Combined distal tibial rotational osteotomy and proximal growth plate modulation for treatment of infantile Blount's disease

Infantile Blount's disease is a condition that causes genu varum and internal tibial torsion. Treatment options include observation, orthotics, corrective osteotomy, elevation of the medial tibial plateau, resection of a physeal bar, lateral hemi-epiphysiodesis, and guided growth of the proximal tibial physis. Each of these treatment options has its disadvantages. Treating the coronal deformity alone(genu varum) will result in persistence of the internal tibial torsion(the axial deformity). In this report, we describe the combination of lateral growth modulation and distal tibial external rotation osteotomy to correct all the elements of the disease. This has not been described before for treatment of Blount's disease. Both coronal and axial deformities were corrected in this patient. We propose this combination(rather than the lateral growth modulation alone) as the method of treatment for early stages of Blount's disease as it corrects both elements of the disease and in the same time avoids the complications of proximal tibial osteotomy.

A Novel Square-wave Pulse Rotation Modulation Strategy for Modular Multilevel Converters

悬浮直流电容电压的均衡问题是模块组合多电平变换器（modular multilevel converter,MMC）的关键问题之一。提出一种可实现MMC直流电容电压平衡的方波脉冲循环调制（square-wave pulse rotation modulation,SWPRM）策略,在保证合成的阶梯波输出波形不变的前提下,根据MMC的拓扑结构和工作原理,对传统方波脉冲列进行脉冲优化,并按照一定的次序和切换周期进行循环和判断反相调整,获得的循环方波脉冲列作为最终驱动脉冲用于实现对MMC的控制。实验结果表明,采用提出的方波脉冲循环调制策略无需任何电容电压控制措施,在较低开关频率下,实现了MMC各功率单元间有功能量的平均分配和直流电容电压的均衡。

Satellite Rotation Modulation Measurement System Based on Ultrasonic Motor

Rotation modulation technique is generally used to improve the performance of aviation and marine inertial navigation system.Considering of the performance requirements from current aerospace to MEMS micro-nano inertial device,this paper proposedrotary inertial device modulation technology application methods on the satellite.Firstly,taking the advantage ofultrasonic motor,like high resolution,fast response,electromagnetic compatibility,a lowmagnetic,high-precision and appropriate for use on satellite ultrasonic motor modulation turntable was developed.Then,through theoretical modeling and simulations,the rotation modulation technology was verified to improvethe precise of satellite attitude measurementeffectively,equivalent toimprove the accuracy of MEMS gyro over an order of magnitude.This work helpsachieve the application of rotation modulation technology in aerospace and acceleratethe promotion of the MEMS gyro in satellite attitude measurement.

ROTATION CONSTELLATION FOR DIFFERENTIAL UNITARY SPACE-TIME MODULATION

A new constellation which is the multiplication of the rotation matrix and the diagonal matrix ac- cording to the number of transmitters is proposed to increase the diversity product, the key property to the performance of the differential unitary space-time modulation. Analyses and the simulation results show that the proposed constellation performs better and 2dB or more coding gain can be achieved over the traditional cyclic constellation.

A tightly coupled rotational SINS/CNS integrated navigation method for aircraft

Strapdown inertial navigation system(SINS)/celestial navigation system(CNS)integrated navigation is widely used to achieve long-time and high-precision autonomous navigation for aircraft.In general,SINS/CNS integrated navigation can be divided into two integrated modes:loosely coupled integrated navigation and tightly coupled integrated navigation.Because the loosely coupled SINS/CNS integrated system is only available in the condition of at least three stars,the latter one is becoming a research hotspot.One major challenge of SINS/CNS integrated navigation is obtaining a high-precision horizon reference.To solve this problem,an innovative tightly coupled rotational SINS/CNS integrated navigation method is proposed.In this method,the rotational SINS error equation in the navigation frame is used as the state model,and the starlight vector and star altitude are used as measurements.Semi-physical simulations are conducted to test the performance of this integrated method.Results show that this tightly coupled rotational SINS/CNS method has the best navigation accuracy compared with SINS,rotational SINS,and traditional tightly coupled SINS/CNS integrated navigation method.

Modified Omega-K algorithm for processing helicopter-borne frequency modulated continuous waveform rotating synthetic aperture radar data

With appropriate geometry configuration, helicopter- borne rotating synthetic aperture radar （ROSAR） can break through the limitations of monostatic synthetic aperture radar （SAR） on forward-looking imaging. With this capability, ROSAR has extensive potential applications, such as self-navigation and self-landing. Moreover, it has many advantages if combined with the frequency modulated continuous wave （FMCW） technology. A novel geometric configuration and an imaging algorithm for helicopter-borne FMCW-ROSAR are proposed. Firstly, by per- forming the equivalent phase center principle, the separated trans- mitting and receiving antenna system is equalized to the case of system configuration with antenna for both transmitting and receiving signals. Based on this, the accurate two-dimensional spectrum is obtained and the Doppler frequency shift effect in- duced by the continuous motion of the platform during the long pulse duration is compensated. Next, the impacts of the velocity approximation error on the imaging algorithm are analyzed in de- tail, and the system parameters selection and resolution analysis are presented. The well-focused SAR image is then obtained by using the improved Omega-K algorithm incorporating the accurate compensation method for the velocity approximation error. FJnally, correctness of the analysis and effectiveness of the proposed al- gorithm are demonstrated through simulation results.

Modeling of the influences of multiple modulated electron cyclotron current drive on NTMs in rotating plasma

In this work, physical models of neoclassical tearing modes （NTMs） including bootstrap current and multiple modulated electron cyclotron current drive model are applied. Based on the specific physical problems during the suppression of NTMs by driven current, this work compares the efficiency of continuous and modulated driven currents, and simulates the physical processes of multiple modulated driven currents on suppressing rotating magnetic island. It is found that when island rotates along the poloidal direction, the suppression ability of continuous driven current can be massively reduced due to current deposition outside the island separatrix and reverse deposition direction at the X point, which can be avoided by current drive modulation. Multiple current drive has a better suppressing effect than single current drive. This work gives realistic numerical simulations by optimizing the model and parameters based on the experiments, which could provide references for successful suppression of NTMs in future advanced tokamak such as international thermonuclear experimental reactor.

AA3连续流动分析仪驱动马达带动转轴旋转模块设计及土壤中总氮测试

针对连续流动分析仪检测土壤中总氮时遇到的问题,研制了驱动马达带动转轴旋转模块.该模块可使混合的样品、试剂和空气保持在合适的温度区间进行中和反应,以利于后期利用连续流动分析仪在最优化条件下对样品进行检测分析,可将总氮的检出限从16.4µg/L降低至10.0µg/L,从而提高连续流动分析仪对样品的分析精度.

100 kHz弹光调制器多功能调制仿真

针对弹光调制器(photoelastic modulator,PEM)在超高速全偏振领域的测量问题,研究一种目标频率在100 kHz附近的圆型PEM,由弹光晶体和2个方位角相差45°的压电驱动器组成。通过理论计算弹光晶体谐振频率和压电驱动器振动频率,当二者频率达到一致时,PEM工作在谐振状态,此时PEM的调制效率达到最高。当PEM达到谐振状态并趋于稳定后,调节两压电驱动器驱动电压的幅值与相位,实现纯驻波模式和纯行波模式两种特殊调制,纯驻波模式可实现纯电控制下调制快轴的延迟量和方位角;纯行波模式可实现纯电控制下调制快轴以PEM谐振频率的半频速度高速旋转。最后,利用COMSOL有限元仿真模拟两种调制模式下PEM,验证两种调制状态下的PEM振型及其快轴方向,表明PEM可实现多功能弹光调制,为后续偏振测量提供理论支撑。

不同手术类型对乳腺癌放射治疗精确度的影响

目的研究乳腺癌改良的根治性乳房切除术(根治)、早期保乳手术(保乳)、假体植入3种手术类型对其放射治疗精确度的影响,为不同手术类型的患者制定个性化放疗方案。方法随机选择2023年2—7月就诊于厦门大学附属第一医院肿瘤放射治疗科行旋转调强治疗的乳腺癌放射治疗患者37例进行回顾性分析,其中乳腺根治患者13例,保乳患者11例,假体植入患者13例。每例患者除首次锥形束CT(Cone beam CT,CBCT)复位外,每5天在治疗前采集1次CBCT,并与定位图像进行配准,记录腹背(ventral-dorsal,VRT)、头脚(cranial-caudal,LNG)、左右(lateral,LAT)3个方向的误差值。共收集误差数据150组,其中根治61组,保乳38组,假体植入51组,并对误差进行分析。结果根治组在三维方向的摆位误差分别为:VRT[-1.80(-3.20,-0.20)]mm,LNG[-2.20(1.10,3.05)]mm,LAT[-3.30(-1.10,1.65)]mm,保乳组在三维方向的摆位误差分别为:VRT[-0.20(-1.03,1.03)]mm,LNG[1.40(-2.20,3.00)]mm,LAT[0.15(-3.05,2.90)]mm,假体植入组在三维方向的摆位误差分别为:VRT[-1.00(-3.00,0.70)]mm,LNG[-1.00(-3.00,1.80)]mm,LAT[0(-2.00,2.80)]mm,对3组数据进行K个独立样本的非参数检验和事后多重比较显示,根治组和保乳组在VRT方向比较,差异有统计学意义(P<0.05)。3组在LNG,LAT方向上比较,差异无统计学意义(P>0.05)。3组不同手术类型在三维方向上的计划靶区(planning target volume,PTV)边界分别为根治组(4.18,6.19,7.52 mm),保乳组(4.71,6.53,8.01mm),假体植入组(6.17,7.53,6.29 mm)。结论不同手术类型对乳腺癌放射治疗精确度影响不同,在VRT方向上根治组的摆位误差大于保乳组,可根据不同的手术类型个性化选择固定方式以提高患者的摆位精确度。除此之外,每个肿瘤中心可根据不同的手术类型计算适合自己中心的PTV外扩范围以给予临床医生建议。

基于双惯导协同的误差参数估计与融合算法

针对无外界参考信息的双惯导系统长期使用后系统参数发生变化导致导航精度降低,且系统间缺少信息融合的问题,提出了一种同等精度双惯导协同误差估计与信息融合算法。首先以两套旋转式惯导间相对速度误差与位置误差作为观测量,建立包含陀螺和加速度计零偏的导航误差模型。然后分析了不同转序下各状态量的可观测性,采用Kalman滤波对各参数进行有效估计,估计完成后对双惯导系统进行误差补偿及信息融合。仿真结果表明,所提算法对陀螺零偏估计精度优于0.002(°)/h,加速度计零偏估计精度优于4μg,在抑制误差发散的同时,提高了旋转式惯导导航精度。

不同体积脑转移瘤对容积旋转调强计划摆位误差的敏感性

目的:探讨不同体积脑转移瘤对容积旋转调强(VMAT)计划摆位误差的敏感性。方法:在头部CT图像上设置5个球形模拟多发脑转移瘤,体积依次为0.5 cm^(3)(V1)、1.7 cm^(3)(V2)、4.0 cm^(3)(V3)、8.1 cm^(3)(V4)和14.0 cm^(3)(V5)。制定单等中心5弧非共面VMAT计划,等中心点到各靶区的距离为5 cm。通过旋转治疗床模拟绕Z轴旋转的摆位误差θ(-3.0°~3.0°,步长为0.5°),通过移动等中心在三维轴向(X/Y/Z)上的位置模拟平移误差(-3.0 mm~3.0 mm,步长为0.5 mm),不改变优化条件的情况下,重新计算剂量分布。记录旋转、平移后靶区的覆盖率,并归一到未发生摆位误差下的相对覆盖率。运用线性回归法,分析不同体积脑转移瘤靶区覆盖率与体积的相关性。结果:随着旋转误差的增加,靶区相对覆盖率逐渐下降。恒定旋转误差情况下,靶区相对覆盖率与体积呈线性相关(θ=0.5°,P=0.006;θ=1.0°,P=0.024;θ=1.5°,P=0.028;θ=2.0°,P=0.019;θ=2.5°,P=0.014;θ=3.0°,P=0.007),随着靶区体积增加,靶区相对覆盖率逐渐上升。当旋转误差θ<0.5°时,无论大体积靶区(14.0 cm^(3))还是小体积靶区(0.5 cm^(3)),其靶区相对覆盖率变化均小于2%。随着平移误差的增大,靶区相对覆盖率逐渐下降。相对于大体积靶区,小体积靶区对平移误差更为敏感。当平移误差<0.5 mm时,大体积靶区相对覆盖率变化<2%,而小体积靶区(0.5 cm^(3))的相对覆盖率下降接近5%。结论:旋转误差恒定情况下,靶区相对覆盖率与体积呈线性关系。相对于大体积靶区,小体积靶区对平移误差更为敏感。建议对于小体积靶区在实施立体定向放射外科VMAT计划时,旋转误差应控制在0.5°以内,平移误差应控制在0.5 mm以内。

可调频旋转磁场仪的装置设计与磁场测量

在教学演示仪器中利用三相交流电产生旋转磁场的传统方法存在仪器损耗大、安全隐患多、成本昂贵等问题。本论文设计了一种可调频旋转磁场的产生装置,在四个辐射状横放的带铁芯螺线管中通入低压直流电,通过PLC板编程对电流进行换向,同时改变换向时间可使置入装置中心的小磁针的偏转周期发生变化,从而达到可调频的效果。螺线管中通入单相恒定直流电时,小磁针不发生偏转;通入双相矩形脉冲电流时,小磁针以45°角步进旋转。磁场方向的转速取决于电流的换向频率。该装置不仅规避了传统方法的不足,且同时兼具定性演示和定量测量双重功能,可作为一款性能优异的实验教学仪器。

EGFR基因突变对宫颈癌容积旋转调强放疗的效果及预后的影响

目的分析表皮生长因子受体(EGFR)基因突变对宫颈癌容积旋转调强放疗的临床疗效及预后的影响。方法选取2019~2021年收治的EGFR基因突变宫颈癌患者50例为研究组,另选取EGFR基因未突变宫颈癌患者50例为对照组,2组均行容积旋转调强放疗治疗。对比2组临床疗效、免疫功能、肿瘤标志物、基质金属蛋白酶、生长因子水平及预后情况。结果与对照组相比,研究组患者客观缓解率、疾病控制率较高,6个月生存率、1年生存率较高(P<0.05)。治疗后,2组患者CD3^(+)、CD4^(+)、CD4^(+)/CD8^(+)水平降低,但与对照组比较研究组较高,CD8^(+)水平升高,但与对照组比较研究组较低(P<0.05)。治疗后,2组患者糖类抗原125(CA125)、鳞状细胞癌抗原(SCC-Ag)、癌胚抗原(CEA)、基质金属蛋白酶-2(MMP-2)、基质金属蛋白酶-9(MMP-9)、血管内皮生长因子(VEGF)、碱性成纤维细胞生长因子(bFGF)水平降低,且与对照组比较研究组较低(P<0.05)。结论EGFR基因突变可提升容积旋转调强放疗治疗宫颈癌的临床疗效,且可改善患者预后情况,提升生存率。

容积旋转调强放疗治疗鼻咽癌的效果及急性口腔黏膜反应分析

目的分析容积旋转调强放疗(VMAT)治疗鼻咽癌的效果及对急性口腔黏膜反应的影响。方法采取前瞻性研究,选择2021年10月至2022年10月我院收治的80例鼻咽癌患者作为研究对象,按随机数字表法分为两组,各40例。对照组采取静态调强适形放疗(s-IMRT)治疗,观察组采取VMAT治疗。治疗后,比较两组患者临床疗效、治疗效率(加速器跳数、治疗时间)、计划靶区剂量参数[肿瘤靶区(PGTV)、计划靶区(PTV):均匀性指数(HI)、适形性指数(CI)、最小剂量(D_(min))、最大剂量(D_(max))、平均剂量(D_(mean))]、危及器官剂量参数(腮腺D_(mean)、颞颌关节V_(40))、皮肤、口腔黏膜反应分级;采用双变量相关tau-b(K)分析,急性口腔黏膜反应分级与腮腺D_(mean)、颞颌关节V_(40)剂量的关系。结果治疗后,观察组总有效率(92.50%)高于对照组(75.00%)(P<0.05);观察组加速器跳数、治疗时间[(658.04±103.36)MU、(3.14±0.46)min]低于对照组[(1844.25±462.47)MU、(7.84±1.09)min](P<0.05);观察组PGTV的CI(0.45±0.09)高于对照组(0.37±0.08),PTV的CI(0.40±0.16)高于对照组(0.29±0.08),D_(mean)[(64.38±4.43)Gy]低于对照组[(66.49±5.87)Gy](P<0.05);观察组腮腺D_(mean)、颞颌关节V_(40)[(34.14±5.29)Gy、(4.29±0.67)Gy]低于对照组[(37.05±6.33)Gy、(5.11±1.32)Gy](P<0.05);观察组急性口腔黏膜反应发生率(37.50%)低于对照组(72.50%)(P<0.05);采用双变量相关tau-b(K)分析,急性口腔黏膜反应分级与腮腺D_(mean)、颞颌关节V_(40)剂量呈正相关(r>0,P<0.05)。结论VMAT治疗鼻咽癌能够有效调节靶区剂量,控制危及器官剂量,降低急性口腔黏膜反应发生率,提升治疗效率。

第三代高速摆轮分拣机设计与分析

摆轮分拣机由于其对场地的需求较小、购买和维护成本较低,已成为物流仓储配送中心常用的分拣设备。近年来,摆轮分拣机的技术不断迭代、性能不断优化,目前已发展到第三代产品。文章以自行研发的第三代高速摆轮分拣机为对象,首先阐述其技术参数及工作原理,其次详细分析输送组件和旋转组件的设计,最后结合实际项目说明第三代分拣机的应用效果。

威伐光联合调制中频电疗治疗肩袖损伤的临床疗效

目的观察威伐光联合调制中频电疗治疗肩袖损伤的临床疗效。方法选取南京大学医学院附属金陵医院(东部战区总医院)2022年1月至2023年5月肩袖损伤患者50例,以随机数字表将其分为对照组和观察组,每组25例,对照组给予威伐光照射治疗,观察组给予威伐光照射联合调制中频电疗治疗。比较两组治疗前后视觉模拟评分量表(VAS)评分和Constant-Murley肩关节功能评分量表(CMS)评分变化。结果两组患者治疗后VAS评分降低,且与对照组(3.56±0.96)分相比,观察组VAS评分(2.96±0.73)分较低,差异有统计学意义(P<0.05);治疗后较治疗前两组CMS评分升高,且观察组CMS评分(78.80±8.36)分较对照组(71.60±7.18)分更高,差异有高度统计学意义(P<0.01)。结论威伐光联合调制中频电疗能够显著缓解肩袖损伤患者的肩痛症状,改善肩关节功能。

Randomized study on the safety and efficacy of dual-axis rotational versus standard coronary angiography in the Chinese population

Background Dual-axis rotational coronary angiography （DARCA） was developed as an innovative adaptation of rotational angiography （RA）, but it requires a longer coronary injection compared to standard coronary angiography （SA）. As the body of the average Chinese patient is smaller than that of most western patients, with the same contrast injection time, the risk of complications from the contrast agent is increased in this population. The purpose of this study was to assess the clinical safety and efficacy of DARCA in the diagnosis of coronary artery disease （CAD） in the Chinese population by directly comparing it to SA. Methods Two hundred Chinese patients were randomized to either the SA group （n=100） or DARCA group （n=100）. Contrast utilization, radiation exposure and procedure time were recorded for each modalities. Blood pressure （BP）, heart rate （HR） pre and post injection symptoms and any arrhythmias were recorded. Results Compared to the SA group, there was a 42% reduction in contrast utilization, 55% reduction in radiation exposure and a 31% shorter procedure time in the DARCA group. In both groups, there were slight declines in the systolic BP values in the left coronary artery （LCA） post injection （P 〈0.01）. Moreover, post injection HRs for the LCA were also reduced in the DARCA group （P 〈0.01）. But all of these changes were small, transient and without clinical importance. Only one patient （1%） in the DARCA group had an attack of ventricular tachycardia immediately post injection and it resolved by itself during LCA angiography. No arrhythmias occurred in the SA group. Conclusion DARCA is a safe, efficient, and clinically comparable alternative to SA in the diagnosis of coronary artery disease in the Chinese population with less contrast utilized, which is less radiation exposure and a shorter procedure

Robust and high-speed rotation control in optical tweezers by using polarization synthesis based on heterodyne interference

The rotation control of particles in optical tweezers is often subject to the spin or orbit angular momentum induced optical torque,which is susceptible to the mechanical and morphological properties of individual particle.Here we report on a robust and high-speed rotation control in optical tweezers by using a novel linear polarization synthesis based on optical heterodyne interference between two circularly polarized lights with opposite handedness.The synthesized linear polarization can be rotated in a hopping-free scheme at arbitrary speed determined electronically by the heterodyne frequency between two laser fields.The experimental demonstration of a trapped vaterite particle in water shows that the precisely controlled rotation frequency of 300 Hz can be achieved.The proposed method will find promising applications in optically driven micro-gears,fluidic pumps and rotational micro-rheology.

An all-optical buffer based on polarization rotation in an EAM

A theoretical model of the refractive index changes of the TE and TM modes in an electro-absorption modulator （EAM） is deduced. The photon absorption and refractive index changes are analyzed numerically. The influence of pump intensity on the phase difference between the TE and TM modes is studied. The polarization rotation effect is obtained in the EAM, and a novel all-optical fiber loop buffer is designed.