Search

Your search keyword '"Giorgia Antonia Simboli"' showing total 8 results
Start Over Author "Giorgia Antonia Simboli" Topic surgery
8 results on '"Giorgia Antonia Simboli"'

3. MRI-based and robot-assisted stereotactic biopsy with intraoperative CT imaging

Author

Marc Zanello, Giorgia Antonia Simboli, Romain Carron, and Johan Pallud

Subjects
Stereotaxic Techniques, Imaging, Three-Dimensional, Surgery, Computer-Assisted, Biopsy, Humans, Surgery, Robotics, Neurology (clinical), Tomography, X-Ray Computed, Magnetic Resonance Imaging
Abstract

As a pioneer center in the field of stereotaxy, Sainte-Anne school has always advocated the use of intraoperative imaging for stereotactic procedures to optimize both safety and accuracy. With the advent of intraoperative mobile CT unit, the robot-assisted stereotactic biopsy procedure has been recently updated.Herein, we aim at describing our new surgical procedure that combines robotic assistance (NeuroMate, Renishaw) and intraoperative cone beam CT imaging (O-Arm, Medtronic).Intraoperative imaging with the O-Arm was efficiently incorporated into the workflow. This new equipment leads to optimizing operative time and an easier realization of intraoperative imaging.

Published
2022

4. A Preoperative Scoring System to Predict Function-Based Resection Limitation Due to Insufficient Participation During Awake Surgery

Author

Angela Elia, Jacob S. Young, Giorgia Antonia Simboli, Alexandre Roux, Alessandro Moiraghi, Bénédicte Trancart, Nadeem Al-Adli, Oumaima Aboubakr, Aziz Bedioui, Arthur Leclerc, Martin Planet, Eduardo Parraga, Chiara Benevello, Catherine Oppenheim, Fabrice Chretien, Edouard Dezamis, Mitchel S. Berger, Marc Zanello, and Johan Pallud

Subjects
Surgery, Neurology (clinical)
Published
2023

5. Neurosurgical developments of Thierry de Martel (1875-1940), French neurosurgery pioneer, during World Wars I and II

Author

Johan Pallud, Giorgia Antonia Simboli, Alessandro Moiraghi, Alexandre Roux, and Marc Zanello

Subjects
Neurology, World War II, Neurosurgery, Craniocerebral Trauma, Humans, Surgery, Neurology (clinical), General Medicine, Neurologists, History, 20th Century, World War I
Abstract

Following France’s entry into World War I on August 3, 1914, Thierry de Martel (1875–1940), the French neurosurgery pioneer, served on the front line and was wounded on October 3, 1914. He was then assigned as a surgeon in temporary hospitals in Paris, where he published his first observations of cranioencephalic war wounds. In 1915, de Martel met Harvey Cushing at the American Hospital in Neuilly, where de Martel was appointed chief surgeon in 1916. In 1917, he published with the French neurologist Charles Chatelin a book (Blessures du crâne et du cerveau. Clinique et traitement) with the aim to optimize the practice of wartime brain surgery. This book, which included the results of more than 5000 soldiers with head injuries, was considered the most important ever written on war neurology at that time and was translated into English in 1918 (Wounds of the Skull and Brain; Their Clinical Forms and Medical and Surgical Treatment). In this book, de Martel detailed the fundamentals of skull injuries, classified the various craniocerebral lesions, recommended exploratory craniectomy for cranioencephalic injuries, recommended the removal of metal projectiles from the brain using a magnetic nail, and advocated for the prevention of infectious complications. Between the World Wars, de Martel undertook several developments for neurosurgery in France alongside neurologists Joseph Babinski and Clovis Vincent. Following France’s entry into World War II on September 3, 1939, de Martel took over as head of the services of the American Hospital of Paris in Neuilly. He updated his work on war surgery with the new cases he personally treated. Together with Vincent, de Martel presented his new approach in "Le traitement des blessures du crâne pendant les opérations militaires" ("The treatment of skull injuries during military operations") on January 30, 1940, and published his own surgical results in April 1940 in "Plan d’un travail sur le traitement des plaies cranio-cérébrales de guerre" ("Work Plan on the Treatment of Cranio-Cerebral Wounds of War"), intended for battlefield surgeons. On June 14, 1940, the day German troops entered Paris, de Martel injected himself with a lethal dose of phenobarbital. Thierry de Martel played a central role in establishing modern neurosurgery in France. His patriotism led him to improve the management of wartime cranioencephalic injuries using his own experience acquired during World Wars I and II.

Published
2022

6. Application of indocyanine green video angiography in vascular neurosurgery

Author

Giorgia Antonia Simboli, Giuseppe Maria Della Pepa, Giuseppe La Rocca, Tamara Ius, Alessio Albanese, Enrico Marchese, and Giovanni Sabatino

Subjects
medicine.medical_specialty, genetic structures, Settore MED/27 - NEUROCHIRURGIA, Vascular neurosurgery, Neurosurgical Procedures, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Aneurysm, Arteriovenous malformations, Monitoring, Intraoperative, Occlusion, Indocyanine green, medicine, Humans, medicine.diagnostic_test, business.industry, Intracranial Aneurysm, medicine.disease, Neurovascular bundle, Cerebral Angiography, chemistry, 030220 oncology & carcinogenesis, Vascular flow, Angiography, Surgery, Aneurysm surgery, Neurology (clinical), Radiology, business, Vascular Surgical Procedures, 030217 neurology & neurosurgery
Abstract

Indocyanine green video angiography (ICG-VA) is a non-invasive, easy to use and very useful tool for various neurosurgical procedures. The first application was in neurovascular surgery, because it was born as an intravascular tracer for vessels visualization; this has been really useful in aneurysms, atero-venous malformations (AVMs) and dural fistulas surgery where identification, obliteration or patency of vessels is essential. Introduced in vascular neurosurgery since 2003, ICG-VA applications have broadened over time, both in vascular and in other neurosurgical fields. In 2003 Raabe et al. have been the first to describe the use of ICG-VA for intraoperative assessment of cerebral vascular flow, enabling visualization of vessel patency and aneurysm occlusion during aneurysm surgery. ICG-VA applications in vascular neurosurgery have significantly increased over time including complex aneurysms, bypass, atero-venous malformations (AVM) artero-venous fistulas (AVF), evaluation of cortical perfusion. The procedure can be easily repeated after 5-10 minutes. Adverse reactions are comparable to those of other types of contrast media, with frequencies of 0.05% (hypotension, arrhythmia, or, more rarely, anaphylactic shock) to 0.2% (nausea, pruritus, syncope, or skin eruptions. The aim of the present study was to systematically analyze ICG-VA applications in vascular neurosurgery, highlighting the reported advantages and disadvantages, and discussing future perspectives.

Published
2019

7. Trans-sulcal versus trans-parenchymal approach in supratentorial cavernomas. A multicentric experience

Author

Anna Maria Auricchio, Giorgia Antonia Simboli, Alberto Albanese, Roberto Altieri, Anna Acampora, G. M. Della Pepa, Giovanni Vercelli, Giovanni Sabatino, Enrico Marchese, Diego Garbossa, Francesca Vincitorio, Fabrizio Pignotti, Tamara Ius, Edoardo Mazzucchi, Fabio Cofano, and G. La Rocca

Subjects
Adult, Male, Hemangioma, Cavernous, Central Nervous System, medicine.medical_specialty, Neuronavigation, Mini-invasive surgery, Neurosurgical Procedures, Resection, Central Nervous System Neoplasms, 03 medical and health sciences, Mini invasive surgery, Epilepsy, 0302 clinical medicine, Cavernous malformation, Surgical technique, medicine, Humans, Retrospective Studies, Surgical approach, business.industry, Seizure outcome, General Medicine, Middle Aged, Cavernous malformations, medicine.disease, Surgery, Treatment Outcome, 030220 oncology & carcinogenesis, Female, Neurology (clinical), business, Craniotomy, 030217 neurology & neurosurgery
Abstract

Cavernous malformations (CM) are low-flow vascular lesions that can cause significant symptoms and neurological deficits. Different intraoperative surgical approaches have been developed. Aim of the present investigation is the comparison between the trans-sulcal approach (TS) and the trans-parenchymal neuronavigation-assisted approach (TPN) in a surgical series from two neurosurgical centers. The technique and clinical outcomes are discussed, with a specific focus on seizure outcome.Clinical and radiological data from two neurosurgical centers ("A. Gemelli" Hospital in Rome and A.O.U. Città della Salute e della Scienza in Turin) were retrospectively reviewed in order to evaluate the different outcome of TS and TPN approach for cavernous malformation treatment.A total of 177 patients underwent surgical intervention for supratentorial CM, 130 patients with TPN approach and 47 with TS approach. TS approach was associated with higher rate of seizure in early post-operative period both in epileptic patients (p 0,001) and in patients without history of seizures before surgery (p = 0,002). Moreover, length of incision (p 0,001), area of craniotomy (p 0,001) and corticectomy (p 0,001) were bigger in TS than in TPN approach. Brain contusion (p 0,001) and fluid collection (p 0,001) were more likely to be discovered after TS approach.TPN is a valuable approach for resection of CM. Minor complications are significantly lower in TPN approach when compared with TS approach. In addition, it is associated with lower rate of early post-operative seizure and shorter length of stay.

Published
2020

8. Use of Neuronavigation System for Superficial Vein Identification. Safe and Quick Method to Avoid Intraoperative Bleeding and Vein Closure. Technical Note

Author

Giuseppe Maria Della Pepa, Luca Ricciardi, Giuseppe La Rocca, Giorgia Antonia Simboli, Alessandro Izzo, Giovanni Sabatino, and Filippo Maria Polli

Subjects
Neuronavigation, durotomy, medicine.medical_treatment, Settore MED/27 - NEUROCHIRURGIA, Blood Loss, Surgical, Bridging veins, Durotomy, Educational, ICG-VA, Safe dural opening, Superficial veins, interventional, Magnetic Resonance Imaging, Interventional, educational, contrast media, meningioma, time factors, 0302 clinical medicine, glioma, middle aged, safe dural opening, magnetic resonance imaging, blood loss, humans, Craniotomy, medicine.diagnostic_test, Biopsy, Needle, craniotomy, meningeal neoplasms, aged, female, 030220 oncology & carcinogenesis, Metzenbaum scissors, Superficial vein, Neurosurgery, Radiology, medicine.medical_specialty, bridging veins, 03 medical and health sciences, icg-va, needle, surgical, male, medicine, biopsy, Parasagittal Meningioma, brain neoplasms, neuronavigation, business.industry, Magnetic resonance imaging, veins, superficial veins, biopsy, needle, gadolinium, magnetic resonance imaging, interventional, Angiography, Surgery, Neurology (clinical), business, 030217 neurology & neurosurgery
Abstract

Background Contributions on using navigation in neurosurgery have been shared widely. However, few authors have reported their experience identifying superficial vessels before dural opening using indocyanine green–video angiography. Furthermore, this technique has shown some limitations. Methods For many years, each time we planned a needle biopsy for brain tumors, we set the entry point and trajectory on the navigator before surgery. Regarding the target, we systematically chose both a trajectory, which should avoid any crossing with vessels, and an entry far from veins or granulations. Gadolinium-enhanced magnetic resonance imaging T1-weighted sequences have been demonstrated to be adequate for this purpose. Note that we used the Medtronic StealthStation S8 (Minneapolis, Minnesota, USA) and gadolinium-enhanced magnetic resonance imaging T1-weighted sequences to plan 4 different surgical procedures (needle biopsy, parasagittal meningioma, double metastases, and high-grade glioma). Intraoperatively, after craniotomy and dural exposure, a Passive Planar Blunt Probe and dermographic pen were used to mark superficial vessels on the basis of navigational images. The dura was opened far from any marked line, vessels were dissected, and the dura was opened by a Penfield dissector and Metzenbaum scissors. Results The mean planning time length was 7 minutes, and the marking procedure time length was 3 minutes. Dural marks perfectly corresponded to the underlying vessels. The correspondence rate of marks to underlying vessels was 100%. No one vessel unmarked was noticed. No superficial vessel injuries were reported. Conclusions This technique provides a safe and fast method to avoid vessel injuries during dural opening. Furthermore, it could be useful as an educational tool.

Published
2018

Catalog

Books, media, physical & digital resources
See catalog results