FIH Clinical Investigation of Graphene Electrodes for Brain Mapping
NCT ID: NCT06368310
Last Updated: 2025-11-18
Study Results
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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RECRUITING
NA
8 participants
INTERVENTIONAL
2024-07-22
2026-03-21
Brief Summary
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* To understand the safety of the Graphene Cortical Interface when used during brain tumor surgery (primary objective);
* To assess the quality of the brain signals recorded with the Graphene Cortical Interface, their ability to stimulate the brain, how stable their function is over the duration of an operation, and their suitability for use in the operating theatre (secondary objectives).
Participants will undergo tumor surgery as usual with the study electrodes being tested alongside a standard monitoring system. If they are awake for part of their surgery they may be asked to complete specific tasks such as naming objects from a list modified for the study, to evaluate the capability to decode brain signals (exploratory objective). They will be monitored subsequently for any complications including undergoing an additional MRI scan 6 weeks after their surgery.
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Detailed Description
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There remain limitations with the design and physical characteristics of commercially available electrodes for use during brain operations. These include the limited ability of conventional materials to fold over the complex shape of the brain and the need to use comparatively large metallic contacts to detect the tiny electrical signals. This study will be the first to introduce a new generation of electrodes which have been designed to overcome these limitations. They are extremely thin and flexible allowing them to follow the surface of the brain and to be used in locations within and around the brain for which the standard electrodes are unsuitable. The contact surfaces that detect electrical activity and enable and stimulate the brain have been replaced with graphene which is a novel carbon-based material. The use of graphene allows electrodes to be made that are more sensitive to the tiny electrical signals of the brain. This means that they can be much smaller and closer together providing increased detail in the recording and potentially enabling signals to be detected that would previously have required such long recordings that they could not be used to guide decision making during surgery.
Conditions
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Study Design
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NA
SINGLE_GROUP
DEVICE_FEASIBILITY
NONE
Study Groups
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Intervention Arm
Patients with suspected gliomas (intrinsic primary brain tumors) in whom surgical resection under general anesthesia with neurophysiological monitoring or under awake conditions where language mapping is planned.
INBRAIN Graphene Cortical Interface
Study device to be evaluated intra-operatively alongside standard of care neurophysiological monitoring.
Interventions
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INBRAIN Graphene Cortical Interface
Study device to be evaluated intra-operatively alongside standard of care neurophysiological monitoring.
Eligibility Criteria
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Inclusion Criteria
* Planned for surgery under awake conditions or under general anesthesia with intra-operative electrocorticography (ECoG);
* English as first language for those subjects with tumors associated with language areas;
* Karnofsky performance score \> 70 and World Health Organization (WHO) performance status score ≤ 1;
* Willing and able to understand and provide informed consent for participating in the study.
Exclusion Criteria
* Previous cranial surgery or radiotherapy;
* Subjects expected to undergo craniotomy of less than 5 cm in maximum diameter (bone to bone)
* Known extracranial malignant neoplasm;
* Pregnant or lactating women;
* Renal impairment sufficient to limit Gadolinium administration (EGFR \<60 ml/min)
* For those subjects with tumors associated with language areas, any contraindication which could preclude them from performing the whole awake intra operative tasks at the discretion of the Investigator (e.g., language function not suitable for monitoring tasks)
18 Years
ALL
No
Sponsors
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Northern Care Alliance NHS Foundation Trust
OTHER
European Commission
OTHER
Inbrain Neuroelectronics
INDUSTRY
University of Manchester
OTHER
Responsible Party
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David Coope
Academic Consultant in Neurosurgery
Principal Investigators
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David J Coope, PhD FRCS
Role: PRINCIPAL_INVESTIGATOR
Northern Care Alliance NHS Foundation Trust
Locations
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Manchester Centre for Clinical Neurosciences, Northern Care Alliance NHS Foundation Trust
Salford, Greater Manchester, United Kingdom
Countries
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Central Contacts
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Facility Contacts
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References
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Viana D, Walston ST, Masvidal-Codina E, Illa X, Rodriguez-Meana B, Del Valle J, Hayward A, Dodd A, Loret T, Prats-Alfonso E, de la Oliva N, Palma M, Del Corro E, Del Pilar Bernicola M, Rodriguez-Lucas E, Gener T, de la Cruz JM, Torres-Miranda M, Duvan FT, Ria N, Sperling J, Marti-Sanchez S, Spadaro MC, Hebert C, Savage S, Arbiol J, Guimera-Brunet A, Puig MV, Yvert B, Navarro X, Kostarelos K, Garrido JA. Nanoporous graphene-based thin-film microelectrodes for in vivo high-resolution neural recording and stimulation. Nat Nanotechnol. 2024 Apr;19(4):514-523. doi: 10.1038/s41565-023-01570-5. Epub 2024 Jan 11.
Related Links
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European Union Graphene Flagship
Other Identifiers
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23/WM/0166
Identifier Type: OTHER
Identifier Source: secondary_id
R124807
Identifier Type: -
Identifier Source: org_study_id
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