Lactoferrin Suppresses Decreased Locomotor Activities by Improving Dopamine and Serotonin Release in the Amygdala of Ovariectomized Rats.

BACKGROUND: Decreases in female hormones not only affect bone metabolism and decrease bone mass, but also affect the central nervous system, causing brain disorders such as depression and dementia. Administration of estradiol by hormone replacement therapy can improve dementia, while reduced estradiol in ovariectomized (OVX) model rats can reduce both bone density and locomotor activity. The antidepressant fluvoxamine, which is widely used in clinical practice, can improve this effect on locomotor reduction. Similarly, lactoferrin (LF) can reportedly improve inhibitory locomotion due to stress. OBJECTIVE: In this study, we examined the effect of LF on neurite outgrowth in vitro and in vivo using PC12 cells and rats, respectively. METHODS: We performed an in vivo study in which 8-week-old female OVX rats were administered LF five days a week for 6 weeks from the day after surgery. After administration was completed, spontaneous locomotor activity in the dark period, immobility time in a forced swim test, and release amount of dopamine and serotonin in the brain were measured. RESULTS: LF was found to have a neurite outgrowth function in PC12 cells. Moreover, LF was found to improve OVX-induced decreases in locomotor activity and increases in immobility time in the forced swim test. Furthermore, the administration of LF elicited significant recovery of decreased dopamine and serotonin release in the brains of OVX group rats. CONCLUSION: These results strongly suggest that LF improved OVX-induced decreases in momentum during the dark period and, moreover, that release of dopamine and serotonin in the brain was involved in this effect.

Evaluation of the Reconstruction Parameters of Brain Dopamine Transporter SPECT images Obtained by a Fan Beam Collimator: A Comparison with Parallel-hole Collimators.

OBJECTIVES: The purpose of this study was to examine the optimal reconstruction parameters for brain dopamine transporter SPECT images obtained with a fan beam collimator and compare the results with those obtained by using parallel-hole collimators. METHODS: Data acquisition was performed using two SPECT/CT devices, namely a Symbia T6 and an Infinia Hawkeye 4 (device A and B) equipped with fan-beam (camera A-1 and B-1), low- and medium-energy general-purpose (camera A-2 and B-2), and low-energy high-resolution (camera A-3 and B-3) collimators. The SPECT images were reconstructed using filtered back projection (FBP) with Chang's attenuation correction. However, the scatter correction was not performed. A pool phantom and a three-dimensional (3D) brain phantom were filled with 123I solution to examine the reconstruction parameters. The optimal attenuation coefficient was based on the visual assessment of the profile curve, coefficient of variation (CV) [%], and summed difference from the reference activity of the pool phantom. The optimal Butterworth filter for the 3D-brain phantom was also determined based on a visual assessment. The anthropomorphic striatal phantom was filled with 123I solution at striatum-to-background radioactivity ratios of 8, 6, 4, and 3. The specific binding ratio (SBR) of the striatum (calculated by the CT method) was used to compare the results with those of the parallel-hole collimators. RESULTS: The optimal attenuation coefficients were 0.09, 0.11, 0.05, 0.05, 0.11, and, 0.10 cm-1 for cameras A-1, A-2, A-3, B-1, B-2, and B-3, respectively. The cutoff frequencies of the Butterworth filter were 0.32, 0.40, and 0.36 cycles/cm for camera A, and 0.46, 0.44, and 0.44 cycles/cm for camera B, respectively. The recovery rates of the SBRmean with camera A were 51.2%, 49.4%, and 45.6%, respectively. The difference was not statistically significant. The recovery rates of the SBR with camera B were 59.2%, 50.7%, and 50.8%, respectively. Camera B-1 showed significantly high SBR values. CONCLUSION: As the findings indicated, the optimal reconstruction parameters differed according to the devices and collimators. The fan beam collimator was found to provide promising results with each device.