Active clinical trials for "Neuroma, Acoustic"

This study is designed to examine the true impact inner-ear dysfunction has on patient head movement kinematics, activity levels, and participation, and (2) to explore the efficacy of rehabilitation on laboratory, clinical, and community-based outcomes in people following surgical removal of a schwannoma from the inner-ear nerve.

Vestibular schwannoma (VS) is a benign tumour from Schwann cells surrounding the vestibular nerve, which slowly grows within the internal auditory canal and then into the cerebellopontine angle, leading to a gradual vestibular dysfunction. The slowly progressive alteration of vestibular function allows the gradual implementation of central adaptive mechanisms called vestibular compensation. The total unilateral vestibular deafferentation induced by the surgical tumour removal suddenly leads to a decompensation of this previously compensated situation, which explains why most patients report severe vertigo immediately after surgery and which is responsible for perturbations of the postural control (Parietti-Winkler et al., 2006, 2008, 2010, 2011). Recently, Gauchard et al. (2013) suggested that preoperative and regular physical activity would limit the adverse effects of surgical removal on balance control. Also, patients benefited faster and better from the postoperative vestibular rehabilitation. Thus, preoperative vestibular rehabilitation, including physical and balance exercises, could help to limit postoperative balance disorders and promote postoperative balance compensation. This could lead to a decrease in the duration and cost of the postoperative management and faster improvement of quality of life.

The aim of this study is to assess the auditory nerve functionality with an intraoperative approach following a surgical removal of acoustic neuroma in patients with severe to profound sensorineural hearing disabilities.

It is a Prospective descriptive hospital based clinical study to determine the value of introduction of endoscope after microscopic excision of cerebello-pontine angle lesions to estimate the following : Intraoperative judgement of lesions excision, residual parts, visualization and operative corridor pre and after endoscope introduction. Post-operative tumor control confirmed comparison between pre and postoperative MRI. Postoperative complications, advantages and disadvantages compared with these when use pure microscopic excision from the literature

Middle ear surgery is performed in a deep workspace through a narrow approach to the tympanic cavity, either by the external auditory canal, or by drilling the temporal bone. It uses thin and long instruments as a delicate and precise gesture on the ossicular chain or manipulation of very light prostheses is necessary. The results of middle ear procedures relies upon the surgeon experience and his gesture accuracy. For this reason, a robot-based device designed to assist the surgeon during middle ear procedure has been build. The goal of the present protocol is to evaluate the robot in a simple procedure to ensure its safety before using the device in more complex cases. The precision of the robot during transtympanic tube placement will be evaluated. The following benefits are expected: Significantly reduced risk of transtympanic tube on the other side of the eardrum. Positioning of the transtympanic tube in the desired tympanic quadrant Reduces the size of the entry point to prevent tearing Reduced risk of injury to the external auditory canal Once the safety of use of the robot is demonstrated in this protocol, the goal will be to evaluate it later in more complex surgical gestures in other protocols. The future application of the robot will be the placement of middle ear implant prosthesis in the context of the surgery for cholesteatoma, otosclerosis or insertion of cochlear implants.

Otologic surgery often involves a mastoidectomy to safely access the inner ear. In this procedure, a portion of the mastoid part of the temporal bone is removed. The surgery is lengthy and challenging because many critical structures are embedded in the mastoid and are difficult to identify and accurately remove with a surgical drill. In previous work, the investigators developed a compact, bone-attached robot to automate mastoidectomy drilling for translabyrinthine acoustic neuroma removal (TANR). The robot does not attach directly to the bone. Instead, a rigid surgical fixture which the investigators call a prepositioning frame (PPF) is attached to the temporal bone, and the robot attaches to the PPF. Attaching the robot to the participant eliminates the need for an expensive image guidance system to compensate for participant motion, but requires a compact robot with a limited range of motion. The PPF supports the robot on the head such that a planned mastoidectomy volume is within the robot's range of motion. In this study, the investigators plan to test the PPF by attaching it to ten participants. By processing an intraoperative CT scan of the attached PPF, the investigators will measure the percentage of each planned mastoidectomy that would be reachable if the robot were attached. The investigators will also measure the time required to attach the PPF. The data the investigators acquire will enable further improvements to the PPF design, which would be advantageous before proceeding to robotic drilling experiments.

The aim of this non-randomised, prospective study is to investigate the applicability and prognostic value of angiogenesis PET/MR with the radioligand 68Ga-NODAGA- E[c(RGDyK)]2 in patients with sporadic Vestibuarl Schwannomas.

The investigators study is to investigate safety and efficacy of performing a planned incomplete removal of large acoustic neuroma tumors to decrease surgical morbidity and yet avoid tumor recurrence by post-operative radiation therapy.

Whole exome sequencing (WES) of 50 sporadic and 50 Neurofibromatosis Type2 (NF2)-associated vestibularis schwannomas (VS) in children and young adults. The aim is to gain insight into the complete genome of the NF2 associated VS compared to sporadic VS (control group). These data are to be correlated with the clinic, ie the auditory function (audiogram, acoustically evoked potentials) and the clinical picture as well as the tumor growth rate and general data such as sex, age, side, etc.

The purpose of this study is to see if there is benefit to using an IV contrast called AK-Fluor® and a microscope filter called YELLOW560 when surgically removing a vestibular schwannoma, Meningioma, Head and Neck Paraganglioma, or Head and Neck Schwannoma.