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1. A digital instrument simulator to optimize the development of hyperspectral systems: application for intraoperative functional brain mapping

Author

Caredda, Charly, Lange, Frédéric, Giannoni, Luca, Ezhov, Ivan, Picart, Thiébaud, Guyotat, Jacques, Tachtsidis, Ilias, and Montcel, Bruno

Subjects
Physics - Medical Physics
Abstract

Intraoperative optical imaging is a localization technique for the functional areas of the human brain cortex during neurosurgical procedures. These areas can be assessed by monitoring cerebral hemodynamics and metabolism. A robust quantification of these biomarkers is complicated to perform during neurosurgery due to the critical context of the operating room. In actual devices, the inhomogeneities of the optical properties of exposed brain cortex are poorly taken into consideration, which introduce quantification errors of biomarkers of brain functionality. Moreover, the choice of the best spectral configuration is still based on an empirical approach. We propose a digital instrument simulator to optimize the development of hyperspectral systems. This simulator can provide a realistic modelling of the cerebral cortex and the identification of the optimal wavelengths to monitor cerebral hemodynamics (oxygenated and deoxygenated hemoglobin) and metabolism (oxidized state of cytochromes b, c and cytochrome-c-oxidase). The digital instrument allows the modelling of intensity maps collected by a camera sensor as well as images of pathlength to take into account the inhomogeneities of the optical properties. The optimization procedure helps to identify the best wavelength combination of 18 wavelengths that reduce the quantification errors in HbO2, Hb, oxCCO of 61%, 29% and 82% compared to the gold standard of 121 wavelengths between 780 and 900 nm. The optimization procedure does not help to resolve changes in cytochrome b and c in a significant way but help to better resolve oxCCO changes. We proposed a digital instrument simulator to optimize the development of hyperspectral systems for intraoperative brain mapping studies. This digital instrument simulator and this optimization framework could be used to optimize the design of hyperspectral imaging devices.

Published
2024

2. A transportable hyperspectral imaging setup based on fast, high-density spectral scanning for in situ quantitative biochemical mapping of fresh tissue biopsies

Author

Giannoni, Luca, Marradi, Marta, Scibilia, Kevin, Ezhov, Ivan, Bonaudo, Camilla, Artemiou, Angelos, Toaha, Anam, Lange, Frederic, Caredda, Charly, Montcel, Bruno, Della Puppa, Alessandro, Tachtsidis, Ilias, Ruckert, Daniel, and Pavone, Francesco Saverio

Subjects
Physics - Medical Physics, Physics - Biological Physics, Physics - Optics
Abstract

Histopathological examination of surgical biopsies, such as in glioma and glioblastoma resection, is hindered in current clinical practice by the long times required for the laboratory analysis and pathological screening, typically taking several days or even weeks to be completed. We propose here a transportable, high-density, spectral-scanning based hyperspectral imaging setup, named HyperProbe1, that can provide in situ, fast biochemical analysis and mapping of fresh surgical tissue samples, right after excision, and without the need of fixing or staining. HyperProbe1 is based on spectral scanning via supercontinuum laser illumination filtered with acousto-optic tuneable filters. Such methodology allows the user to select any number and type of wavelength bands in the visible and near-infrared range between 510 and 900 nm (up to 79), and to reconstruct 3D hypercubes composed of high-resolution, widefield images of the surgical samples, where each pixel is associated with a complete spectrum. The system is applied on 11 fresh surgical biopsies of glioma from routine patients, including different grades of tumour classification. Quantitative analysis of the composition of the tissue is performed via fast spectral unmixing to reconstruct mapping of major biomarkers. We also provided a preliminary attempt to infer tumour classification based on differences of composition in the samples, suggesting the possibility to use lipid content and differential cytochrome-c-oxidase concentrations to distinguish between lower and higher grade gliomas. A proof-of-concept of the performances of HyperProbe1 for quantitative, biochemical mapping of surgical biopsies is demonstrated, paving the way for improving current post-surgical, histopathological practice via non-destructive, in situ streamlined screening of fresh tissue samples in a matter of minutes after excision.

Published
2024

3. Learnable real-time inference of molecular composition from diffuse spectroscopy of brain tissue

Author

Ezhov, Ivan, Scibilia, Kevin, Giannoni, Luca, Kofler, Florian, Iliash, Ivan, Hsieh, Felix, Shit, Suprosanna, Caredda, Charly, Lange, Fred, Tachtsidis, Ilias, and Rueckert, Daniel

Subjects
Physics - Biological Physics, Electrical Engineering and Systems Science - Image and Video Processing, Quantitative Biology - Quantitative Methods
Abstract

Diffuse optical modalities such as broadband near-infrared spectroscopy (bNIRS) and hyperspectral imaging (HSI) represent a promising alternative for low-cost, non-invasive, and fast monitoring of functional and structural properties of living tissue. Particularly, the possibility of extracting the molecular composition of the tissue from the optical spectra in real-time deems the spectroscopy techniques as a unique diagnostic tool. However, no established method exists to streamline the inference of the biochemical composition from the optical spectrum for real-time applications such as surgical monitoring. In this paper, we analyse a machine learning technique for fast and accurate inference of changes in the molecular composition of brain tissue. We reconsider and propose modifications to the existing learnable methodology based on the Beer-Lambert law, which analytically connects the spectra with concentrations. We evaluate the method's applicability to linear and non-linear formulations of the Beer-Lambert law. The approach is tested on real data obtained from the bNIRS- and HSI-based optical monitoring of brain tissue. The results demonstrate that the proposed method enables real-time molecular composition inference while maintaining the accuracy of traditional linear and non-linear optimization solvers. Preliminary findings show that Beer-Lambert law-based spectral unmixing allows to contrast brain anatomy semantics such as the vessel tree and tumor area.

Published
2023

4. Identifying chromophore fingerprints of brain tumor tissue on hyperspectral imaging using principal component analysis

Author

Ezhov, Ivan, Giannoni, Luca, Shit, Suprosanna, Lange, Frederic, Kofler, Florian, Menze, Bjoern, Tachtsidis, Ilias, and Rueckert, Daniel

Subjects
Quantitative Biology - Quantitative Methods, Physics - Data Analysis, Statistics and Probability, Physics - Optics
Abstract

Hyperspectral imaging (HSI) is an optical technique that processes the electromagnetic spectrum at a multitude of monochromatic, adjacent frequency bands. The wide-bandwidth spectral signature of a target object's reflectance allows fingerprinting its physical, biochemical, and physiological properties. HSI has been applied for various applications, such as remote sensing and biological tissue analysis. Recently, HSI was also used to differentiate between healthy and pathological tissue under operative conditions in a surgery room on patients diagnosed with brain tumors. In this article, we perform a statistical analysis of the brain tumor patients' HSI scans from the HELICoiD dataset with the aim of identifying the correlation between reflectance spectra and absorption spectra of tissue chromophores. By using the principal component analysis (PCA), we determine the most relevant spectral features for intra- and inter-tissue class differentiation. Furthermore, we demonstrate that such spectral features are correlated with the spectra of cytochrome, i.e., the chromophore highly involved in (hyper) metabolic processes. Identifying such fingerprints of chromophores in reflectance spectra is a key step for automated molecular profiling and, eventually, expert-free biomarker discovery.

Published
2023

5. Hyperspectral imaging of the haemodynamic and metabolic states of the exposed cortex

Author

Giannoni, Luca

Abstract

A hyperspectral imaging (HSI) system to measure and quantify in vivo haemodynamic and metabolic signals from the exposed cerebral cortex of small animals was designed, developed and investigated in this thesis. Imaging brain tissue at multiple narrow wavelength bands in the visible and near-infrared (NIR) range allows one not only to monitor cerebral oxygenation and haemodynamics via mapping of haemoglobin concentration changes, but also to directly target the spatial quantification of cerebral metabolic activity via measurement of the redox states of mitochondrial cytochrome-c-oxidase (CCO). Having both these sets of information in vivo at high resolution on the exposed cortex can provide impactful insight on brain physiology and can help validate corresponding data acquired non-invasively using broadband near-infrared spectroscopy (bNIRS). Several designs and HSI configurations were assessed and compared, including different customised benchtop setups. In the end, a bespoke spectral-scanning HSI system called hNIR, using a supercontinuum laser coupled with a rotating Pellin-Broca prism and a scientific complementary metal-oxide semiconductor (sCMOS) camera, was built, characterised and validated on liquid optical phantoms. In addition, an in-house Monte Carlo (MC) framework for simulating HSI of the haemodynamic and metabolic states of the exposed cortex was also developed using an open-source MC code package (Mesh-based Monte Carlo) and integrated with hNIR, for aiding image reconstruction and enhance quantification, as well as to run computational investigations on the performances of HSI for brain haemodynamic and metabolic monitoring. hNIR was finally applied in vivo on the exposed cerebral cortex of three mice during different levels of hyperoxic and hypoxic stimulation, demonstrating its capability to retrieve high resolution and accurate maps of the relative changes in the concentrations of oxyhaemoglobin (HbO₂), deoxyhaemoglobin (HHb) and the oxidative state of CCO (oxCCO).

Published
2020

6. Transportable hyperspectral imaging setup based on fast, high-density spectral scanning for in situ quantitative biochemical mapping of fresh tissue biopsies.

Author

Giannoni, Luca, Marradi, Marta, Scibilia, Kevin, Ezhov, Ivan, Bonaudo, Camilla, Artemiou, Angelos, Toaha, Anam, Lange, Frédéric, Caredda, Charly, Montcel, Bruno, Puppa, Alessandro Della, Tachtsidis, Ilias, Rückert, Daniel, and Pavone, Francesco Saverio

Subjects
*TUMOR classification, *TUMOR grading, *DEOXYHEMOGLOBIN, *MEDICAL screening, *PATHOLOGICAL laboratories
Abstract

Significance: Histopathological examination of surgical biopsies, such as in glioma and glioblastoma resection, is hindered in current clinical practice by the long time required for the laboratory analysis and pathological screening, typically taking several days or even weeks to be completed. Aim: We propose here a transportable, high-density, spectral scanning-based hyperspectral imaging (HSI) setup, named HyperProbe1, that can provide in situ, fast biochemical analysis, and mapping of fresh surgical tissue samples, right after excision, and without the need for fixing, staining nor compromising the integrity of the tissue properties. Approach: HyperProbe1 is based on spectral scanning via supercontinuum laser illumination filtered with acousto-optic tunable filters. Such methodology allows the user to select any number and type of wavelength bands in the visible and nearinfrared range between 510 and 900 nm (up to a maximum of 79) and to reconstruct 3D hypercubes composed of high-resolution (4 to 5 µm), widefield images (0.9 × 0.9 mm²) of the surgical samples, where each pixel is associated with a complete spectrum. Results: The HyperProbe1 setup is here presented and characterized. The system is applied to 11 fresh surgical biopsies of glioma from routine patients, including different grades of tumor classification. Quantitative analysis of the composition of the tissue is performed via fast spectral unmixing to reconstruct the mapping of major biomarkers, such as oxy-(HbO2) and deoxyhemoglobin (HHb), as well as cytochrome-c-oxidase (CCO). We also provided a preliminary attempt to infer tumor classification based on differences in composition in the samples, suggesting the possibility of using lipid content and differential CCO concentrations to distinguish between lower and higher-grade gliomas. Conclusions: A proof of concept of the performances of HyperProbe1 for quantitative, biochemical mapping of surgical biopsies is demonstrated, paving the way for improving current post-surgical, histopathological practice via non-destructive, in situ streamlined screening of fresh tissue samples in a matter of minutes after excision. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Learnable real-time inference of molecular composition from diffuse spectroscopy of brain tissue.

Author

Ezhov, Ivan, Scibilia, Kevin, Giannoni, Luca, Kofler, Florian, Iliash, Ivan, Hsieh, Felix, Shit, Suprosanna, Caredda, Charly, Lange, Frédéric, Montcel, Bruno, Tachtsidis, Ilias, and Rueckerta, Daniel

Subjects
BEER-Lambert law, OPTICAL spectra, BRAIN anatomy, INTRAOPERATIVE monitoring, MACHINE learning
Abstract

Significance: Diffuse optical modalities such as broadband near-infrared spectroscopy (bNIRS) and hyperspectral imaging (HSI) represent a promising alternative for low-cost, non-invasive, and fast monitoring of living tissue. Particularly, the possibility of extracting the molecular composition of the tissue from the optical spectra deems the spectroscopy techniques as a unique diagnostic tool. Aim: No established method exists to streamline the inference of the biochemical composition from the optical spectrum for real-time applications such as surgical monitoring. We analyze a machine learning technique for inference of changes in the molecular composition of brain tissue. Approach: We propose modifications to the existing learnable methodology based on the Beer-Lambert law. We evaluate the method's applicability to linear and nonlinear formulations of this physical law. The approach is tested on data obtained from the bNIRS- and HSI-based monitoring of brain tissue. Results: The results demonstrate that the proposed method enables real-time molecular composition inference while maintaining the accuracy of traditional methods. Preliminary findings show that Beer-Lambert law-based spectral unmixing allows contrasting brain anatomy semantics such as the vessel tree and tumor area. Conclusion: We present a data-driven technique for inferring molecular composition change from diffuse spectroscopy of brain tissue, potentially enabling intraoperative monitoring. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Hyperspectral Imaging of the Hemodynamic and Metabolic States of the Exposed Cortex: Investigating a Commercial Snapshot Solution

Author

Giannoni, Luca, Lange, Frédéric, Davies, Andrew L., Dua, Alisha, Gustavson, Britta, Smith, Kenneth J., Tachtsidis, Ilias, COHEN, IRUN R., Editorial Board Member, LAJTHA, ABEL, Editorial Board Member, LAMBRIS, JOHN D., Editorial Board Member, PAOLETTI, RODOLFO, Editorial Board Member, REZAEI, NIMA, Editorial Board Member, Thews, Oliver, editor, LaManna, Joseph C., editor, and Harrison, David K., editor

Published
2018
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13. Superficial Peritoneal Endometriosis Vaporization Using a CO 2 Laser: A Long-Term Single-Center Experience.

Author

Di Michele, Stefano, Bramante, Silvia, Angioni, Stefano, Bernassola, Michela, De Vita, Tommaso, Iaccarino, Daniela Anna, Giannoni, Luca, and Rosati, Maurizio

Subjects
VAPORIZATION, CARBON dioxide, ENDOMETRIOSIS, LASERS, ANALGESIA, CARBON dioxide lasers
Abstract

Background: The validation of laser usage during laparoscopic procedures, notably by Camran Nezhat in the late 1980s, has been significant. Lasers offer precision and depth control in tissue vaporization without bleeding. Surgical intervention remains central in managing endometriosis-associated pain and infertility, especially for patients unresponsive to hormonal therapy. Methods: This retrospective cohort study included 200 patients with superficial peritoneal endometriosis (SPE) who underwent laparoscopic laser vaporization. Surgery was performed using a CO2 laser, and histological confirmation of endometriosis was obtained for all cases. Pain scores and SF-36 questionnaire domains were assessed preoperatively and postoperatively. Fertility outcomes were evaluated among patients desiring pregnancy. Results: Significant improvements in pain score and SF-36 questionnaire domains were observed postoperatively (p-value < 0.01), indicating enhanced quality of life. Among infertile patients with an active desire for pregnancy, surgical treatment showed an overall pregnancy rate after surgery of 93.7% (p-value < 0.01), including 75.7% natural pregnancies and 24.3% IVF. Laser vaporization enabled precise lesion removal with minimal tissue damage, short operative time, and minimal blood loss. Conclusions: Laparoscopic laser vaporization is an effective treatment for SPE, offering pain relief, improved quality of life, and favorable fertility outcomes. Further research is needed to validate these results in terms of pain control and fertility. [ABSTRACT FROM AUTHOR]

Published
2024
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18. HyperProbe consortium: innovate tumour neurosurgery with innovative photonic solutions

Author

Giannoni, Luca, primary, Marradi, Marta, additional, Marchetti, Marco, additional, Rossi Degl'Innocenti, Duccio, additional, Ezhov, Ivan, additional, Caredda, Charly, additional, Gautheron, Arthur, additional, Fort, Fernand, additional, Schneider, Fabien C., additional, Berhouma, Moncef, additional, Bonaudo, Camilla, additional, Picart, Thiébaud, additional, Lange, Frédéric, additional, Krischak, Katharina, additional, Gordebeke, Peter, additional, Alfieri, Domenico, additional, Rueckert, Daniel, additional, Montcel, Bruno, additional, Della Puppa, Alessandro, additional, Guyotat, Jacques, additional, Tachtsidis, Ilias, additional, and Pavone, Francesco S., additional

Published
2023
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21. HyperProbe consortium: innovate tumour neurosurgery with innovative photonic solutions

Author

Contini, Davide, Hoshi, Yoko, O'Sullivan, Thomas D., Giannoni, Luca, Marradi, Marta, Marchetti, Marco, Rossi Degl'Innocenti, Duccio, Ezhov, Ivan, Caredda, Charly, Gautheron, Arthur, Fort, Fernand, Schneider, Fabien, Berhouma, Moncef, Bonaudo, Camilla, Picart, Thiébaud, Lange, Frédéric, Krischak, Katharina, Gordebeke, Peter, Alfieri, Domenico, Rückert, Daniel, Montcel, Bruno, Della Puppa, Alessandro, Guyotat, Jacques, Tachtsidis, Ilias, and Pavone, Francesco S.

Published
2023
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23. Preliminary ex vivo and in vivo evaluation of laser bonding in dura mater

Author

Rossi, Francesca, primary, Magni, Giada, additional, Colasanti, Roberto, additional, Banchelli, Martina, additional, Iacoangeli, Maurizio, additional, Carrassi, Erika, additional, Aiudi, Denis, additional, Di Rienzo, Alessandro, additional, Marini, Alessandra, additional, Giannoni, Luca, additional, Pieri, Laura, additional, Orlando, Fiorenza, additional, Provinciali, Mauro, additional, Dallari, Stefano, additional, and Matteini, Paolo, additional

Published
2022
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24. Scanner-Assisted CO

Author

Giani, Iacopo, Cioppa, Tommaso, Linari, Chiara, Caminati, Filippo, Dreoni, Paolo, Rossi, Gianni, Tanda, Cinzia, Talamo, Giuseppina, Bettazzi, Federico, Aprile, Alessandra, Grassi, Silvia, Pede, Antonella, Giannoni, Luca, and Elbetti, Claudio

Subjects
faecal incontinence, functional healing, low pain intensity, scanner-assisted CO2 laser, fissurectomy, internal sphincterotomy, Surgery, chronic anal fissure, wound healing, Original Research
Abstract

Introduction: Surgery for chronic anal fissure is challenging for every proctologist. Solving the pain by guaranteeing rapid and effective healing is the objective, but what is the price to pay today in functional terms? Though this result is nowadays partially achievable through interventions that include the execution of an internal sphincterotomy among the procedures, it is necessary to underline the high rate of patients who can present faecal incontinence. The aim of this study is to explore the effectiveness of scanner-assisted CO2 laser fissurectomy. Methods: From April 2021 to September 2021, all consecutive patients who affected by chronic anal fissure suitable for surgery, meeting the inclusion and exclusion criteria, were evaluated. All planned data were recorded before surgery, then at 24 h, 1 week, and 1 month follow-up. A scanner-assisted CO2 laser was used in this study to achieve a smooth and dried wound with a minimal tissue thermal damage, to ensure good postsurgical pain control, rapid and functional, elastic and stable healing, and to prevent potential relapses. Paracetamol 1 g every 8 h was prescribed for the first 24 h and then continued according to each patient's need. Ketorolac 15 mg was prescribed as rescue. Results: Mean pain intensity ≤3, considered as the principal endpoint, was recorded in 26 out of the 29 patients who enrolled in the study with a final success rate of 89.7% at 1-month follow-up. Pain and anal itching showed a statistically significant reduction while bleeding, burning, and maximum pain, and REALIS score showed a reduction too at the end of the follow-up period. Reepithelisation proved to be extremely fast and effective: 22 of 29 (75.9%) showed a complete healing and 5 showed a partial reepithelisation at 1-month follow-up. Discussion: Outcomes of this study showed that it is undoubtedly necessary to change the surgical approach in case of anal fissure. The internal sphincterotomy procedure must be most of all questioned, where the availability of cutting-edge technological tools must be avoided and offered only in selected cases. Scanner-assisted CO2 laser showed great results in terms of pain control and wound healing, secondary to an extremely precise ablation, vaporisation, and debridement procedures with minimal lateral thermal damage.

Published
2021

27. Characterization and Ex Vivo Application of Indocyanine Green Chitosan Patches in Dura Mater Laser Bonding

Author

Rossi, Francesca, primary, Magni, Giada, additional, Colasanti, Roberto, additional, Banchelli, Martina, additional, Iacoangeli, Maurizio, additional, Carrassi, Erika, additional, Aiudi, Denis, additional, Di Rienzo, Alessandro, additional, Giannoni, Luca, additional, Pieri, Laura, additional, Dallari, Stefano, additional, Pini, Roberto, additional, and Matteini, Paolo, additional

Published
2021
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33. Preliminary ex vivo and in vivo evaluation of laser bonding in dura mater

Author

Colasanti, Roberto, primary, Iacoangeli, Maurizio, additional, Marini, Alessandra, additional, Aiudi, Denis, additional, Carrassi, Erika, additional, Di Rienzo, Alessandro, additional, Scerrati, Massimo, additional, Orlando, Fiorenza, additional, Provinciali, Mauro, additional, Giannoni, Luca, additional, Pieri, Laura, additional, Fagnani, Filippo, additional, Dallari, Stefano, additional, Magni, Giada, additional, Matteini, Paolo, additional, Ratto, Fulvio, additional, Pini, Roberto, additional, and Rossi, Francesca, additional

Published
2020
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36. Preliminary ex vivo and in vivo evaluation of laser bonding in dura mater

Author

Madsen, Steen J., Yang, Victor X. D., Thakor, Nitish V., Colasanti, Roberto, Iacoangeli, Maurizio, Marini, Alessandra, Aiudi, Denis, Carrassi, Erika, Di Rienzo, Alessandro, Scerrati, Massimo, Orlando, Fiorenza, Provinciali, Mauro, Giannoni, Luca, Pieri, Laura, Fagnani, Filippo, Dallari, Stefano, Magni, Giada, Matteini, Paolo, Ratto, Fulvio, Pini, Roberto, and Rossi, Francesca

Published
2020
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38. HyperProbe consortium: innovate tumour neurosurgery with innovative photonic solutions.

Author

Giannoni, Luca, Marradi, Marta, Marchetti, Marco, Rossi Degl'Innocenti, Duccio, Ezhov, Ivan, Caredda, Charly, Gautheron, Arthur, Fort, Fernand, Schneider, Fabien, Berhouma, Moncef, Bonaudo, Camilla, Picart, Thiébaud, Lange, Frédéric, Krischak, Katharina, Gordebeke, Peter, Alfieri, Domenico, Rückert, Daniel, Montcel, Bruno, Della Puppa, Alessandro, and Guyotat, Jacques

Published
2023
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45. The identification of critical habitats and the analysis of the management procedures for the future Lošinj-Cres marine protected area

Author

Mackelworth, Peter, Fortuna, Caterina Maria, Holcer, Draško, Weimann, Annika, Giannoni, Luca, and Lazar, Bojan

Subjects
critical factors, distribution, bottlenose dolphins, Tursiops truncatus, Lošinj, Adriatic, marine protected area
Abstract

The study presents analysis of the crithical facturs that affects the distribution and presence of bottlenose dolphins in the area of Lošinj archipelago. The study presents all available knowledge on natural, cultural and socio-economic resources of the area and identifies the areas of uncertainty in creation of the future protected area

Published
2003

48. Scanning Super/Ultrapulsed CO 2 Laser Efficacy in Laryngeal Malignant Lesions.

Author

Dallari, Stefano, Giannoni, Luca, and Filosa, Alessandra

Subjects
CARBON dioxide lasers, MICROSURGERY, LARYNGEAL cancer treatment, TREATMENT effectiveness, OPERATING microscopes
Abstract

Introduction: The authors review their experience in transoral laryngeal microsurgery (TLM) that they performed with two different CO2 laser devices from the same company, which were both equipped with a micromanipulator and digital scanner. Material and Methods: A total of 91 glottic and glotto-supraglottic cancers were treated during the years 2009–2016 and then analyzed in relation to the laser performances and the long-term oncologic results. Results: Laser devices proved to be very efficient and the UP mode was confirmed to be the best in terms of cutting precision and lowest thermal damage. Conclusions: CO2 laser TLM is the preferred option for the majority of small–medium size glottic and supraglottic cancers and may also be used for bigger tumors, especially in older patients. [ABSTRACT FROM AUTHOR]

Published
2022
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50. Preliminary ex vivo and in vivo evaluation of laser bonding in dura mater.

Author

Madsen, Steen J., Yang, Victor X. D., Thakor, Nitish V., Colasanti, Roberto, Iacoangeli, Maurizio, Marini, Alessandra, Aiudi, Denis, Carrassi, Erika, Di Rienzo, Alessandro, Scerrati, Massimo, Orlando, Fiorenza, Provinciali, Mauro, Giannoni, Luca, Pieri, Laura, Fagnani, Filippo, Dallari, Stefano, Magni, Giada, Matteini, Paolo, Ratto, Fulvio, and Pini, Roberto

Published
2019
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