Effect of Transcutaneous Electrical Nerve Stimulation Based on Wrist-Ankle Acupuncture Theory for Pain Relief during Non-Anesthetic Colonoscopy: A Randomized Controlled Trial.

BACKGROUND: Colonoscopy is essential for diagnosing colorectal diseases but can cause pain during the procedure. This study explores the analgesic effects of Transcutaneous Electrical Nerve Stimulation based on Wrist-Ankle Acupuncture theory (TENS-WAA) in non-anesthetic colonoscopy. METHODS: This prospective study included 120 participants undergoing non-anesthetic colonoscopies. The trial group receiving low-frequency, high-intensity TENS-WAA adjusted to the maximum tolerable current, while the control group received minimal current. Primary outcome was the retrospective pain VAS score. Secondary outcomes included time, heart rate, and credibility/expectancy questionnaire (CEQ) scores (ChiCTR2300076524). RESULTS: Participants who received TENS-WAA intervention reported significantly lower pain VAS scores than the control group (estimated median difference -1.1, 95% CI: -2 to -0.4, P=0.002). Male participants in the trial group experienced significantly lower pain scores than the control group (mean difference -1.4, 95% CI: -2.41 to -0.39, P=0.008). Additionally, the trial group also had significantly lower heart rates (P<0.001) and higher CEQ scores (P=0.001) than the control group. No adverse events were reported. CONCLUSION: TENS-WAA effectively reduces pain during non-anesthetized colonoscopy, especially in male participants, providing a promising non-invasive analgesic method.

[Effect of Interfering the ADAM10 by Lentivirul Vector-Mediated shRNA on Multiple Myeloma MM.1S Cell Proliferation].

OBJECTIVE: To explore the effect of interfering ADAM10 on proliferation and apoptosis of multiple myeloma MM.1S cells, and its possible mechanism. METHODS: Four pairs of shRNA-coding sequences directed against different sites of ADAM10 mRNA were designed and inserted into lentiviral vector plasimd pLVshRNA-EGFP(2A) Puro for constructing the sh/ADAM10-1, sh/ADAM10-2, sh/ADAM10-3, sh/ADAM10-4 and sh/Con. These plasmids and lentiviral packaging plasmids were co-transfected into the packaging cells 293FT, then the virus particles were collected and the viral titer was assayed after concentration, and these viral particles were transfected to MM.1S cells. The flow cytometry was used to sort GFP+ cells. Real-time quantitative PCR, and Western blot were used to detect the effect of interfering the ADAM10 gene by lentiviral vector mediated shRNA. The proliferation-inhibition curve was plotted by CCK-8 method, the cell viability and apoptosis were detected by flow cytometry with Annexin V and 7-AAD staining, the transcripts of pro-apoptosis gene BAD, BAK, BIK, anti-apoptotic genes BCL-2, c-Myc and Notch1 target gene Hes-1 were detected by real-time PCR. RESULTS: Lentivirus vector was successfully constructed, that could specifically interfere ADAM10 expression. Interfering ADAM10 gene could inhibit the MM.1S cell proliferation and induce apoptosis. After the interferencing ADAM10 gene the mRNA levels of pro-apoptosis gene BAD, BAK and BIK were increased, and the mRNA levels of anti-apoptotic genes BCL-2 and c-Myc were reduced. Q-PCR results showed that the mRNA level of Notch1 were increased, but that of Hes-1 were reduced. CONCLUSION: Down-regulated ADAM10 expression can significantly inhibit multiple myeloma MM.1S cell proliferation and promote the apotosis. Its mechanism may be related to Notch1 signaling pathways.

[Epigenetics in cancer stem cells].

According to the types of stem cells and considering tumor evolution, one of the most significant theories about stem cells is derived from cancer stem cells (CSCs), which, similar to normal adult stem cells, possess the capacity of self-renewal and potential of differentiation. Over the past few years, compelling evidence has emerged in support of the CSC model for many tumors. The CSCs are posited to be responsible not only for tumor initiation but also for tumor metastasis, relapse and therapyresistance. Thus, understanding the mechanisms that govern the generation and maintenance of this special population of cells is of great importance. Despite the current progress in basic genetic research, the latest work implies that epigenetic mechanisms, from DNA methylation, histone modifications and chromatin-remodeling to the wide discovered miRNAs, play critical roles in the regulation of CSC features. This review focuses on the key epigenetic mechanisms that regulate and define the unique CSC properties.