Objective:To analyze the constraints on the implementation of long-term care insurance policies and make suggestions for optimizing long-term care insurance policies. Methods:The constraints of long-term care insurance policy implementation are analyzed in 6 dimensions using the Mitt-Horne policy implementation model as the research framework. Results:The implementation of the long-term care insurance policy is affected by factors such as policy objectives and standards that need to be improved,insufficient supply of policy resources,insufficiently reasonable organizational communication and implementation methods,fragmentation of implementing agencies,deviation in value orientation of implementers,and constraints in the systematic environment. Recommendations:It is needed to further clarify policy objectives and promote the harmonization of assessment standards with the state;increase the input of resources to ensure the orderly promotion of the long-term care insurance system;improve organizational communication and implementation methods;improve the management mechanism of implementing agencies;correctly guide value orientation;and create a favorable system environment.

Objective:To analyze the constraints on the implementation of long-term care insurance policies and make suggestions for optimizing long-term care insurance policies. Methods:The constraints of long-term care insurance policy implementation are analyzed in 6 dimensions using the Mitt-Horne policy implementation model as the research framework. Results:The implementation of the long-term care insurance policy is affected by factors such as policy objectives and standards that need to be improved,insufficient supply of policy resources,insufficiently reasonable organizational communication and implementation methods,fragmentation of implementing agencies,deviation in value orientation of implementers,and constraints in the systematic environment. Recommendations:It is needed to further clarify policy objectives and promote the harmonization of assessment standards with the state;increase the input of resources to ensure the orderly promotion of the long-term care insurance system;improve organizational communication and implementation methods;improve the management mechanism of implementing agencies;correctly guide value orientation;and create a favorable system environment.

Objective:To investigate the changes of T1 and T2 values in residual liver after major liver resection in rats and the relationship with pathologic indices related to liver regeneration.Methods:Seventy healthy male Sprague Dawley rats, SPF grade, aged 7-8 weeks, weighting 250-280 g, were divided into MR scan group ( n=14) and pathologic analysis group ( n=56). The MR scan group was further divided into partial hepatectomy group ( n=7) and the sham operation group ( n=7). MRI T 1 mapping and T 2 mapping were performed before surgery and on day 1, 2, 3, 5, 7, 14, 21 after surgery. T1 and T2 values of liver parenchyma were measured. In the pathologic analysis group, 7 rats were randomly included at each time point before and after surgery for pathologic examination, the diameter and proliferative activity (Ki-67 indices) of hepatocytes were assessed. The changes of imaging and pathologic indices were observed, and the correlations between MR parameters and liver volume and pathologic indices were analyzed. Results:Both T1 and T2 values in liver parenchyma were increased on day 1 after surgery and reached their maximum values on day 2 ( P=0.005 and P<0.001, compared with baseline), then were gradually decreased, and recovered to the preoperative level on day 14 and 21 ( P>0.05), respectively. T2 value was correlated with hepatocyte diameter, liver volume and Ki-67 indices better ( r=0.640, -0.764, 0.765, respectively, all P<0.001). T1 value was correlated with hepatocyte diameter, liver volume and Ki-67 indices ( r=0.472, -0.481 and 0.444, all P<0.001). Conclusion:The T1 and T2 values of rats liver remnant parenchyma showed regular changes, and were correlated with liver regeneration indices, which reflect the microscopic changes of rat liver remnant parenchyma, and are expected to be used for quantitative monitoring of liver remnant regeneration.

In order to investigate the effects of electric pulses on cancer cells, we carried out the experiments with exposing HepG2 and L02 to electric pulses (1 kV/cm, l00 micros, 1 Hz) for different lengths of time (8 s, 15 s, 30 s, 60 s). Annexin V-FITC Kit and Flow cytometry were used to study the apoptosis of treated cells. The results showed that the electric pulses of 1 kV/cm, l00 micros, 1 Hz for 8 s could not induce tumor cells apoptosis. Apoptosis was observed when tumor cells were stimulated for 15 s and longer, and the apoptosis percentage increased with the increase of stimulation time. Furthermore, tumor cells were more sensitive than normal cells in response to electrical pulses. Rhodamine 123 and Laser Scanning Confocal Microscope (LSCM) were used to make a real-time study of mitochondrial transmembrane potential (Deltapsim) when the tumor cells were exposed to electric pulses for 60 s. No significant change of Deltapsim was observed within 30 s stimulation. After that, the Deltapsim increased sharply and declined later, suggesting that the mitochondrial pathway may be one of the apoptosis mechanism induced by electric pulses.
Apoptosis ; radiation effects ; Electromagnetic Fields ; Hep G2 Cells ; Humans ; Membrane Potential, Mitochondrial ; physiology ; radiation effects ; Time Factors

Based on multi-layer dielectric model of spherical biological cell, a simulating method of frequency characteristics of inner and outer membranes is presented in this paper. Frequency-domain analysis showed that inner and outer membranes subjected to pulsed electric field exhibit band-pass and low-pass filter characteristics, respectively. A calculating method of the transmembrane potential of inner and outer membranes induced by time-varying electric field was introduced, and the window effect between electric field and transmembrane potential was also analyzed. When the duration is reduced from microsecond to sub-microsecond, and to nanosecond, the target induced was from the outer membrane to inner membrane gradually. At the same time, the field intensity should be increased to induce corresponding bioelectric effects. Window effect provides theoretical guidance to choosing reasonable parameters for application of pulsatile electric field in tumor treatment.
Cell Membrane ; physiology ; radiation effects ; Computer Simulation ; Electromagnetic Fields ; Humans ; Membrane Potentials ; physiology ; radiation effects ; Models, Biological

In the light of optical theory, we advanc an ultra-wideband impulse radiating antenna (IRA) which is composed of an ellipsoidal reflector and a cone radiator. The high-intensity ultra-short electric pulses radiated by IRA can be transferred into the deep target in tissue non-invasively and be focused effectively. With the focused picosecond electric pulses, the organelles (mitochondria) transmembrane potential shall change to collapse under which the tumor cells will be targetly induced to apoptosis, so the method of non-invasive treatment of tumors would be achieved. Based on the time-domain electromagnetic field theory, the propagation characteristics of picosecond electric pulses were analyzed with and without the context of biological tissue, respectively. The results show that the impulse characteristics of input pulse were maintained and the picosecond electric pulses can keep high resolution in target areas. Meanwhile, because of the dispersive nature of medium, the pulse amplitude of the pulses will attenuate and the pulse width will be broadened.
Apoptosis ; radiation effects ; Electric Stimulation Therapy ; methods ; Electrodes ; Electromagnetic Phenomena ; Electroporation ; methods ; Humans ; Neoplasms ; pathology ; therapy

This was a study aimed to observe the proliferating ability inhibited by energy controllable steep pulse (ECSP) and to detect the expression of gene with relation to the proliferating ability of the tumor in breast cancer cell line; the possible mechanisms were also addressed. Human breast cancer cell line MDA-MB-231 was treated with ECSP; the apoptosis and the expression of tumor suppressor gene--Rb genes and E2F1 genes in ECSP group and control group were detected by TUNEL staining and Reverse Transcripitional PCR respectively. ECSP was found to inhibit the proliferating ability of breast cancer cells markedly, the cell amount in ECSP group decreased and the TUNEL positive cells increased obviously, compared to control; 24 hours after treatment the expression of Rb genes mRNA increased, whereas the expression of E2F1 mRNA decreased. These findings indicate that the proliferating ability of breast cancer cells can be inhibited by ECSP markedly, the apoptosis of breast cancer cell can be induced by ECSP, and the Rb genes and E2F1 genes may be involved in the course.
Apoptosis ; radiation effects ; Breast Neoplasms ; pathology ; Cell Line, Tumor ; Cell Proliferation ; radiation effects ; Electric Stimulation Therapy ; methods ; Electromagnetic Fields ; Electroporation ; methods ; Female ; Humans

The aim of our study was to determine the effects of energy controllable steep pulse (ECSP) on the cytoskeleton of human ovarian cancer cells SKOV3. SKOV3 cells were divided into five groups under ECSP treatment with different parameters (frequency, pulse duration, peak value of voltage). The positive control group included SKOV3 cells treated with volchicine; the negative control group included SKOV3 cells subjected to sham-lightning stroke. Rhodamine-phalloidine was used to label microfilament directly. After using immunofluorescence to label microbules, we observed them by means of Confocal Laser Scanning Microscope. Making specimen and using electronmicroscope, we observed the ultramicrostructure of cystoskeleton. The results showed that ECSP-treated-SKOV3 cells lost their normal cystoskeleton network structure. There were obvious microfilament disaggregation, diffused skeleton protein, and disappearance of cystoskeleton network structure. Also noticeable were microbule disaggregation, reduction of pseudopod, obvious microfilament disaggregation, permutation disorder and structure disappearance. Moreover, this effect bears a direct relation with dosage.
Cell Line, Tumor ; Cytoskeleton ; ultrastructure ; Electric Conductivity ; Electromagnetic Fields ; Electroporation ; Female ; Humans ; Ovarian Neoplasms ; pathology ; Pulse

This experiment was designed to study the apoptosis and related mechanism of adherent liver tumor cells (SMMC-7721) and adherent normal liver cells (HL-7702) when they were exposed to the steep pulse generated by the steep pulse apparatus for tumor treatment. The results showed that the steep pulse of 200 V could induce tumor cells apoptosis. The tumor cells presented with their apoptosis when they were exposed to the steep pulse from 200 V to 250 V. Laser scanning confocal microscopy was used to make a real time study of calcium burst when the adherent tumor cells were exposed to the steep pulse. The results showed:On the condition of no extracellular Ca2+, the concentration of Ca2+ in tumor cells exposed to the steep pulse of 150 V did not change; the concentration of Ca2+ in tumor cells exposed to the steep pulse of 200 V decreased; the concentration of Ca2+ in tumor cells exposed to the steep pulse of 250 V decreased more evidently. On the condition of existing extracellular Ca2+, the concentration of Ca2+ in tumor cells exposed to the steep pulse of 150 V did not change; the concentration of Ca2+ in tumor cells exposed to the steep pulse of 200 V decreased little; the concentration of Ca2+ in tumor cells exposed to the steep pulse of 250 V reduced little, too. Maybe the change of calcium burst in the tumor cells is the mechanism of apoptosis when cells are exposed to the steep pulse.
Apoptosis ; radiation effects ; Calcium ; metabolism ; Electricity ; Electromagnetic Fields ; Hepatocytes ; cytology ; pathology ; Humans ; Liver Neoplasms ; metabolism ; pathology ; Microscopy, Confocal ; Tumor Cells, Cultured

In recent years, many experts have done some researches on experiment and mechanism of intracellular electromanipulation (IEM) under nanosecond pulsed electric field (nsPEF). The experiment results have shown that nsPEF could not induce electroporation of cell membrane, but could induce intracellular effects such as apoptosis, calcium release, enhancement of gene expression, and fragmentation of DNA and chromosome. In order to account for the phenomenon, researchers believe that when the pulse width of the pulsed electric field is larger than the charging time of plasma membrane, the pulsed electric field mainly targets on the outer membrane of cell; and that the effect of the pulsed electric field on nucleus and nuclear membrane increases with the decrease of the pulse width. It is also believed that the effect of electroporation changes from the outer membrane to intracellular electromanipulation when the pulse width decreases to a value being smaller than the charging time of plasma membrane.
Apoptosis ; Calcium ; metabolism ; Cell Membrane ; metabolism ; Cell Nucleus ; metabolism ; Cell Physiological Phenomena ; Electromagnetic Fields ; Electroporation ; Gene Expression