To investigate the role of melatonin in D-galactose-induced amnesic mice, the avoidance/escape and water maze tests were performed to evaluate their learning and memory function. Spectrophotometry was employed to determine the content of thiobarbituric acid-reactive substances (TBARS) and the activities of antioxidative enzymes in the brain. The present results demonstrate that D-galactose-induced amnesic mice had significantly decreased learning and memory function. The reduced activities of superoxide dismutase and glutathione peroxidase and increased levels of TBARS were found in brain tissue of the amnesic mice. Melatonin, administered (ig) at doses of 0.1, 1, or 10 mg/kg to the D-galactose-treated mice for 3 months, was sufficient to block these changes. These data suggest that D-galactose is involved in accelerating the brain aging process by elevating free radical generation and reducing antioxidative enzyme activities in vivo. Furthermore, the antioxidative activity of melatonin on the D-galactose-treated mice may account for, at least partially, the improvement of learning and memory function in the aging and amnesic model.
Early repair of skin injury and maximal restoration of the function and appearance have become important targets of clinical treatment. In the present study, we observed the healing process of skin defects in nude mice and structural characteristics of the new skin after transplantation of isolated and cultured adipose derived mesenchymal stem cells (ADMSCs) onto the human acellular amniotic membrane (AAM). The result showed that ADMSCs were closely attached to the surface of AAM and grew well 24 h after seeding. Comparison of the wound healing rate at days 7, 14, and 28 after transplantation showed that ADMSCs seeded on AAM facilitated the healing of full-thickness skin wounds more effectively as compared with either hAM or AAM alone, indicating that ADMSCs participated in skin regeneration. More importantly, we noticed a phenomenon of hair follicle development during the process of skin repair. Composite ADMSCs and AAM not only promoted the healing of the mouse full-thickness defects but also facilitated generation of the appendages of the affected skin, thus promoting restoration of the skin function. Our results provide a new possible therapy idea for the treatment of skin wounds with respect to both anatomical regeneration and functional restoration.
Conservation laryngeal surgery is an increasingly available alternative for the treatment of laryngeal cancer. Understanding anatomy of laryngeal lymph drainage is essential for clinicians to diagnose, grade and surgically manage the laryngeal cancer. Although the lymphatic drainage of the larynx has been extensively studied, few studies revealed the relationship of the lymphatic drainage between various parts of the larynx. The distribution of lymphatic vessels in the inferior surface of the vocal cord also remains unclear. The aim of this study was to investigate the communication of the lymphatic networks between the vocal cord, the supraglottic and subglottic parts of the larynx, paying special attention to the lymphatic drainage of the inferior surface of the vocal cord. Eighteen larynx specimens from 18 fresh fetal cadavers were manually injected with prassion blue solution into the mucosal or submucosal layer of the larynx in order to reveal the lymphatic vessels in the inner larynx. We found that a rich lymphatic network is present in the inferior surface of the vocal cord, and the lymphatic networks in the superior and inferior surfaces of the vocal cord appear as two different patterns. These findings provide an anatomical basis for the design of a partial or conservation laryngeal surgery, particularly when considering the precise resection margin.
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