I. Purpose The usability through exposure dose reduction using the reconstruction image technique in the Brain Perfusion CT scan and image analysis tries to be examined. II. Meterial and Methods The equipment is for and using this research used 64-MDCT (LightSpeedVCTXte, GE Healthcare, Milwaukee, USA) and the image acquisition was 40 mm Detector Coverage and helical thickness of 0.625 mm with the image parameter used during the Brain Perfusion CT scan and it set as 0.5 sec and the helical shuttle mode and rotation time did the scan type about the phantom experiment and animal experiment. The obtained raw data reconstructed in the device itself and used ASIR (the Adaptive Statistical Iterative Reconstruction or less ASIR) technique as the reconfiguration method. A dose and noise measuring used the Advantage Workstation (Version 4.4, GE, USA) and verified the statistical significance with the paired T-test of the SPSS (12.0.1). After diversifying VRMS a fixing and ASIR level into 80 kVp 10% into 0~100% and scanning and 3 times measuring the standard deviation (SD) of the CT count, the noise measuring analyzed an average in a phantom and animal experiment. In the same under condition as the noise examination, a dosimetry method of a phantom and animal experiment analyzed an average after 10 time measurement and after inserting the pencil CT exclusive ionization chamber in the case of the animal experiment in the pineal region of the pig head, it measured the absorbed dose. III. Result There was the difference in which the noise treasured value of a phantom and animal experiment was measured by 0% 28.20HU, 34.76HU, 10% 27.18HU, 35.15 HU, 20% 25.86 HU, 34.97 HU, 30% 25.41 HU, 35.91 HU, 40% 24.15 HU, 33.77HU, 50% 22.10HU, 31.84HU, 60% 20.32HU, 34.32 HU, 70% 18.23HU, 33.90HU, 80% 16.65HU, 34.295HU, 90% 14.86HU, 36.65HU, 100%, 14.38HU, 37.41HU and which the statistical analyzed result notes statistically with the p = 0.002 (p < 0.05), p = 0.001 (p < 0.05). There was the difference which was measured by 0% 11mGy, 4mGy, 10% 9.1mGy, 3.2mGy, 20% 8.4mGy, 3mGy, 30% 7.8mGy, 2.7mGy, 40% 6.5mGy, 2.3mGy, 50% 6.1 mGy, 2mGy, 60% 5.4mGy, 1.8mGy, 70% 4.7mGy, 1.6mGy, 80% 4mGy, 1.3mGy, 90% 3.5mGy, 1.2mGy, 100% 3 mGy, 1 mGy and which the statistical analyzed result the dose measured value of a phantom and animal experiment notes statistically with a p = 0.001 (p < 0.05) and p = 0.001 (p < 0.05). IV. Conclusions In a clinical, the exposure dose uses the Filtered backprojection reconstruction technique like the Brain Perfusion CT for many inspections, and instead by applying the iterative reconstruction technique, an inspection is enforced. If it is the case, it is considered to expect the diminished effect of the exposure dose without the big change of the display-image quality.