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RecruitingNot ApplicableNCT05921786

Record Voxel Rate Nonlinear Optical Microscope to Unravel Brain Connectome and Signaling-Establish Reliably Electrophysiological Readouts From Human-induced Pluripotent Stem Cells (hiPSCs)-Derived Cerebral Organoids and Surgically Dissected Human Live Brains

Sponsor

National Taiwan University Hospital

Enrollment

500 participants

Start Date

May 1, 2023

Study Type

INTERVENTIONAL

Conditions

Brain DiseasesBrain Tumor

Summary

The research aims to establish a big database of multiple kinds of brain tissues and prove the relevance of human brain tissue models and hiPSCs-derived organoid models.

Eligibility

Min Age: 18 Years

Inclusion Criteria1

  • \. Patients older than the age of 18 with diagnosis of brain disease (both newly-diagnosed or recurrent) who are suitable and willing to receive resection surgery.

Exclusion Criteria4

  • Patients who cannot give consent to participate in the study.
  • The tumor samples failed to give a conclusive pathological diagnosis by standard pathological workflow.
  • Patients who only receives biopsy surgery rather than resection surgery.
  • Significant post-irradiation effect or radiation necrosis reported in the pathological examination.

Interventions

DEVICEElectrophysiological system

Electrophysiological system is used for examining voltage variation in biological samples. And multiphoton microscopy is a common type of nonlinear optical microscope.

DEVICEMultiphoton microscope

Multiphoton microscope acquires high-resolution image based on nonlinear optics and can be used for detect biological specimens.

Locations(1)

Department of Surgery, National Taiwan University Hospital and College of Medicine, National Taiwan University

Taipei, Taiwan

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NCT05921786

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