. Further experimental research and randomised controlled trials are also necessary to examine the relationship between 3DPLMs and patient’s intra- and postoperative outcomes.

Published

2023

14. Does intraoperative ultrasound help the surgeon in arthroscopic excision of rotator cuff tendon calcifications ?

Author

Martinel, Vincent, Bonnevialle, Nicolas, and Maltes Fermandois, Patricio

Subjects

*ROTATOR cuff surgery, *TENDINOPATHY, *X-rays, *ULTRASONIC imaging, *ARTHROSCOPY, *TENDONS, *RETROSPECTIVE studies, *COMPARATIVE studies, *CALCINOSIS, *INTRAOPERATIVE monitoring

Abstract

Purpose: Arthroscopic excision of rotator cuff tendon calcifications is a common procedure in cases where medical treatment has failed. The objective of this study was to evaluate how intraoperative ultrasound contributes to improving the interventional procedure. Our hypothesis was that through the use of ultrasonography the frequency of postoperative residual calcium deposits could be reduced without increasing operating time. Methods: In a non-randomized single-operator comparative study, 56 patients who underwent arthroscopic excision of calcification were retrospectively included: group 1 (n = 20) without ultrasound guidance and group 2 (n = 36) with guidance. Operating time was measured and localization failures noted. Radiological follow-up was carried out with x-ray images at conventional angles and ultrasound at 1.5, 3 and 6 months postoperatively. Clinical follow-up was based on the Constant score (CS) at 6 months. Results: The mean operating time was 18 min in group 1 (9—33 ± 8.1) and 22 min in group 2 (10—48 ± 7.7) (p = 0.03). The rate of failure to identify calcifications was 8% and 2% in groups 1 and 2, respectively (p = 0.22). At 6 months, four calcifications were still visible on radiography in group 1 vs 1 in group 2 (20% vs 2.7%, p = 0.03). The mean CS increased from 35 to 81 points in group 1 (p < 0.001) and from 34 to 82 points in group 2 (p < 0.001). Conclusion: Despite an increase in operating time, intraoperative ultrasound improves the process of excising rotator cuff intratendinous calcifications, prevents localization failures and enables a more complete extraction. [ABSTRACT FROM AUTHOR]

Published

2022

15. Machines with vision for intraoperative guidance during gastrointestinal cancer surgery

Author

Muhammad Uzair Khalid, Simon Laplante, and Amin Madani

Subjects

machine learning, computer vision, intraoperative guidance, anatomical landmarking, quality control, task classification, Medicine (General), R5-920

Published

2022

16. Aggressive bone tumours: what a radiologist can offer to the surgeon?

Author

Singh DK, Kumar N, Jalan D, Khanna G, Rustagi A, and Saran S

Subjects

Humans, Radiologists, Magnetic Resonance Imaging methods, Bone Neoplasms diagnostic imaging, Bone Neoplasms surgery

Abstract

The management of aggressive bone tumours requires a multidisciplinary approach, with radiologists playing a central role alongside clinicians and pathologists. Radiologists contribute significantly to diagnosing benign and some aggressive tumours, although complex cases often need histopathological confirmation. Their expertise in tumour characterization and extension assessment is crucial for treatment planning. Radiologists guide biopsies to ensure accurate sampling with minimal morbidity and low risk of tumour spread. They also support preoperative planning through 3D tumour reconstructions, aiding surgeons in devising optimal surgical strategies. During surgery, radiologists enhance precision using intraoperative imaging techniques, such as image fusion and MRI, which allow real-time adjustments. Postoperative monitoring for recurrence depends heavily on radiological imaging, with functional MRI providing insights into residual or recurrent disease. Furthermore, radiologists are integral to image-guided therapies for aggressive bone tumours, performing procedures like osteoplasty and ablation to manage pain and control tumour growth. In sum, radiologists are invaluable members of the care team, providing expertise in diagnosis, biopsy, surgical planning, intraoperative guidance, postoperative monitoring, and therapeutic interventions, ultimately enhancing patient outcomes and quality of life., (© The Author(s) 2024. Published by Oxford University Press on behalf of the British Institute of Radiology. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2025

17. Intraoperative Laparoscopic Near-Infrared Fluorescence Cholangiography to Facilitate Anatomical Identification: When to Give Indocyanine Green and How Much.

Author

Zarrinpar, Ali, Dutson, Erik P, Mobley, Constance, Busuttil, Ronald W, Lewis, Catherine E, Tillou, Areti, Cheaito, Ali, Hines, O Joe, Agopian, Vatche G, and Hiyama, Darryl T

Subjects

Humans, Cholecystitis, Indocyanine Green, Cholangiography, Laparoscopy, Monitoring, Intraoperative, Drug Administration Schedule, Prospective Studies, Fluorescence, Patient Selection, Adult, Aged, Aged, 80 and over, Middle Aged, Coloring Agents, Female, Male, Young Adult, biliary anatomy, infrared fluorescence, intraoperative cholangiography, intraoperative guidance, Digestive Diseases, Liver Disease, Clinical Research, Clinical Sciences, Design Practice and Management, Surgery

Abstract

Recent technological advances have enabled real-time near-infrared fluorescence cholangiography (NIRFC) with indocyanine green (ICG). Whereas several studies have shown its feasibility, dosing and timing for practical use have not been optimized. We undertook a prospective study with systematic variation of dosing and timing from injection of ICG to visualization. Adult patients undergoing laparoscopic biliary and hepatic operations were enrolled. Intravenous ICG (0.02-0.25 mg/kg) was administered at times ranging from 10 to 180 minutes prior to planned visualization. The porta hepatis was examined using a dedicated laparoscopic system equipped to detect NIRFC. Quantitative analysis of intraoperative fluorescence was performed using a scoring system to identify biliary structures. A total of 37 patients were enrolled. Visualization of the extrahepatic biliary tract improved with increasing doses of ICG, with qualitative scores improving from 1.9 ± 1.2 (out of 5) with a 0.02-mg/kg dose to 3.4 ± 1.3 with a 0.25-mg/kg dose (P < .05 for 0.02 vs 0.25 mg/kg). Visualization was also significantly better with increased time after ICG administration (1.1 ± 0.3 for 10 minutes vs 3.4 ± 1.1 for 45 minutes, P < .01). Similarly, quantitative measures also improved with both dose and time. There were no complications from the administration of ICG. These results suggest that a dose of 0.25 mg/kg administered at least 45 minutes prior to visualization facilitates intraoperative anatomical identification. The dosage and timing of administration of ICG prior to intraoperative visualization are within a range where it can be administered in a practical, safe, and effective manner to allow intraoperative identification of extrahepatic biliary anatomy using NIRFC.

Published

2016

18. A pilot study of optical neuronavigation‐guided brain biopsy in the horse using anatomic landmarks and fiducial arrays for patient registration

Author

Lawrence Santistevan, Jeremiah Easley, Audrey Ruple, Sam Monck, Elissa Randall, Fred Wininger, and Rebecca A. Packer

Subjects

equine, intracranial, intraoperative guidance, natural landmark, neurosurgery, nonfiducial, Veterinary medicine, SF600-1100

Abstract

Abstract Background Optical neuronavigation‐guided intracranial surgery has become increasingly common in veterinary medicine, but its use has not yet been described in horses. Objectives To determine the feasibility of optical neuronavigation‐guided intracranial biopsy procedures in the horse, compare the use of the standard fiducial array and anatomic landmarks for patient registration, and evaluate surgeon experience. Animals Six equine cadaver heads. Methods Computed tomography images of each specimen were acquired, with the fiducial array rigidly secured to the frontal bone. Six targets were selected in each specimen. Patient registration was performed separately for 3 targets using the fiducial array, and for 3 targets using anatomic landmarks. In lieu of biopsy, 1 mm diameter wire seeds were placed at each target. Postoperative images were coregistered with the planning scan to calculate Euclidian distance from the tip of the seed to the target. Results No statistical difference between registration techniques was identified. The impact of surgeon experience was examined for each technique using a Mann‐Whitney U test. The experienced surgeon was significantly closer to the intended target (median = 2.52 mm) than were the novice surgeons (median = 6.55 mm) using the fiducial array (P = .001). Although not statistically significant (P = .31), for the experienced surgeon the median distance to target was similar when registering with the fiducial array (2.47 mm) and anatomic landmarks (2.58 mm). Conclusions and Clinical Importance Registration using both fiducial arrays and anatomic landmarks for brain biopsy using optical neuronavigation in horses is feasible.

Published

2020

19. A pilot study of optical neuronavigation‐guided brain biopsy in the horse using anatomic landmarks and fiducial arrays for patient registration.

Author

Santistevan, Lawrence, Easley, Jeremiah, Ruple, Audrey, Monck, Sam, Randall, Elissa, Wininger, Fred, and Packer, Rebecca A.

Subjects

*RECORDING & registration, *MANN Whitney U Test, *HORSES, *PILOT projects, *BIOPSY, *ANIMAL sedation

Abstract

Background: Optical neuronavigation‐guided intracranial surgery has become increasingly common in veterinary medicine, but its use has not yet been described in horses. Objectives: To determine the feasibility of optical neuronavigation‐guided intracranial biopsy procedures in the horse, compare the use of the standard fiducial array and anatomic landmarks for patient registration, and evaluate surgeon experience. Animals Six equine cadaver heads. Methods: Computed tomography images of each specimen were acquired, with the fiducial array rigidly secured to the frontal bone. Six targets were selected in each specimen. Patient registration was performed separately for 3 targets using the fiducial array, and for 3 targets using anatomic landmarks. In lieu of biopsy, 1 mm diameter wire seeds were placed at each target. Postoperative images were coregistered with the planning scan to calculate Euclidian distance from the tip of the seed to the target. Results: No statistical difference between registration techniques was identified. The impact of surgeon experience was examined for each technique using a Mann‐Whitney U test. The experienced surgeon was significantly closer to the intended target (median = 2.52 mm) than were the novice surgeons (median = 6.55 mm) using the fiducial array (P =.001). Although not statistically significant (P =.31), for the experienced surgeon the median distance to target was similar when registering with the fiducial array (2.47 mm) and anatomic landmarks (2.58 mm). Conclusions and Clinical Importance: Registration using both fiducial arrays and anatomic landmarks for brain biopsy using optical neuronavigation in horses is feasible. [ABSTRACT FROM AUTHOR]

Published

2020

20. 3D Projection-Based Navigation

Author

Gavaghan, Kate A., Fusaglia, Matteo, Ritacco, Lucas E., editor, Milano, Federico E., editor, and Chao, Edmund, editor

Published

2016

21. Intraoperative Guidance Using Hyperspectral Imaging: A Review for Surgeons

Author

Manuel Barberio, Sara Benedicenti, Margherita Pizzicannella, Eric Felli, Toby Collins, Boris Jansen-Winkeln, Jacques Marescaux, Massimo Giuseppe Viola, and Michele Diana

Subjects

hyperspectral imaging, optical imaging, image-guided surgery, intraoperative guidance, intraoperative imaging, precision surgery, Medicine (General), R5-920

Abstract

Hyperspectral imaging (HSI) is a novel optical imaging modality, which has recently found diverse applications in the medical field. HSI is a hybrid imaging modality, combining a digital photographic camera with a spectrographic unit, and it allows for a contactless and non-destructive biochemical analysis of living tissue. HSI provides quantitative and qualitative information of the tissue composition at molecular level in a contrast-free manner, hence making it possible to objectively discriminate between different tissue types and between healthy and pathological tissue. Over the last two decades, HSI has been increasingly used in the medical field, and only recently it has found an application in the operating room. In the last few years, several research groups have used this imaging modality as an intraoperative guidance tool within different surgical disciplines. Despite its great potential, HSI still remains far from being routinely used in the daily surgical practice, since it is still largely unknown to most of the surgical community. The aim of this study is to provide clinical surgeons with an overview of the capabilities, current limitations, and future directions of HSI for intraoperative guidance.

Published

2021

22. New Generation Radiosurgery and Intraoperative Guidance

Author

González, Segundo Jaime, Strong, Vivian, Fong, Yuman, editor, Giulianotti, Pier Cristoforo, editor, Lewis, Jason, editor, Groot Koerkamp, Bas, editor, and Reiner, Thomas, editor

Published

2015

23. Biophotonics-Intraoperative Guidance During Partial Nephrectomy: A Systematic Review and Meta-analysis.

Author

Egen L, Demmel GS, Grilli M, Studier-Fischer A, Nickel F, Haney CM, Mühlbauer J, Hartung FO, Menold HS, Piazza P, Rivas JG, Checcucci E, Puliatti S, Belenchon IR, Taratkin M, Rodler S, Cacciamani G, Michel MS, and Kowalewski KF

Subjects

Humans, Kidney Neoplasms surgery, Surgery, Computer-Assisted methods, Optical Imaging methods, Intraoperative Care methods, Indocyanine Green, Optics and Photonics, Nephrectomy methods

Abstract

Context: Partial nephrectomy (PN) with intraoperative guidance by biophotonics has the potential to improve surgical outcomes due to higher precision. However, its value remains unclear since high-level evidence is lacking., Objective: To provide a comprehensive analysis of biophotonic techniques used for intraoperative real-time assistance during PN., Evidence Acquisition: We performed a comprehensive database search based on the PICO criteria, including studies published before October 2022. Two independent reviewers screened the titles and abstracts followed by full-text screening of eligible studies. For a quantitative analysis, a meta-analysis was conducted., Evidence Synthesis: In total, 35 studies were identified for the qualitative analysis, including 27 studies on near-infrared fluorescence (NIRF) imaging using indocyanine green, four studies on hyperspectral imaging, two studies on folate-targeted molecular imaging, and one study each on optical coherence tomography and 5-aminolevulinic acid. The meta-analysis investigated seven studies on selective arterial clamping using NIRF. There was a significantly shorter warm ischemia time in the NIRF-PN group (mean difference [MD]: -2.9; 95% confidence interval [CI]: -5.6, -0.1; p = 0.04). No differences were noted regarding transfusions (odds ratio [OR]: 0.5; 95% CI: 0.2, 1.7; p = 0.27), positive surgical margins (OR: 0.7; 95% CI: 0.2, 2.0; p = 0.46), or major complications (OR: 0.4; 95% CI: 0.1, 1.2; p = 0.08). In the NIRF-PN group, functional results were favorable at short-term follow-up (MD of glomerular filtration rate decline: 7.6; 95% CI: 4.6, 10.5; p < 0.01), but leveled off at long-term follow-up (MD: 7.0; 95% CI: -2.8, 16.9; p = 0.16). Remarkably, these findings were not confirmed by the included randomized controlled trial., Conclusions: Biophotonics comprises a heterogeneous group of imaging modalities that serve intraoperative decision-making and guidance. Implementation into clinical practice and cost effectiveness are the limitations that should be addressed by future research., Patient Summary: We reviewed the application of biophotonics during partial removal of the kidney in patients with kidney cancer. Our results suggest that these techniques support the surgeon in successfully performing the challenging steps of the procedure., (Copyright © 2024 European Association of Urology. Published by Elsevier B.V. All rights reserved.)

Published

2024

24. Visualization technologies for 5-ALA-based fluorescence-guided surgeries.

Author

Wei, Linpeng, Roberts, David W., Sanai, Nader, and Liu, Jonathan T. C.

Abstract

Introduction: 5-ALA-based fluorescence-guided surgery has been shown to be a safe and effective method to improve intraoperative visualization and resection of malignant gliomas. However, it remains ineffective in guiding the resection of lower-grade, non-enhancing, and deep-seated tumors, mainly because these tumors do not produce detectable fluorescence with conventional visualization technologies, namely, wide-field (WF) surgical microscopy.Methods: We describe some of the main factors that limit the sensitivity and accuracy of conventional WF surgical microscopy, and then provide a survey of commercial and research prototypes being developed to address these challenges, along with their principles, advantages and disadvantages, as well as the current status of clinical translation for each technology. We also provide a neurosurgical perspective on how these visualization technologies might best be implemented for guiding glioma surgeries in the future.Results: Detection of PpIX expression in low-grade gliomas and at the infiltrative margins of all gliomas has been achieved with high-sensitivity probe-based visualization techniques. Deep-tissue PpIX imaging of up to 5 mm has also been achieved using red-light illumination techniques. Spectroscopic approaches have enabled more accurate quantification of PpIX expression.Conclusion: Advancements in visualization technologies have extended the sensitivity and accuracy of conventional WF surgical microscopy. These technologies will continue to be refined to further improve the extent of resection in glioma patients using 5-ALA-induced fluorescence. [ABSTRACT FROM AUTHOR]

Published

2019

25. Laparoscopic anatomical liver resection for malignancies using positive or negative staining technique with intraoperative indocyanine green-fluorescence imaging

Author

Emanuele Felli, Zineb Cherkaoui, Catherine Schuster, Thomas F. Baumert, Patrick Pessaux, Michele Diana, Simona Tripon, and Takeaki Ishizawa

Subjects

Indocyanine Green, medicine.medical_specialty, Sciences du Vivant [q-bio]/Médecine humaine et pathologie, Sciences du Vivant [q-bio]/Cancer, Negative Staining, Resection, chemistry.chemical_compound, medicine, Hepatectomy, Humans, In patient, Fluorescence staining, Intraoperative guidance, Hepatology, business.industry, Liver Neoplasms, Optical Imaging, Gastroenterology, Negative stain, Informatique [cs]/Traitement des images [eess.IV], chemistry, Laparoscopy, Radiology, business, Indocyanine green, Positive staining, Indocyanine green fluorescence

Abstract

Background Indications for a minimally invasive resections are increasing worldwide, but respecting anatomical planes during intraparenchymal transection is demanding. Intraoperative ICG fluorescence staining of liver parenchyma has been introduced as a tool for real-time intraoperative guidance. The aim of this study is to make a systematic review of the current relevant literature on indications, techniques, and results of laparoscopic anatomical liver resection (LALR) using intraoperative indocyanine green (ICG) fluorescence for positive and negative staining of liver segments in patients affected by liver malignancies. Methods Electronic bibliographical databases (MEDLINE and PubMed) were searched according to the PRISMA criteria. English language articles meeting the selection criteria and published until June 2020 were retrieved and reviewed. Results a total of 86 articles were initially found and 11 articles were finally included in the analysis with a total of 83 patients treated. Sixty-two patients (74.6%) underwent mono-segmentectomies. Thirty-five patients (42.1%) underwent the positive staining technique, and forty-eight patients (57.8%) the negative staining technique. Conclusions The positive or negative indocyanine green staining technique with real-time fluorescence guidance is an emerging and promising approach. However, the technique has to be standardized and advantages in terms of oncologic results still need validation in further studies.

Published

2021

26. Antenna and Sensor Technologies in Modern Medical Applications [Book Review]

Author

Erdem Topsakal, Yahya Rahmat-Samii, and Mahta Moghaddam

Subjects

Information transmission, Electromagnetics, Multimedia, business.industry, Computer science, Wearable computer, Condensed Matter Physics, computer.software_genre, Application areas, Key (cryptography), Electrical and Electronic Engineering, Antenna (radio), business, computer, Biomedicine, Intraoperative guidance

Abstract

The role of engineering technologies in various aspects of human health and well-being is expanding at a remarkable rate. Whether it’s in routine health screening, diagnostics, monitoring, intraoperative guidance, delivery of treatments, drug and vaccine discovery, or just lifestyle enhancement, the ever-increasing importance of engineering technology is undeniable. In particular, devices and techniques that take advantage of electromagnetics (EM) principles are among the key enablers of medical technologies, providing otherwise-unavailable methods for information collection, information transmission, and treatment and intervention. The areas of influence of EM are numerous; we are not just talking about microwave imaging, which is perhaps one of the earliest applications of EM in biomedicine. There are many other innovative application areas that have emerged in the recent past, including implantable devices, new antenna materials for enhancing traditional applications, wireless power transfer, wearables, and the like.

Published

2021

27. Developing the surgeon-machine interface: using a novel instance-segmentation framework for intraoperative landmark labelling.

Author

Park JJ, Doiphode N, Zhang X, Pan L, Blue R, Shi J, and Buch VP

Abstract

Introduction: The utilisation of artificial intelligence (AI) augments intraoperative safety, surgical training, and patient outcomes. We introduce the term Surgeon-Machine Interface (SMI) to describe this innovative intersection between surgeons and machine inference. A custom deep computer vision (CV) architecture within a sparse labelling paradigm was developed, specifically tailored to conceptualise the SMI. This platform demonstrates the ability to perform instance segmentation on anatomical landmarks and tools from a single open spinal dural arteriovenous fistula (dAVF) surgery video dataset., Methods: Our custom deep convolutional neural network was based on SOLOv2 architecture for precise, instance-level segmentation of surgical video data. Test video consisted of 8520 frames, with sparse labelling of only 133 frames annotated for training. Accuracy and inference time, assessed using F1-score and mean Average Precision (mAP), were compared against current state-of-the-art architectures on a separate test set of 85 additionally annotated frames., Results: Our SMI demonstrated superior accuracy and computing speed compared to these frameworks. The F1-score and mAP achieved by our platform were 17% and 15.2% respectively, surpassing MaskRCNN (15.2%, 13.9%), YOLOv3 (5.4%, 11.9%), and SOLOv2 (3.1%, 10.4%). Considering detections that exceeded the Intersection over Union threshold of 50%, our platform achieved an impressive F1-score of 44.2% and mAP of 46.3%, outperforming MaskRCNN (41.3%, 43.5%), YOLOv3 (15%, 34.1%), and SOLOv2 (9%, 32.3%). Our platform demonstrated the fastest inference time (88ms), compared to MaskRCNN (90ms), SOLOV2 (100ms), and YOLOv3 (106ms). Finally, the minimal amount of training set demonstrated a good generalisation performance -our architecture successfully identified objects in a frame that were not included in the training or validation frames, indicating its ability to handle out-of-domain scenarios., Discussion: We present our development of an innovative intraoperative SMI to demonstrate the future promise of advanced CV in the surgical domain. Through successful implementation in a microscopic dAVF surgery, our framework demonstrates superior performance over current state-of-the-art segmentation architectures in intraoperative landmark guidance with high sample efficiency, representing the most advanced AI-enabled surgical inference platform to date. Our future goals include transfer learning paradigms for scaling to additional surgery types, addressing clinical and technical limitations for performing real-time decoding, and ultimate enablement of a real-time neurosurgical guidance platform., Competing Interests: VB and JS filed intellectual property that initiated this work. VB has equity ownership in TAIRIS, LLC. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (© 2023 Park, Doiphode, Zhang, Pan, Blue, Shi and Buch.)

Published

2023

28. Real-time oncological guidance using diffuse reflectance spectroscopy in electrosurgery: the effect of coagulation on tissue discrimination.

Author

Adank, Maartje W., Fleischer, Julie C., Dankelman, Jenny, and Hendriks, Benno H. W.

Subjects

*ONCOLOGY, *BREAST surgery, *IATROGENIC diseases, *REFLECTANCE spectroscopy, *ELECTROSURGERY

Abstract

In breast surgery, a lack of knowledge about what is below the tissue surface may lead to positive tumor margins and iatrogenic damage. Diffuse reflectance spectroscopy (DRS) is a spectroscopic technique that can distinguish between healthy and tumor tissue making it a suitable technology for intraoperative guidance. However, because tumor surgeries are often performed with an electrosurgical knife, the effect of a coagulated tissue layer on DRS measurements must be taken into account. It is evaluated whether real-time DRS measurements obtained with a photonic electrosurgical knife could provide useful information of tissue properties also when tissue is coagulated and cut. The size of the coagulated area is determined and the effect of its presence on DR spectra is studied using ex vivo porcine adipose and muscle tissue. A coagulated tissue layer with a depth of 0.1 to 0.4 mm is observed after coagulating muscle with an electrosurgical knife. The results show that the effect of coagulating adipose tissue is negligible. Using the fat/water ratio’s calculated from the measured spectra of the photonic electrosurgical knife, it was possible to determine the distance from the instrument tip to a tissue transition during cutting. In conclusion, the photonic electrosurgical knife can determine tissue properties of coagulated and cut tissue and has, therefore, the potential to provide real-time feedback about the presence of breast tumor margins during cutting, helping surgeons to establish negative margins and improve patient outcome. [ABSTRACT FROM AUTHOR]

Published

2018

29. Probabilistic guidance for catheter tip motion in cardiac ablation procedures.

Author

Constantinescu, Mihaela AM, Lee, Su-Lin, Ernst, Sabine, Hemakom, Apit, Mandic, Danilo, and Yang, Guang-Zhong

Subjects

*CATHETER ablation, *CARDIAC catheterization, *ARRHYTHMIA, *SLIDING mode control, *PROBABILITY theory, *PATIENTS

Abstract

Radiofrequency catheter ablation is one of the commonly available therapeutic methods for patients suffering from cardiac arrhythmias. The prerequisite of successful ablation is sufficient energy delivery at the target site. However, cardiac and respiratory motion, coupled with endocardial irregularities, can cause catheter drift and dispersion of the radiofrequency energy, thus prolonging procedure time, damaging adjacent tissue, and leading to electrical reconnection of temporarily ablated regions. Therefore, positional accuracy and stability of the catheter tip during energy delivery is of great importance for the outcome of the procedure. This paper presents an analytical scheme for assessing catheter tip stability, whereby a sequence of catheter tip motion recorded at sparse locations on the endocardium is decomposed. The spatial sliding component along the endocardial wall is extracted from the recording and maximal slippage and its associated probability are computed at each mapping point. Finally, a global map is generated, allowing the assessment of potential areas that are compromised by tip slippage. The proposed framework was applied to 40 retrospective studies of congenital heart disease patients and further validated on phantom data and simulations. The results show a good correlation with other intraoperative factors, such as catheter tip contact force amplitude and orientation, and with clinically documented anatomical areas of high catheter tip instability. [ABSTRACT FROM AUTHOR]

Published

2018

30. System for image‐guided resection of nonpalpable breast lesions: Proof of concept.

Author

Arsenali, Bruno, de Jong, Hugo W. A. M., Viergever, Max A., and Gilhuijs, Kenneth G. A.

Subjects

*COMPUTER-assisted surgery, *BREAST cancer surgery, *LUMPECTOMY, *IODINE, *COLLIMATORS

Abstract

Purpose: In breast‐conserving surgery (BCS), the cancer is sometimes incompletely excised, leading to reduced patient survival. To pursue complete excisions, radioactive seed localization (RSL) may be used to insert an iodine‐125 seed into the tumor. The seed is used as a marker for the location of the tumor during surgery. RSL does not, however, show the extent of the tumor. Based on RSL, we pursue to visualize the seed location together with the extent from diagnostic images. Methods: A system with two gamma‐camera heads and two parallel‐hole collimators was recently proposed to triangulate the location of an iodine‐125 seed during BCS. In the present study, this system was extended with a range camera to visualize a sphere centered on the seed in relation to the breast. This sphere contains the entire tumor and thus defines the target volume for BCS. Physical experiments with acrylic block phantoms (thickness ranging from 3.5 to 6.5 cm) were performed to assess the absolute bias and the precision with which this sphere can be visualized. Results: When a 6.5 cm thick phantom was used, along the horizontal plane, the target volume was visualized with an absolute bias and a precision of 2.1 and 0.8 mm, respectively. Along the vertical axis (i.e., z‐axis), these values were 4.2 and 2.8 mm, respectively. Conclusions: The proposed system visualizes the target volume with an absolute bias that may be acceptable for BCS. [ABSTRACT FROM AUTHOR]

Published

2018

31. Preoperative Guidance With Weight-Bearing Computed Tomography and Patient-Specific Instrumentation in Foot and Ankle Surgery

Author

Jensen K. Henry, Scott J. Ellis, and Jacob Zeitlin

Subjects

medicine.medical_specialty, medicine.diagnostic_test, business.industry, medicine.medical_treatment, Foot and ankle surgery, Computed tomography, medicine.disease_cause, Arthroplasty, Weight-bearing, medicine.anatomical_structure, Patient specific instrumentation, medicine, Orthopedics and Sports Medicine, Surgery, Radiology, Instrumentation (computer programming), Ankle, business, Review Articles, Intraoperative guidance

Abstract

The use of preoperative and intraoperative guidance in foot and ankle surgery has grown substantially in recent years. Weight-bearing computed tomography (WBCT) and patient-specific instrumentation (PSI) are used in total ankle arthroplasty (TAA) to achieve precise bone cutting and implant positioning, and intraoperative 3-dimensional (3D) imaging has been used to reduce complications and improve clinical outcomes in other foot and ankle surgical procedures. This narrative review of the literature focuses on the evidence supporting the use of WBCT and PSI in TAA and looks at other promising technologies used to guide foot and ankle surgery.

Published

2021

32. Application of three-dimensional printing for intraoperative guidance during liver resection of a hepatocellular carcinoma with sophisticated location

Author

Jae-Won Joh, Mi Seung Kim, Jinsoo Rhu, Sang Jin Kim, Jong Man Kim, and Gyu-Seong Choi

Subjects

Transplantation, medicine.medical_specialty, Surgical team, Hepatology, Hepatocellular carcinoma, Radiofrequency ablation, business.industry, Gastroenterology, Case Report, 3D printing, medicine.disease, Resection, law.invention, medicine.anatomical_structure, law, Three dimensional printing, medicine, Left Hemihepatectomy, 3D printer, Surgery, Radiology, Vein, business, Intraoperative guidance

Abstract

While 3D printing is adapted usefully in certain field of surgery, its application in liver surgery was limited. Here, we introduce our experience for using 3D printing for intraoperative guidance during liver resection in a case for HCC with an intrahepatic metastasis at a sophisticated location. A 50 years old male patient was diagnosed 4.7 cm-sized hepatocellular carcinoma located on segment 3 with and an intrahepatic metastasis located on segment 8 which was between right anterior portal vein, middle hepatic vein and right hepatic vein. Since radiofrequency ablation appeared to be inappropriate, surgical resection was planned. However, the patient had a cirrhotic liver and left liver was estimated to be 47% according to volume measurement. Therefore, we planned a two-step procedure by performing left hemihepatectomy preserving the middle hepatic vein and additionally removing the intrahepatic metastasis by tumorectomy. For better guidance, we made a 3D printed model tailored for using it as a guidance during operation, and the accuracy of 3D-printed model helped the surgical team perform a safe operation. The patient underwent adjuvant proton beam therapy on the site of tumorectomy and did not experience recurrence.

Published

2021

33. The real-time intraoperative guidance of the new HIFU Focal-One® platform allows to minimize the perioperative adverse events in salvage setting

Author

Enrico Checcucci, Francesco Porpiglia, Gabriele Volpi, Federico Piramide, G. Belli, Cristian Fiori, Stefano De Luca, Alessandra Mosca, Pasquale Rescigno, Andrea Galla, P. Verri, Daniele Amparore, Matteo Manfredi, Diletta Garrou, Filippo Russo, and Carlo Poti

Subjects

medicine.medical_specialty, Urinary system, media_common.quotation_subject, 030232 urology & nephrology, Salvage therapy, Urination, Article, 03 medical and health sciences, Postoperative Complications, 0302 clinical medicine, Quality of life, Internal Medicine, medicine, Humans, Radiology, Nuclear Medicine and imaging, Adverse effect, media_common, Intraoperative guidance, Salvage Therapy, medicine.diagnostic_test, business.industry, Magnetic resonance imaging, General Medicine, Perioperative, Surgery, Treatment Outcome, 030220 oncology & carcinogenesis, Quality of Life, High-Intensity Focused Ultrasound Ablation, Neoplasm Recurrence, Local, business

Abstract

PURPOSE: To assess the use of the new Focal-One(®) HIFU platform in salvage setting to evaluate the occurrence of postoperative complications. METHODS: Patients who underwent salvage HIFU (sHIFU) with Focal-One(®) platform were enrolled prospectively (Candiolo cancer institute—FPO IRCCS; registry number: 258/2018). Perioperative and postoperative outcomes (in terms of oncological and functional ones) were recorded during the first year of follow-up. In particular postoperative complications were classified according to Clavien–Dindo system. RESULTS: 20 patients were enrolled. No grade 3 complications were recorded. Referring to grade 2 complications, eight patients reported urgency after 3 months of follow-up, and in 4 cases, a low urinary tract infection occurred. Evaluating the impact of sHIFU on patients’ sexual potency, micturition and quality of life, no significant deterioration was recorded during the follow-up as proven using the ANOVA analysis for repeated measurements. Only two patient had a biochemical failure after 12 months of follow-up. CONCLUSIONS: The real-time intraoperative guidance with Focal-One(®) platform, allows a continuous monitoring and tailoring of the treatment, with a minimization of the adverse events even in a salvage setting. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s40477-021-00594-8.

Published

2021

34. Intraoperative Guidance for the Surgical Correction of Cam Deformities Using Hip Arthroscopy Based on Alpha Angle Measurement

Author

Shane J. Nho, Allison K. Perry, Safa Gursoy, Amar S. Vadhera, Harsh Singh, and Jorge Chahla

Subjects

Orthopedic surgery, musculoskeletal diseases, medicine.medical_specialty, Femoroacetabular Impingement Syndrome, business.industry, Alpha angle, Technical note, Surgical correction, Incomplete Resection, Surgery, Technical Note, Medicine, Orthopedics and Sports Medicine, Intraoperative navigation, Hip arthroscopy, business, Nuclear medicine, RD701-811, Intraoperative guidance

Abstract

Residual femoroacetabular impingement syndrome due to incomplete resection of a cam deformity is the leading cause of failed hip arthroscopy. The reliability of the alpha angle has been shown for quantifying cam deformities in femoroacetabular impingement syndrome. An intraoperative navigation tool that provides the ability to compare alpha angle measurements side by side on pre- and post-resection fluoroscopic images has recently been introduced. This tool uses fluoroscopic images obtained in 6 different hip positions. The reliability of these standardized hip positions has been shown by correlation with computed tomography in localization and visualization of cam deformities. The purpose of this Technical Note is to give technical tips about the application of this tool., Technique Video Video 1 Key aspects of hip arthroscopy in right hip with patient in supine position with intraoperative navigation tool based on alpha angle measurement. The navigation monitor is placed below the level of the arthroscopy monitor and between the C-arm and arthroscopy monitor so that it does not disrupt the existing operating room setup. Once joint distraction of nearly 1 cm is observed, the anterolateral portal and then the modified midanterior portal are created. An interportal capsulotomy is performed between these portals. In this right-sided hip arthroscopy, after the distal anterolateral portal is created, 3 anchors are placed at the 12-, 1-, and 2-o’clock positions. For the labral repair, sutures are passed and tied accordingly with the aid of arthroscopic instruments. Next, traction is released, a T-capsulotomy is made through the distal anterolateral portal, and suspension sutures are passed through each side of the capsule for a better vantage. To start the HipCheck application, the surgeon identifies the femoral head and neck on a random fluoroscopic image on the navigation touchscreen. Before osteochondroplasty is started, pre-resection measurements are obtained in 6 different hip positions with the HipCheck system. During the procedure, the amount of resection can be instantly checked by taking fluoroscopic images in the desired hip positions at any time. When the cam resection is considered adequate, the 6 fluoroscopic images obtained before resection are obtained once more in the same order, and the new alpha angle values are recorded as the post-resection measurements. Finally, the capsule is closed.

Published

2021

35. Maximal Resection of Intramedullary Lipoma Using Intraoperative Ultrasonography: A Technical Note

Author

Misawa, Haruo, Oda, Yoshiaki, Yamane, Kentaro, Tetsunaga, Tomoko, and Ozaki, Toshifumi

Subjects

body regions, stomatognathic diseases, subtotal resection, otorhinolaryngologic diseases, ultrasonography, intraoperative guidance, intramedullary lipoma

Abstract

One of the problems during surgery for intramedullary lipoma is the ambiguous boundary between the lipoma and the spinal cord, resulting in either incomplete resection or damage to the spinal cord. We report a case of intramedullary lipoma resection on a 61-year-old man in which the boundary between the tumor and spinal cord was repeatedly visualized with intraoperative ultrasonography. We focused on the distinctive features of fat as hyperechoic, in contrast to low-echo neural tissue. Subtotal resection of the tumor was achieved without any aggravation of neurological symptoms. Intraoperative ultrasonography may be useful for confirming tumor boundaries during intramedullary lipoma resection.

Published

2021

36. Clinical experience of using virtual 3D modelling for pre and intraoperative guidance during robotic-assisted partial nephrectomy

Author

Axel Bex, Lorenz Berger, Joana B. Neves, Aziz Gulamhusein, Prokar Dasgupta, Matt Gibb, Pedro Silva, Prasad Patki, Faiz Mumtaz, Marta Marchetti, Eoin R. Hyde, Maxine G. B. Tran, Ravi Barod, Teele Kuusk, and Sebastien Ourselin

Subjects

medicine.medical_specialty, medicine.diagnostic_test, business.industry, Robotic assisted, Urology, medicine.medical_treatment, 3D reconstruction, 030232 urology & nephrology, Robotics, Computed tomography, Surgical planning, Nephrectomy, 03 medical and health sciences, 0302 clinical medicine, 030220 oncology & carcinogenesis, Medicine, Surgery, Artificial intelligence, Radiology, business, Intraoperative guidance

Abstract

Objective: Surgical planning for robotic-assisted partial nephrectomy is widely performed using two-dimensional computed tomography images. It is unclear to what extent two-dimensional images fully simulate surgical anatomy and case complexity. To overcome these limitations, software has been developed to reconstruct three-dimensional models from computed tomography data. We present the results of a feasibility study, to explore the role and practicality of virtual three-dimensional modelling (by Innersight Labs) in the context of surgical utility for preoperative and intraoperative use, as well as improving patient involvement. Methods: A prospective study was conducted on patients undergoing robotic-assisted partial nephrectomy at our high volume kidney cancer centre. Approval from a research ethics committee was obtained. Patient demographics and tumour characteristics were collected. Surgical outcome measures were recorded. The value of the three-dimensional model to the surgeon and patient was assessed using a survey. The prospective cohort was compared against a retrospective cohort and cases were individually matched using RENAL (radius, exophytic/endophytic, nearness to collecting system or sinus, anterior/posterior, location relative to polar lines) scores. Results: This study included 22 patients. Three-dimensional modelling was found to be safe for this prospective cohort and resulted in good surgical outcome measures. The mean (standard deviation) console time was 158.6 (35) min and warm ischaemia time was 17.3 (6.3) min. The median (interquartile range) estimated blood loss was 125 (50–237.5) ml. Two procedures were converted to radical nephrectomy due to the risk of positive margins during resection. The median (interquartile range) length of stay was 2 (2–3) days. No postoperative complications were noted and all patients had negative surgical margins. Patients reported improved understanding of their procedure using the three-dimensional model. Conclusion: This study shows the potential benefit of three-dimensional modelling technology with positive uptake from surgeons and patients. Benefits are improved perception of vascular anatomy and resection approach, and procedure understanding by patients. A randomised controlled trial is needed to evaluate the technology further. Level of evidence: 2b

Published

2021

37. Creating vascular models by postprocessing computed tomography angiography images: a guide for anatomical education.

Author

Govsa, Figen, Ozer, Mehmet, Sirinturk, Suzan, Eraslan, Cenk, and Alagoz, Ahmet

Subjects

*COMPUTED tomography, *ANGIOGRAPHY, *MEDICAL education, *THREE-dimensional printing, *ANATOMICAL variation

Abstract

Background: A new application of teaching anatomy includes the use of computed tomography angiography (CTA) images to create clinically relevant three-dimensional (3D) printed models. The purpose of this article is to review recent innovations on the process and the application of 3D printed models as a tool for using under and post-graduate medical education. Methods: Images of aortic arch pattern received by CTA were converted into 3D images using the Google SketchUp free software and were saved in stereolithography format. Using a 3D printer (Makerbot), a model mode polylactic acid material was printed. Results: A two-vessel left aortic arch was identified consisting of the brachiocephalic trunk and left subclavian artery. The life-like 3D models were rotated 360° in all axes in hand. Conclusions: The early adopters in education and clinical practices have embraced the medical imaging-guided 3D printed anatomical models for their ability to provide tactile feedback and a superior appreciation of visuospatial relationship between the anatomical structures. Printed vascular models are used to assist in preoperative planning, develop intraoperative guidance tools, and to teach patients surgical trainees in surgical practice. [ABSTRACT FROM AUTHOR]

Published

2017

38. Laparoscopic detection and resection of occult liver tumors of multiple cancer types using real-time near-infrared fluorescence guidance.

Author

Boogerd, Leonora, Handgraaf, Henricus, Lam, Hwai-Ding, Huurman, Volkert, Farina-Sarasqueta, Arantza, Frangioni, John, van de Velde, Cornelis, Braat, Andries, Vahrmeijer, Alexander, Boogerd, Leonora S F, Handgraaf, Henricus J M, Huurman, Volkert A L, Frangioni, John V, van de Velde, Cornelis J H, Braat, Andries E, and Vahrmeijer, Alexander L

Subjects

*TUMOR treatment, *LIVER tumors, *BREAST cancer patients, *LAPAROSCOPIC surgery, *MAGNETIC resonance imaging, *COMPUTED tomography, *CANCER relapse, *COMPARATIVE studies, *LAPAROSCOPY, *HEPATOCELLULAR carcinoma, *LIGHT, *RESEARCH methodology, *MEDICAL cooperation, *METASTASIS, *NEAR infrared spectroscopy, *RESEARCH, *CHOLANGIOCARCINOMA, *EVALUATION research, *COMPUTER-assisted surgery, *INDOLE compounds, *DIAGNOSIS

Abstract

Background: Tumor recurrence after radical resection of hepatic tumors is not uncommon, suggesting that malignant lesions are missed during surgery. Intraoperative navigation using fluorescence guidance is an innovative technique enabling real-time identification of (sub)capsular liver tumors. The objective of the current study was to compare fluorescence imaging (FI) and conventional imaging modalities for laparoscopic detection of both primary and metastatic tumors in the liver.Methods: Patients undergoing laparoscopic resection of a malignant hepatic tumor were eligible for inclusion. Patients received standard of care, including preoperative CT and/or MRI. In addition, 10 mg indocyanine green was intravenously administered 1 day prior to surgery. After introduction of the laparoscope, inspection, FI, and laparoscopic ultrasonography (LUS) were performed. Histopathological examination of resected suspect tissue was considered the gold standard.Results: Twenty-two patients suspected of having hepatocellular carcinoma (n = 4), cholangiocarcinoma (n = 2) or liver metastases from colorectal carcinoma (n = 12), uveal melanoma (n = 2), and breast cancer (n = 2) were included. Two patients were excluded because their surgery was unexpectedly postponed several days. Twenty-six malignancies were resected in the remaining 20 patients. Sensitivity for various modalities was 80 % (CT), 84 % (MRI), 62 % (inspection), 86 % (LUS), and 92 % (FI), respectively. Three metastases (12 %) were identified solely by FI. All 26 malignancies could be detected by combining LUS and FI (100 % sensitivity).Conclusion: This study demonstrates added value of FI during laparoscopic resections of several hepatic tumors. Although larger series will be needed to confirm long-term patient outcome, the technology already aids the surgeon by providing real-time fluorescence guidance. [ABSTRACT FROM AUTHOR]

Published

2017

39. Application of artificial intelligence in surgery

Author

Mali Shen, Yao Guo, Guang-Zhong Yang, and Xiao-Yun Zhou

Subjects

medicine.medical_specialty, Engineering, Preoperative planning, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Robotics, General Medicine, GeneralLiterature_MISCELLANEOUS, 030218 nuclear medicine & medical imaging, Surgery, 03 medical and health sciences, ComputingMethodologies_PATTERNRECOGNITION, 0302 clinical medicine, Medical robotics, Artificial Intelligence, Medicine public health, medicine, Humans, Artificial intelligence, business, Surgical robot, 030217 neurology & neurosurgery, Forecasting, Intraoperative guidance

Abstract

Artificial intelligence (AI) is gradually changing the practice of surgery with technological advancements in imaging, navigation, and robotic intervention. In this article, we review the recent successful and influential applications of AI in surgery from preoperative planning and intraoperative guidance to its integration into surgical robots. We conclude this review by summarizing the current state, emerging trends, and major challenges in the future development of AI in surgery.

Published

2020

40. Using Digital Profileplasty for Surgical Planning

Author

Grant S. Hamilton rd, Jeremie D. Oliver, Deanna C. Menapace, and Andrew Courson

Subjects

medicine.medical_specialty, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Digital imaging, MEDLINE, Adobe photoshop, 030230 surgery, Surgical planning, 03 medical and health sciences, 0302 clinical medicine, Software, Image Processing, Computer-Assisted, Medicine, Surgery, Medical physics, 030223 otorhinolaryngology, business, Intraoperative guidance

Abstract

This paper describes a method for setting up an automated and reliable digital profileplasty technique for use in Adobe Photoshop. Digital imaging software can be used to extrapolate more exact measurements during profileplasty. The digital profileplasty technique is helpful to provide intraoperative guidance during surgery.

Published

2020

41. Intraoperative Ultrasound Imaging in Silicone Filler Removal

Author

Samir Mardini, Marissa Suchyta, Christopher H. Hunt, and Patrick W. Eiken

Subjects

Filler (packaging), Silicones, Cosmetic Techniques, Injections, Intraoperative ultrasound, chemistry.chemical_compound, Silicone, Dermal Fillers, Surgical removal, Humans, Medicine, Ultrasonography, Intraoperative guidance, business.industry, technology, industry, and agriculture, Soft tissue, General Medicine, Esthetic surgery, Steroid therapy, Otorhinolaryngology, chemistry, Face, Female, Surgery, business, Biomedical engineering

Abstract

Dermal filler injections, one of the most commonly performed procedures in facial esthetic surgery, are rising in popularity. This has also led to an increase in nonmedical grade filler injections performed by nonmedical personnel, including that of injectable silicone. Surgical removal of silicone fillers is challenging, as the hydrophobic material often disperses within the soft tissue as droplets. This can lead to a systemic inflammatory reaction requiring steroid treatment. MRI localization of the filler material does not enable intraoperative guidance, and palpitation of the material is challenging since the filler droplets are often too small to palpate and located in multiple planes. We present a case demonstrating the advantages of utilizing intraoperative ultrasound to localize and silicone filler material. Utilizing this technique, we were able to achieve a high degree of excision of silicone filler material and the patient was able to stop her previous necessary immunosuppressive steroid regimen successfully.

Published

2021

42. History and Evolution of Spinal Robotics in Pediatric Spinal Deformity

Author

Raymund Woo and Dennis P. Devito

Subjects

medicine.medical_specialty, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, technology, industry, and agriculture, Robotics, Surgical procedures, Pediatric spine, Spine surgery, Physical medicine and rehabilitation, surgical procedures, operative, Focus Issue Article, Deformity, medicine, Spinal deformity, Orthopedics and Sports Medicine, Surgery, Artificial intelligence, medicine.symptom, business, Pedicle screw, Intraoperative guidance

Abstract

Robotic assistance in surgical procedures is a valuable tool that enhances the safety and efficacy of invasive surgeries. These devices are divided functionally into surgeon surrogates where the device operates under the direct control of an offsite surgeon, and surgeon adjuncts where the device is an intraoperative guidance tool used in a portion of the procedure. The current state of robotic spine surgery focuses on the latter, addressing the primary task of pedicle screw placement. We would like to share our experience with the Mazor Robotics devices to discuss the underlying concepts, strengths, weaknesses, and results as they pertain to pediatric spine deformity.

Published

2021

43. Intraoperative Guidance Using Hyperspectral Imaging: A Review for Surgeons

Author

Massimo Giuseppe Viola, Michele Diana, Eric Felli, Manuel Barberio, Boris Jansen-Winkeln, Toby Collins, Jacques Marescaux, Sara Benedicenti, and Margherita Pizzicannella

Subjects

Medicine (General), medicine.medical_specialty, Modality (human–computer interaction), Research groups, intraoperative imaging, image-guided surgery, Computer science, hyperspectral imaging, Clinical Biochemistry, Hyperspectral imaging, 610 Medicine & health, Review, intraoperative guidance, optical imaging, R5-920, Image-guided surgery, Optical imaging, Molecular level, medicine, Medical physics, precision surgery, Tissue composition, Intraoperative guidance

Abstract

Hyperspectral imaging (HSI) is a novel optical imaging modality, which has recently found diverse applications in the medical field. HSI is a hybrid imaging modality, combining a digital photographic camera with a spectrographic unit, and it allows for a contactless and non-destructive biochemical analysis of living tissue. HSI provides quantitative and qualitative information of the tissue composition at molecular level in a contrast-free manner, hence making it possible to objectively discriminate between different tissue types and between healthy and pathological tissue. Over the last two decades, HSI has been increasingly used in the medical field, and only recently it has found an application in the operating room. In the last few years, several research groups have used this imaging modality as an intraoperative guidance tool within different surgical disciplines. Despite its great potential, HSI still remains far from being routinely used in the daily surgical practice, since it is still largely unknown to most of the surgical community. The aim of this study is to provide clinical surgeons with an overview of the capabilities, current limitations, and future directions of HSI for intraoperative guidance.

Published

2021

44. Optimization of Parallel-Hole Collimators for Intraoperative Localization of Iodine-125 Seeds.

Author

Arsenali, Bruno, Gilhuijs, Kenneth G. A., Viergever, Max A., and de Jong, Hugo W. A. M.

Subjects

*IODINE isotopes, *MAMMOGRAMS, *BREAST cancer surgery, *COLLIMATORS, *IMAGING phantoms, *THREE-dimensional imaging, *MEDICAL imaging systems

Abstract

In the treatment of breast cancer, breast-conserving surgery (BCS) may result in incomplete excision of the tumor. In order to improve the outcome of this surgery, iodine-125 seeds may be inserted in the tumor under mammographic or ultrasonic guidance prior to surgery. These seeds provide intraoperative information about the location of the tumor. A system of two gamma camera heads and two parallel-hole collimators was recently proposed to record projection images from which the location of a single radioactive seed can be derived. In the present study, computer simulations were used to evaluate the influence of two standard and 95 non-standard collimators on the accuracy and precision with which this location can be derived. Simulation results indicate that this location can be derived with accuracies ± precisions of 5.2 mm ± 1.8 mm and 5.6 mm ± 2.1 mm if the system is equipped with standard collimators. Simulation results also indicate that this location can be derived with an accuracy ± precision of 4.9 mm ± 1.7 mm if the system is equipped with non-standard collimators (each of these collimators had a resolution of 5 cm at a collimator-source distance of 75 cm). These results were observed when the signal from the radioactive seed with an activity of 7.4 MBq was recorded at a collimator-source distance of 75 cm with an imaging time of 2.5 s (this seed was positioned within a 6.5 cm thick block phantom). In conclusion, these results indicate that the accuracy with which the 3D location of a single radioactive seed can be established during BCS by this gamma camera system cannot be significantly improved if non-standard collimators are used instead of standard collimators. [ABSTRACT FROM AUTHOR]

Published

2016

45. The Assessment of Distortion in Neurosurgical Image Overlay Projection.

Author

Vakharia, Nilesh N., Paraskevopoulos, Dimitris, Lang, Jozsef, and Vakharia, Vejay N.

Subjects

SKULL surgery, SKULL, BIOLOGICAL models, DIGITAL image processing, NEUROSURGERY, PATIENT safety, IMAGING phantoms, COMPUTER-assisted surgery, STANDARDS, ANATOMY

Abstract

Background: Numerous studies have demonstrated the superiority of neuronavigation during neurosurgical procedures compared to non-neuronavigation-based procedures. Limitations to neuronavigation systems include the need for the surgeons to avert their gaze from the surgical field and the cost of the systems, especially for hospitals in developing countries. Overlay projection of imaging directly onto the patient allows localization of intracranial structures. A previous study using overlay projection demonstrated the accuracy of image coregistration for a lesion in the temporal region but did not assess image distortion when projecting onto other anatomical locations. Our aim is to quantify this distortion and establish which regions of the skull would be most suitable for overlay projection.Methods: Using the difference in size of a square grid when projected onto an anatomically accurate model skull and a flat surface, from the same distance, we were able to calculate the degree of image distortion when projecting onto the skull from the anterior, posterior, superior, and lateral aspects. Measuring the size of a square when projected onto a flat surface from different distances allowed us to model change in lesion size when projecting a deep structure onto the skull surface.Results: Using 2 mm as the upper limit for distortion, our results show that images can be accurately projected onto the majority (81.4%) of the surface of the skull.Conclusion: Our results support the use of image overlay projection in regions with ≤2 mm distortion to assist with localization of intracranial lesions at a fraction of the cost of existing methods. [ABSTRACT FROM AUTHOR]

Published

2016

46. Real-Time Intraoperative Surface-Enhanced Raman Spectroscopy-Guided Thermosurgical Eradication of Residual Microtumors in Orthotopic Breast Cancer

Author

Wen, Yu, Truong, Vinh X., Li, Ming, Wen, Yu, Truong, Vinh X., and Li, Ming

Abstract

Residual microtumors following surgical resection are the major cause for lethal cancer recurrence. However, it remains challenging to completely eliminate these residual microtumors. Here, we report an integrated strategy for image-guided surgical resection of tumors and intraoperative surface-enhanced Raman spectroscopy (SERS) guided thermosurgical elimination of residual microtumors using a "three-in-one"theranostic nanoprobe, termed the Au nanostar-based photoacoustic (PA), SERS, and thermosurgical (starPART) probe. This starPART probe, comprising an Au nanostar core, a Raman molecule layer, and a silica outer layer, draws upon the significant advantages of PA imaging, SERS detection, and photothermal tumor ablation. These prominent features enable preoperative PA imaging for surgical resection of tumors and intraoperative SERS-guided thermosurgery for complete elimination of residual microtumors. In vivo experiments confirm complete eradication of microtumors without local recurrence and with a 100% tumor-free survivability. This work therefore offers a robust platform for real-time intraoperative eradication of residual microtumors with significant improvement of surgical outcomes.

Published

2021

47. Redosing of Fluorescein Sodium Improves Image Interpretation During Intraoperative Ex Vivo Confocal Laser Endomicroscopy of Brain Tumors

Author

Mark C. Preul, L. A. Bardonova, Alexander B. Dru, Marian T. Park, Evgenii Belykh, and Irakliy Abramov

Subjects

Cancer Research, Image quality, Brain tissue, redosing, Retrospective analysis, Medicine, fluorescein sodium, skin and connective tissue diseases, fluorescence-guided neurosurgery, RC254-282, Original Research, Intraoperative guidance, Confocal laser endomicroscopy, business.industry, glioblastoma, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, image interpretation, body regions, surgical procedures, operative, Oncology, confocal laser endomicroscopy, brain tumors, Sodium fluorescein, Nuclear medicine, business, Operating microscope, Ex vivo

Abstract

BackgroundFluorescein sodium (FNa) is a fluorescence agent used with a wide-field operating microscope for intraoperative guidance and with confocal laser endomicroscopy (CLE) to evaluate brain tissue. Susceptibility of FNa to degradation over time may affect CLE image quality during prolonged surgeries. This study describes improved characteristics of CLE images after intraoperative redosing with FNa.MethodsA retrospective analysis was performed using CLE images obtained ex vivo from samples obtained during tumor resections with FNa-based fluorescence guidance with a wide-field operating microscope. The comparison groups included CLE images acquired after FNa redosing (redose imaging group), images from the same patients acquired after the initial FNa dose (initial-dose imaging group), and images from patients in whom redosing was not used (single-dose imaging group). A detailed assessment of image quality and interpretation regarding different FNa dosage and timing of imaging after FNa administration was conducted for all comparison groups.ResultsThe brightest and most contrasting images were observed in the redose group compared to the initial-dose and single-dose groups (PConclusionsThe decay of the FNa signal is directly associated with image brightness and contrast. The qualitative interpretation scores of images were highest for the FNa redose imaging group. Redosing with FNa to improve the utility of CLE imaging should be considered a safe and beneficial strategy during prolonged surgeries.

Published

2021

48. Towards Applications of the 'Surgical GPS' on Spinal Procedures

Author

Michel A. Audette, Ava Maghouli, and Austin Tapp

Subjects

medicine.medical_specialty, Workflow, Spinal anatomy, Computer science, business.industry, Orthopedic surgery, medicine, Global Positioning System, Medical physics, business, Intraoperative guidance

Abstract

Surgical data science (SDS) and computer-assisted surgery (CAS) are becoming increasingly conventional as more physicians incorporate surgical navigation systems into their workflows. Consequently, the necessity for enhanced anatomical structure depictions during intraoperative surgical guidance is also increasing. Anatomically accurate musculoskeletal representations are particularly necessary for orthopedic operations, especially spinal procedures. Additionally, CAS system recognition of clinically relevant structures along surgical corridors is of equal importance; such recognition permits intraoperative guidance when procedures are supervised by surgical process models (SPMs). Therefore, this study outlines a comprehensive solution, termed the “Surgical GPS”, which merges patient-specific, ligamentoskeletal models and physician-designated landmarks and ontologies, to expand spinal anatomy representations and demonstrate SPM applications toward several spine procedures. Patient models are validated with Dice similarity coefficient and Hausdorff distance metrics. Anatomical landmarks are queried from SPMs using pertinent search engines and are highlighted on the patient models, potentially enhancing successful surgical outcomes through context-aware, “GPS” guided CAS.

Published

2021

49. Keith Needle Technique for Intraoperative Guidance in Rhinoplasty

Author

Garrett D. Locketz, Kirkland N. Lozada, and Jason D. Bloom

Subjects

Patient-Specific Modeling, medicine.medical_specialty, business.industry, medicine.medical_treatment, MEDLINE, Rhinoplasty, Surgery, Imaging, Three-Dimensional, Needles, Printing, Three-Dimensional, Humans, Medicine, business, Intraoperative guidance

Published

2020

50. Significance of echocardiographic evaluation for transcatheter aortic valve implantation

Author

Kohsuke Shirakawa and Mitsushige Murata

Subjects

medicine.medical_specialty, Transcatheter aortic, Prognostic prediction, 030204 cardiovascular system & hematology, Transcatheter Aortic Valve Replacement, 03 medical and health sciences, 0302 clinical medicine, Aortic valve replacement, Internal medicine, Humans, Medicine, Radiology, Nuclear Medicine and imaging, In patient, 030212 general & internal medicine, Intraoperative guidance, medicine.diagnostic_test, business.industry, Reproducibility of Results, Interventional radiology, Aortic Valve Stenosis, General Medicine, Perioperative, Prognosis, medicine.disease, Stenosis, Echocardiography, Aortic Valve, Cardiology, Cardiology and Cardiovascular Medicine, business

Abstract

Transcatheter aortic valve implantation (TAVI) is widely accepted as an alternative to surgical aortic valve replacement (SAVR) for the treatment of severe aortic stenosis (AS). Existing scientific evidence demonstrates that TAVI is superior to SAVR, and it is expected that indications for the clinical applications of TAVI will be expanded in the future. Echocardiography plays a key role in perioperative assessment of patients undergoing TAVI. Preprocedural echocardiographic evaluation is important to determine the severity of AS in addition to patients' anatomical suitability for TAVI. Furthermore, echocardiography is essential for intraoperative guidance, assessment of complications, postoperative evaluation, and prognostic prediction. Inaccurate echocardiographic measurements and evaluation can lead to less-than-optimal/inappropriate treatment strategies in patients with AS. Therefore, a thorough understanding of the limitations of echocardiographic evaluation is important. This review summarizes the role of echocardiographic evaluation in patients undergoing TAVI.

Published

2019