Open versus endoscopic surgery with helmet molding therapy in non-syndromic patients with craniosynostosis: an updated systematic review and meta-analysis of clinical outcomes and treatment-related costs.

Objective: There is an ongoing debate regarding the optimal treatment for craniosynostosis as diverse factors influence the election between endoscopic and open surgery. Previous evidence favors endoscopic procedures. However, evidence remains unfulfilled by a limited number of patients and clustered in very few centers worldwide making it difficult to define it as a replicable technique in different populations.

The Extended-Sphenoid Ridge Approach: A New Technique for the Surgical Treatment of Skull Base Tumors in Pediatric Patients.

Unlabelled: The sphenoid ridge approach (SRA) was initially described as a surgical technique for treating vascular pathologies near the Sylvian fissure. However, limited studies have systematically explored the use of skull base techniques in pediatric patients. This study investigated an extended variation in the sphenoid ridge approach (E-SRA), which systematically removed the pterion, orbital walls (roof and lateral wall), greater sphenoid wing, and anterior clinoid process to access the base of the skull.

Localization of irritative zones in epilepsy with thermochromic silicone.

Background: During epilepsy surgery, the gold standard to identify irritative zones (IZ) is electrocorticography (ECoG); however, new techniques are being developed to detect IZ in epilepsy surgery and in neurosurgery in general, such as infrared thermography mapping (ITM), and the use of thermosensitive/thermochromic materials.

Methods: In a cohort study of consecutive patients with focal drug-resistant epilepsy of the temporal lobe treated with surgery, we evaluated possible adverse effects to the transient placement of a thermochromic/thermosensitive silicone (TTS) on the cerebral cortex and their postoperative evolution. Furthermore, we compared the precision of TTS for detecting cortical IZ against the gold standard ECoG and with ITM, as proof of concept.

[Uncertainty, dynamic systems, principles of quantum mechanics and their relationship to the health-disease process (analysis proposal).].

The purpose of this work is to discuss the importance and possible application of some foundations of quantum mechanics in the health-disease process, considering for this, that the laws and foundations of atomic theory are the same that govern displacement in space and time in human beings. Based on the impossibility of determining the displacement of subatomic particles in a given space and time, as a consequence of not having measuring instruments for said microscales, we propose feasible that the same happens with the uncertainty generated by the times and movements of human beings in really large spaces, reason why the analysis of the temporo-spatial location of a moving subject, in a certain time and space is impossible, fact that we consider, could represent the behavior in Pandemics. The foundations of quantum mechanics that have been considered for this purpose are dynamic systems, the Schrödinger cat paradox, the Heisenberg uncertainty principle, the law of gases, times and movements, and the Maxwell-Boltzmann entropy.

Thermography mapping patterns in temporal lobe epilepsy surgery.

Background: In several epilepsy etiologies, the macroscopic appearance of the epileptogenic tissue is identical to the normal, which makes it hard to balance between how much cytoreduction or disconnection and brain tissue preservation must be done. A strategy to tackle this situation is by evaluating brain metabolism during surgery using infrared thermography mapping (IrTM).

Methods: In 12 epilepsy surgery cases that involved the temporal lobe, we correlated the IrTM, electrocorticography, and neuropathology results.