The utility of intraoperative MRI during pediatric brain tumor surgery: a single-surgeon case series

2019 ◽  
Vol 24 (5) ◽  
pp. 577-583
Author(s):  
Emily L. Day ◽  
R. Michael Scott
Keyword(s):  
Brain Tumor ◽  
Tumor Resection ◽  
Extent Of Resection ◽  
Intraoperative Mri ◽  
Anatomical Location ◽  
Tumor Surgery ◽  
Brain Tumor Surgery ◽  
Intraoperative Complication ◽  
Imaging Characteristics

OBJECTIVEThe authors sought to evaluate the utility of intraoperative MRI (ioMRI) during brain tumor excision in pediatric patients and to suggest guidelines for its future use.METHODSAll patients who underwent brain tumor surgery by the senior author at Boston Children’s Hospital using ioMRI between 2005 and 2009 were included in this retrospective review of hospital records and the neurosurgeon’s operative database. Prior to the review, the authors defined the utility of ioMRI into useful and not useful categories based on how the technology affected operative management. They determined that ioMRI was useful if it 1) effectively guided the extent of resection; 2) provided a baseline postoperative scan during the same anesthesia session; or 3) demonstrated or helped to prevent an intraoperative complication. The authors determined that ioMRI was not useful if 1) the anatomical location of the tumor had precluded a tumor’s total resection, even though the surgeon had employed ioMRI for that purpose; 2) the tumor’s imaging characteristics prevented an accurate assessment of resection during intraoperative imaging; 3) the surgeon deemed the technology not required for tumor resection; or 4) the intraoperative MR images were uninterpretable for technical reasons. Follow-up data provided another gauge of the long-term benefit of ioMRI to the patient.RESULTSA total of 53 brain tumor patients were operated on using ioMRI, 6 of whom had a second ioMRI procedure during the study period. Twenty-six patients were female, and 27 were male. The mean follow-up was 4.8 ± 3.85 years (range 0–12 years). By the criteria outlined above, ioMRI technology was useful in 38 (64.4%) of the 59 cases, most frequently for its help in assessing extent of resection.CONCLUSIONSIntraoperative MRI technology was useful in the majority of brain tumor resections in this series, especially in those tumors that were contrast enhancing and located largely within accessible areas of the brain. The percentage of patients for whom ioMRI is useful could be increased by preoperatively evaluating the tumor’s imaging characteristics to determine if ioMRI would accurately assess the extent of tumor resection, and by the surgeon’s preoperative understanding that use of the ioMRI will not lead to resection of an anatomically unresectable tumor. The ioMRI can prove useful in unresectable tumors if specific operative goals are defined preoperatively.

scholarly journals STMO-14 Clinical experience of brain tumor surgery using middleware “OPeLiNK”

2021 ◽  
Vol 3 (Supplement_6) ◽  
pp. vi13-vi13
Author(s):  
Yu Fujii ◽  
Toshihiro Ogiwara ◽  
Tetsuya Goto ◽  
Yoshihiro Muragaki ◽  
Kazuhiro Hongo ◽  
...  
Keyword(s):  
Brain Tumor ◽  
Operating Room ◽  
Clinical Experience ◽  
Extent Of Resection ◽  
Biological Information ◽  
Histopathological Diagnosis ◽  
Navigation Systems ◽  
Tumor Surgery ◽  
Brain Tumor Surgery ◽  
Operation Room

Abstract PURPOSE The removal of brain tumors requires not only imaging information such as MRI and navigation systems, but also a variety of other information such as neurological function and biological information. To integrate this information, a novel operating room, “Smart Cyber Operating Theater (SCOT)”, which connects the medical devices in the operating room via a network has developed. In this SCOT, the intraoperative information is time-synchronized, recorded, and stored by the middleware “OPeLiNK”. Clinical experience of brain tumor surgery using OPeLiNK in our institute is reported. Methods Brain tumor surgeries performed at SCOT, which had been started since July 2018, was enrolled. In all surgeries intraoperative information was integrated by OPeLiNK. Surgical procedure was discussed between main surgeon and supervising surgeon in the Strategy Desk through OPeLiNK intraoperatively, if necessary. Clinical and radiological data from patients who underwent resection at SCOT were analyzed retrospectively. Results Sixty patients were involved. Histopathological diagnosis was glioma in 29 patients, pituitary adenoma in 29 patients, acoustic tumor in 1 patient and intravascular lymphoma in 1 patient. Intraoperative discussion with Strategy Desk through OPeLiNK was useful for not only surgeons but also for medical staff in operation room. Advice for extent of resection and craniotomy from Strategy Desk was conducted by OPeLiNK using conversation and drawing. Intraoperative comment was useful for postoperative review. OPeLiNK, which display multiple intraoperative information, was also used at postoperative conference. Conclusion We have reported clinical experience with OPeLiNK for brain tumor surgery in our institute. OPeLiNK was useful for not only sharing intraoperative information with doctors outside the operation room but also postoperative review and education for young doctors.

scholarly journals An intraoperative motor tract positioning method in brain tumor surgery: technical note

2018 ◽  
Vol 129 (3) ◽  
pp. 576-582 ◽  
Author(s):  
Fumio Yamaguchi ◽  
Hirotomo Ten ◽  
Tadashi Higuchi ◽  
Tomoko Omura ◽  
Toyoyuki Kojima ◽  
...  
Keyword(s):  
Brain Tumor ◽  
Brain Mapping ◽  
Motor Evoked Potentials ◽  
Tumor Resection ◽  
Safety Margin ◽  
Mapping Method ◽  
Tumor Surgery ◽  
Brain Tumor Surgery ◽  
Positioning Method ◽  
Motor Tracts

Intraoperative 3D recognition of the motor tract is indispensable to avoiding neural fiber injury in brain tumor surgery. However, precise localization of the tracts is sometimes difficult with conventional mapping methods. Thus, the authors developed a novel brain mapping method that enables the 3D recognition of the motor tract for intrinsic brain tumor surgeries. This technique was performed in 40 consecutive patients with gliomas adjacent to motor tracts that have a risk of intraoperative pyramidal tract damage. Motor tracts were electrically stimulated and identified by a handheld brain-mapping probe, the NY Tract Finder (NYTF). Sixteen-gauge plastic tubes were mounted onto the NYTF and inserted in the estimated direction of the motor tract with reference to navigational information. Only the NYTF was removed, leaving the plastic tubes in their places, immediately after muscle motor evoked potentials were recorded at the minimum stimulation current. Motor tracts were electrically identified in all cases. Three-dimensional information on the position of motor tracts was given by plastic tubes that were neurophysiologically placed. Tips of tubes showed the resection limit during tumor removal. Safe tumor resection with an arbitrary safety margin can be performed by adjusting the length of the plastic tubes. The motor tract positioning method enabled the 3D recognition of the motor tract by surgeons and provided for safe resection of tumors. Tumor resections were performed safely before damaging motor tracts, without any postoperative neurological deterioration.

scholarly journals New Hope in Brain Glioma Surgery: The Role of Intraoperative Ultrasound. A Review

2018 ◽  
Vol 8 (11) ◽  
pp. 202 ◽  
Author(s):  
Maria Pino ◽  
Alessia Imperato ◽  
Irene Musca ◽  
Rosario Maugeri ◽  
Giuseppe Giammalva ◽  
...  
Keyword(s):  
Brain Tumor ◽  
Brain Tumors ◽  
Low Cost ◽  
Tumor Resection ◽  
Intraoperative Ultrasound ◽  
Tumor Surgery ◽  
Brain Tumor Surgery ◽  
Glioma Surgery ◽  
Pubmed Database

Maximal safe resection represents the gold standard for surgery of malignant brain tumors. As regards gross-total resection, accurate localization and precise delineation of the tumor margins are required. Intraoperative diagnostic imaging (Intra-Operative Magnetic Resonance-IOMR, Intra-Operative Computed Tomography-IOCT, Intra-Operative Ultrasound-IOUS) and dyes (fluorescence) have become relevant in brain tumor surgery, allowing for a more radical and safer tumor resection. IOUS guidance for brain tumor surgery is accurate in distinguishing tumor from normal parenchyma, and it allows a real-time intraoperative visualization. We aim to evaluate the role of IOUS in gliomas surgery and to outline specific strategies to maximize its efficacy. We performed a literature research through the Pubmed database by selecting each article which was focused on the use of IOUS in brain tumor surgery, and in particular in glioma surgery, published in the last 15 years (from 2003 to 2018). We selected 39 papers concerning the use of IOUS in brain tumor surgery, including gliomas. IOUS exerts a notable attraction due to its low cost, minimal interruption of the operational flow, and lack of radiation exposure. Our literature review shows that increasing the use of ultrasound in brain tumors allows more radical resections, thus giving rise to increases in survival.

Applications of intraoperative MRI in brain tumor surgery

1997 ◽  
Vol 99 ◽  
pp. S100-S101
Author(s):  
R. Fahlbusch ◽  
R. Steinmeier ◽  
M. Buchfelder ◽  
W.J. Huk
Keyword(s):  
Brain Tumor ◽  
Intraoperative Mri ◽  
Tumor Surgery ◽  
Brain Tumor Surgery

Awake craniotomy may further improve neurological outcome of intraoperative MRI-guided brain tumor surgery

2013 ◽  
Vol 155 (10) ◽  
pp. 1805-1812 ◽  
Author(s):  
Juho Tuominen ◽  
Sanna Yrjänä ◽  
Anssi Ukkonen ◽  
John Koivukangas
Keyword(s):  
Brain Tumor ◽  
Neurological Outcome ◽  
Awake Craniotomy ◽  
Intraoperative Mri ◽  
Tumor Surgery ◽  
Brain Tumor Surgery ◽  
Mri Guided

scholarly journals Basic Principles of Intraoperative Ultrasound Applied to Brain Tumor Surgery

2020 ◽  
Vol 9 (02) ◽  
pp. 135-140
Author(s):  
Javier A. Jacobo ◽  
Javier Avendaño ◽  
Sergio Moreno-Jimenez ◽  
Santiago Nuñez ◽  
Rocio Mamani
Keyword(s):  
Brain Tumor ◽  
Tumor Volume ◽  
Intraoperative Ultrasound ◽  
Extent Of Resection ◽  
Basic Knowledge ◽  
Full Potential ◽  
Tumor Surgery ◽  
Brain Tumor Surgery ◽  
Basic Principles ◽  
Metastatic Lesions

AbstractIntraoperative ultrasound (US) has been shown to possess great value in assessing tumor volume and localization, especially for primary resection of gliomas and metastatic lesions. Given that US is a technology that is highly user dependent, many surgeons have encountered problems with the usage of this technology, as well as interpretation of intraoperative US images, limiting its full potential. This article focuses on the basic knowledge a neurosurgeon must acquire to properly use and interpret intraoperative US to improve tumor localization and extent of resection during brain tumor surgery.

scholarly journals Safety and Costs Analysis of a Fast-track Algorithm for Early Hospital Discharge After Brain Tumor Surgery

Neurosurgery ◽  
2019 ◽  
Vol 66 (Supplement_1) ◽  
Author(s):  
Danilo Gomes Quadros ◽  
Iuri S Neville ◽  
Francisco M Urena ◽  
Davi J Fontoura Solla ◽  
Wellingson S Paiva ◽  
...  
Keyword(s):  
Brain Tumor ◽  
Hospital Discharge ◽  
Readmission Rate ◽  
Fast Track ◽  
Tumor Resection ◽  
Hospital Costs ◽  
Tumor Surgery ◽  
Brain Tumor Surgery ◽  
Hospitalization Costs ◽  
Brain Tumor Resection

Abstract INTRODUCTION Until the 1990 s, perioperative care was based on empirical concepts and common practice, in part due to the paucity of scientific evidence. With the need of improving patient outcomes and reducing costs, the concern of developing safe and effective standards in postoperative care emerged. Recently, our institution has adopted a daily algorithm for hospital discharge (DAHD), which is a key point in the concept of Fast-Track Surgery. Thus, we designed a study to evaluate whether there was a difference in length of stay (LOS), rate of complications, and hospital costs after the introduction of the DAHD in the postoperative management of patients who underwent brain tumor resection. METHODS This is a retrospective cohort study. All consecutive patients who underwent brain tumor resection in 2017 by a single neurosurgeon were analyzed. Demographic and procedure-related variables, clinical outcomes, and healthcare costs within 30 d after surgery were collected and compared in patients before (preimplementation) and after (postimplementation) the daily algorithm for hospital discharge (DAHD). RESULTS About 61 patients who had been submitted to brain tumor resection were studied (preimplementation 32, postimplementation 29). The baseline demographic characteristics were similar between the groups. After the DAHD implementation, LOS after surgery in days decreased significantly (median 5 vs 3 days; P = .001). The proportion of patients who were discharged within day 1 or 2 after surgery was significantly higher after DAHD protocol (3.1% vs 44.8%; P < .001). Major and minor complications rates, readmission rate, and unplanned return to hospital in 30-day follow-up were comparable between the groups. There was a significant reduction in the median costs of hospitalization in DAHD group (US$2135 vs US$2765, P = .043), mainly due to a reduction in median ward costs (US$922 vs US$1623, P = .009). CONCLUSION Early discharge after brain tumor surgery was safe, inexpensive, reduced the LOS, and hospitalization costs without increase in readmission rate or postoperative complications.

Transcranial Electrical Motor Evoked Potential Monitoring for Brain Tumor Resection

Neurosurgery ◽  
2001 ◽  
Vol 48 (5) ◽  
pp. 1075-1081 ◽  
Author(s):  
Henry H. Zhou ◽  
Patrick J. Kelly
Keyword(s):  
Brain Tumor ◽  
Evoked Potential ◽  
Tumor Resection ◽  
Motor Evoked Potential ◽  
Motor Deficits ◽  
Tumor Surgery ◽  
Brain Tumor Surgery ◽  
Stimulation Intensity ◽  
Potential System ◽  
Brain Tumor Resection

Abstract OBJECTIVE This study was designed to examine whether transcranial electrical motor evoked potential (MEP) monitoring is safe, feasible, and valuable for brain tumor surgery. METHODS Fifty consecutive patients undergoing brain tumor resection were studied, using nitrous oxide/propofol anesthesia. MEPs were continuously recorded throughout surgery, using a Sentinel 4 evoked potential system (Axon Systems, Inc., Hauppauge, NY). The MEPs were elicited by transcranial electrical stimulation (train of 5; stimulation rate, 0.5–2 Hz; square wave pulse with a time constant of 0.5 ms; stimulation intensity, 40–160 mA) through spiral electrodes placed over the primary motor cortex and were recorded by needle electrodes inserted into the contralateral orbicularis oris, biceps, abductor pollicis brevis, and anterior tibialis muscles. When MEP amplitudes decreased by more than 50%, MEP stimulation was repeated, with increased stimulation intensity, and MEP changes were reported to the surgeon. The motor function of each patient was examined before and after surgery, using a reproducible scale. The relationship between MEP amplitude decreases and worsening motor status was analyzed using linear regression. RESULTS Preoperative neurological examinations revealed mild to moderate motor deficits (2/5 to 4/5) for 38% of patients (19 of 50 patients). Most of the patients (96%) exhibited recordable baseline MEPs. Persistent MEP decreases of more than 50% were noted for eight patients (16%) (11 muscles). The MEPs were completely abolished in two patients (three muscles). The degree of postoperative worsening of motor status was correlated with the degree of intraoperative MEP amplitude reduction (r = −0.864; P &lt; 0.001). CONCLUSION Persistent intraoperative MEP reductions of more than 50% were associated with postoperative motor deficits. The degree of MEP amplitude reduction was correlated with postoperative worsening of motor status. Transcranial electrical MEP monitoring is feasible, safe, and valuable for brain tumor surgery.

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