Combinational therapy with Myc decoy oligodeoxynucleotides encapsulated in nanocarrier and X-irradiation on breast cancer cells

The Myc gene is the essential oncogene in triple-negative breast cancer(TNBC).This study investigates the synergistic effects of combining Myc decoy oligodeoxynucleotides-encapsulated niosomes-selenium hybrid nanocarriers with X-irradiation exposure on the MDA-MB-468 cell line.Decoy and scramble ODNs for Myc transcription factor were designed and synthesized based on promoter sequences of the Bcl2 gene.The nanocarriers were synthesized by loading Myc ODNs and selenium into chitosan(Chi-Se-DEC),which was then encapsulated in niosome-nanocarriers(NISM@Chi-Se-DEC).FT-IR,DLS,FESEM,and hemolysis tests were applied to confirm its characterization and physicochemical properties.Moreover,cellular uptake,cellular toxicity,apoptosis,cell cycle,and scratch repair assays were performed to evaluate its anticancer effects on cancer cells.All anticancer assessments were repeated under X-ray irradiation conditions(fractionated 2Gy).Physicochemical characteristics of niosomes containing SeNPs and ODNs showed that it is synthesized appropriately.It revealed that the anticancer effect of NISM@Chi-Se-DEC can be significantly improved in combination with X-ray irradiation treatment.It can be concluded that NISM@Chi-Se-DEC nanocarriers have the potential as a therapeutic agent for cancer treatment,particularly in combination with radiation therapy and in-vivo experiments are necessary to confirm the efficacy of this nano-drug.

Entropy generation analysis from the time-dependent quadratic combined convective flow with multiple diffusions and nonlinear thermal radiation

Diffusions of multiple components have numerous applications such as underground water flow, pollutant movement, stratospheric warming, and food processing. Particularly, liquid hydrogen is used in the cooling process of the aeroplane. Further, liquid nitrogen can find applications in cooling equipment or electronic devices, i.e., high temperature superconducting(HTS) cables. So, herein, we have analysed the entropy generation(EG), nonlinear thermal radiation and unsteady(time-dependent) nature of the flow on quadratic combined convective flow over a permeable slender cylinder with diffusions of liquid hydrogen and nitrogen. The governing equations for flow and heat transfer characteristics are expressed in terms of nonlinear coupled partial differential equations. The solutions of these equations are attempted numerically by employing the quasilinearization technique with the implicit finite difference approximation. It is found that EG is minimum for double diffusion(liquid hydrogen and heat diffusion)than triple diffusion(diffusion of liquid hydrogen, nitrogen and heat). The enhancing values of the radiation parameter R_(d) and temperature ratio θ_(w) augment the fluid temperature for steady and unsteady cases as well as the local Nusselt number. Because, the fluid absorbs the heat energy released due to radiation, and in turn releases the heat energy from the cylinder to the surrounding surface.

Responses of antioxidant enzyme and photosynthesis in rape seedling to the combined stresses of acid rain and ultraviolet-B radiation

Effects of the simulated acid rain（AR） and ultraviolet-B（UV-B, 280-320 nm） radiation with a single or two ways simultaneously （AR ＋ UV-B） on the antioxidant enzyme and photosynthesis of the rape seedlings were investigated by the hydroponic culture. The results of static experiment indicated that the tolerance of rape seedling to single stress（AR or UV-B） is stronger than that to dual stresses（AR ＋ UV-B）. Furthermore, the dual stresses had additive effect on catalase activity, and a synergistic effect on MDA content, net photosynthesis rate, water use efficiency as well as intercellular CO2 concentration. Meanwhile, it has an independent effect on chlorophyll content, stomatal conductance, and transpiration rate as well as membrane permeability. During 64 h restoration course, the dynamic change in the curves of physiological and biochemical indices were not identical, and none of them show a simple linear variation. According to the static and dynamic experiments, it was found that a responsive sequence of catalase activity, membrane permeability, MDA content and photosynthetic characteristics to the above-mentioned stresses was as follows： AR ＋ UV-B 〉 UV-B 〉 AR.

Numerical Experiment of Combined Infrared and Ultraviolet Radiation Remote Sensing to Determine the Profile and Total Content of Atmospheric Ozone

A new remote sensing method is described to determine the vertical distribution and total content of atmospheric ozone. The method combines surface infrared, satellite infrared and ultraviolet channels. The width of the infrared channels is 0.01 cm-1, less than Lorentz half-width at the earth's surface, rather than the present width, because these channels can obtain information about variations in the ozone profile below the profile main-peak. The numerical experiments show that the method has a satisfactory precision in determining total ozone content, just about I percent error, and vertical distribution from the earth to 65 km space. In addition, some semi-analysis functions lor calculating backscattered ultraviolet and a relaxation equation are described in this paper.

Nondestructive analysis by combined X-ray tomography on a synchrotron radiation facility

A nondestructive X-ray analysis technique combining transmission tomography, fluorescence tomography and Compton tomography based on synchrotron radiation is described. This novel technique will be an optional experimental technique at SSRF's hard X-ray micro-focusing beamline under construction at present. An experimental result of combined X-ray tomography is obtained in NE-5A station of PF. The reconstructed images of test objects are given.

Abnormal calcium transport ofmyocardial mitochondria during the early stage of combined radiation－burn injury in rats

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3-51 Genistein Combined with X-ray Radiation Induces Oxidative Stress and Oxidative Damage in A549 Cells but Not in MRC-5 Cells

Selectively killing cancer without harming normal tissue is a fundamental challenge in cancer therapy. Elevatedoxidative stress and aberrant redox homeostasis are frequently observed in cancer cells compared with their normalcell counterparts[1]. A small shift toward an oxidizing condition in cells may lead to elevated proliferation andinduction of adaptive response. However, a high oxidizing condition often results in cell injury and cell death.Persistent high level of reactive oxygen species (ROS) in cancer cells usually elicits increased cell proliferation andadaptive responses that may contribute to tumorigenesis, metastasis, and treatment resistance. However, normalcells may still maintain redox homeostasis through adaptive responses. Therefore, regulating intracellular redoxstate may represent an ideal strategy to selectively sensitize cancer cells to oxidative stress-inducing therapy, suchas radiotherapy.

EFFECTS OF BLOOD TRANSFUSION ON BONE MARROW TRANSPLANTATION IN RATS WITH RADIATION-BURN COMBINED INJURY

The effects of pre-irradiation blood transfusion(BT)on survival rateof radiation-burn combinedly injured rats receiving bone marrow transplantation(BMT) were studied. It was found that after 9-11 Gy of radiation was given, the 90-daysurvival rate of the rats receiving BT(72%) and BMT was significantly higher than thatof those receiving BMT only(42%)(P<0.01).In those rats surviving over 100 days,cells of donor type could be found. In the first 30 days of surviving, the number of Tcells was significantly higher in the BMT alone group than in the group of BMT plusBT, but no difference In restoration of B cell was revealed. The findings suggest that BTcould promote the recipient's tolerance to BMT. The effects of BT on BMT are similarto those on skin grafting.

Dynamic changes of myocardial nitric oxide formation and cGMP content in the early stage after radiation, burn and combined radiation-burninjuries in rats

Nitric oxide formation and cyclic GMP level in the myocardium were studied in the early stage after radiation, bum andcombined radiation-bum injuries in rats. Nitric oxide synthase (NOS) activity was measured in the cytosol of the left ventricularwall. In the controls, the cytosol was found to contain mainly Ca2+ -dependent NOS (cNOS) and a small amount of Ca2+ -inden-pendent NOS (iNOS). After burn and combined radiation-burn injuries, a marked increase of iNOS activity with a peak in the 8thhour postinjury was found but the myocardial cNOS activity declined obviously. Parallel to iNOS activity increase, there was a significant increase of myocardial production of NO and cGMP. The combined effcts of radiation and burn injuries on the rats weremore severe than those of burn injury alone. All the changes could be prevented by the administration of dexamethasone. No obvious changes were observed in the rats after radiation injury alone. Since the increase of cGMP level in the heart is associated withreduced contractility, it is possible that the increased production of NO stimulated by iNOS accounts at least partially, for the depression of myocardial contractility after bum and combined radiation burn injury.

Combination of WRF Model and LSTM Network for Solar Radiation Forecasting—Timor Leste Case Study

A study of a combination of Weather Research and Forecasting (WRF) model and Long Short Term Memory (LSTM) network for location in Dili Timor Leste is introduced in this paper. One calendar year’s results of solar radiation from January to December 2014 are used as input data to estimate future forecasting of solar radiation using the LSTM network for three months period. The WRF model version 3.9.1 is used to simulate one year’s solar radiation in horizontal resolution low scale for nesting domain 1 × 1 km. It is done by applying 6-hourly interval 1º × 1º NCEP FNL analysis data used as Global Forecast System (GFS). LSTM network is applied for forecasting in numerous learning problems for solar radiation forecasting. LSTM network uses two-layer LSTM architecture of 512 hidden neurons coupled with a dense output layer with linear as the model activation to predict with time steps are configured to 50 and the number of features is 1. The maximum epoch is set to 325 with batch size 300 and the validation split is 0.09. The results demonstrate that the combination of these two methods can successfully predict solar radiation where four error metrics of mean bias error (MBE), root mean square error (RMSE), normalized MBE (nMBE), and normalized RMSE (nRMSE) perform small error distribution and percentage in three months prediction where the error percentage is obtained below the 20% for nMBE and nRMSE. Meanwhile, the error distribution of RMSE is obtained below 200 W/m2 and maximum bias error is 0.07. Finally, the values of MBE, RMSE, nMBE, and nRMSE conclude that the good performance of the combination of two methods in this study can be applied to simulate any other weather variable for local necessary.

辐射复合不同减压负荷暴露致大鼠急性损伤的效应及其可能的机制

目的观察特定辐射剂量复合减压暴露致大鼠损伤的效应及其可能的机制。方法81只雄性SD大鼠,随机分为空白对照组(n=9)、单纯辐射组(n=18)、辐射+低负荷减压组(n=18)、辐射+中负荷减压组(n=18)和辐射+高负荷减压组(n=18)。除空白对照组外,大鼠接受4Gy的60Coγ射线全身照射,然后进行快速上浮脱险实验,高气压暴露方案分别为在水下57m停留30min、45min或60min后(30±5)s内减至常压,单纯辐射组不进行高气压暴露。出舱后0.5h观察各组大鼠行为和死亡情况,分别于3h和72h取血(腹主动脉)和肺组织,分析肺湿/干重比(W/D)、肺组织病理及血清白细胞介素(IL)-1β、IL-6、肿瘤坏死因子-α(TNF-α)、超氧化物歧化酶(SOD)、丙二醛(MDA)、一氧化氮(NO)、细胞间黏附分子1(ICAM-1)和血栓素B2(TXB2)含量的变化。结果与空白对照组和单纯辐射组比较,辐射+低负荷减压组大鼠伤死率差异无统计学意义(P>0.05),辐射+中负荷减压组和辐射+高负荷减压组大鼠伤死率均明显增高(P<0.05)。与空白对照组比较,其他各组大鼠减压结束后3h肺W/D差异均无统计学意义(P>0.05),减压结束后72h肺W/D均升高(P<0.05)。HE染色结果显示,与空白对照组比较,单纯辐射组大鼠肺间质轻度水肿;辐射+低负荷减压组大鼠肺组织水肿明显,肺泡腔内可见少量红细胞渗出;辐射+中负荷减压组和辐射+高负荷减压组大鼠肺组织水肿、充血及炎性细胞浸润更为严重。与空白对照组和单纯辐射组比较,各辐射+减压组血清IL-1β、IL-6、TNF-α、MDA、NO、ICAM-1、TXB2水平均升高(P<0.05),SOD活性均降低(P<0.05);与辐射+低负荷减压组比较,辐射+中负荷减压组和辐射+高负荷减压组大鼠血清IL-1β、IL-6、MDA、ICAM-1、TXB2水平均增高(P<0.05),SOD活性均降低(P<0.05);除空白对照组外,与减压结束后3h比较,各组大鼠减压结束后72 h血清IL-1β、IL-6、TNF-α、MDA、NO、ICAM-1、TXB2水平均降低(P<0.05),SOD活性均增强(P<0.05)。结论高减压负荷可致辐照+高气压暴露的大鼠伤死率增高,辐射和减压复合损伤效应的潜在机制可能与炎症、免疫应激、氧化损伤、血管舒缩活性和凝血机制相关。

正十二烷喷雾火焰中碳烟的瞬态生成特性

针对压燃式发动机中碳烟演化过程难以被实验准确捕捉的问题,研究了高温高压环境中正十二烷喷雾燃烧焰中碳烟瞬态生成特性及动力学行为,在实验方面,应用消光辐射联合技术以及燃烧成像测速技术,同步获得高温高压环境中单孔喷油器正十二烷喷雾燃烧火焰中的碳烟体积分数、碳烟温度和碳烟速度场的瞬态分布;数值计算方面,基于OpenFOAM环境,发展欧拉喷雾模型和非稳态火焰面进度变量湍流燃烧模型的耦合模型,喷雾燃烧过程的数值计算结果与实验数据有高度的一致性。研究结果表明:相比于参考工况,低喷油压力工况火焰浮起长度更短,碳烟在当量比Φ>2区间驻留时间更长,推动了碳烟的生成,碳烟峰值质量增加了80%;高温环境工况碳烟在当量比Φ>2区间驻留时间没有明显差异,但更短的火焰浮起长度使得燃料在更高的当量比开始燃烧,导致其碳烟峰值质量增加了88%;富氧工况的燃烧温度最高,碳烟粒子运动速度增大,使得碳烟在当量比Φ>2区间驻留时间明显减少,同时火焰内部当量比较小,因而碳烟峰值质量减少了42%。

便携天然放射性模型组合系统均匀性辐射特征

无人机航空放射性测量技术的应用,提出无人机载伽马能谱仪现场校准的需求。原有固定于机场的“航空放射性测量模型标准装置”不宜应用于现场校准,需研制便携式标准装置,并根据无人机载伽马谱仪特点开展相应的校准方法研究。为此新研建了“便携天然放射性模型组合系统”。为确认模型组合产生伽马辐射场的均匀性,对采用6个小模块组合摆放形成的天然辐射场在垂向和水平方向的辐射特征进行测试。测试结果表明:在辐射场中心点上方50~120 cm范围内,MAP-U、MAP-Th和Map-M模型辐射场变化在5%以内,MAP-K模型由于受天然钾含量及探测器对^(40)K灵敏度限制,其变化较大,但其垂向辐射场是均匀的;水平方向均呈现以中心为原点的均匀散射分布:与中心位置相比,在100 cm×100 cm范围内的变化大致在5%以内,在200 cm×200 cm范围内的变化大致在20%以内,在300 cm×300 cm范围内的变化大致在35%以内。在辐射场中心300 cm×300 cm范围内,任意一点周边50 cm范围内的变化在5%以内。其辐射特征满足相关校准规范中计量标准均匀性的要求,可以用于无人机航放测量系统的现场校准。

3种方法单独及联合诊断甲状腺微小结节的价值比较

目的 比较二维高频超声、声脉冲辐射力成像(ARFI)-声触诊组织定量(VTQ)技术及应变弹性成像3种方法单独及联合诊断甲状腺微小结节良恶性的价值。方法 回顾性分析2021年6月—2023年6月在陕西省宝鸡市人民医院就诊的99例(107个甲状腺微小实性结节)结节直径≤10.0 mm患者的临床资料,均采用二维高频超声、ARF-VTQ技术及应变弹性成像进行检查,获得超声资料评分及数据,以穿刺活检和手术病理结果为诊断“金标准”,比较3种超声检查方法单独及联合应用对甲状腺微小结节的诊断效能。结果 62例患者(共68个结节)选择FNAB,37例患者(共39个结节)选择手术。107个甲状腺微小结节中,诊断为恶性微小结节45个,良性微小结节62个。恶性微小结节与良性微小结节相比,结节内回声(等回声和高回声、极低回声和低回声)、边界、微钙化、纵横比>1及血供情况和供血动脉阻力指数(RI)比较,差异均有统计学意义(P<0.05)。二维高频超声诊断甲状腺微小结节C-TIRADS积分临界值≥2分(C-TIRADS 4b)时,诊断灵敏度为73.33%,特异度为79.03%,曲线下面积[AUC(95%CI)]为0.762(95%CI:0.670~0.839);ARFI-VTQ技术中,107个甲状腺微小结节SWV测值为0.52~7.55 m/s,平均(2.62±0.61)m/s,其中24个实性结节多次出现×.××m/s,最后测值以7.55 m/s记录。恶性微小结节SWV均值为(5.24±2.23) m/s,高于良性微小结节的(2.11±0.70) m/s,差异有统计学意义(t=10.258,P<0.05);当SWV临界值为3.19 m/s时,诊断灵敏度为77.78%,特异度为80.65%,AUC(95%CI)为0.792(95%CI:0.703~0.865);应变弹性成像检查中,当评分临界值≥3分时,诊断的灵敏度为75.56%,特异度为77.42%,AUC(95%CI)为0.765(95%CI:0.673~0.841)。三者联合应用诊断的阳性微小结节为44个,阴性微小结节63个,诊断灵敏度为93.33%,特异度为96.77%,AUC(95%CI)为0.951(95%CI:0.891~0.983)。三者联合诊断效能与二维高频超声检查、ARFI-VTQ、应变弹性成像单独检测比较,差异均有统计学意义(Z=4.861、4.393、4.842,P<0.05)。结论 二维高频超声联合ARFI-VTQ技术及应变弹性成像可提高甲状腺微小结节良恶性的诊断准确性。

创面siRNA敲降HO-1改善小鼠放创复合伤创面愈合的实验研究

目的检测血红素加氧酶1(heme oxygenase-1,HO-1)在放创复合伤(radiation-wound combined injury,R-W-CI)创面修复中的表达情况,评价通过siRNA敲降HO-1对放创复合伤创面愈合的改善作用。方法将36只8周龄雄性C57BL/6J小鼠按随机数字表法分为单纯皮肤创伤组(W组,n=18)和合并全身辐射(6 Gy)损伤的皮肤创伤组(R-W-CI组,n=18),建立单纯皮肤创伤与放创复合伤的小鼠模型。在创面愈合过程中,拍照记录创面愈合情况并通过Image J量化分析残留面积;取材创面组织进行HE染色及病理组织学观察;动态检测外周血象评估造血系统损伤情况。通过创面组织定量PCR及Western blot检测创面HO-1表达水平及变化情况。将26只8周龄雄性C57BL/6J小鼠随机分为siRNA敲降HO-1组(si-HO-1组,n=13)和siRNA阴性对照组(si-NC组,n=13)。放创复合伤致伤后,si-HO-1组在每个创面涂抹负载si-HO-1(5μmol/L)的F127凝胶60μL,si-NC组创面涂抹等量负载阴性对照si-NC的F127凝胶。通过创面组织Western blot检测HO-1的敲降情况,观察创面面积变化,对伤后第3天样本进行定量PCR检测IL-1β、IL-6、TNF-α等炎症因子的表达变化,组织切片进行Ki67免疫组织化学和HE染色;对第9天创面组织进行HE染色病理评估;综合评价敲降HO-1对放创复合伤创面愈合的改善作用。结果与W组相比,创面残留面积的半定量分析表明R-W-CI组愈合在伤后第7、10天显著延迟(P<0.01);第7天的HE病理显示R-W-CI组再上皮化延缓,肉芽组织生长不良;同时R-W-CI组外周血白细胞及其分类计数显示在损伤后早期即显著下降(P<0.05)。检测发现,R-W-CI组创面HO-1蛋白在伤后第3、7天表达略高于W组,但无显著差异(P>0.05),而在第10天显著升高(P<0.05),同时伴有全长与截短形式的分布改变;定量PCR显示R-W-CI组在伤后第7天、10天的创面组织HO-1的表达显著高于W组(P<0.05)。放创复合伤创面siRNA干预实验显示:与si-NC组比较,si-HO-1组能有效敲降创面HO-1蛋白含量(P<0.05),促进伤口收缩(P<0.05),减小创面宽度(P<0.01),上调致伤第3天创面IL-6、TNF-α等炎症因子表达,促进创缘组织细胞增殖,改善肉芽组织生长情况。结论放创复合伤创面修复过程中存在HO-1蛋白的持续高表达,创面siRNA敲降HO-1可以改善R-W-CI组小鼠创面乏炎状态,促进创面愈合。

3D打印多功能敷料治疗放创复合伤

背景:放创复合伤主要发生在肿瘤放疗和核辐射事故患者中,由于辐射破坏修复机制导致伤口愈合延迟或延长,目前仍缺乏有效的治疗策略。目的:针对放创复合伤的多种临床症状,制备抗菌、加速愈合和局部麻醉的多功能敷料。方法:以左氧氟沙星、丝素蛋白和盐酸利多卡因为原料,应用3D生物打印技术制备多功能创面敷料。①将多功能敷料分别放置于表面涂有金黄色葡萄球菌、大肠杆菌与铜绿假单胞菌的固定培养板上,37℃孵育过夜,检测抑菌圈直径。②将40只昆明种小鼠随机分单纯创伤组、放创模型组、治疗组、阳性药组,每组10只。放创模型组、治疗组、阳性药组小鼠全身接受60Coγ射线照射,辐射1 h后,在4组小鼠背部各制作1个直径1 cm的全层皮肤缺损创面,单纯创伤组、放创模型组创面涂抹生理盐水,阳性药组创面涂抹三乙醇胺乳膏,治疗组创面覆盖多功能敷料,每隔1 d更换敷料或换药,连续治疗14 d。创面造模后3,7,14 d,检测创面愈合率与血清白细胞介素6水平;创面造模后14 d,获取创面处皮肤组织,进行苏木精-伊红、Masson染色及细胞角蛋白14免疫组化染色。结果与结论:①3D打印多功能创面敷料具有良好的抗菌活性,对金黄色葡萄球菌、大肠杆菌与铜绿假单胞菌的抑菌圈直径分别为(4.15±0.09),(4.18±0.23),(4.35±0.13)cm。②随着造模时间的延长,小鼠创面逐渐愈合,治疗组、阳性药组造模后3,7,14 d的创面愈合率均高于放创模型组(P<0.01,P<0.001),并且治疗组创面愈合率高于阳性药组。随着造模时间的延长,小鼠血清白细胞介素水平呈先升高后降低的趋势,治疗组造模后3,7,14 d的血清白细胞介素水平均低于放创模型组。苏木精-伊红、Masson染色显示,单纯创伤组肉芽肿组织可见炎性细胞浸润,真皮层胶原纤维排列致密;放创模型组表皮层和真皮层正常结构被破坏,可见炎性细胞浸润;治疗组可见正常皮肤黏膜组织,表皮层排列规则紧密,汗腺、毛囊和真皮层胶原纤维排列整齐规则;阳性药组表皮层排列规则紧密,汗腺、毛囊和真皮层胶原纤维排列整齐规则。细胞角蛋白14免疫组化染色显示,治疗组表皮组织厚度低于其他3组(P<0.01,P<0.001)。③结果表明,3D打印多功能敷料具有局部麻醉、抗感染、促愈合多重功能。

针翅式散热器模块流动传热特性数值优化

为提升中高温电子器件的散热性能,以针翅式散热器模块为研究对象,研究了热管长度、散热器宽度、针翅直径、针翅间距和针翅高度5个结构参数对翅片散热性能的影响,对正交实验设计的16个组合方案下翅片的流动换热性能进行模拟。以努塞尔数Nu、阻力系数f、传热性能综合评价指标(performance evaluation criteria,PEC)和全因子评价Y作为评价指标,在每个评价指标下利用极差分析主要影响因素和挑选出优化组合。结果表明:影响Nu、f、PEC和Y的最主要因素是针翅间距;最佳优化组合为:针翅间距为2.5 mm,散热器宽度为80 mm,针翅直径为1.5 mm,针翅高度为20 mm,热管长度为25 mm,模块温降为16.28℃,热阻为0.265℃/W。

Biological effects of radiation on cancer cells

With the development of radiotherapeutic oncology, computer technology and medical imaging technology, radiation therapy has made great progress. Research on the impact and the specific mechanism of radiation on tumors has become a central topic in cancer therapy. According to the traditional view, radiation can directly affect the structure of the DNA double helix, which in turn activates DNA damage sensors to induce apoptosis, necrosis, and aging or affects normal mitosis events and ultimately rewires various biological characteristics of neoplasm cells. In addition, irradiation damages subcellular structures, such as the cytoplasmic membrane, endoplasmic reticulum, ribosome, mitochondria, and lysosome of cancer cells to regulate various biological activities of tumor cells. Recent studies have shown that radiation can also change the tumor cell phenotype, immunogenicity and microenvironment, thereby globally altering the biological behavior of cancer cells. In this review, we focus on the effects of therapeutic radiation on the biological features of tumor cells to provide a theoretical basis for combinational therapy and inaugurate a new era in oncology.

Stereotactic body radiation therapy in patients with hepatocellular carcinoma: A mini-review

Stereotactic body radiation therapy(SBRT) is an emerging treatment for hepatocellular carcinoma. This technique results in excellent local control rates with favorable toxicity profile despite being predominantly used in heavily pretreated patients or those unsuitable for other local therapies. SBRT may be used as a sole treatment or in combination with other local therapies as well as a bridging strategy for patient awaiting liver transplants. This brief review describes current practice of SBRT with respect to radiation technique, patient selection and treatment concepts. It summarizes available evidence from retroand prospective studies evaluating SBRT alone, SBRT in combination with other treatments and SBRT compared to other local treatment approaches.