Objectives To evaluate the performances of transcranial Doppler (TCD) and vessel-encoded arterial spin labeling MRI perfusion imaging (VE-ASL) in the evaluation of collateral circulation of cerebral arteries. Methods Thirty patients with unilateral ICA or MCA stenosis diagnosed by TCD and carotid duplex ultrasound and confirmed by MRA underwent VE-ASL. Peak systolic velocity (PSV) of bilateral MCA in the same depth, distal to the stenosis site, was recorded. Cerebral blood flow (CBF) in bilateral MCA territories was measured by VE-ASL. The detection rates of collater-al flow using TCD and VE-ASL were compared. Results TCD revealed that PSV in the ipsilateral and contralateral MCA were (31.6 ± 10.5) cm/s and (83.1 ± 9.2) cm/s, respectively. VE_ASL revealed that CBF in the ipsilateral and contralateral MCA territory were (22.5±9.8) mL·min-1·100g-1 and (31.7±8.3) mL·min-1·100g-1, respectively. The PSV ratio of the ipsi-lateral/contralateral MCA was significantly lower than the CBF ratio of the ipsilateral/contralateral MCA(0.37 ± 0.173 vs. 0.66±0.141, P=0.001). The detection rates of collateral flow using TCD were lower than those using VE-ASL. The detec-tion rate was 26.7% vs. 70% on TCD vs. VE-ASL in anterior collateral circulation (P=0.001), was 16.7% vs. 60% (P<0.001) on TCD vs. VE-ASL in posterior collateral circulation. The total display rate of collateral flow was 36.7%vs. 86.7%on TCD vs. VE-ASL (P<0.001). Conclusions TCD is inferior to VE-ASL in evaluating the collateral circulation because of the limitations including the anatomical variations of the circle of Willis and formation of leptomenigeal anastomoses.

Objective To observe the difference of morphology and phagocytosis between alveolar macrophages (AMs) and pulmonary interstitial macrophages (IMs). Methods AMs were collected by lung lavage and IMs by treatment of the lung tissue with DNAse and collagenase. The two cell populations were analyzed with respect to morphology by transmission electron microscopy, and the variation of these macrophages of phagocytosis were tested by malachite green colorimetry. Results There were great differences in morphology between AMs and IMs. The phagocytosis of AMs was much stronger than that of IMs. Conclusion There is functional and morphological heterogeneity between AMs and IMs. IMs should not be regarded as the precursors to AMs.

Objective To study the anti-calcification function properties of bovine jugular conduit with valves stabilized by dye-mediated photooxidation.Methods Sixteen bovine jugular conduit with valves were divided into two groups and treated with dye-mediated photooxidation(groupⅠ) and glutaraldehyde(group Ⅱ).The bovine jugular vein was cut into pieces and implanted subcutaneously in the 16 weanling SD rats.After 90 days,all the rats were sacrificed and the retrieved specimens were undergone histological examination by electron microscope and microscope.The calcium content was determined by flame atomic absorption spectrophotometer.Results The walls and valves of bovine jugular vein treated by dye-mediated photooxidation had less calcification than those of the group Ⅱ.Conclusion The dye-mediated photooxidation can effectively preserve the calcification of bovine jugular conduit with valves compared with the way treated by glutaraldehyde.

0.05).Follow-up data showed that there were less angina pectoris attack and higher levels of LVEF in LPG comparing with SPG;showing as 1.26?0.72/day vs 1.75?0.88/day(P=0.040)and 57.2?8.6% vs 52.0?8.5%(P=0.037)respectively.Conclusions Long period application of tirofiban following PCI in patients with STEMI is safe and effective,providing alleviation both on angina pectasis and left ventricular ejectory fraction.(J Intervent Radiol,2007,16:796-798)

ObjectiveTo analyze the characteristics of plantar pressure of diabetic patients during gait cycle, and to design a offloading insole with variable stiffness. MethodsThe plantar pressure experiment was carried out and a database including 157 subjects was established. The differences of plantar pressure distribution were analyzed among diabetic patients with and without peripheral neuropathy, and healthy people. The insole pressure area was divided, and porous units were filled in different insole areas according to the pressure gradient. The fed-calf-insole finite element model of diabetic patients was constructed. The simulation analysis of different insole schemes was carried out under the conditions of push-off, footheel-strike and dynamic neutrality posture, and to explore the most reasonable insole stiffness design. ResultsCompared with the healthy group, the percentage of peak pressure and high pressure in the left and right heel areas of diabetic neuropathy patients showed a decreasing trend, in which the left peak pressure was significantly reduced by 11% (P = 0.026) and the percentage of high pressure was significantly reduced by 9.8% (P = 0.02). When the porous elements of 2.5 MPa and 1.9 MPa were used in the high pressure area of the insole metatarsal and high pressure area of the heel, the peak plantar pressure of footheel-strike, dynamic neutral and push-off was reduced by 42.4%, 27.4% and 26.4%, and the peak stress of the soft tissue was reduced by 49.8%, 43.6% and 25.1%, respectively. ConclusionThere is a higher risk of ulcer in the metatarsal region than in the heel region for diabetic patients. The variable stiffness insoles based on the optimization of plantar pressure and internal stress under multi-posture can effectively reduce the peak pressure of plantar and peak stress of soft tissue during walking, which provides a reference for the design of variable stiffness insoles.

Objective An X-shaped cushioning insole with variable stiffness was designed to explore its effects on plantar pressure and internal stress of diabetic patients with toe amputation. Methods Based on CT images, the feet-calf finite element model of diabetic patients with toe amputation was established, and the insole was divided into different areas according to distribution characteristics of the planter pressure. The three-dimensional (3D) printed cushioning insole with an X-shaped sandwich structure was designed. The modulus of the sandwichstructure was changed by changing thickness of the sandwich structure panel. For simulation analysis, the divided area was filled with the X-shaped sandwich structure with different modulus. Results The peak plantar pressure of diabetic patients with toe amputation was in calcaneal region, and the combined insoles with 1. 2 mpanel thickness in toe area, 1. 4 mm panel thickness in metatarsal area, 2. 0 mm panel thickness in middle area and 1. 6 mm panel thickness in heel area had the best decompression effect. Compared with bare feet, the peak pressure in heel area of the insole, the peak pressure in phalangeal head area and the stress in plantar softissues were reduced by 40. 18% , 31. 7% , and 50. 44% , respectively. Conclusions The 3D printed insoles with variable stiffness can effectively reduce surface pressure and internal stress of the sole and reduce probability of the 2nd toe amputation