目的:探讨老年手术患者椎管内麻醉后应用异丙酚镇静,脑电双频指数、异丙酚血药浓度和镇静深度之间的相关性[1]。方法:48例ASAⅠ~Ⅱ级择期手术患者,分为老年组(65~85岁)和年轻组(18~40岁),每组24例。为尽快达到稳态血药浓度,采用靶控输注方式给药。异丙酚靶浓度从0.5 μg/mL起逐渐增加,直至患者对轻推无反应(意识消失),每个浓度维持5min。连续记录EEG参数,在每一稳态血药浓度末,记录BIS、95%SEF, 桡动脉取血(高效液相色谱法测定异丙酚血药浓度),并评定镇静深度(OAA/S评分法)。用Spearman’s等级相关进行相关分析,并计算预测概率 (Pk) 值。结果:两组BIS (r=0.935~0.955) 与镇静水平的相关性优于血药浓度(r =0.849~0.870)和95%SEF(r =0.503~0.571),BIS的Pk值高(0.942~0.972)。在同一镇静评分(OAA/S 4~1)时,老年组BIS值明显高于年轻组(Plt;0.01),而血药浓度低于年轻组(Pgt;0.05)。结论:BIS在监测异丙酚镇静水平及预测意识消失方面有重要价值,在同一镇静评分时,老年人BIS值高于年轻人。
Objective To measure the anatomical parameters related to lumbar unilateral transverse process-pedicle percutaneous vertebral augmentation, and to assess the feasibility and safety of the approach. Methods A total of 300 lumbar vertebral bodies of 60 patients were randomly selected, and vertebral augmentation were simulated 600 times on X-ray and CT image with unilateral conventional transpedicle approach (control group) and unilateral transverse process-pedicle approach (experimental group). The distance between the entry point and the midline of the vertebral body, the puncture inner inclination angle, the safe range of the puncture inner inclination angle, and the puncture success rate were measured and compared between the left and right with the same approach, and between the two approaches. Results The distance between the entry point and the midline gradually increased from L1 to L5 on both sides in the 2 groups. In the control group, the right sides distance of L1 and L2 was much longer than the left sides, and the right sides distance of L1, L2, and L5 was much longer than the left sides in the experimental group (P<0.05); the distance of the experimental group between the entry point and the midline was much longer than the control group regardless of the sides from L1 to L5 (P<0.05). In the experimental group, the right maximum inner inclination angle from L1 to L5, the right middle inner inclination angle from L1 to L5, and the right minimum inner inclination angle from L1, L2, L4, L5 were significantly larger than the left side (P<0.05). The maximum inner inclination angle and the middle inner inclination angle presented increased tendency, the tendency of minimum inner inclination angle was ambiguous, however, the all inner inclination angles were much larger than those in control group among the different lumbar levels(P<0.05). There was no significant difference of the safe range of the puncture inner inclination angle between 2 sides in 2 groups at L1 to L5 (P<0.05); the safe range angle in experimental group at L5 was significantly smaller than that in control group (P<0.05). The difference in total puncture success rate of all lumbar levels was significant between the experimental group and the control group (χ2=172.252, P=0.000); the puncture success rates of the experimental group were higher than those in the control group form L1 to L4 (P<0.05), but no significant difference was found in the puncture success rate between 2 groups at L5 (P>0.05). Conclusion Compared with the unilateral conventional transpedicle approach, the entry point of the unilateral transverse process-pedicle approach is localized outside, the puncture inclination angle is wider, and the puncture success rate is higher. It shows that the unilateral transverse process-pedicle approach is safer and more reliable than the unilateral conventional transpedicle approach.
ObjectiveTo study the anatomical characteristics of blood vessels in the lateral segment of the vertebral body through the surgical approach of oblique lumbar interbody fusion (OLIF) using MRI imaging, and evaluate its potential vascular safety zone. Methods The lumbar MRI data of 107 patients with low back and leg pain who met the selection criteria between October 2019 and November 2022 were retrospectively analyzed. The vascular emanation angles, vascular travel angles, and the length of vessels in the lateral segments of the left vertebral body of L1-L5, as well as the distance between the segmental vessels in different Moro junctions of the vertebral body and their distances from the edges of the vertebrae in the same sequence (bottom marked as I, top as S) were measured. The gap between the large abdominal vessels and the lateral vessels of the vertebral body was set as the lateral vascular safe zones of the lumbar spine, and the extent of the safe zones (namely the area between the vessels) was measured. The anterior 1/3 of the lumbar intervertebral disc was taken as the simulated puncture center, and the area with a diameter of 22 mm around it as the simulated channel area. The proportion of vessels in the channel was further counted. In addition, the proportions of segmental vessels at L5 without a clear travel and with an emanation angel less than 90° were calculated. Results Except for the differences in the vascular emanation angles between L4 and L5, the vascular travel angles between L1, L2 and L4, L5, and the length of vessels in the lateral segments of the vertebral body among L1-L4 were not significant (P>0.05), the differences in the vascular emanation angles, vascular travel angles, and the length of vessels between the rest segments were all significant (P<0.05). There was no significant difference in the distance between vessels of L1, L2 and L2, L3 at Moro Ⅰ-Ⅳ junctions (P>0.05), in L3, L4 and L4, L5 at Ⅱ and Ⅲ junction (P>0.05). There was no significant difference in the vascular distance of L2, L3 between Ⅱ, Ⅲ junction and Ⅲ, Ⅳ junction, and the vascular distance of L3, L4 between Ⅰ, Ⅱ junction and Ⅲ, Ⅳ junction (P>0.05). The vascular distance of the other adjacent vertebral bodies was significant different between different Moro junctions (P<0.05). Except that there was no significant difference in the distance between L2I and L3S at Ⅰ, Ⅱ junction, L3I and L4S at Ⅱ, Ⅲ junction, and L2I and L3S at Ⅲ, Ⅳ junction (P>0.05), there was significant difference of the vascular distance between the bottom of one segment and the top of the next in the other segments (P<0.05). Comparison between junctions: Except for the L3S between Ⅰ, Ⅱ junction and Ⅱ, Ⅲ junction, and L5S between Ⅰ, Ⅱ junction and Ⅱ, Ⅲ and Ⅲ, Ⅳ junctions had no significant difference (P>0.05), there were significant differences in the distance between the other segmental vessels and the vertebral edge of the same sequence in different Moro junctions (P<0.05). The overall proportion of vessels in the simulated channels was 40.19% (43/107), and the proportion of vessels in L1 (41.12%, 44/107) and L5 (18.69%, 20/107) was higher than that in the other segments. The proportion of vessels in the channel of Moro zone Ⅰ (46.73%, 50/107) and zone Ⅱ (32.71%, 35/107) was higher than that in the zone Ⅲ, while no segmental vessels in L1 and L2 were found in the channel of zone Ⅲ (χ2=74.950, P<0.001). Moreover, 26.17% (28/107) of the segmental vessels of lateral L5 showed no movement, and 27.10% (29/107) vascular emanation angles of lateral L5 were less than 90°. Conclusion L1 and L5 segmental vessels are most likely to be injured in Moro zones Ⅰ and Ⅱ, and the placement of OLIF channels in L4, 5 at Ⅲ, Ⅳ junction should be avoided. It is usually safe to place fixation pins at the vertebral body edge on the cephalic side of the intervertebral space, but it is safer to place them on the caudal side in L1, 2 (Ⅰ, Ⅱ junction), L3, 4 (Ⅲ, Ⅳ junction), and L4, 5 (Ⅱ, Ⅲ, Ⅳ junctions).
Cognitive enhancement refers to the technology of enhancing or expanding the cognitive and emotional abilities of people without psychosis based on relevant knowledge of neurobiology. The common methods of cognitive enhancement include transcranial direct current stimulation (tDCS) and cognitive training (CT). tDCS takes effect quickly, with a short effective time, while CT takes longer to work, requiring several weeks of training, with a longer effective time. In recent years, some researchers have begun to use the method of tDCS combined with CT to regulate the cognitive function. This paper will sort out and summarize this topic from five aspects: perception, attention, working memory, decision-making and other cognitive abilities. Finally, the application prospect and challenges of technology are prospected.
Objective To analyze clinicopathologic characteristics of 1 008 patients with gallbladder polyps by minimally invasive gallbladder-preserving surgery, and to explore hemostatic effect of 0–4 ℃ cold saline plus different concentrations norepinephrines in flushing gallbladder mucosa bleeding. Methods The clinical data of 1 008 patients with gallbladder polyps by the minimally invasive gallbladder-preserving surgery from 2009 to 2016 in the General Hospital of Xinjiang Military Command were retrospectively analyzed. The clinicopathologic types of gallbladder polyps and the relationship between the operation time and the recurrence of gallbladder polyps were analyzed, the hemostatic effects of 0–4 ℃ cold saline plus different concentrations (0, 16, 24, and 30 mg/L) norepinephrines in flushing gallbladder mucosa bleeding (The hemostatic effect was reflected by the time of flushing gallbladder mucosa bleeding) were compared. Results One thousand patients with non-tumorous gallbladder polyps successfully underwent the minimally invasive gallbladder-preserving surgery, another 8 cases patients with tumorous gallbladder polyps underwent the cholecystectomy immediately. There were 128 cases of single polyps and 880 cases of multiple polyps. The polyp diameters of 910 cases were 5–10 mm and 98 cases were 10–15 mm. The pathological analysis indicated that there were 912 (90.5%) cases of the cholesterol polyps, 74 (7.3%) cases of the inflammatory polyps, 14 (1.4%) cases of the adenoid hyperplasia, and 8 (0.8%) cases of the neoplastic polyps [adenoma 6 cases, adenocarcinoma (T0N0M0) 2 cases]. The gallbladder polyps recurrences were found in 30 (3.0%) cases during 1–8 years of follow-up (average 4 years), all of them were the multiple and cholesterol polyps. The flushing gallbladder mucosa bleeding time of 0–4 ℃ cold saline plus 0, 16, 24, and 30 mg/L concentraions norepinephrine was (44±5) min, (33±6) min, (17±5) min, and (17±4) min in the 125, 230, 555, and 98 patients with gallbladder polyps, respectively. The time of flushing gallbladder mucosa bleeding between the other concentration groups had significant difference (P<0.05) except for between the 24 mg/L concentration group and the 30 mg/L concentration group (P>0.05). The operation time was (62±21) min and (60±19) min of the 30 patients with gallbladder polyps recurrence and the 970 patients without gallbladder polyps recurrence, which had no significant difference (P>0.05). Conclusions Cholesterol polyp is a common pathological type of gallbladder polyp, inflammatory polyp and adenomyosis polyp are uncommon, and multiple polyps are common. Hemostatic effects of 0–4 ℃ cold saline plus different concentraions norepinephrine in flushing gallbladder mucosa bleeding are desirable, expecially at a 24 mg/L concentraion norepinephrine is the most effective. No correlation is found between operation time and recurrence of gallbladder polyp.