Research progress on the biomedical application of microalgae / 浙江大学学报·医学版

Microalgae is an easy-to-obtain natural biological material with many varieties and abundant natural reserves. Microalgae are rich in natural fluorescein, which can be used as a contrast agent for fluorescence imaging and photoacoustic imaging for medical imaging. With its active surface, microalgae can effectively adsorb functional molecules, metal elements, etc., and have good application prospects in the field of drug delivery. Microalgae can generate oxygen through photosynthesis to increase local oxygen concentration, reverse local hypoxia to enhance the efficacy of hypoxic tumors and promote wound healing. In addition, microalgae have good biocompatibility, and different administration methods have no obvious toxicity. This paper reviews the research progress on the biomedical application of microalgae in bioimaging, drug delivery, hypoxic tumor treatment, wound healing.

Short-term efficacy of iodine-125 radioactive seed implantation therapy for hypoxic tumors / 中华放射肿瘤学杂志

Objective To study the short-term efficacy of computed tomography (CT)-guided iodine-125(125I) radioactive seed implantation in the treatment of hypoxic tumors.Methods Twenty-two patients treated with 125I radioactive seed implantation in our department from 2014 to 2016 were divided into hypovascular tumor group (hypoxic group,n =12) and hypervascular tumor group (non-hypoxic group,n=10) based on the hemodynamics of solid tumor evaluated by color Doppler ultrasound.The enhanced CT images were loaded to the three-dimensional particle implantation planning system for preoperative planning.After 125I radioactive seed implantation,the D90 for target volume was verified to be 106-128 cGy.Treatment outcomes were evaluated according to the World Health Organization criteria at 1-3 months after surgery.Results In all the patients,the overall response rate was 82％ at 3 months after surgery.There were no significant differences in response (complete response + partial response) rates at 1,2,or 3 months after surgery between the hypoxic group and the non-hypoxic group (P=0.840,0.696,0.840).Conclusions In the treatment of solid malignant tumor,125I radioactive seed implantation can overcome the resistance of hypoxic tumor to radiotherapy in vitro and achieve satisfactory short-term efficacy.