A brain wave analysis system for spinal correction, including two head-mounted instruments that are respectively worn on the heads of the examiner and the subject to detect brain waves; each of the head-mounted instruments includes a head-mounted instrument Ring, a brain wave detector, a brain wave chip, the brain wave measured by the brain wave detector obtains brain activity data according to a specific algorithm, and a brain wave instrument transceiver calculates the brain wave chip The brain wave data is transmitted outward; a processing unit, including a processing end transceiver, receives the signals transmitted from the brain wave instrument transceiver of the two head-mounted instruments, which includes the subject’s and the subject’s information on the human spine The brain waves emitted by a tested condyle in a tested position; a spine pain database is used to store the data of the misaligned condyles of the spine corresponding to various diseases of the human body; a brain wave comparison module is for a test period , Compare the brain wave data transmitted by the two head-mounted instruments to determine whether the brain wave waveforms of the two are synchronized.一種應用於脊椎矯正之腦波分析系統,包含兩頭戴式儀器分別用於配戴於施測者及受測者的頭部,以偵測腦波;各該頭戴式儀器包含一頭戴環、一腦波偵測器、一腦波晶片將該腦波偵測器所量測之腦波依據特定演算法求出腦力活動數據、及一腦波儀收發機將該腦波晶片所演算的腦波數據向外傳送;一處理單元,包含一處理端收發機接收來自該兩頭戴式儀器的腦波儀收發機所發射的訊號,係包含施測者及受測者對於人體脊椎的某一受測骨節在一受測方位下所發出的腦波;一脊椎病痛資料庫用於儲存人體各種病痛所對應的脊椎之錯位骨節的資料;一腦波比對模組對於一測試時段中,比對由該兩頭戴式儀器所傳送的腦波數據,以確定兩者的腦波波形是否同步。