Clinical Research Directory

Comparison of Skin Closure Techniques in Oncological Neurosurgical Procedures: Intradermal Running Suture Versus Transdermal Interrupted Sutures

The purpose of this study is to compare two commonly used methods of closing the skin after surgery for an intracranial tumor. Skin closure is one of the most important steps in neurosurgical procedures, as it has a major influence on how well the wound heals. In patients with brain tumors, proper wound healing is especially important because it may affect how soon additional treatments, such as radiotherapy or chemotherapy, can be started. There are different ways to close the skin after surgery, including running sutures and interrupted sutures. Both methods are widely used and considered safe. However, in oncological neurosurgery, there is limited scientific evidence comparing their effects, and the choice of technique is often based on the surgeon's personal experience. In this study, investigators will compare skin closure using running absorbable sutures with interrupted non-absorbable sutures. Investigators will evaluate how well, depending on used suturing methods, the wound heals and how often wound-related complications occur, such as infection, separation of the wound edges, or leakage of cerebrospinal fluid. Investigators believe that the results of this study will help improve wound care in patients undergoing neurosurgical treatment for brain tumors and, as a result, may contribute to better recovery and overall quality of life.

Analysis of Cerebrospinal Fluid Leakage After Surgery for Intracranial Tumors

Cerebrospinal fluid is a clear fluid that surrounds and protects the brain. During surgery for brain tumors, neurosurgeons often need to open the covering of the brain (the dura) to reach the tumor. At the end of the operation, this covering is carefully closed again. In some cases, the closure might not be completely adequate leading to cerebrospinal fluid leak. This leakage may collect under the scalp or flow out through the surgical wound. When this happens, the surgical wound may not heal properly, and the risk of infection can increase. These complications can delay recovery and may postpone additional treatments, such as radiotherapy or chemotherapy, that are often needed after brain tumor surgery. Although cerebrospinal fluid leakage is less common after supratentorial craniotomy (surgery on the upper part of the brain) than after other types of brain surgery, it remains a challenging complication and has not been well studied in this group of patients. The aim of this study is to determine how often cerebrospinal fluid leakage occurs after supratentorial craniotomy for intracranial tumors, identify factors that increase the risk of leakage, and evaluate how these leaks are managed. Understanding these factors may help reduce the occurrence of cerebrospinal fluid leakage and improve postoperative recovery in the future.

Gait Training Through a Novel Over-ground Wearable Robotic System in People with Pyramidal Hemisyndromes

Over-ground exoskeletons for gait rehabilitation are studied enough in people suffering spinal cord injury, and its clinical use is escalating in the industrialized countries. Nevertheless, studies on gait rehabilitation through exoskeletons in subjects with Pyramidal Hemisyndrome (PH) are recognized by GRADE as Low Quality of evidence. This interventional longitudinal pilot study is aimed to investigate the feasibility, clinical effects, and compliance (from the experienced therapists (Indego Specialists)' point of view) of using an over-ground wearable robotic system (Indego) for gait rehabilitation of people with PH in the clinical practice. Two substudies will be conducted with the following aims: to explore changes in the gait pattern and muscle activity following Indego-assisted gait rehabilitation through the kinematic gait analysis (in subjects able to walk) associated with surface electromyography (sEMG) of 4 muscle groups of the lower limbs; to identify prognostic factors for walking recovery, investigating also the effect of the treatment on functional connectivity through the electroencephalographic (EEG) analysis. In order to satisfy the study aims, 30 subjects with PH and walking impairment will be recruited and assessed both clinically and instrumentally (in case of substudies) at the beginning (T0) and the end (T1) of the treatment period.