Tailored hollow mesoporous silica nanoplatforms with biological labels for colon targeted drug deliver systems

Hollow mesoporous silica nanoparticles (HMSNs) were synthesized via a new strategy. HMSNs have a high drug loading, controlled release behaviour, and specifically targeting when bioconjugated with Epidermal Growth Factor. The promising in vitro cell tests have revealed the great potential of the HMSNs to be used for cancer therapy.

A tailored, supportive care intervention using systematic assessment designed for people with inoperable lung cancer: a randomised controlled trial

Objective : People with inoperable lung cancer experience higher levels of distress, more unmet needs and symptoms than other cancer patients. There is an urgent need to test innovative approaches to improve psychosocial and symptom outcomes in this group. This study tested the hypothesis that a tailored, multidisciplinary supportive care programme based on systematic needs assessment would reduce perceived unmet needs and distress and improve quality of life.

Methods : A randomised controlled trial design was used. The tailored intervention comprised two sessions at treatment commencement and completion. Sessions included a self-completed needs assessment, active listening, self-care education and communication of unmet psychosocial and symptom needs to the multidisciplinary team for management and referral. Outcomes were assessed with the Needs Assessment for Advanced Lung Cancer Patients, Hospital Anxiety and Depression Scale, Distress Thermometer and European Organization of Research and Treatment of Cancer Quality of Life Q-C30 V2.0.

Results : One hundred and eight patients with a diagnosis of inoperable lung or pleural cancer (including mesothelioma) were recruited from a specialist facility before the trial closed prematurely (original target 200). None of the primary contrasts of interest were significant (all p > 0.10), although change score analysis indicated a relative benefit from the intervention for unmet symptom needs at 8 and 12 weeks post-assessment (effect size = 0.55 and 0.40, respectively).

Conclusion : Although a novel approach, the hypothesis that the intervention would benefit perceived unmet needs, psychological morbidity, distress and health-related quality of life was not supported overall.

Sensitivity of the final properties of tailored hot stamping components to the process and material parameters

The final mechanical properties of hot stamped components are affected by many process and material parameters due to the multidisciplinary nature of this thermal-mechanical-metallurgical process. The phase transformation, which depends on the temperature field and history, determines the final microstructure and consequently the final mechanical properties. Tailored hot stamping parts - where the cooling rates are locally chosen to achieve structures with graded properties - has been increasingly adopted in the automotive industry. In this case, the robustness of final part properties is more critical than in the conventional hot stamping parts, where the part is fully quenched. In this study, a wide range of input parameters in a generalized hot stamping model have been investigated, examining the effect on the temperature history and resulting final material properties. A generic thermo-mechanical finite element model of hot stamping was created and a modified phase transformation model, based on Scheil's additive principle, has been applied. The comparison between modeling and experiments shows that the modified phase transformation model coupled with the incubation time provides higher accuracy on the simulation of transformation kinetics history. The robustness of four conditions relevant to tailored hot stamping was investigated: heated tooling (with low and high tool conductance), air cooling, and conventional hot stamping. The results show the high robustness of the conventional hot stamping compared to tailored hot stamping, with respect to the stamped component's final material properties (i.e. phase fraction and hardness). Furthermore, tailored hot stamping showed higher robustness when low conductivity tools are used relative to high conductivity tools.

Estudo da estampabilidade de tailored blanks soldadas a laser

A união de chapas de diferentes materiais, espessuras e propriedades mecânicas formando uma geratriz para estampagem é uma estratégia que a indústria automobilística utiliza no desenvolvimento de estruturas leves. Uma delas chama-se Tailored Welded Blanks, onde duas ou mais chapas são unidas pelo processo de solda. Dentro do contexto de estruturas leves é analisado neste trabalho o comportamento mecânico de duas diferentes chapas soldadas utilizadas pela indústria automobilística, formando uma única geratriz com diferentes razões de espessuras. Para isso, foram unidos os materiais ZSTE 220 P nas espessuras 1.5 e 0.8 mm e St 05 nas espessuras de 1.5 e 1.2 mm. O processo de junção utilizado para unir os materiais de diferentes espessuras foi solda a laser. Os ensaios de fabricação utilizados para caracterizar o comportamento mecânico do material foram o ensaio de tração uniaxial e o ensaio Nakajima modificado. O ensaio de tração define as propriedades mecânicas e o ensaio Nakajima quantifica as deformações principais maiores e menores na superfície da chapa. De posse destas deformações é possível construir as Curvas Limites de Conformação (CLC) de cada material. A maneira encontrada para simular estes estados de deformações foi utilizar 8 corpos de prova de mesmo comprimento, porém variando sua largura e o raio do entalhe correspondente. O uso de corpos de prova com diferentes larguras e raio de entalhe permite obter deformações que abrangem os campos referentes ao estiramento, deformação plana e embutimento profundo.

Tailored Therapy: Matching the Method to the Patient

Clinicians frequently have to decide when dialysis should be initiated and which modality should be used to support kidney function in critically ill patients with acute kidney injury. In most instances, these decisions are made based on the consideration of a variety of factors including patient condition, available resources and prevailing local practice experience. There is a wide variation worldwide in how these factors influence the timing of initiation and the utilization of various modalities. In this article, we review the therapeutic goals of renal support and the relative advantages and shortcomings of different dialysis techniques. We describe strategies for matching the timing of initiation to the choice of modality to individualize renal support in intensive care unit patients. Copyright (C) 2012 S. Karger AG, Basel

Automatic design of decision-tree induction algorithms tailored to flexible-receptor docking data

Background: This paper addresses the prediction of the free energy of binding of a drug candidate with enzyme InhA associated with Mycobacterium tuberculosis. This problem is found within rational drug design, where interactions between drug candidates and target proteins are verified through molecular docking simulations. In this application, it is important not only to correctly predict the free energy of binding, but also to provide a comprehensible model that could be validated by a domain specialist. Decision-tree induction algorithms have been successfully used in drug-design related applications, specially considering that decision trees are simple to understand, interpret, and validate. There are several decision-tree induction algorithms available for general-use, but each one has a bias that makes it more suitable for a particular data distribution. In this article, we propose and investigate the automatic design of decision-tree induction algorithms tailored to particular drug-enzyme binding data sets. We investigate the performance of our new method for evaluating binding conformations of different drug candidates to InhA, and we analyze our findings with respect to decision tree accuracy, comprehensibility, and biological relevance. Results: The empirical analysis indicates that our method is capable of automatically generating decision-tree induction algorithms that significantly outperform the traditional C4.5 algorithm with respect to both accuracy and comprehensibility. In addition, we provide the biological interpretation of the rules generated by our approach, reinforcing the importance of comprehensible predictive models in this particular bioinformatics application. Conclusions: We conclude that automatically designing a decision-tree algorithm tailored to molecular docking data is a promising alternative for the prediction of the free energy from the binding of a drug candidate with a flexible-receptor.

Tailored SERS substrates obtained with cathodic arc plasma ion implantation of gold nanoparticles into a polymer matrix

This manuscript reports on the fabrication of plasmonic substrates using cathodic arc plasma ion implantation, in addition to their performance as SERS substrates. The technique allows for the incorporation of a wide layer of metallic nanoparticles into a polymer matrix, such as PMMA. The ability to pattern different structures using the PMMA matrix is one of the main advantages of the fabrication method. This opens up new possibilities for obtaining tailored substrates with enhanced performance for SERS and other surface-enhanced spectroscopies, as well as for exploring the basic physics of patterned metal nanostructures. The architecture of the SERS-active substrate was varied using three adsorption strategies for incorporating a laser dye (rhodamine): alongside the nanoparticles into the polymer matrix, during the polymer cure and within nanoholes lithographed on the polymer. As a proof-of-concept, we obtained the SERS spectra of rhodamine for the three types of substrates. The hypothesis of incorporation of rhodamine molecules into the polymer matrix during the cathodic arc plasma ion implantation was supported by FDTD (Finite-Difference Time-Domain) simulations. In the case of arrays of nanoholes, rhodamine molecules could be adsorbed directly on the gold surface, then yielding a well-resolved SERS spectrum for a small amount of analyte owing to the short-range interactions and the large longitudinal field component inside the nanoholes. The results shown here demonstrate that the approach based on ion implantation can be adapted to produce reproducible tailored substrates for SERS and other surface-enhanced spectroscopies.

Tailored norbornene-based copolymer with systematic variation of norbornadiene as a crosslinker obtained via ROMP with alternative amine Ru catalysts

Copolymers of norbornene (NBE) with norbomadiene (NBD) were obtained via ROMP with [RuCl2(PPh3)(2)(L)] type complexes as initiators (1 for L = piperidine and 2 for L = 3,5-Me(2)piperidine). The reactions were performed using a fixed quantity of NBE (5000 equivalents/[Ru]) for different concentrations of NBD (500, 1000, 1500 and 2000 equivalents/ [Ru]) in CHCl3, initiated with ethyl diazoacetate at room temperature. The presence of NBD in the NBE chains was characterized by H-1 and C-13 NMR. Whereas the copolymer microstructure was influenced neither by the NBD quantity nor by the initiator type, the N-n and PDI values were improved when increasing the NBD quantity in the medium. When raising the NBD amount, DMA results indicated increased cross-linking with increasing T-g and E ' storage modulus, as well as the fact that SEM micrographs indicated decreased pore sizes in the porous isolated copolymers. (C) 2011 Elsevier Ltd. All rights reserved.

Tailored epoxide monomers as building units for multifunctional poly(ethylene glycol)

Poly(ethylenglykol) (PEG) ist eines der wichtigsten Polymere für pharmazeutische und biomedizinische Zwecke. Dies lässt sich vor allen Dingen auf seine ausgezeichnete Biokompatibilität, seine hohe chemische Stabilität sowie seine sehr gute Wasserlöslichkeit zurückführen. Neben seiner Anwendung in Produkten wie Lebensmitteln und Kosmetika ist PEG vor allem im pharmazeutischen Bereich unersetzlich geworden. Hier dient PEG als Grundlage für Salben, es kommt aber auch in der sogenannten „PEGylierung“ zum Einsatz. Unter PEGylierung versteht man die kovalente Verknüpfung von PEG mit Wirkstoffmolekülen, beispielsweise Proteinen oder niedermolekularen Medikamenten. In der akademischen Forschung sind aber auch PEGylierte Nanopartikel oder durch PEG stablisierte Liposomen für die Applikation im Bereich der Medizin von hohem Interesse. Trotz seiner breiten Verwendung hat PEG zwei entscheidende Nachteile: Zum einen benötigt man gerade im Hinblick auf PEGylierungen viele funktionelle Gruppe, jedoch trägt PEG maximal zwei Hydroxyl-Gruppen (die Endgruppen), die für kovalente Verknüpfungen genutzt werden können. Zum anderen ist PEG nicht in physiologischer Umgebung abbaubar und kann daher in vivo oberhalb eines Molekulargewichts von 40 000 g/mol nicht eingesetzt werden, da sonst eine Ausscheidung über die Niere nicht möglich ist und eine ungewollte Anreicherung im Körper stattfindet.rnDie durch die geringe Anzahl an Endgruppen limitierte Beladungsdichte kann durch das Design neuer Epoxid-Derivate und deren statistischen Einbau in das PEG Rückgrat deutlich verbessert werden. Im ersten Teil dieser Arbeit werden drei neuartige funktionelle Oxirane vorgestellt, die systematisch mit Ethylenoxid copolymerisiert wurden, was die selektive Einführung verschiedener funktioneller Gruppen am Polymerrückgrat ermöglicht. Im Vordergrund der Betrachtungen standen die Eigenschaften der neuartigen multifunktionellen (mf)-PEG Copolymere im Hinblick auf ihr thermisches Verhalten sowie die Verteilung der funktionellen Gruppen (Mikrostruktur) innerhalb des PEG-Rückgrats. Die gezielte Adressierbarkeit der funktionellen Gruppen konnte durch verschiedene Modellreaktionen bestätigt werden. Darüber hinaus konnte gezeigt werden, dass sich mit der vorgestellten Synthesestrategie komplexe Hybridmaterialien, beispielsweise metallhaltige Polyether, darstellen lassen. Mit Hinblick auf die biomedizinischen Anwendungen und die Konkurrenz zu etablierten PEG-Hompolymeren, standen die Wasserlöslichkeit und die Toxizität der synthetisierten Materialien im Zentrum weiterer Untersuchungen. Alle dargestellten Polymere zeigten einen Trübungspunkt in Wasser, der sich in Abhängigkeit der Zusammensetzung und Hydrophobizität der Comonomere über ein weites Temperaturspektrum variieren und somit systematisch einstellen ließ. Die Toxizität der statistischen mf-PEGs lag im Bereich von PEG, was die mf-PEGs interessant für biomedizinische Anwendung macht.rnIm zweiten Teil der Arbeit wurden Copolymerisationen verwendet, um über erstmals hergestellte Epoxid-Inimere sauer spaltbare Einheiten in das Polyetherrückgrat einzuführen. Die neuen, verzweigten Strukturen wurden auf die Zersetzung in physiologisch relevantem Milieu untersucht. Die erzielte pH-abhängige Spaltbarkeit, kann für potenzielle Anwendungen beispielsweise in der Krebstherapie, von Vorteil sein.rn

Tailored total lymphoid irradiation in heart transplant patients: 10-years experience of one center

To assess safety and efficacy of tailored total lymphoid irradiation (tTLI) in cardiac transplant patients.

Tailored protection against plasmalemmal injury by annexins with different Ca2+ sensitivities

The annexins, a family of Ca(2+)- and lipid-binding proteins, are involved in a range of intracellular processes. Recent findings have implicated annexin A1 in the resealing of plasmalemmal injuries. Here, we demonstrate that another member of the annexin protein family, annexin A6, is also involved in the repair of plasmalemmal lesions induced by a bacterial pore-forming toxin, streptolysin O. An injury-induced elevation in the intracellular concentration of Ca(2+) ([Ca(2+)](i)) triggers plasmalemmal repair. The highly Ca(2+)-sensitive annexin A6 responds faster than annexin A1 to [Ca(2+)](i) elevation. Correspondingly, a limited plasmalemmal injury can be promptly countered by annexin A6 even without the participation of annexin A1. However, its high Ca(2+) sensitivity makes annexin A6 highly amenable to an unproductive binding to the uninjured plasmalemma; during an extensive injury accompanied by a massive elevation in [Ca(2+)](i), its active pool is severely depleted. In contrast, annexin A1 with a much lower Ca(2+) sensitivity is ineffective at the early stages of injury; however, it remains available for the repair even at high [Ca(2+)](i). Our findings highlight the role of the annexins in the process of plasmalemmal repair; a number of annexins with different Ca(2+)-sensitivities provide a cell with the means to react promptly to a limited injury in its early stages and, at the same time, to withstand a sustained injury accompanied by the continuous formation of plasmalemmal lesions.

Can a website-delivered computer-tailored physical activity intervention be acceptable, usable, and effective for older people?

Despite the numerous health benefits, population physical activity levels are low and declining with age. A continued increase of Internet access allows for website-delivered interventions to be implemented across age-groups, though older people have typically not been considered for this type of intervention. Therefore, the purpose of this study was to evaluate a website-delivered computer-tailored physical activity intervention, with a specific focus on differences in tailored advice acceptability, website usability, and physical activity change between three age-groups. To mimic "real-life" conditions, the intervention, which provided personalized physical activity feedback delivered via the Internet, was implemented and evaluated without any personal contact for the entire duration of the study. Data were collected online at baseline, 1-week, and 1-month follow-up and analyzed for three age-groups (≤44, 45-59, and ≥60 years) using linear mixed models. Overall, 803 adults received the intervention and 288 completed all measures. The oldest age-group increased physical activity more than the other two groups, spent the most time on the website, though had significantly lower perceived Internet self-confidence scores when compared with the youngest age-group. No differences were found in terms of website usability and tailored advice acceptability. These results suggest that website-delivered physical activity interventions can be suitable and effective for older aged adults.