Efficacy of transcutaneous auricular vagus nerve stimulation on radiotherapy-related neuropathic pain in patients with head and neck cancers (RELAX): protocol for a multicentre, randomised, double-blind, sham-controlled trial.

INTRODUCTION: Radiotherapy-related neuropathic pain (RRNP) is one of the most distressing complications after radiotherapy for head and neck cancers. Drug therapy is not sufficiently effective and has limitations in terms of dose titration period and side effects. Transcutaneous auricular vagus nerve stimulation (taVNS), which stimulates the auricular branches of the vagus nerve through electrical impulses, has been proven to have analgesic effects in certain diseases. However, it is unknown whether taVNS can relieve RRNP. METHODS AND ANALYSIS: This is a multicentre, randomised, double-blind, parallel, sham-controlled trial. We will include adult patients newly diagnosed with neuropathic pain after radiotherapy for head and neck cancers. One hundred and sixteen individuals will be recruited and randomly assigned in a 1:1 ratio to receive taVNS or sham stimulation. The interventions will last for 7 days, twice daily for 30 min each. The primary efficacy outcome is pain reduction on day 7. The secondary outcomes are changes in functional interference, psychological distress, fatigue, quality of life and serum inflammatory factors. The study may provide a new early intervention strategy for RRNP among patients with head and neck cancers. ETHICS AND DISSEMINATION: This study has been approved by the Medical Research Ethics Committee of Sun Yat-sen University (SYSKY-2022-109-01) and will be conducted in strict accordance with the Declaration of Helsinki. Ethical approvals will be obtained separately for all centres involved in the study. Study results will be published in peer-reviewed academic journals. The database of the study will be available from the corresponding author on reasonable request. TRIAL REGISTRATION NUMBER: NCT05543239.

Combined therapy of intensive statin plus intravenous rt-PA in acute ischemic stroke: the INSPIRE randomized clinical trial.

OBJECTIVE: To investigate the safety and efficacy of intensive statin in the acute phase of ischemic stroke after intravenous thrombolysis therapy. METHODS: A total of 310 stroke patients treated with rt-PA were randomly scheduled into the intensive statin group (rosuvastatin 20 mg daily × 14 days) and the control group (rosuvastatin 5 mg daily × 14 days). The primary clinical endpoint was excellent functional outcome (mRS ≤ 1) at 3 months, and the primary safety endpoint was symptomatic intracranial hemorrhage (sICH) in 90 days. RESULTS: The intensive statin users did not achieve a favorable outcome in excellent functional outcome (mRS ≤ 1) at 3 months compared with controls (70.3% vs. 66.5%, p = 0.464). Intensive statin also not significantly improved the overall distribution of scores on the modified Rankin scale, as compared with controls (p = 0.82 by the Cochran-Mantel-Haenszel test). The incidence of primary safety endpoint events (sICH) in 90 days did not significantly differ between the intensive statin group and control group (0.6% vs. 1.3%, p > 0.999). CONCLUSION: The INSPIRE study indicated that intensive statin therapy may not improve clinical outcomes compared with the low dose of statin therapy in AIS patients undergoing intravenous thrombolysis, and the two groups had similar safety profile. CLINICAL TRIAL REGISTRATION: URL: http://www.chictr.org . Unique identifier: ChiCTR-IPR-16008642.

Long-term toxicity study of rAd5-hTERTC27 in SD rats and Cynomolgus monkeys by intravenous injection.

rAd5-hTERTC27, a replication-defective adenovirus vector carrying hTERTC27, has been proposed for possible use against hepatocellular carcinoma (HCC). In this study, we investigated the long-term toxicity of rAd5-hTERTC27 in SD rats and Cynomolgus monkeys. rAd5-hTERTC27 was administered intravenously once a week for 13 weeks followed by a one-month recovery period. As of 4 months, all animals displayed overall good health. Anti-adenoviral antibodies emerged in a dose-independent manner. The levels of complement components, C3 and C4, in the rAd5-hTERTC27 middle-dose and high-dose groups and C4 in the rAd5-EGFP group increased significantly after the 2nd treatment in monkeys. Slight-mild pathological changes of the liver occurred only in the rAd5-hTERTC27 high-dose group (2/16) in rats and not in any other group in either rats or monkeys. With the increase of the dose, the incidence of lymphocyte depletion in the spleen of rats and reactive hyperplasia of the splenic corpuscle in monkeys increased. However, the changes in the liver and spleen were reversible. Given the above data, intravenous administration of rAd5-hTERTC27 (up to 4×10(10)VP/kg in rats and 0.9×10(10)VP/kg in monkeys) appears to be well-tolerated, providing support for its potentially safe use in clinical trials for the treatment of HCC.

Preclinical safety evaluation of rAd5-hTERTC27 by intravenous injection.

The safety of rAd5-hTERTC27, a replication defective adenovirus vector carrying hTERTC27 for possible use against hepatocellular carcinoma (HCC) was assessed. In single-dose evaluations, intravenous dose levels of up to 2×10(11)VP/kg in rats and 9×10(10)VP/kg in monkeys were well tolerated with no abnormal changes in general signs, body weight and food consumption, and no significant differences in biochemical parameters, urinalysis, ECG, and systemic necropsy observations between the rAd5 groups and solvent control group except that slight hematological change was observed. No hemolytic effect using rabbit blood, local perivasculitis following intravenous injection in rabbits or systemic anaphylaxis in guinea pigs following intravenous dosing was seen. No effects on the central nervous system of mice occurred following intravenous dosing with the exception of an increase in sleep duration at the dose of 1.2×10(11)VP/kg (p<0.05) but not at lower doses of 2×10(10) and 6×10(10)VP/kg in the hypnotic synergism test. These results demonstrate that administration of rAd5-hTERTC27 was well tolerated in an initial set of safety studies as part of an evaluation to allow human trials for the treatment of HCC.

VEGF induces angiogenesis in a zebrafish embryo glioma model established by transplantation of human glioma cells.

Zebrafish (Danio rerio) is becoming an increasingly popular vertebrate cancer model. In this study, we established a xenotransplanted zebrafish embryo glioma model to further investigate the molecular mechanisms of tumor angiogenesis. We find that the glioma cell line U87 can survive, proliferate and induce additional SIV branches in zebrafish embryos. In addition, by the means of in situ hybridization and quantitive RT-PCR analyses we find that the transplanted U87 cells can induce the ectopic zebrafish vascular endothelial growth factor A (VEGF A) and its receptor VEGFR2/KDR mRNA expression and increase their expression levels, resulting in additional SIV branches.

Recombinant adenovirus-mediated vascular endothelial growth factor gene transfer attenuates hypoxia-induced apoptosis of neural stem cells in vitro.

OBJECTIVE: To study the effects of vascular endothelial growth factor (VEGF) gene transfer on hypoxia-induced apoptosis of neural stem cells in vitro. METHODS: C17.2 neural stem cells cultured in vitro were infected by recombinant adenovirus containing VEGF gene and cultured under hypoxic condition. VEGF expression in these cells was detected by Western blotting, and the apoptotic index was calculated from results of triphosphate-biotin nick end-labeling (TUNEL) assay. Flow cytometry was employed to examine the changes in the cell apoptotic rate after VEGF gene transfer, and the apoptotic bodies were observed under fluorescence microscope with Hoechst33342 staining. RESULTS: The expression of VEGF was significantly increased in pAdCMV VEGF(165)-infected cells, resulting in inhibition of the apoptosis of C17.2 neural stem cells induced by hypoxia manifested by a significantly lower apoptotic rate of the stem cells transfected by pAdCMV VEGF(165) than that of the untransfected cells (10.38%;+/-0.48%; vs 19.98 %;+/-0.55%;, P<0.01) and of the cells transfected with pAdCMV VEGF(165) along with VEGF anti-sense oligodeoxynucleotide (19.07%;+/-0.64%;, <0.01) after hypoxia. CONCLUSIONS: Recombinant adenovirus can efficiently mediate VEGF gene transfer into C17.2 neural stem cells, resulting in high expression of the exogenous VEGF in vitro, which effectively reduces C17.2 neural stem cell apoptosis induced by hypoxia.