Predicting toxicity in radiotherapy for prostate cancer

This comprehensive review addresses most organs at risk involved in planning optimization for prostate cancer. It can be considered an update of a previous educational review that was published in 2009 (Fiorino et al., 2009).The literature was reviewed based on PubMed and MEDLINE database searches (from January 2009 up to September 2015), including papers in press; for each section/subsection, key title words were used and possibly combined with other more general key-words (such as radiotherapy, dose-volume effects, NTCP, DVH, and predictive model). Publications generally dealing with toxicity without any association with dose–volume effects or correlations with clinical risk factors were disregarded, being outside the aim of the review.A focus was on external beam radiotherapy, including post-prostatectomy, with conventional fractionation or moderate hypofractionation (<4 Gy/fraction); extreme hypofractionation is the topic of another paper in this special issue. Gastrointestinal and urinary toxicity are the most investigated endpoints, with quantitative data published in the last 5 years suggesting both a dose–response relationship and the existence of a number of clinical/patient related risk factors acting as dose–response modifiers. Some results on erectile dysfunction, bowel toxicity and hematological toxicity are also presented.     

Assessment of daily dose accumulation for robustly optimized intensity modulated proton therapy treatment of prostate cancer

PurposeTo implement a daily CBCT based dose accumulation technique in order to assess ideal robust optimization (RO) parameters for IMPT treatment of prostate cancer.MethodsTen prostate cancer patients previously treated with VMAT and having daily CBCT were included. First, RO-IMPT plans were created with ± 3 mm and ± 5 mm patient setup and ± 3% proton range uncertainties, respectively. Second, the planning CT (pCT) was deformably registered to the CBCT to create a synthetic CT (sCT). Both daily and weekly sampling strategies were employed to determine optimal dose accumulation frequency. Doses were recalculated on sCTs for both ± 3 mm/±3% and ± 5 mm/±3% uncertainties and were accumulated back to the pCT. Accumulated doses generated from ± 3 mm/±3% and ± 5 mm/±3% RO-IMPT plans were evaluated using the clinical dose volume constraints for CTV, bladder, and rectum.ResultsDaily accumulated dose based on both ± 3mm/±3% and ±5 mm/±3% uncertainties for RO-IMPT plans resulted in satisfactory CTV coverage (RO-IMPT_3mm/3% CTV_V95 = 99.01 ± 0.87% vs. RO-IMPT_5mm/3% CTV_V95 = 99.81 ± 0.2%, P = 0.002). However, the accumulated dose based on ± 3 mm/3% RO-IMPT plans consistently provided greater OAR sparing than ±5 mm/±3% RO-IMPT plans (RO-IMPT_3mm/3% rectum_V65Gy = 2.93 ± 2.39% vs. RO-IMPT_5mm/3% rectum_V65Gy = 4.38 ± 3%, P < 0.01; RO-IMPT_3mm/3% bladder_V65Gy = 5.2 ± 7.12% vs. RO-IMPT_5mm/3% bladder_V65Gy = 7.12 ± 9.59%, P < 0.01). The gamma analysis showed high dosimetric agreement between weekly and daily accumulated dose distributions.ConclusionsThis study demonstrated that for RO-IMPT optimization, ±3mm/±3% uncertainty is sufficient to create plans that meet desired CTV coverage while achieving superior sparing to OARs when compared with ± 5 mm/±3% uncertainty. Furthermore, weekly dose accumulation can accurately estimate the overall dose delivered to prostate cancer patients.     

Recent advances in the antilung cancer activity of biosynthesized gold nanoparticles

Gold nanoparticles (Au-NPs) have been widely used in biomedical fields such as imaging, diagnosis, and treatment because of their special characteristics. Au-NPs can be synthesized using several methods, including the biological method, also called green or eco-friendly synthesis. Recent studies have reported the anticancer activity of biosynthesized Au-NPs, especially in lung cancer. This review focused on the advances in the antilung cancer activity of biosynthesized Au-NPs and its potential mechanisms.     

Intercomparison of dose enhancement ratio and secondary electron spectra for gold nanoparticles irradiated by X-rays calculated using multiple Monte Carlo simulation codes

PurposeTargeted radiation therapy has seen an increased interest in the past decade. In vitro and in vivo experiments showed enhanced radiation doses due to gold nanoparticles (GNPs) to tumors in mice and demonstrated a high potential for clinical application. However, finding a functionalized molecular formulation for actively targeting GNPs in tumor cells is challenging. Furthermore, the enhanced energy deposition by secondary electrons around GNPs, particularly by short-ranged Auger electrons is difficult to measure. Computational models, such as Monte Carlo (MC) radiation transport codes, have been used to estimate the physical quantities and effects of GNPs. However, as these codes differ from one to another, the reliability of physical and dosimetric quantities needs to be established at cellular and molecular levels, so that the subsequent biological effects can be assessed quantitatively.MethodsIn this work, irradiation of single GNPs of 50 nm and 100 nm diameter by X-ray spectra generated by 50 and 100 peak kilovoltages was simulated for a defined geometry setup, by applying multiple MC codes in the EURADOS framework.ResultsThe mean dose enhancement ratio of the first 10 nm-thick water shell around a 100 nm GNP ranges from 400 for 100 kVp X-rays to 600 for 50 kVp X-rays with large uncertainty factors up to 2.3.ConclusionsIt is concluded that the absolute dose enhancement effects have large uncertainties and need an inter-code intercomparison for a high quality assurance; relative properties may be a better measure until more experimental data is available to constrain the models.     

The effect of rectal gas on dose distribution during prostate cancer treatment using full arc and partial arc Volumetric Modulated Arc Therapy (VMAT) treatment plans

Background/AimIn this study, we investigated the effect of rectal gas on the dose distribution of prostate cancer using a volumetric modulated arc therapy (VMAT) treatment planning.Materials and MethodsThe first is the original structure set, clinical target volume (CTV), the rectum, and the bladder used clinically. The second is a structure set (simulated gas structure set) in which the overlapping part of the rectum and PTV is overwritten with Hounsfield Unit −950 as gas. Full arc and limited gantry rotation angle with VMAT were the two arcs. The VMAT of the full arc was 181°–179° in the clockwise (CW) direction and 179°–181° in the counterclockwise (CCW) direction. Three partial arcs with a limited gantry rotation angle were created: 200°–160 °CW and 160°–200 °CCW; 220°–140 °CW and 140°–220 °CCW; and finally, 240°–120 °CW and 120°–240 °CCW. The evaluation items were dose difference, distance to agreement, and gamma analysis.ResultIn the CTV, the full arc was the treatment planning technique with the least effect of rectal gas. In the rectum, when the gantry rotation angle range was short, the pass rate tended to reduce for all evaluation indices. The bladder showed no characteristic change between the treatment planning techniques in any of the evaluation indices.ConclusionsThe VMAT treatment planning with the least effect on dose distribution caused by rectal gas was shown to be a full arc.     

Intercomparison of Monte Carlo calculated dose enhancement ratios for gold nanoparticles irradiated by X-rays: Assessing the uncertainty and correct methodology for extended beams

Results of a Monte Carlo code intercomparison exercise for simulations of the dose enhancement from a gold nanoparticle (GNP) irradiated by X-rays have been recently reported. To highlight potential differences between codes, the dose enhancement ratios (DERs) were shown for the narrow-beam geometry used in the simulations, which leads to values significantly higher than unity over distances in the order of several tens of micrometers from the GNP surface. As it has come to our attention that the figures in our paper have given rise to misinterpretation as showing ‘the’ DERs of GNPs under diagnostic X-ray irradiation, this article presents estimates of the DERs that would have been obtained with realistic radiation field extensions and presence of secondary particle equilibrium (SPE). These DER values are much smaller than those for a narrow-beam irradiation shown in our paper, and significant dose enhancement is only found within a few hundred nanometers around the GNP. The approach used to obtain these estimates required the development of a methodology to identify and, where possible, correct results from simulations whose implementation deviated from the initial exercise definition. Based on this methodology, literature on Monte Carlo simulated DERs has been critically assessed.     

Study of gold nanoparticles for mammography diagnostic and radiotherapy improvements

AimA study on the possibility to use gold nanoparticles in mammography, both for a better image diagnostics and radiotherapy, is presented and discussed. We evaluate quantitatively the increment of dose released to the tumor enriched with Au-NPs with respect to the near healthy tissues, finding that for X-rays the increase can reach two orders of greater intensity.BackgroundGold nanoparticles continue to be investigated for their potential to improve existing therapies and to develop novel therapies. They are simple to obtain, can be functionalized with different chemical approaches, are stable, non-toxic, non-immunogenic and have high permeability and retention effects in the tumor cells. The possibility to use these for breast calcified tumors to be better treated by radiotherapy is presented as a possible method to destroy the tumor.Materials and methodsThe nanoparticles can be generated in water using the top-down method, should have a size of the order of 10–20 nm and be treated to avoid their coalescence. Under diagnostic X-ray monitoring, the solution containing nanoparticles can be injected locally inside the tumor site avoiding injection in healthy tissues. The concentrations that can be used should be of the order of 10 mg/ml or higher.ResultsAn enhancement of the computerized tomography diagnostics using 80–150 keV energy is expected, due to the higher mass X-ray coefficient attenuation with respect to other contrast media. Due to the increment of the effective atomic number of the biological tissue containing the gold nanoparticles, also an improvement of the radiotherapy effect using about 30 keV X-ray energy is expected, due to the higher photoelectric cross sections involved.ConclusionsThe study carried out represents a feasibility proposal for the use of Au-nanoparticles for mammographic molecular imaging aimed at radiotherapy of tumor nodules but no clinical results are presented.     

Evaluation of alternative parameter settings for dose restoration and full plan adaptation in IMPT for prostate cancer

Background/purposeIntensity-modulated proton therapy is highly sensitive to anatomical variations. A dose restoration method and a full plan adaptation method have been developed earlier, both requiring several parameter settings. This study evaluates the validity of the previously selected settings by systematically comparing them to alternatives.Materials/methodsThe dose restoration method takes a prior plan and uses an energy-adaptation followed by a spot-intensity re-optimization to restore the plan to its initial state. The full adaptation method uses an energy-adaptation followed by the addition of new spots and a spot-intensity optimization to fit the new anatomy. We varied: 1) The margins and robustness settings of the prior plan, 2) the spot-addition sample size, i.e. the number of added spots, 3) the spot-addition stopping criterion, and 4) the spot-intensity optimization approach. The last three were evaluated only for the full plan adaptation. Evaluations were done on 88 CT scans of 11 prostate cancer patients. Dose was prescribed as 55 Gy(RBE) to the lymph nodes and seminal vesicles with a boost to 74 Gy(RBE) to the prostate.ResultsFor the dose restoration method, changing the applied CTV-to-PTV margins and plan robustness in the prior plans yielded insufficient target coverage or increased OAR doses. For the full plan adaptation, more spot-addition iterations and using a different optimization approach resulted in lower OAR doses compared to the default settings while maintaining target coverage. However, the calculation times increased by up to 20 times, making these variations infeasible for online-adaptation.ConclusionWe recommend maintaining the default setting for the dose restoration approach. For the full plan adaptation we recommend to focus on fine-tuning the optimization-parameters, and apart from this using the default settings.     

Molecular recognition between insulin and dextran encapsulated gold nanoparticles

Insulin is a peptide hormone that can regulate the metabolism of carbohydrates and lipids. This hormone is closely related to glucose‐uptake in cells and can control blood glucose levels. Dextran is a polysaccharide composed of glucose units. In this study, we discovered that dextran‐encapsulated gold nanoparticles (AuNPs@Dextran) and nanoclusters (AuNCs@Dextran) can be used to recognize insulin. The dissociation constant of insulin toward AuNPs@Dextran was estimated to be ～5.3 × 10^?6 M. The binding site on insulin toward the dextran on the nanoprobes was explored as well. It was found that the sequence of numbers 1–22 on the insulin B chain can interact with the dextran encapsulated nanoprobes. Additionally, we also demonstrated that the dextran‐encapsulated nanoprobes could be used as concentration probes to selectively enrich trace amounts of insulin (～1 pM) from serum samples. Copyright © 2016 John Wiley & Sons, Ltd.     

Implementation of intensity modulated radiotherapy for prostate cancer in a private radiotherapy service in Mexico

Intensity modulated radiation therapy (IMRT) allows physicians to deliver higher conformal doses to the tumour, while avoiding adjacent structures. As a result the probability of tumour control is higher and toxicity may be reduced. However, implementation of IMRT is highly complex and requires a rigorous quality assurance (QA) program both before and during treatment. The present article describes the process of implementing IMRT for localized prostate cancer in a radiation therapy department. In our experience, IMRT implementation requires careful planning due to the need to simultaneously implement specialized software, multifaceted QA programs, and training of the multidisciplinary team. Establishing standardized protocols and ensuring close collaboration between a multidisciplinary team is challenging but essential.     

Integral dose: Comparison between four techniques for prostate radiotherapy

Aim

Comparisons of integral dose delivered to the treatment planning volume and to the whole patient body during stereotactic, helical and intensity modulated radiotherapy of prostate.

Background

Multifield techniques produce large volumes of low dose inside the patient body. Delivered dose could be the result of the cytotoxic injuries of the cells even away from the treatment field. We calculated the total dose absorbed in the patient body for four radiotherapy techniques to investigate whether some methods have a potential to reduce the exposure to the patient.

Materials and methods

We analyzed CyberKnife plans for 10 patients with localized prostate cancer. Five alternative plans for each patient were calculated with the VMAT, IMRT and TomoTherapy techniques. Alternative dose distributions were calculated to achieve the same coverage for PTV. Integral Dose formula was used to calculate the total dose delivered to the PTV and whole patient body.

Results

Analysis showed that the same amount of dose was deposited to the treated volume despite different methods of treatment delivery. The mean values of total dose delivered to the whole patient body differed significantly for each treatment technique. The highest integral dose in the patient''s body was at the TomoTherapy and CyberKnife treatment session. VMAT was characterized by the lowest integral dose deposited in the patient body.

Conclusions

The highest total dose absorbed in normal tissue was observed with the use of a robotic radiosurgery system and TomoTherapy. These results demonstrate that the exposure of healthy tissue is a dosimetric factor which differentiates the dose delivery methods.     

Advances and potential application of gold nanoparticles in nanomedicine

Nanomedicine is an emerging research area which has brought new possibilities and promising applications in image, diagnosis, and treatment. Nanoparticles (NPs) for medicinal purposes can be made of several material types such as silica, carbon, different polymers, and metals as silver, copper, titanium, and gold. Gold NPs (AuNPs) are the most studied and used, mostly due to their characteristics including simple preparation, controllable size and distribution, biocompatibility, good acceptance of surface modifications, and specific surface plasmon resonance (SPR). This study reviews the scientific literature regarding the potential applications of AuNPs in the development of new diagnostic and therapeutic strategies for nanomedicine, including their biomedical use as a drug carrier, as an agent in radio and phototherapy, and bioimaging for image diagnosis. While it becomes clear that much research remains to be done to improve the use of these nanoparticles, with particular concern for safety issues, the evidence from the literature already points to the great potential of AuNPs in nanomedicine.     

Comparison of the internalization of targeted dendrimers and dendrimer‐entrapped gold nanoparticles into cancer cells

Dendrimer‐based nanotechnology significantly advances the area of targeted cancer imaging and therapy. Herein, we compared the difference of surface acetylated fluorescein isocyanate (FI) and folic acid (FA) modified generation 5 (G5) poly(amidoamine) dendrimers (G5.NHAc‐FI‐FA), and dendrimer‐entrapped gold nanoparticles with similar modifications ([(Au⁰)_51.2‐G5.NHAc‐FI‐FA]) in terms of their specific internalization to FA receptor (FAR)‐overexpressing cancer cells. Confocal microscopic studies show that both G5.NHAc‐FI‐FA and [(Au⁰)_51.2‐G5.NHAc‐FI‐FA] exhibit similar internalization kinetics regardless of the existence of Au nanoparticles (NPs). Molecular dynamics simulation of the two different nanostructures reveals that the surface area and the FA moiety distribution from the center of the geometry are slightly different. This slight difference may not be recognized by the FARs on the cell membrane, consequently leading to similar internalization kinetics. This study underlines the fact that metal or inorganic NPs entrapped within dendrimers interact with cells in a similar way to that of dendrimers lacking host NPs. © 2009 Wiley Periodicals, Inc. Biopolymers 91: 936–942, 2009. This article was originally published online as an accepted preprint. The “Published Online” date corresponds to the preprint version. You can request a copy of the preprint by emailing the Biopolymers editorial office at biopolymers@wiley.com     

超声引导下前列腺穿刺联合外周血循环肿瘤细胞检测对前列腺癌预后分析

目的探讨超声引导下前列腺穿刺联合外周血循环肿瘤细胞(CTCs)检测对前列腺癌预后的预测效果。方法选取2011年1月至2017年12月期间于郑州大学第二附属医院收治的83例前列腺癌患者为研究对象,全部患者均根据超声引导下经直肠前列腺穿刺活检术确诊为前列腺癌,检测病理标本中CK34BE12、p63、α-甲酰基辅酶A消旋酶(AMACR)等免疫标志物的表达状况,并采用Cell Search细胞搜索系统检测外周血CTCs的数量,据此分为阳性组(≥5个/7.5 ml)和阴性组(<5个/7.5 ml)。分析穿刺组织中免疫标志物表达状况、外周血CTCs计数与患者临床病理特征、生存状况的相关性。各标志物的阳性例数、Gleason评分>7分的比例、TNM分期等定性资料的比较采用x^2检验或Fisher确切概率法,年龄、血常规、凝血功能、肝功能、PSA水平等定量资料的比较采用t检验。采用Kaplan-Meier法进行生存分析,采用多因素Cox比例风险回归模型分析患者预后的预测因素。结果(1)全部患者中外周血CTCs、穿刺组织中CK34BE12、p63、AMACR的阳性率分别为31.33、3.61、3.61、86.75。CTCs阳性组的AMACR阳性率为100.00,高于CTCs阴性组的80.70,差异有统计学意义(x^2=4.227,P<0.05)。(2)AMACR阳性组患者的血红蛋白(HB)低于AMACR阴性组[(123.66±13.33)g/L比(134.89±20.08)g/L,t=2.420,P=0.018],血小板(PLT)、血清谷丙转氨酶、D-二聚体(DD)、前列腺特异抗原(PSA)水平、Gleason评分>7分的比例均高于AMACR阴性组[(197.23±36.98)×10^9/L比(172.83±33.33)×10^9/L,t=2.062,P=0.042;(38.80±10.03)U/L比(31.46±7.83)U/L,t=2.317,P=0.023;(255.00±38.80)μg/L比(220.81±30.99)μg/L,t=2.785,P=0.007;(26.60±12.23)ng/ml比(17.90±8.88)ng/ml,t=2.263,P=0.026;45.83比9.09,x^2=3.916,P=0.048],差异有统计学意义(P<0.05)。CTCs阳性组患者的HB低于CTCs阴性组[(121.69±15.89)g/L比(132.73±18.85)g/L,t=2.767,P=0.007],血清碱性磷酸酶、DD、PSA水平、Gleason评分>7分、T3~T4期、M1期的比例均高于CTCs阴性组[(105.69±30.56)U/L比(88.89±35.58)U/L,t=2.205,P=0.030;(256.63±35.86)μg/L比(236.98±33.30)μg/L,t=2.368,P=0.020;(30.09±11.89)ng/ml比(23.33±10.99)ng/ml,t=2.533,P=0.013;57.69比33.33,x^2=4.381,P=0.036;30.77比8.77,x^2=4.981,P=0.026;50.00比17.54,x^2=9.390,P=0.002],差异有统计学意义(P<0.05)。(3)全部患者的中位生存时间为58.33个月,1、3、5年的生存率分别为88.95、51.81、30.12。AMACR阳性组、CTCs阳性组患者的中位生存时间为40.93、36.93个月,低于AMACR阴性组、CTCs阴性组的66.66、69.56个月,差异有统计学意义(P<0.05)。多因素Cox比例风险回归模型分析结果表明,Gleason评分>7分、M1期、AMACR阳性、CTCs阳性是患者死亡的独立危险因素(HR=1.883、3.666、2.009、2.923,P<0.05)。结论超声引导下前列腺穿刺联合外周血CTCs检测对前列腺癌患者的预后具有重要的预测价值,临床上可根据穿刺组织中AMACR表达水平和外周血CTCs计数进行预后的综合分析。     

纳米金探针在基因检测中的应用

传统的核酸分析中常采用放射性元素、荧光色素以及酶标记等基因探针,这些探针都存在着一些不足之处。近年来,纳米金探针作为一种新型的基因探针,己引起了广泛的关注。该探针具有优良的光谱特征和光化学稳定性,对核酸的非特异吸附性小,与核酸等生物大分子结合后不改变生物分子的活性。将纳米金探针用于基因检测,具有操作简便、快速、安全、实验成本低等优点。本文就纳米金探针的发展过程、纳米金探针的制备、检测原理及其在基因分析中的应用等几个方面作了系统而全面地概述,同时介绍了纳米金探针的最新研究进展,并对其发展前景作了简要评述。     

响应性聚集金纳米粒子体系用于细菌的体外热疗研究

目的利用发生响应性聚集后的金纳米粒子体系的较强的光热特性,研究其对细菌的体外光热杀伤作用。方法通过Au-S键反应将合成好的多肽A和多肽B分别修饰到金纳米粒子(GNPs)表面,然后等比例混合组成GNPssystem。首先利用动态光散射(DLS)和透射电镜(TEM)研究其在弱酸性条件下的响应性聚集情况,利用多功能酶标仪研究其在在弱酸性条件下的紫外吸收变化;然后为了了解该纳米粒子在菌液中的光热转换情况,分别测定其在弱酸性条件下溶液内和与细菌作用后的温度变化曲线;进一步考察其体外抗菌效果。结果DLS检测到合成的GNPssystem在弱酸性条件下粒径由16nm增大到900nm左右,并在TEM下可见明显的聚集体,并且在650~900nm的紫外吸收信号明显增高。在模拟细菌的弱酸性环境下,GNPssystem在激光照射条件下均实现了溶液和细菌混合溶液的快速升温,且最高温度可达69.8℃,与对照组GNPs-PEG2000相比具有显著的统计学差异;体外抗菌实验结果显示,GNPssystem对金黄色葡萄球菌的杀伤力最强,50μg/mL浓度时就可杀死约50%的细菌;浓度为200μg/mL时基本上可以完全杀死,与对照组GNPs-PEG2000相比较具有显著的统计学差异。结论本研究为GNPs的设计提供了新的思路,为GNPs用于光热治疗提供了新的方法。     

Transrectal implantation and stability of gold markers in prostate bed for salvage radiotherapy of macroscopic recurrences

Background and purposeThe objective of the study was to verify the stability of gold markers in the prostatic bed (PB) during salvage radiotherapy.Material and methodsSeven patients, diagnosed with a macroscopic nodule visible on MRI, underwent targeted MRI-guided biopsies. Three gold markers were implanted into the PB close to the relapsing nodule for CT/MRI fusion. A dose of 60 Gy was delivered using IMRT to the PB followed by a dose escalation up to 72 Gy to the macroscopic nodule. Daily anterior and left-lateral kV-images were acquired for repositioning. The coordinates of the center of each marker were measured on the two kV-images. The distance variations (Dvar) of the markers in the first session and the subsequent ones were compared.ResultsNo marker was lost during treatment. The average distance between markers was 7.8 mm. The average Dvar was 0.8 mm, in absolute value. A total of 380/528 (72%) Dvar were ⩽1 mm. A Dvar greater than 2 mm was observed in 5.7% of measurements, with a maximum value of 4.8 mm.ConclusionsDespite the absence of the prostate, the implantation of gold markers in the PB remains feasible, with Dvar often less than 2 mm, and could be used to develop new approaches of salvage focal radiotherapy on the macroscopic relapse after prostatectomy.     

Laser-induced optothermal response of gold nanoparticles: From a physical viewpoint to cancer treatment application

Gold nanoparticles (GNPs)-based photothermal therapy (PTT) is a promising minimally invasive thermal therapy for the treatment of focal malignancies. Although GNPs-based PTT has been known for over two decades and GNPs possess unique properties as therapeutic agents, the delivery of a safe and effective therapy is still an open question. This review aims at providing relevant and recent information on the usage of GNPs in combination with the laser to treat cancers, pointing out the practical aspects that bear on the therapy outcome. Emphasis is given to the assessment of the GNPs’ properties and the physical mechanisms underlying the laser-induced heat generation in GNPs-loaded tissues. The main techniques available for temperature measurement and the current theoretical simulation approaches predicting the therapeutic outcome are reviewed. Topical challenges in delivering safe thermal dosage are also presented with the aim to discuss the state-of-the-art and the future perspective in the field of GNPs-mediated PTT.     

Fluorescence life‐time imaging and steady state polarization for examining binding of fluorophores to gold nanoparticles

Nanocomposites as multifunctional agents are capable of combing imaging and cell biology technologies. The conventional methods used for validation of the conjugation process of nanoparticles (NPs) to fluorescent molecules such as spectroscopy analysis and surface potential measurements, are not sufficient. In this paper we present a new and highly sensitive procedure that uses the combination of (1) fluorescence spectrum, (2) fluorescence lifetime, and (3) steady state fluorescence polarization measurements. We characterize and analyze gold NPs with Lucifer yellow (LY) surface coating as a model. We demonstrate the ability to differentiate between LY‐GNP (the conjugated complex) and a mixture of coated NP and free dyes. We suggest the approach for neuroscience applications where LY is used for detecting and labeling cells, studying morphology and intracellular communications.

Histograms of Fluorescence lifetime imaging (FLIM) of free LY dye (Left) in comparison to the conjugated dye to gold nanoparticles, LY‐GNP (Middle) enable the differentiation between LY‐GNP (the conjugated complex) and a mixture of coated NP and free dyes (Right).     

Screening of different algae for green synthesis of gold nanoparticles

The cyanobacteria Phormidium valderianum, P. tenue and Microcoleus chthonoplastes and the green algae Rhizoclonium fontinale, Ulva intestinalis, Chara zeylanica and Pithophora oedogoniana were exposed to hydrogen tetrachloroaurate solution and were screened for their suitability for producing nano‐gold. All three cyanobacteria genera and two of the green algae (Rhizoclonium fontinale and Ulva intestinalis) produced gold nanoparticles intracellularly, confirmed by purple colouration of the thallus within 72?h of treatment at 20°C. Extracted nanoparticle solutions were examined by UV‐vis spectroscopy, transmission electron microscopy (TEM) and X‐ray diffractometry (XRD). XRD confirmed the reduction of Au (III) to Au (0). UV‐vis spectroscopy and TEM studies indicated the production of nanoparticles having different shapes and sizes. Phormidium valderianum synthesized mostly spherical nanoparticles, along with hexagonal and triangular nanoparticles, at basic and neutral pHs (pH 9 and pH 7, respectively). Medicinally important gold nanorods were synthesized (together with gold nanospheres) only by P. valderianum at acidic pH (pH 5); this was initially determined by two surface plasmon bands in UV‐vis spectroscopy and later confirmed by TEM. Spherical to somewhat irregular particles were produced by P. tenue and Ulva intestinalis (TEM studies). The UV‐vis spectroscopy of the supernatant of other algal extracts indicated the formation of mostly spherical particles. Production of gold nanoparticles by algae is more ecofriendly than purely chemical synthesis. However, the choice of algae is important: Chara zeylanica and Pithophora oedogoniana were found to be unable to produce nanoparticles.