Your search keyword '"Winter, Fabian"' showing total 8 results

1. Current state of the art of traditional and minimal invasive epilepsy surgery approaches

Author

Winter, Fabian, Krueger, Marie T., Delev, Daniel, Theys, Tom, Van Roost, Dirk MP, Fountas, Kostas, Schijns, Olaf E.M.G., and Roessler, Karl

Published

2024

2. Robotic Navigated Laser Craniotomy: Current Applications and Future Developments

Author

Winter, Fabian, Shawarba, Julia, Roessler, Karl, González Martínez, Jorge Alvaro, editor, and Cardinale, Francesco, editor

Published

2022

3. Seizure outcome in surgically treated pediatric gangliogliomas and dysembryoplastic neuroepitheliomas according to imaging and resection strategies.

Author

Shawarba, Julia, Roessler, Karl, Tomschik, Matthias, Wais, Jonathan, Winter, Fabian, Mayer, Florian, Kasprian, Gregor, Haberler, Christine, Traub-Weidinger, Tatjana, Niederle, Martin, Czech, Thomas, Herta, Johannes, Dorfer, Christian, and Feucht, Martha

Abstract

• Amino acid PET imaging in suspected LEAT provide a high diagnostic sensitivity for gangliogliomas. • ECoG and neuronavigation in extratemporal GG resections provide excellent seizure outcome. • In temporal GG an AMTLR (antero-mesial TLR) gave highest postoperative seizure freedom. Imaging and resection strategies for pediatric gangliogliomas (GG) and dysembryoplastic neuroepitheliomas (DNET) presenting with epilepsy were retrospectively analyzed in a consecutive institutional series of surgically treated patients. Twenty-two children (median 8 years, 3–18 years) presented with seizures for 30 months median (14–55.2 months) due to a histologically verified GG/DNET. There were 20 GG and 2 DNT, 68 % located temporal, 32 % extra-temporal. Seizure history was significantly longer in temporal cases (38 versus 14 months median, p < 0.01). MRI contrast enhancement was present in 50 % and methionine (MET) positron emission tomography (PET) uptake in 70 % (standard uptake values (SUVs) 2.92 mean, from 1.6 to 6.4). 27 % had glucose PET hypometabolism. Primarily, in temporal GG, ECoG (electrocorticography) -guided lesionectomies were performed in 87 % and antero-mesial temporal lobe resections (AMTLR) in 13 %, whereas in extra-temporal GG/DNETs, lesionectomies were performed in 100 %. ILAE Class 1 seizure outcome was primarily achieved in 73 % of the temporal cases, and was increased to 93 % by performing six repeat surgeries using AMTLR. Extratemporal patients experienced ILAE Class 1 seizure outcomes in 86 % without additional surgeries, although harboring significantly more residual tumor (p < 0.005, mean follow-up 28 months). In children, MET PET imaging for suspected GG is proposed preoperatively showing a high diagnostic sensitivity and an option to delineate the lesions for navigated resection, whereas MRI contrast behavior was of no differential diagnostic use. As a surgical strategy we propose primarily lesionectomies for extratemporal but AMTLR for temporal GG respecting eloquent brain areas. [ABSTRACT FROM AUTHOR]

Published

2024

4. A navigated, robot-driven laser craniotomy tool for frameless depth electrode implantation. An in-vivo recovery animal study.

Author

Winter, Fabian, Pilz, Patrick, Kramer, Anne M., Beer, Daniel, Gono, Patrick, Morawska, Marta, Hainfellner, Johannes, Klotz, Sigrid, Tomschik, Matthias, Pataraia, Ekaterina, Hangel, Gilbert, Dorfer, Christian, and Roessler, Karl

Subjects

CRANIOTOMY, LASERS, CEREBRAL angiography, ELECTRODES, COMPUTED tomography, LASER ranging

Abstract

Objectives: We recently introduced a frameless, navigated, robot-driven laser tool for depth electrode implantation as an alternative to frame-based procedures. This method has only been used in cadaver and non-recovery studies. This is the first study to test the robot-driven laser tool in an in vivo recovery animal study. Methods: A preoperative computed tomography (CT) scan was conducted to plan trajectories in sheep specimens. Burr hole craniotomies were performed using a frameless, navigated, robot-driven laser tool. Depth electrodes were implanted after cut-through detection was confirmed. The electrodes were cut at the skin level postoperatively. Postoperative imaging was performed to verify accuracy. Histopathological analysis was performed on the bone, dura, and cortex samples. Results: Fourteen depth electrodes were implanted in two sheep specimens. Anesthetic protocols did not show any intraoperative irregularities. One sheep was euthanized on the same day of the procedure while the other sheep remained alive for 1 week without neurological deficits. Postoperative MRI and CT showed no intracerebral bleeding, infarction, or unintended damage. The average bone thickness was 6.2 mm (range 4.1-8.0 mm). The angulation of the planned trajectories varied from 65.5° to 87.4°. The deviation of the entry point performed by the frameless laser beam ranged from 0.27 mm to 2.24 mm. The histopathological analysis did not reveal any damage associated with the laser beam. Conclusion: The novel robot-driven laser craniotomy tool showed promising results in this first in vivo recovery study. These findings indicate that laser craniotomies can be performed safely and that cut-through detection is reliable. [ABSTRACT FROM AUTHOR]

Published

2024

5. Operative variations in temporal lobe epilepsy surgery and seizure and memory outcome in 226 patients suffering from hippocampal sclerosis.

Author

Roessler, Karl, Kasper, Burkhard S, Shawarba, Julia, Walther, Katrin, Coras, Roland, Brandner, Sebastian, Winter, Fabian, Hamer, Hajo, Blumcke, Ingmar, and Buchfelder, Michael

Subjects

TEMPORAL lobectomy, TEMPORAL lobe epilepsy, EPILEPSY surgery, TREATMENT effectiveness, TEMPORAL lobe, PROGNOSIS

Abstract

Objective: The aim of this retrospective cohort study was to assess seizure and memory outcomes following temporal lobe surgery in patients suffering from medically refractory temporal lobe epilepsy (TLE) and hippocampal sclerosis (HS). Methods: A retrospective monocentric data analysis was performed in consecutive patients who were operated on during 2002–2018. In the first decennium, standard temporal lobe resections (TLR) were predominately performed, and later, antero-temporal lobe resections (ATLR) were mainly performed. Seizure and memory outcomes over time were assessed according to ILAE/Engel classification and the Berlin Amnesia Test (BTA), respectively. Results: Altogether, 231 surgeries were performed on 226 patients (mean age, 40 years [range, 10–68 years]; male: female, 1:1.4; mean seizure duration, 25 years; and mean follow-up duration, 4.75 years [range, 1–16]). Recently, outcomes of 78.3% of the patients in the total cohort were classified as Engel class I, with 54.9% of patients being completely seizure free. The recent cohort of ATLR since 2012 showed significant more completely seizure-free patients than before 2012 (Engel IA 46.6% versus 67.7%, p < 0.0025, χ2), although the Kaplan Meier analysis of all patients favors TLR for better seizure outcome (61% ATLR vs 73% TLR seizure free after 5 yrs, log rank p < 0.001). Verbal memory improved significantly in non-dominant patients. Minor neurological complications were noted (permanent severe complications, 0.4%; temporary severe complications, 4.8%). Conclusion: Significant improvements in seizure and memory outcomes were observed over time, with surgical technique and seizure duration as important prognostic factors. Early admittance for surgery may favor an excellent seizure outcome in patients undergoing temporal lobe resection for HS. [ABSTRACT FROM AUTHOR]

Published

2021

6. Advantages of magnetoencephalography, neuronavigation and intraoperative MRI in epilepsy surgery re-operations.

Author

Shawarba, Julia, Kaspar, Burkhard, Rampp, Stefan, Winter, Fabian, Coras, Roland, Blumcke, Ingmar, Hamer, Hajo, Buchfelder, Michael, and Roessler, Karl

Subjects

TEMPORAL lobectomy, EPILEPSY surgery, REOPERATION, MAGNETIC resonance imaging, MAGNETOENCEPHALOGRAPHY

Abstract

Objective: Management of patients after failed epilepsy surgery is still challenging. Advanced diagnostic and intraoperative tools including magneto-encephalography (MEG) as well as neuronavigation and intraoperative magnetic resonance imaging (iopMRI) may contribute to a better postoperative seizure outcome in this patient group. Methods: We retrospectively analyzed consecutive patients after reoperation of failed epilepsy surgery for medically refractory epilepsy at the University of Erlangen between 1988 and 2017. Inclusion criteria for patients were available MEG, neuronavigation and iopMRI data. The Engel scale was used to categorize seizure outcome. Results: We report on 27 consecutive patients (13 female/14 male mean age at first surgery 29.4 years) who had operative revision of the first resection after failed epilepsy surgery. An improved seizure outcome postoperatively was observed in 78% of patients (p < 0.001) with 55% seizure free (Engel I) patients after a mean follow-up time of 4.9 years. In detail, 80% of lesional cases were seizure free compared to 59% of MRI negative patients. Localizing MEG spike activity in the vicinity of the first resection cavity was present in 12 of 27 patients (44%) corresponding to 83% (10/12) of MEG localizing spike patients having advanced seizure outcome after operative revision. Conclusion: Re-operation after failed surgery in refractory epilepsy may lead to a better seizure outcome in the majority of patients. Preoperative MEG may support the decision for surgery and may facilitate targeting epileptogenic tissue for re-resection by employing navigation and iopMR imaging. [ABSTRACT FROM AUTHOR]

Published

2021

7. Robotic Navigated Laser Craniotomy for Depth Electrode Implantation in Epilepsy Surgery: A Cadaver Lab Study.

Author

Roessler, Karl, Winter, Fabian, Wilken, Tobias, Pataraia, Ekaterina, Mueller-Gerbl, Magdalena, and Dorfer, Christian

Subjects

*EPILEPSY surgery, *COMPUTED tomography, *OCCIPITAL bone, *ELECTRODES, *STEREOTAXIC techniques, *LASER beams, *CRANIOTOMY

Abstract

Objective Depth electrode implantation for invasive monitoring in epilepsy surgery has become a standard procedure. We describe a new frameless stereotactic intervention using robot-guided laser beam for making precise bone channels for depth electrode placement. Methods A laboratory investigation on a head cadaver specimen was performed using a CT scan planning of depth electrodes in various positions. Precise bone channels were made by a navigated robot-driven laser beam (erbium:yttrium aluminum garnet [Er:YAG], 2.94-μm wavelength,) instead of twist drill holes. Entry point and target point precision was calculated using postimplantation CT scans and comparison to the preoperative trajectory plan. Results Frontal, parietal, and occipital bone channels for bolt implantation were made. The occipital bone channel had an angulation of more than 60 degrees to the surface. Bolts and depth electrodes were implanted solely guided by the trajectory given by the precise bone channels. The mean depth electrode length was 45.5 mm. Entry point deviation was 0.73 mm (±0.66 mm SD) and target point deviation was 2.0 mm (±0.64 mm SD). Bone channel laser time was ∼30 seconds per channel. Altogether, the implantation time was ∼10 to 15 minutes per electrode. Conclusion Navigated robot-assisted laser for making precise bone channels for depth electrode implantation in epilepsy surgery is a promising new, exact and straightforward implantation technique and may have many advantages over twist drill hole implantation. [ABSTRACT FROM AUTHOR]

Published

2021

8. Technical Note: Advantages of a 2-Room Intraoperative 3-Tesla Magnetic Resonance Imaging Operating Suite for Performing Laser Interstitial Thermal Therapy in Pediatric Epilepsy and Tumor Surgery.

Author

Tomschik, Matthias, Herta, Johannes, Wais, Jonathan, Winter, Fabian, Hangel, Gilbert, Kasprian, Gregor, Feucht, Martha, Dorfer, Christian, and Roessler, Karl

Subjects

*PEDIATRIC surgery, *MAGNETIC resonance imaging, *EPILEPSY surgery, *OPERATING rooms, *PEDIATRIC therapy, TUMOR surgery

Abstract

Magnetic resonance thermography−guided laser interstitial thermal therapy (LITT) provides a minimally invasive treatment option in children with central nervous system tumors or medically intractable epilepsy. However, transporting anesthetized children between an operating room (OR) and a radiologic suite creates logistical challenges. Thus we describe advantages of using a 2-room intraoperative magnetic resonance imaging (MRI) concept for LITT. Patients were pinned in a head frame that doubles as the lower part of the MRI head coil. Preoperative MRI was performed for accurate neuronavigation, after which laser fibers were stereotactically implanted. Transport between OR and MRI was achieved by sliding the top of the OR table onto a trolly. We performed 12 procedures in 11 children, mean age 7.1 years (range: 2 to 14 years). Ten children suffered from medically intractable epilepsy, and 1 child had a pilocytic midbrain astrocytoma. Two fibers were placed in 8 and 1 fiber in 4 procedures. Mean entry point and target errors were 2.8 mm and 3.4 mm, respectively. Average transfer time from OR to MRI and vice versa was 9 minutes (±1 minute, 40 seconds). Altogether, 50% of the seizure patients were seizure free (Engel grade I) at 22 months' follow-up time. One hemorrhagic event, which could be managed nonoperatively, occurred. We recorded no surgical site or intracranial infections. All LITT procedures were successfully carried out with head frame in the sterile environment. The intraoperative MRI suite proved to be advantageous for minimally invasive procedures, especially in young children resulting in short transports while maintaining high accuracy and safety. [ABSTRACT FROM AUTHOR]

Published

2023