Objective:To investigate the clinical efficacy and action mechanism of abdominal acupuncture plus plum-blossom needle tapping for primary insomnia.Methods:A total of 66 eligible cases were randomly allocated into an observation group (n=33) and a control group (n=33). Cases in the observation group received abdominal acupuncture plus plum-blossom needle tapping, whereas cases in the control group received abdominal acupuncture alone. After 2, 6 weeks of treatment and 4 weeks after end of treatment, the patients in both groups were evaluated using the Pittsburgh sleep quality index (PSQI) and measure your medical outcome profile (MYMOP) based on the patients' self-report. Results:After 2 weeks of treatment, the total effective rate was 90.9% in the observation group, versus 63.6% in the control group, showing a statistical difference (P<0.05). After 6 weeks of treatment, there were no between-group statistical differences in total effective rate (P>0.05). After 6 weeks, the sleep quality and efficiency scores in the observation group were better than those in the control group. Four weeks after end of treatment, the scores of sleep quality and MYMOP in the observation group were better than those in the control group (P<0.05). Conclusion: Abdominal acupuncture plus plum-blossom needle tapping can obtain fast, accurate effect for primary insomnia and improve patients' sleep quality and efficiency.

AIM: To observe the antiproliferative effect of c-myc antisense oligonucleotide in rat thymus lymphocytes. METHODS: Rat thymus lymphocytes were separated by Ficoll-Urografin density gradient centrifugation. Lipofectin was used to introduce antisense, sense and mismatched oligonucleotides for c-myc to rat thymus lymphocytes. The antiproliferative effect was assayed by incorporation of -TdR and MTS cell proliferation assay. TR-PCR was used to detect the expression of c-myc mRNA. RESULTS: c-myc antisense oligonucleotide inhibited rat thymus lymphocytes proliferation [(0.14?0.03)A vs (0.32?0.16)A, P

AIM: To observe the inhibitory effect of antisense eukaryotic expression vectors for c-myc on rat airway smooth muscle cells. METHODS: Antisense and sense eukaryotic expression vectors for c-myc pcDNA3-myc-antisense and pcDNA3-myc-sense were constructed. Lipofectin was used to introduce antisense and sense eukaryotic expression vectors for c-myc into rat. The inhibitory effect was assayed by MTT cell proliferation assay. Cell cycles were detected by flow cytometry technology. The expression of c-Myc was detected by immunohistochemistry. RESULTS: The results showed that antisense eukaryotic expression vector for c-myc inhibited rat airway smooth muscle cells proliferation. Rat airway smooth muscle cells were prohibited in S phase and the expression of c-Myc was decreased after antisense eukaryotic expression vectors for c-myc were transfected into cells. CONCLUSION: Antisense eukaryotic expression vectors for c-myc inhibit rat airway smooth muscle cell proliferation. [

The advancement of computers and data explosion have ushered in the third wave of artificial intelligence(AI). AI is an interdisciplinary field that encompasses new ideas, new theories, and new technologies, etc. AI has brought convenience to ophthalmology application and promoted its intelligent, precise, and minimally invasive development. At present, AI has been widely applied in various fields of ophthalmology, especially in oculoplastic surgery. AI has made rapid progress in image detection, facial recognition, etc., and its performance and accuracy have even surpassed humans in some aspects. This article reviews the relevant research and applications of AI in oculoplastic surgery, including ptosis, single eyelid, pouch, eyelid mass, and exophthalmos, and discusses the challenges and opportunities faced by AI in oculoplastic surgery, and provides prospects for its future development, aiming to provide new ideas for the development of AI in oculoplastic surgery.