Your search keyword '"Simone Cassin"' showing total 11 results

1. Patients With SMILE Condition Show Augmented Annular Drive Through And Loose Collar

Author

Paolo Angelo Arrigoni, Valeria Vismara, Simone Cassin, Romeo Ribolzi, Carlo Zaolino, Francesco Luceri, and Pietro Simone Randelli

Subjects

Orthopedic surgery, RD701-811, Diseases of the musculoskeletal system, RC925-935

Published

2024

2. Plication Of Medial Collateral Ligament Of The Elbow: Clinical Results

Author

Paolo Angelo Arrigoni, Valeria Vismara, Simone Cassin, Valerio Monteleone, Francesco Luceri, Carlo Zaolino, and Pietro Simone Randelli

Subjects

Orthopedic surgery, RD701-811, Diseases of the musculoskeletal system, RC925-935

Published

2024

3. A 70° Arthroscope Provides Better Visualization of the Medial Side of the Elbow Than a 30° Arthroscope

Author

Valerio Monteleone, M.D., Valeria Vismara, M.D., Simone Cassin, M.D., Francesco Luceri, M.D., Carlo Zaolino, M.D., Chandan Kulkarni, M.D., Pietro Simone Randelli, M.D., and Paolo Arrigoni, M.D.

Subjects

Sports medicine, RC1200-1245

Abstract

Purpose: To assess and quantify the improvement in visualization of humeral insertion of the medial collateral ligament (MCL) using a 70° scope compared with a 30° scope during elbow arthroscopy. Methods: Twenty patients undergoing elbow arthroscopy for different pathologic conditions were enrolled in this single-center study. Visualization of the medial gutter of the elbow was evaluated by using both the 70° and the 30°scope. During the procedure, a needle was inserted at 45° with respect to the axis of the forearm, directed toward the intra-articular humeral emergence of the MCL. Four areas were established: the body (Z1), the lanceolate part (Z2), the tip of the needle (Z3), and the medial portion of the trochlea (Z4). The visible areas during arthroscopy using 2 different scopes were collected. Results: The 70° scope allowed the detection of the first 3 areas in all patients (Z1, Z2, and Z3) and the visualization of the last area (Z4) in 19 patients (95%). On the other hand, the 30° scope allowed the detection of Z1 in 85% of patients, Z2 in 60% of patients, and Z3 in only 5% of patients. The medial portion of the trochlea was never visualized with the 30° scope. These findings were statistically significant. Conclusions: The 70° scope improves visualization of the medial elbow compartment during elbow arthroscopy compared to the 30° scope, enhancing the extent of joint visualization and potentially permitting the detection of otherwise missed injuries in the difficult-to-reach areas of the joint. Level of Evidence: Level II, diagnostic, prospective, cohort study.

Published

2024

4. Grade IV liver injury following mechanical cardiopulmonary resuscitation with postoperative three-dimensional evaluation

Author

Paolo Aseni, Federico Vezzulli, Francesco Rizzetto, Simone Cassin, Sofia Rantas, Alberto Cereda, Osvaldo Chiara, Angelo Vanzulli, and Maurizio Vertemati

Subjects

case report, emergency setting, liver trauma, mechanical cardiopulmonary resuscitation, virtual reality, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

A 48-year-old female presented to the emergency department with chest pain and collapsed at the front desk. She was reanimated with mechanical chest compression, and after coronary angiography, a left anterior descending/diagonal bifurcation mini-crush stenting was performed. Few hours after the procedure, the patient showed severe hypotension. Abdominal ultrasound and computed tomography (CT) scan evidenced a massive subcapsular liver hematoma (Grade IV, American association for the surgery of trauma (AAST) liver injury scale) of the right lobe with extrahepatic blushing. Transhepatic embolization was attempted but without benefit, so the patient underwent emergency laparotomy for damage control surgery with perihepatic packing. After hemodynamic stabilization, right hepatectomy was performed with a favorable outcome and full recovery. The patient CT scan was retrospectively processed to obtain a virtual model visualizable through a head-mounted display. The virtual reconstruction could improve the comprehension of the injury and the liver surgical anatomy for educational purpose, and it could represent a new tool for preoperative planning.

Published

2020

5. Developing Virtual Reality Head Mounted Display (HMD) Set-Up for Thoracoscopic Surgery of Complex Congenital Lung MalFormations in Children

Author

Gloria Pelizzo, Sara Costanzo, Margherita Roveri, Giulia Lanfranchi, Maurizio Vertemati, Paolo Milani, Gianvincenzo Zuccotti, Simone Cassin, Sebastiano Panfili, Francesco Rizzetto, Alessandro Campari, Anna Camporesi, and Valeria Calcaterra

Subjects

virtual reality, pediatric surgery, congenital lung malformation, children, thoracoscopic surgery, Pediatrics, RJ1-570

Abstract

Video assisted thoracoscopic surgery (VATS) has been adopted in pediatric age for the treatment of congenital lung malformations (CLM). The success of VATS in pediatrics largely depends on the surgeon’s skill ability to understand the airways, vascular system and lung parenchyma anatomy in CLM. In the last years, virtual reality (VR) and 3-dimensional (3D) printing of organ models and VR head mounted display (HMD) technologies have been introduced for completion of preoperative planning in adult patients. To date no reports about the use of VR HMD technologies in a pediatric setting are available. The aim of this report is to introduce a VR HMD model in VATS procedure to improve the quality of care in children with CLM. VR HMD set-up for planning thoracoscopic surgery was performed in a series of pediatric patients with diagnosis of CLM. The preoperative VR HMD evaluation allowed a navigation into the malformation with the aim to explore, interact, and make the surgeon more confident and skilled to answer to the traps. A development of surgical simulations models and teaching program dedicated to education and training in pediatric VATS is suitable among the pediatric surgery community. Further studies should demonstrate all the benefits of such technology in pediatric patients submitted to VATS procedure.

Published

2022

6. New Trends in Surgical Education and Mentoring by Immersive Virtual Reality: An Innovative Tool for Patient’s Safety

Author

Francesco Rizzetto, Sofia Rantas, Federico Vezzulli, Simone Cassin, Paolo Aseni, and Maurizio Vertemati

Subjects

Medical education, Settore MED/18 - Chirurgia Generale, Immersive virtual reality, Settore MED/36 - Diagnostica per Immagini e Radioterapia, Preoperative planning, Settore BIO/16 - Anatomia Umana, Surgical training, Simulation

Published

2023

7. Developing Virtual Reality Head Mounted Display (HMD) Set-Up for Thoracoscopic Surgery of Complex Congenital Lung MalFormations in Children

Author

Gloria Pelizzo, Sara Costanzo, Margherita Roveri, Giulia Lanfranchi, Maurizio Vertemati, Paolo Milani, Gianvincenzo Zuccotti, Simone Cassin, Sebastiano Panfili, Francesco Rizzetto, Alessandro Campari, Anna Camporesi, and Valeria Calcaterra

Subjects

thoracoscopic surgery, children, Pediatrics, Perinatology and Child Health, pediatric surgery, virtual reality, Pediatrics, RJ1-570, Article, congenital lung malformation

Abstract

Video assisted thoracoscopic surgery (VATS) has been adopted in pediatric age for the treatment of congenital lung malformations (CLM). The success of VATS in pediatrics largely depends on the surgeon’s skill ability to understand the airways, vascular system and lung parenchyma anatomy in CLM. In the last years, virtual reality (VR) and 3-dimensional (3D) printing of organ models and VR head mounted display (HMD) technologies have been introduced for completion of preoperative planning in adult patients. To date no reports about the use of VR HMD technologies in a pediatric setting are available. The aim of this report is to introduce a VR HMD model in VATS procedure to improve the quality of care in children with CLM. VR HMD set-up for planning thoracoscopic surgery was performed in a series of pediatric patients with diagnosis of CLM. The preoperative VR HMD evaluation allowed a navigation into the malformation with the aim to explore, interact, and make the surgeon more confident and skilled to answer to the traps. A development of surgical simulations models and teaching program dedicated to education and training in pediatric VATS is suitable among the pediatric surgery community. Further studies should demonstrate all the benefits of such technology in pediatric patients submitted to VATS procedure.

Published

2021

8. Clinical relevance of the left brachiocephalic vein anatomy for vascular access in dialysis patients

Author

Maurizio Gallieni, Pietro Zerbi, Antonino Giordano, Simone Cassin, Francesco Rizzetto, Maurizio Cariati, and Maurizio Vertemati

Subjects

Male, Catheterization, Central Venous, Histology, Thoracic Vein, medicine.medical_treatment, 03 medical and health sciences, 0302 clinical medicine, Renal Dialysis, Medical imaging, Humans, Medicine, Renal replacement therapy, Vein, Aged, Brachiocephalic Veins, 0303 health sciences, business.industry, 030206 dentistry, General Medicine, Anatomy, medicine.disease, Stenosis, medicine.anatomical_structure, 030301 anatomy & morphology, cardiovascular system, Hemodialysis, business, Subclavian vein, Central venous catheter

Abstract

Introduction Most hemodialysis patients start renal replacement therapy with a central venous catheter (CVC). The left internal jugular vein (LIJV) is the second-choice vein for CVC positioning, after the right IJV. However, to reach the right atrium, the CVC must pass through the left brachiocephalic vein (LBV), which also drains blood from the left arm through the subclavian vein. The purpose of this study is to describe how the anatomy of the central venous system and in particular that of the LBV affects vascular access in hemodialysis patients. Materials and methods Three-dimensional (3D) virtual model reconstructions of the central thoracic veins of three hemodialysis patients were obtained from contrast-enhanced computed tomography scans acquired in the venous phase. The images were exported as DICOM files and loaded on open-source software for visualizing and analyzing the medical imaging (3D Slicer, Windows version 4.8.1). Results As expected, the 3D reconstructions showed that the LBV has a tortuous path with three main angulations that could be associated with external compression and stenosis. These could determine the difficulties and increased risks of venous injury during CVC placement, and an increased risk of medium to long-term catheter-associated vein thrombosis and stenosis. Conclusions The anatomical features of the LBV indicate that the path of a CVC from the LIJV to the right atrium is tortuous and can easily be complicated by vein injury, negatively affecting the creation of future arterio-venous vascular accesses in the left arm.

Published

2020

9. A Virtual Reality Environment to Visualize Three-Dimensional Patient-Specific Models by a Mobile Head-Mounted Display

Author

Gianluca Sampogna, Simone Cassin, Angelo Vanzulli, Francesco Rizzetto, Maurizio Gallieni, Maurizio Vertemati, and Marco Elli

Subjects

020205 medical informatics, business.industry, Virtual Reality, Optical head-mounted display, Equipment Design, 02 engineering and technology, Virtual reality, Patient specific, Magnetic Resonance Imaging, User-Computer Interface, 03 medical and health sciences, Imaging, Three-Dimensional, 0302 clinical medicine, Surgery, Computer-Assisted, Human–computer interaction, Surveys and Questionnaires, 030220 oncology & carcinogenesis, 0202 electrical engineering, electronic engineering, information engineering, Humans, Medicine, Surgery, Tomography, X-Ray Computed, business, Software

Abstract

Introduction. With the availability of low-cost head-mounted displays (HMDs), virtual reality environments (VREs) are increasingly being used in medicine for teaching and clinical purposes. Our aim was to develop an interactive, user-friendly VRE for tridimensional visualization of patient-specific organs, establishing a workflow to transfer 3-dimensional (3D) models from imaging datasets to our immersive VRE. Materials and Methods. This original VRE model was built using open-source software and a mobile HMD, Samsung Gear VR. For its validation, we enrolled 33 volunteers: morphologists (n = 11), trainee surgeons (n = 15), and expert surgeons (n = 7). They tried our VRE and then filled in an original 5-point Likert-type scale 6-item questionnaire, considering the following parameters: ease of use, anatomy comprehension compared with 2D radiological imaging, explanation of anatomical variations, explanation of surgical procedures, preoperative planning, and experience of gastrointestinal/neurological disorders. Results in the 3 groups were statistically compared using analysis of variance. Results. Using cross-sectional medical imaging, the developed VRE allowed to visualize a 3D patient-specific abdominal scene in 1 hour. Overall, the 6 items were evaluated positively by all groups; only anatomy comprehension was statistically significant different among the 3 groups. Conclusions. Our approach, based on open-source software and mobile hardware, proved to be a valid and well-appreciated system to visualize 3D patient-specific models, paving the way for a potential new tool for teaching and preoperative planning.

Published

2019

10. Grade IV liver injury following mechanical cardiopulmonary resuscitation with postoperative three-dimensional evaluation

Author

Sofia Rantas, Simone Cassin, Osvaldo Chiara, Alberto Cereda, Federico Vezzulli, Paolo Aseni, Maurizio Vertemati, Francesco Rizzetto, and Angelo Vanzulli

Subjects

medicine.medical_specialty, medicine.medical_treatment, 030204 cardiovascular system & hematology, Chest pain, 03 medical and health sciences, 0302 clinical medicine, Laparotomy, medicine, case report, Cardiopulmonary resuscitation, Embolization, Liver injury, emergency setting, business.industry, lcsh:Medical emergencies. Critical care. Intensive care. First aid, 030208 emergency & critical care medicine, Emergency department, lcsh:RC86-88.9, medicine.disease, mechanical cardiopulmonary resuscitation, Damage control surgery, liver trauma, Emergency Medicine, virtual reality, Radiology, medicine.symptom, Hepatectomy, business

Abstract

A 48-year-old female presented to the emergency department with chest pain and collapsed at the front desk. She was reanimated with mechanical chest compression, and after coronary angiography, a left anterior descending/diagonal bifurcation mini-crush stenting was performed. Few hours after the procedure, the patient showed severe hypotension. Abdominal ultrasound and computed tomography (CT) scan evidenced a massive subcapsular liver hematoma (Grade IV, American association for the surgery of trauma (AAST) liver injury scale) of the right lobe with extrahepatic blushing. Transhepatic embolization was attempted but without benefit, so the patient underwent emergency laparotomy for damage control surgery with perihepatic packing. After hemodynamic stabilization, right hepatectomy was performed with a favorable outcome and full recovery. The patient CT scan was retrospectively processed to obtain a virtual model visualizable through a head-mounted display. The virtual reconstruction could improve the comprehension of the injury and the liver surgical anatomy for educational purpose, and it could represent a new tool for preoperative planning.

Published

2020

11. Teaching anatomy in a modern medical course: an integrated approach at Vialba Medical School in Milan

Author

Francesca Cenzato, Federico Vezzulli, Francesco Rizzetto, Simone Cassin, Maurizio Vertemati, Gianluca Sampogna, and Marco Elli

Subjects

03 medical and health sciences, Medical education, 0302 clinical medicine, 020205 medical informatics, education, 0202 electrical engineering, electronic engineering, information engineering, Medical school, 030212 general & internal medicine, 02 engineering and technology, Integrated approach, Psychology, Course (navigation)

Abstract

This article was migrated. The article was not marked as recommended. IntroductionThe course of Anatomy in Vialba Medical School - University of Milan, integrates systemic, topographic and development anatomy, dissection laboratory, peer-teaching, flipped classroom, clinical correlation to radiology and surgery.MethodsAn anonymous questionnaire based on a five-point Likert scale was submitted to 162 students who had passed the exam of Anatomy. Students evaluated the importance given during study to morphology, relations and variations of organs, the usefulness of different tools in preparing the exam of anatomy. Finally, the impact of the new design course of Anatomy on students' progress was assessed.ResultsThe results showed that most of the students found very useful dissections, multimedia sources and 3D virtual models. 3D virtual models, dissections and physical models were indicated as the most important tools that should be available for learning Anatomy; instead, medical imaging received a low score. Students focused the study on morphology and relations between organs much more than anatomical variations. Lastly, students who followed the new design course of anatomy showed a significant better performance when compared to students of the previous academic years, in particular on the anatomy of neck, thoracic and abdominopelvic cavity, and neuroanatomy.ConclusionsOur study underlines the positive impact of the integration of traditional methods and innovative solutions in learning anatomy, but also the critical approach to radiologic imaging and anatomical variability.

Published

2018