Awake Intraoperative Language Mapping and Chinese Probabilistic Map Construction

Not Applicable

• Conditions: Glioma
• Interventions: Procedure: Intraoperative direct cortical electrical stimulation; Procedure: Intraoperative direct subcortical electrical stimulation

• Registration Number: NCT03641391
• Lead Sponsor: Huashan Hospital

Brief Summary

The study aims at constructing a Chinese language probabilistic map by awake intraoperative direct electrical stimulation (DES) language mapping. At the same time, the standardization and optimization of awake intraoperative DES parameters will be explored, factors affecting postoperative function morbidity and survival will also be analyzed.

Detailed Description

The study aims at constructing a Chinese language probabilistic map by awake intraoperative direct electrical stimulation (DES) language mapping.

The "maximal safe resection" of brain tumor adjacent to language cortex requires precise real-time localization of the intraoperative language cortex.

Awake craniotomy combined with DES to localize language cortex has been carried out for several decades. However, there is yet no unified standard on the specification of its technical parameters. Besides, language probabilistic maps based on DES have been reported by several teams around the world. However these studies were based on the Indo-European language speakers alone. There was one paper published in 2015 by the investigators' group using DES for the Chinese probabilistic map, but it is also a single center study, and the sample size is relatively small.

Awake craniotomy and intraoperative DES for language cortex localization will be used to construct a Chinese probabilistic map in this study. Several common tasks for language mapping (i.e., number counting, picture naming, word reading) will be applied in Chinese speakers. The positive language sites including speech arrest, anomia, alexia, anarthria, dysarthria, semantic paraphasia and phonological paraphasia, spatial negativity and other higher order cognitive function will be identified in individual patients and normalized to the standard brain atlas. The corresponding probabilistic maps will be integrated and generated.

At the same time, the standardization and optimization of awake intraoperative DES parameters will be explored, factors affecting postoperative function morbidity and survival will also be analyzed.

Through this study, the investigators will further popularize individualized awake surgery of glioma in language cortex, improve the extent of tumor resection, protect postoperative language function and improve postoperative quality of life. By constructing this standardized Chinese probabilistic map, the investigators will provide more direct evidence for brain language research.

Study Timeline

• Status Verified: 2018-08
• Study First Submitted: 2018-08-14
• Study First Submitted QC: 2018-08-19
• Last Update Submitted: 2018-08-19
• Study First Posted: 2018-08-22
• Last Update Posted: 2018-08-22
• Study Start: 2018-09-01
• Primary Completion: 2023-12-01
• Study Completion: 2023-12-01

Recruitment & Eligibility

• Status: UNKNOWN
• Sex: All
• Target Recruitment: 300

Inclusion Criteria

1. Individuals aged 14-70 years with highly suspected (as assessed by study surgeon), newly diagnosed, untreated malignant glioma;
2. Individuals with gliomas with bodies involving in dominate side language area(see appendix 1);
3. Individuals with the preoperative assessment that radiological radically should be achieved;
4. Individuals who are cooperative and well tolerated with awake craniotomy;
5. Individuals presents with good communicate and explanation preoperatively;
6. All participants gave written informed consent.

Appendix 1. Tumor location in eloquent areas: located in or close to areas of the dominant-hemisphere that associated with motor or language functions, including:

1. Frontal lobe, which divided into inferior frontal gyrus (BA44-Pars opercularis, BA45-Pars triangularis/Broca's area), middle frontal gyrus (BA9, BA46), superior frontal gyrus (BA4, BA6, BA8), primary motor cortex (BA4), premotor cortex (BA6), and supplementary motor area (BA6);
2. Parietal lobe, which divided into inferior parietal lobule (BA40- supramarginal gyrus, BA39-angular gyrus), parietal operculum (BA43), and primary somatosensory cortex (BA1, BA2, BA3);
3. Temporal lobe, which divided into transverse temporal gyrus (BA41, BA42), superior temporal gyrus (BA38, BA22/Wernicke's area), middle temporal gyrus (BA21);
4. Insular lobe.

Exclusion Criteria

1. Individuals with age < 14 years or > 70 years;
2. Individuals presents with impaired cognitive function or unstable mental status;
3. Individuals has higher intracranial pressure, sleep apnea syndrome, difficult airway or morbid obesity, claustrophobia, uncontrolled coughing, uncontrolled seizures or inability to stay still etc.;
4. Recurrent gliomas after surgery (except needle biopsy);
5. Primary gliomas with history of radiotherapy or chemotherapy;
6. Renal insufficiency or hepatic insufficiency;
7. History of malignant tumors at any body site;
8. Tumors of the midline, basal ganglia, cerebellum, or brain stem;
9. Inability or unwilling to give informed consent.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
Direct electrical stimulation	Intraoperative direct subcortical electrical stimulation	Intraoperative direct cortical electrical stimulation or intraoperative direct subcortical electrical stimulation on language or language-associate areas, and the participants' after-discharge activity would be monitored. The participants would be undergone awake anesthesia and asked to perform language tasks during the stimulation.
Direct electrical stimulation	Intraoperative direct cortical electrical stimulation	Intraoperative direct cortical electrical stimulation or intraoperative direct subcortical electrical stimulation on language or language-associate areas, and the participants' after-discharge activity would be monitored. The participants would be undergone awake anesthesia and asked to perform language tasks during the stimulation.

Primary Outcome Measures

Name	Time	Method
Incidence rate of postoperative language deficits	The first month and the third month after surgery	Language deficits were considered when the participant presents with aphasia or severe dysphasia measured by standardized Aphasia Battery of Chinese (ABC, a Chinese version of Western Aphasia Battery) having the Aphasia Quotient (AQ) less than 50 (where lower values represent a worse outcome).

Secondary Outcome Measures

Name	Time	Method
Extent of resection	Within 72h after surgery	Extent of resection (EOR) based on early postoperative MRI obtained within 72h after surgery. Gross total resection (GTR) was defined as the complete disappearance of all enhancing lesions (T1WI) for HGG and the complete disappearance of all nonenhancing (T2WI FLAIR) lesions for LGG. The EOR were quantitatively volumetric analyses for all gliomas and gliomas grouped according to eloquent areas and non-eloquent areas, and stratified as: GTR, 100% resection; subtotal resection ≥ 90% resection, partial resection ≥ 70% resection, biopsy, resection ≥98% for overall survival advantage (HGG) and resection ≥90% for overall survival advantage (LGG).
Location of positive sites in cortical mapping	During surgery	Positive stimulation of the language area was assumed when the participant exhibited counting interruption, errors during object naming, language confusion or other language problems induced by DES.; Positive stimulation of the motion area was assumed when movements of the contralateral limb, face, lip or tongue were induced by DES, with the concurrent recording of an electromyogram.; Positive stimulation affecting the sensation area was assumed when an abnormal feeling was induced by DES in the contralateral limb, face, lip or tongue.; The locations of positive sites will be recorded by neuro-navigation system.
Incidence rate of intraoperative epilepsy induced by direct cortical stimulation	During surgery	A strip electrode would be placed tangentially over the central sulcus to monitor cortical seizure activity or after-discharge during intraoperative DCS. And the participant would be closely observed for involuntarily shaking or twitching. Any shaking, twitching or after-discharge during monitor would considered as epileptic event. All epileptic events will be recorded and DES will be terminated for the participant.

Trial Locations

Locations (3)

Zhongshan Hospital Affiliated to Fudan University; 🇨🇳 Shanghai, Shanghai, China

Huashan Hospital Affiliated to Fudan University; 🇨🇳 Shanghai, Shanghai, China

Huashan Hospital North, Fudan University; 🇨🇳 Shanghai, Shanghai, China