Microtable® Method for Cochlear Implantation Investigational Device Exemption (IDE)

NCT ID: NCT03101917

Last Updated: 2025-03-05

Basic Information

• Recruitment Status: NOT_YET_RECRUITING
• Clinical Phase: NA
• Total Enrollment: 12 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2026-07-01
• Study Completion Date: 2028-07-31

Brief Summary

The Microtable® Microstereotactic Frame and Drill Press and Associated Method for Cochlear Implantation consists of a patient-customized microstereotactic frame which targets the cochlea. The intended use of the device in this early feasibility study is to surgically access the cochlea, allowing placement of an intra-cochlear electrode array for cochlear implantation, thereby providing a less invasive surgical option than currently performed. Compared to traditional cochlear implantation (CI) surgery, the investigators hypothesize that the minimally invasive, image-guided approach may offer the following benefits: (1) shorter procedure time including shorter general anesthesia time, (2) less tissue removal potentially eliminating post-operative mastoid bone depression, decreased post-operative patient discomfort, and quicker wound healing, (3) better chance of preservation of taste secondary to preservation of the chorda tympani nerve, and (4) standardization of electrode placement potentially allowing more consistent placement within the scala tympani sub-compartment of the cochlea which has been shown to be associated with improved post-operative audiological performance. This early feasibility study will focus on the advantages of the new technology to the patient. Advantages to the healthcare delivery system will be examined during the pivotal study phase.

Detailed Description

The Microtable® Microstereotactic Frame and Drill Press and Associated Method for Cochlear Implantation consists of a patient-customized microstereotactic frame which targets the cochlea. The intended use of the device in this early feasibility study is to surgically access the cochlea, allowing placement of an intra-cochlear electrode array for cochlear implantation, thereby providing a less invasive surgical option than currently performed. Compared to traditional cochlear implantation (CI) surgery, the investigators hypothesize that the minimally invasive, image-guided approach may offer the following benefits: (1) shorter procedure time including shorter general anesthesia time, (2) less tissue removal potentially eliminating post-operative mastoid bone depression, decreased post-operative patient discomfort, and quicker wound healing, (3) better chance of preservation of taste secondary to preservation of the chorda tympani nerve, and (4) standardization of electrode placement potentially allowing more consistent placement within the scala tympani sub-compartment of the cochlea which has been shown to be associated with improved post-operative audiological performance. This early feasibility study will focus on the advantages of the new technology to the patient. Advantages to the healthcare delivery system will be examined during the pivotal study phase.

The investigators propose this early feasibility study to determine if minimally invasive image-guided drilling to surgically access the cochlea for CI can be successfully performed. The study will involve only unilateral CI. The decision of unilateral vs. bilateral implantation is made clinically and before the patient may elect to enroll in this study. Bilateral implantation can take place either simultaneously or sequentially, with the decision made by the clinician as part of standard care.

If a participant is scheduled for routine bilateral CI, the traditional approach will be used on one side and the investigational approach on the other. Traditional surgery will be performed on the better-hearing ear, and the investigational technique will be performed on the poorer hearing ear. To minimize patient variability, the investigators will only be studying lateral wall electrodes, the Cochlear slim straight electrode and MED-EL electrodes. The investigators plan to enroll 12 cochlear implant patients in two groups. Group 1 will consist of patients implanted under direct visualization afforded by lifting a tympanomeatal flap, and Group 2 will consist of patients implanted with visualization afforded by passing an endoscope across the eardrum via a myringotomy.

Conditions

Hearing Loss, Cochlear

Study Design

• Allocation Method: NON_RANDOMIZED
• Intervention Model: SINGLE_GROUP
• Primary Study Purpose: TREATMENT
• Blinding Strategy: NONE

Study Groups

Visual assessment of electrode insertion

This arm will include the first 6 participants. In this group, a cut will be made near the eardrum and it will be lifted up so the surgeon can see the electrode as it goes into the cochlea.

Group Type: EXPERIMENTAL

The Microtable® Stereotactic System

Intervention Type: DEVICE

x

Camera assessment of electrode insertion

This arm will include the next 6 participants. In this group, a tube with a camera will be inserted past the ear drum, by making a small hole in the ear drum, to see the electrode as it goes into the cochlea.

Group Type: EXPERIMENTAL

The Microtable® Stereotactic System

Intervention Type: DEVICE

x

Interventions

The Microtable® Stereotactic System

x

Intervention Type: DEVICE

Eligibility Criteria

Inclusion Criteria

• Male or female 22 to 80 years of age.
• Able to complete study related procedures.
• Able to provide written informed consent.
• Eligible for cochlear implant surgery as per routine pre-operative CI evaluation/workup. If patient is a candidate for bilateral CI, the research technique will be performed unilaterally on the side with the most favorable anatomy and/or worst residual hearing.
• Pre-operative CT scan of head/temporal bone as part of routine care showing normal temporal bone and intra-cochlear anatomy.
• Scheduled to receive either a Cochlear CI522 with the slim straight electrode or a MED-EL Synchrony with standard, Flex 24, or Flex 28 electrode.

Exclusion Criteria

• Females who are pregnant. As part of routine pre-operative care, all females of childbearing potential will undergo either urine or blood pregnancy testing.
• ASA (American Society of Anesthesiologists) Physical Status classification of 4 or above or determined by surgeon to be too great of a health risk.
• Previous mastoidectomy on the ear undergoing research procedures.
• Severe anatomical abnormality of the temporal bone including but not limited to: 1) Mondini malformation 2) common cavity malformation 3) enlarged vestibular aqueducts (EVA) and/or 4) cochlea ossification.
• Severe chronic ear disease.
• Active middle ear infection.
• Subjects without a favorable trajectory based on pre-operative imaging, analysis and planning with favorable trajectory defined as a linear track extending from the surface of the mastoid cortex, through the facial recess, and targeting the basal turn of the cochlea without violation of the external auditory canal, sigmoid sinus, tegmen, and/or facial nerve.

• Minimum Eligible Age: 22 Years
• Maximum Eligible Age: 80 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: No

Sponsors

Medical University of South Carolina

OTHER

Sponsor Role: lead

Responsible Party

Robert Labadie

Professor and Chair, Dept of O-HNS

Responsibility Role: PRINCIPAL_INVESTIGATOR

Principal Investigators

Robert F. Labadie, MD, PhD

Role: PRINCIPAL_INVESTIGATOR

Medical University of South Carolina

Locations

Medical University of South Carolina

Charleston, South Carolina, United States

Countries

United States

Central Contacts

Robert F. Labadie, MD, PhD

Role: CONTACT

labadie@musc.edu

843-792-7161

Facility Contacts

Robert F. Labadie, MD, PhD

Role: primary

labadie@musc.edu

843-792-7161

Other Identifiers

161659

Identifier Type: -

Identifier Source: org_study_id