ABSTRACT
ObjectiveTo screen and establish animal models of combined stasis and toxin syndrome based on the comparison of three modeling methods, i.e., carrageenan (Ca), Ca combined with dried yeast (Ca+Yeast), and Ca combined with lipopolysaccharide (Ca+LPS). MethodForty SPF male SD rats were randomly divided into normal group, Ca group, Ca+Yeast group, and Ca+LPS group, with 10 rats in each group. The Ca group, Ca+Yeast group, and Ca+LPS group received an intraperitoneal injection of Ca (10 mg·kg-1) on the first day. The Ca+LPS group received an intraperitoneal injection of LPS (50 μg·kg-1) on the second day, and the Ca+Yeast group received a subcutaneous injection of dry yeast suspension (2 mg·kg-1) on the back on the second day. The rectal temperature of each group was dynamically observed after modeling. After 24 hours of modeling, the macroscopic evaluation indexes, including tongue manifestation, pulse, and black tail length in each group were observed. The PeriCam PSI imaging system was used to detect the blood flow perfusion of the rat tail. The automatic hemorheology analyzer was used to measure the whole blood viscosity and plasma viscosity of each group. The PL platelet function analyzer was used to detect the platelet aggregation rate of the rats. The enzyme-linked immunosorbent assay (ELISA) was used to detect the interleukin-6 (IL-6) level in the rat plasma. The myocardial tissue, brain tissue, and lung tissue of each group of rats were observed by hematoxylin-eosin (HE) staining. ResultCompared with the normal group, all three model groups showed varying degrees of black tail (P<0.05, P<0.01), reduced blood flow perfusion at the tail end (P<0.05, P<0.01), decreased R, G, and B values of tongue manifestation (P<0.05, P<0.01), and increased maximum platelet aggregation rate (P<0.05, P<0.01). The pulse amplitudes of the Ca+Yeast group and the Ca+LPS group were lower than that of the normal group (P<0.05, P<0.01). In addition, the average rectal temperature of the Ca+Yeast group increased after 24 hours of modeling (P<0.01), and the low-, medium-, and high-shear whole blood viscosity and plasma viscosity increased (P<0.05, P<0.01) as compared with those in the normal group. Additionally, the expression level of the plasma inflammatory factor IL-6 was significantly up-regulated (P<0.05). Pathological morphology results showed that the Ca+Yeast group had the most severe pathological changes, with small foci of myocardial fiber dissolution, inflammatory cell infiltration, and fibroblast proliferation observed. In the hippocampal area, the neurons were sparse and had undergone red degeneration. In the small focus of the lung interstitium, lymphocytes and neutrophils were infiltrated. ConclusionThe animal model of combined stasis and toxin syndrome was properly established using Ca+Yeast. The systematic evaluation system of the model, which includes traditional Chinese medicine four diagnostic information, western medicine microscopic indicators, and tissue pathological morphology, is worthy of consideration and reference by researchers.
ABSTRACT
Neural recording electrodes enable the acquisition and collection of electrical signals from neu-rons,and these recorded neural electrical signals are an important means of understanding neuronal activity.As a major component of the brain-machine interface,neu-ral recording electrodes serve as a bridge between the nervous system and external devices.The extracted information can be used to understand the state of the brain and acts as a feedback signal to regulate external devices,thus providing important information for the clini-cal treatment of neurological diseases.Moreover,the electrodes can be used as a vehicle for drug injection to directly treat diseases.Since the time that Strumwas-ser used microwires to achieve long-term recordings of neural activity in hibernating squirrels,implantable elec-trode technology has gradually improved over three gen-erations of development,and progress has been made in improving the biocompatibility,mechanical performance(size,shape,density,etc.),and signal-to-noise ratio.Implantable neural recording electrodes can acquire sig-nals from cortical and deep neural clusters,with the advantages of high signal-to-noise ratio,information con-tent,and spatial/temporal resolution.However,there is still a need to improve the structure and performance of these electrodes;for example,their high invasiveness and lack of biocompatibility pose technical difficulties in the process of translation to the clinic.This paper reviews the basic requirements for electrodes,main recording methods and signal types,common types of implant-able neural recording electrodes,and their challenges and future development directions.With the continuous development of electrode materials,equipment,systems,and neurotechnology,it should be possible to apply neu-ral recording electrodes in clinical practice,to promote safe and efficient treatment of human diseases.
ABSTRACT
Objective@#To study the efficacy of 1 mg·kg-1·d-1 and 2.0 mg·kg-1·d-1 of propranolol in the treatment of infantile hemangiomas, so as to provide an ideal dosage for clinical treatment.@*Methods@#From September 2015 to October 2016, there were 89 patients in accordance with the inclusion criteria of infantile hemangiomas. According to randomized and controlled principle, the patients were assigned to receive two propranolol regimens, Group A(n=45): propranolol at a dose of 1 mg·kg-1·d-1; Group B(n=44): propranolol at a dose of 2 mg·kg-1·d-1. 1 or 2 mg of propranolol base per kilogram per day, divided into two doses.The first dose was taken at 9, next at 15.The effective rate, cure rate and adverse effect rate were compared at the six months after treatment. The duration of the treatment was compared after 12 months′ treatment, and the recurrence rate was compared at the three months after being cured.The data were statistically processed with SPSS 22.0. The sample rate was compared with χ2 test, and the data were compared with t test. P<0.05 was statistically significant difference.@*Results@#Group A: Treatment for 6 months, 45 children were evaluated as follows: the effective rate was 91.1%(41/45), the cure rate was 60%(27/45). The incidence of adverse reactions was 13.3%(6/45). The cure rate of group A at 12 months was 86.7%(39/45). The duration of treatment was 7.6±2.7 months.The recurrence rate was 9.5%(4/42). Group B: Treatment for 6 months, 44 children were evaluated as follows: the effective rate was 90.9%(40/44), the cure rate was 72.7%(32/44). The incidence of adverse reactions was 15.9%(7/44). The cure rate of group B at 12 months was 88.6%(39/44). The duration of treatment was 6.2±1.9 months. The recurrence rate was 11.9%(5/42). The effective rate of the two groups at 6 months was not statistically significant(χ2=2.583, P=0.461). The cure rate of the two groups at 6 months was statistically significant(χ2=8.339, P=0.004). The incidence of adverse effects was not statistically significant(χ2=0.118, P=0.731). The cure rate of the two groups at 12 month was not statistically significant(χ2=0.080, P=0.778). The duration of treatment between the groups was statistically significant (t=0.290, P=0.009). The recurrence rate of the two groups after 3 months withdrawal was no statistical difference(χ2=0.124, P=0.724).@*Conclusions@#The propranolol doses at 1 mg·kg-1·d-1 and 2 mg·kg-1·d-1 in the treatment of infantile hemangiomas are safe and effective. The propranolol dose at 1 mg·kg-1·d-1 doesn′t decrease the effective and cure rate, not increase the recurrence rate in infantile hemangiomas. Low dose at 1 mg·kg-1·d-1 can be used as a common dose of propranolol in infantile hemangiomas.