RESUMO
Objectives@#:The aim of this study was to compare the effect of Selective Serotonin Reuptake Inhibitor (SSRI) and Serotonin Norepinephrine Reuptake Inhibitor (SNRI) for mood symptoms, pain, and somatic symptoms in elderly depression patients with pain and somatic symptoms. @*Methods@#:This study is a prospective open-label study conducted by a single institution. A total of 43 subjects diagnosed with major depressive disorder under the DSM-5 diagnostic criteria participated in this study (average age: 72.53, 58.1% women). The subjects were classified as SSRI and SNRI groups. Depressive symptoms, pain, and somatic symptoms were evaluated by Korean version of the Hamilton Depression Rating Scale (K-HDRS), visual analogue scale (VAS) and Patient Health Questionnare-15 (PHQ-15) respectively at baseline and six weeks later. Two-way repeated-measure ANOVA was performed to analyze changes in the KHDRS, VAS, and PHQ-15 scores. @*Results@#:In the SSRI and SNRI groups, K-HDRS, VAS, and PHQ-15 all showed significant improvement after 6 weeks compared to each baseline values. There were no differences in therapeutic effect between the two groups. @*Conclusions@#:We found that SSRI and SNRI both improved somatic symptoms and pain in elderly depression patients. The results of this study are thought to help select antidepressants when administering medication to elderly depression patients who complain pain and somatic symptoms. Further research is needed on the longterm effects of the SSRI and SNRI.
RESUMO
The purpose of this study was to evaluate the influence of different types of PLGA scaffolds on the formation of human auricular and septal cartilages. The scaffolds were formed in tubular shape from 110,000 g/mol PLGA (poly lactic glycolic acid) and 220,000 g/mol one. Elastic cartilage was taken from the ear of a patient aged under 20 years old and hyaline cartilage from the nasal septum. The chondrocytes cells were then isolated by Klausburn method. After second passages, the chondrocytes were seeded on the PLGA scaffolds followed by in vitro culture for one week. The cells-PLGA scaffold complex was implanted at the back of nude mouses for 8 weeks. The tissue engineered cartilages were separated from nude mouse and examined histologically after staining with the Hematoxylin Eosin and Verhoeff. The formation of extracellular matrix and the porosity of the scaffolds were examined by scanning electron microscopy. The pores were well formed and uniformly distributed in both 110,000 g/mol and 220,000 g/mol PLGA scaffolds. The extracellular matrix was formed better in 110,000 g/mol PLGA compared to 220,000 g/mol one. And hyaline cartilage was proliferated better in vitro culture than elastic cartilage. After 8 weeks in vivo culture, cartilage was well formed with 110,000 g/mol PLGA, however lumen was collapsed. In contrast with 220,000 g/mol PLGA scaffold, neocartilage was formed in minimal amount while the architecture of scaffold was well preserved. Elastic cartilage seems to be better than hyaline one in terms of neocartilage formation. From the analysis after Verhoeff staining the cartilages, the neocartilage from elastic cartilage was proved to be elastic cartilage. In summary, there was no significant difference between elastic cartilage and hyaline cartilage in their morphologies, proliferation rates and the degree of cartilage formation since they were tissue engineered, however marked difference was found in neocartilage formation and preservation of scaffold architecture between 110,000 g/mol PLGA scaffold and 220,000 one. From the present findings, it is concluded that the influence of scaffold materials is significantly higher than that of different types of cells on the formation of new tissues.