Nano-Silver Medical Antibacterial Dressing Combined with High-Flow Oxygen Therapy Facilitates Ulcer Wound Healing of Superficial Malignant Tumors.

BACKGROUND: Due to the poor healing of superficial malignant tumor ulcer wounds, patients suffer great pain and significantly reduced quality of life. Related research shows that oxygen therapy can reduce wound bleeding and promote wound healing. OBJECTIVE: This study aims to explore the therapeutic effect of nano-silver antibacterial dressing combined with high-flow oxygen therapy on surface malignant tumor ulcers. METHODS: In this retrospective analysis, 64 patients with superficial malignant tumors and ulcer infection were included and divided into the research group and the control group, with 32 cases in each group. After conventional debridement, the control group was treated with vaseline dressing, while the research group was treated with nano-silver medical antibacterial dressing combined with high-flow oxygen therapy. Both groups were treated for 7 days. The frequency of dressing change and the number of times of blood oozing between the two groups after treatment were recorded. The pain, clinical efficacy, and levels of procalcitonin (PCT) and C-reactive protein (CRP) were compared between the two groups before and after treatment. RESULTS: The dressing changes and blood oozing were less frequent in the research group compared with the control group. The pain score and the levels of PCT and CRP in the research group were lower than those in the control group. The overall response rate was significantly higher in the research group as compared to the control group. All the above differences were statistically significant (P<0.05). CONCLUSION: Nano-silver medical antibacterial dressing combined with high-flow oxygen therapy can reduce the frequency of dressing changes in patients, relieve pain, reduce inflammation, and accelerate the healing of superficial malignant tumor ulcer wounds.

Human urinary kallidinogenase combined with edaravone in treating acute ischemic stroke patients: A meta-analysis.

INTRODUCTION: Several studies have investigated the efficacy of human urinary kallidinogenase (HUK) combined with edaravone (Eda) in acute ischemic stroke (AIS) patients. Our aim was to provide the best available evidence for clinical practice and further research programs for stroke treatment. METHODS: We searched the online database for paper published between January 2015 and April 2021. We calculated weighted mean difference (WMD) or odds risk (OR) and their corresponding 95% confidence interval (95% CI) of reported outcomes between HUK plus Eda and Eda groups for each study. The random-effect models or fixed-effect models were used to pool the analysis. RESULTS: Thirteen studies with 1242 patients were included. In the pooled analysis, the scores of NIHSS in the HUK plus Eda group were significantly lower than that in patients receiving Eda (WMD = -3.92, 95% CI (-4.82, -3.02), p < .0001). The ADL scores in the HUK plus Eda group were significantly greater than that in patients receiving Eda (WMD = 14.13, 95% CI (10.67, 17.60), p < .0001). Furthermore, HUK plus Eda was associated with a higher rate of total efficacy (OR = 3.97, 95% CI (2.81, 5.59), p < .0001). CONCLUSIONS: HUK combined with Eda provides potential clinical benefits as a treatment for AIS. Further high-quality, large-scale randomized trials are needed to confirm these results.

Cisplatin and paclitaxel co-delivery nanosystem for ovarian cancer chemotherapy.

We have designed and developed an effective drug delivery system using biocompatible polymer of poly (ethylene glycol)-polyaspartic acid (mPEG-PAsp) for co-loading the chemotherapy drugs paclitaxel (PTX) and cisplatin (CP) in one nano-vehicle. This study aimed to improve the anti-cancer efficacy of combinations of chemotherapy drugs and reduce their side effects. mPEG-PAsp-(PTX/Pt) nano-micelles disperse well in aqueous solution and have a narrow size distribution (37.8 ± 3.2 nm) in dynamic light scattering (DLS). Drug release profiles found that CP released at pH 5.5 was significantly faster than that at pH 7.4. MPEG-PAsp-(PTX/Pt) nano-micelles displayed a significantly higher tumor inhibitory effect than mPEG-PAsp-PTX nano-micelles when the polymer concentrations reached 50 µg/mL. Our data indicated that polymer micelles of mPEG-PAsp loaded with the combined drug exert synergistic anti-tumor efficacy on SKOV3 ovarian cells via different action mechanisms. Results from our studies suggested that mPEG-PAsp-(PTX/Pt) nano-micelles are promising alternatives for carrying and improving the delivery of therapeutic drugs with different water solubilities.