Giuseppe Dagnini (1866-1928): Discoverer of the Trigemino-Cardiac Reflex and Practical Implications in Neurosurgery and Other Medical Specialties.

The authors present the life and art of Giuseppe Dagnini, a renowned Italian physician who was born in Bologna in 1866. He was the chief of the Maggiore Hospital in Bologna and authored valuable scientific works on the trigemino-cardiac reflex which is still applied in modern clinical practice. Dr. Dagnini firstly described the reflex in 1908 postulating that stimulation of one of the 3 branches of the trigeminal nerve triggers the afferent pathway in lowering heart rate. The authors also provide a modern outlook on the clinical implications of the TCR in neurosurgery, neuroanesthesia, and other medical specialties.

Recurrent or junctional lumbar foraminal herniated disc in patients operated with trans pars microscopic approach.

This is a retrospective monocentric study. The aim of this study is to analyze the incidence of recurrent or junctional lumbar foraminal herniated disc, in patients treated with trans pars microsurgical approach. Foraminal lumbar disc herniation represents a challenging pathology for the spinal surgeon. The appropriate surgical approach still represents a matter of debate. Several open and minimally-invasive techniques have been developed, in order to allow a proper tissue exposure and preserving the vertebral stability. The trans pars approach has already been described as a possible alternative, allowing excellent exposure of the herniated fragment with minimum bone removal. While few studies have analyzed the very low rate of post-operative instability, no articles deal with the incidence of post-operative herniated disc recurrence or junctional disc herniation in patients treated with this technique. We enrolled 160 patients operated at our institution. A univariate and multivariate analysis of possible factors influencing outcome (age, sex, level and BMI) was performed. Outcome variables were recurrent or junctional herniated disc. At the end, 135 patients were analyzed. Of the 135 patients, six presented recurrent herniated disc (4.4%) and other three developed a junctional herniation (2.2%). The occurrence of junctional herniated disc or recurrent herniated disc was not influenced by the analyzed variables, both at univariate and at multivariate analyses. The trans pars approach presents a low rate of recurrence and junctional herniation. Age, sex, level, and BMI do not influence the recurrence rate, both at same level and at junctional level.

Patient specific Polymethyl methacrylate customised cranioplasty using 3D printed silicone moulds: Technical note.

INTRODUCTION: Cranioplasty after decompressive craniectomy can be performed with several techniques and materials. With the common use of 3D printing, custom cranioplasty can be produced at affordable cost. Aim of this technical note is to describe our technique for producing patient specific Polymethyl methacrylate (PMMA) cranioplasty using 3D printed silicone moulds. MATERIALS AND METHODS: We enrolled seven patients from January 2020 to June 2021 who required surgery for cranioplasty. The 3D printing was used to produce silicone moulds for defining the exact shape of the PMMA cranioplasty, according to the CT scan of the patient. RESULTS: We performed seven procedures. The mean time of the surgery was 80 min. All cranioplasties perfectly matched the patient specific anatomy. No complications occurred. CONCLUSIONS: Using 3D printed patient specific silicone moulds and PMMA resulted to be effective, with affordable costs and ensuring a good cosmetic result.

New neuroanatomy learning paradigms for the next generation of trainees: A novel literature-based 3D methodology.

BACKGROUND: An appreciation for complex three-dimensional relationships in neuroanatomy forms a fundamental tenet of neurosurgical education. The value of experience in the cadaver lab is indisputable; however, it is expensive and often inaccessible. The wide availability of 3D technologies has opened new possibilities, although scientific inaccuracy has hitherto limited their use. OBJECTIVE: In the present study, we aim to describe a novel, literature-based process of scientific 3D modeling for the creation of neuroanatomical models adapted for mobile technology. METHODS: A systematic literature review regarding current resources in neuroanatomy education was performed according to PRISMA guidelines. The composition of the team and the workflow behind the 3D Head Atlas app are also described. RESULTS: A total of 101 manuscripts were reviewed, and 24 included. Cadaveric dissections improve the learning process, although high costs limit their availability. Digital advancements have partially overcome the limitations of dissection, and have been associated with improved knowledge retention. Nevertheless, 3D models are often inaccurate, poorly adapted to mobile hardware, and expensive. Recent technological advances provide a new way to widely disseminate complex 3D models, with a revolutionary impact on learning. The approach behind the 3D Head Atlas app, based on the synergistic work of scientific and development teams, facilitates the creation of interactive 3D scientific material with high accuracy and wide accessibility. CONCLUSION: The study of neuroanatomy is intimately related to the evolution of digital technology. Traditional methods (i.e. cadaveric dissections) have undisputed value but high costs. High-fidelity 3D scenarios and mobile devices may revolutionize learning if based on a sound evidence-based approach.