Marinetti ultimo mitografo

La ricognizione delle opere composte da Filippo Tommaso Marinetti tra il 1909 e il 1912 è sostenuta da una tesi paradossale: il futurismo di Marinetti non sarebbe un'espressione della modernità, bensì una reazione anti-moderna, che dietro a una superficiale ed entusiastica adesione ad alcune parole d'ordine della seconda rivoluzione industriale nasconderebbe un pessimismo di fondo nei confronti dell'uomo e della storia. In questo senso il futurismo diventa un emblema del ritardo culturale e del gattopardismo italiano, e anticipa l’analoga operazione svolta in politica da Mussolini: dietro un’adesione formale ad alcune istanze della modernità, la preservazione dello Status Quo. Marinetti è descritto come un corpo estraneo rispetto alla cultura scientifica del Novecento: un futurista senza futuro (rarissime in Marinetti sono le proiezioni fantascientifiche). Questo aspetto è particolarmente evidente nelle opere prodotte del triennio 1908-1911, che non solo sono molto diverse dalle opere futuriste successive, ma per alcuni aspetti rappresentano una vera e propria antitesi di ciò che diventerà il futurismo letterario a partire dal 1912, con la pubblicazione del Manifesto tecnico della letteratura futurista e l'invenzione delle parole in libertà. Nelle opere precedenti, a un sostanziale disinteresse per il progressismo tecnologico corrispondeva un'attenzione ossessiva per la corporeità e un ricorso continuo all'allegoria, con effetti particolarmente grotteschi (soprattutto nel romanzo Mafarka le futuriste) nei quali si rilevano tracce di una concezione del mondo di sapore ancora medioevo-rinascimentale. Questa componente regressiva del futurismo marinettiano viene platealmente abbandonata a partire dal 1912, con Zang Tumb Tumb, salvo riaffiorare ciclicamente, come una corrente sotterranea, in altre fasi della sua carriera: nel 1922, ad esempio, con la pubblicazione de Gli indomabili (un’altra opera allegorica, ricca di reminiscenze letterarie). Quella del 1912 è una vera e propria frattura, che nel primo capitolo è indagata sia da un punto di vista storico (attraverso la documentazione epistolare e giornalistica vengono portate alla luce le tensioni che portarono gran parte dei poeti futuristi ad abbandonare il movimento proprio in quell'anno) che da un punto di vista linguistico: sono sottolineate le differenze sostanziali tra la produzione parolibera e quella precedente, e si arrischia anche una spiegazione psicologica della brusca svolta impressa da Marinetti al suo movimento. Nel secondo capitolo viene proposta un'analisi formale e contenutistica della ‘funzione grottesca’ nelle opere di Marinetti. Nel terzo capitolo un'analisi comparata delle incarnazioni della macchine ritratte nelle opere di Marinetti ci svela che quasi sempre in questo autore la macchina è associata al pensiero della morte e a una pulsione masochistica (dominante, quest'ultima, ne Gli indomabili); il che porta ad arrischiare l'ipotesi che l'esperienza futurista, e in particolare il futurismo parolibero posteriore al 1912, sia la rielaborazione di un trauma. Esso può essere interpretato metaforicamente come lo choc del giovane Marinetti, balzato in pochi anni dalle sabbie d'Alessandria d'Egitto alle brume industriali di Milano, ma anche come una reale esperienza traumatica (l'incidente automobilistico del 1908, “mitologizzato” nel primo manifesto, ma che in realtà fu vissuto dall'autore come esperienza realmente perturbante).

Adaptive multiscale biological signal processing

Biological processes are very complex mechanisms, most of them being accompanied by or manifested as signals that reflect their essential characteristics and qualities. The development of diagnostic techniques based on signal and image acquisition from the human body is commonly retained as one of the propelling factors in the advancements in medicine and biosciences recorded in the recent past. It is a fact that the instruments used for biological signal and image recording, like any other acquisition system, are affected by non-idealities which, by different degrees, negatively impact on the accuracy of the recording. This work discusses how it is possible to attenuate, and ideally to remove, these effects, with a particular attention toward ultrasound imaging and extracellular recordings. Original algorithms developed during the Ph.D. research activity will be examined and compared to ones in literature tackling the same problems; results will be drawn on the base of comparative tests on both synthetic and in-vivo acquisitions, evaluating standard metrics in the respective field of application. All the developed algorithms share an adaptive approach to signal analysis, meaning that their behavior is not dependent only on designer choices, but driven by input signal characteristics too. Performance comparisons following the state of the art concerning image quality assessment, contrast gain estimation and resolution gain quantification as well as visual inspection highlighted very good results featured by the proposed ultrasound image deconvolution and restoring algorithms: axial resolution up to 5 times better than algorithms in literature are possible. Concerning extracellular recordings, the results of the proposed denoising technique compared to other signal processing algorithms pointed out an improvement of the state of the art of almost 4 dB.

Regulation der Stress-aktivierten Proteinkinasen durch den gentoxischen Benzo[a]pyren-Metaboliten BPDE

Polyzyklische aromatische Kohlenwasserstoffe (PAK) sind ubiquitäre Verschmutzungen der Umwelt und entstehen während der unvollständigen Verbrennung organischen Materials wie Holz, Kohle und Erdöl. Werden diese chemisch nicht reaktiven PAK in den Körper aufgenommen, durchlaufen sie eine Reihe von enzymatischen Umsetzungen, die unter der Bezeichnung Fremdstoffmetabolismus zusammengefasst werden. Die chemische Umsetzung des PAK und Prokarzinogens Benzo[a]pyren (B[a]P) führt u.a. zur Bildung des reaktiven Metaboliten B[a]P-7,8-dihydrodiol-9,10-epoxid (BPDE). BPDE ist stark elektrophil und kann auf Grund dieser Eigenschaft an nukleophile Makromoleküle wie Proteine und DNA binden. Die Bildung von BPDE-DNA-Addukten resultiert in der Entstehung von Mutationen und kann zur Tumorbildung führen. Im Rahmen der vorliegenden Arbeit sollte die Wirkung von BPDE als Modellsubstanz für gentoxische Agenzien auf intrazelluläre Signalkaskaden und die Konsequenzen der BPDE-Exposition bezüglich der Zellaktivität untersucht werden. Es konnte gezeigt werden, dass BPDE-Behandlung von Mausfibroblasten eine intrazelluläre Signalkaskade induziert, welche zur Aktivierung der Stressaktivierten Proteinkinasen (SAPK) JNK und p38 führt. An dieser Signalkaskade sind Src-ähnliche Kinasen beteiligt. BPDE-Behandlung führt in den untersuchten Mausfibroblasten zur Induktion von DNA-Einzelstrangbrüchen, deren Auftreten zeitlich mit der SAPK-Aktivierung korreliert. Die BPDEinduzierten DNA-Strangbrüche sind die Folge der Entfernung dieser Läsionen aus dem Genom durch die Nukleotidexzisionsreparatur (NER). Erkannt werden BPDE-DNA-Addukte durch die NERProteine XPA und XPC (Xeroderma Pigmentosum Komplementationsgruppe A und C). Nach der Erkennung von BPDE-DNA-Addukten kommt es zur Rekrutierung von Nukleasen, welche die vorliegende Läsion und umliegende Nukleotide aus dem Genom entfernen. In XPA- und XPCdefizienten Mausfibroblasten induziert BPDE daher keine DNA-Strangbrüche. Jedoch ist nur in XPCdefizienten Zellen, aber nicht in XPA-defizienten Zellen, die SAPK-Aktivierung drastisch reduziert. Behandlung von Mausfibroblasten mit Benzo[c]phenanthren-3,4-Diol-1,2-Epoxid, einem PAK, dessen DNA-Addukte schlecht durch NER-Faktoren erkannt und repariert werden, führt zu keiner SAPKAktivierung. Die Aktivierung von p38 und JNK scheint demnach abhängig zu sein von der Erkennung des primären DNA-Schadens. Die XPC-abhängige SAPK-Aktivierung schützt die Zellen vor BPDEabhängiger Toxizität, da sowohl XPC- als auch p38-defiziente Mausfibroblasten eine höhere Sensitivität gegenüber BPDE zeigen als korrespondierende Wildtypzellen. Zusamenfassend konnte in dieser Arbeit ein neuer Signalweg beschrieben werden, in dem DNASchäden, verursacht durch BPDE, über die XPC-abhängige DNA-Schadenserkennung, die Aktivierung der SAPK induziert. Diese Aktivierung der SAPK schützt vor BPDE-induzierter Toxizität.

La scuola di Gundēšābūr. La conoscenza del corpo umano (anatomia e fisiologia) e la trasmissione delle teorie medico-scientifiche nel mondo sasanide e post-sasanide.

Questo lavoro traccia un quadro della diffusione e trasmissione delle conoscenze riguardanti l’anatomia e la fisiologia del corpo umano nel mondo iranico in età sasanide (III-VII sec. d.C.). La tesi analizza il ruolo delle scuole di medicina in territorio iranico, come quelle sorte a Nisibi e Gundēšābūr, delle figure dei re sasanidi interessati alla filosofia e alla scienza greca, e dei centri di studio teologico e medico che, ad opera dei cristiani siro-orientali, si fecero promotori della conoscenza medico-scientifica greca in terra d’Iran.

Il corpo e l'individuo tra proprietà ed autodeterminazione. Con particolare riferimento al fenomeno delle biobanche

La bioetica è il luogo ideale per cercare risposte ai grandi interrogativi concernenti la vita, la morte e la cura dell'essere umano. I recenti dibattiti sull'uso, ed il temuto abuso, del corpo umano in medicina hanno messo in evidenza la necessità di una discussione approfondita sul potere di scelta che l'individuo può esercitare sulla propria mente e sul proprio corpo. Spinta dal desidero di indagare l'estensione di tale potere di scelta ho voluto analizzare le tematiche riguardanti “il corpo”, “l'individuo”, “la proprietà” e “l'autodeterminazione”. L'analisi è stata condotta individuando alcuni dei differenti significati che questi termini assumono nei diversi ambiti che la bioetica lambisce e mostrando, in particolare, la visione di tale realtà attraverso le lenti del giurista. A chi appartiene il corpo? Chi ha il potere di decidere su di esso? Il potere di scelta valica gli antichi i confini legati al corpo del paziente e coinvolge tessuti, organi e cellule staccati dal corpo umano, parti che un tempo erano considerati scarti operatori sono oggi divenuti tesori inestimabili per la ricerca. L'importanza assunta dai campioni biologici ha portato alla creazione di biobanche nelle quali sono raccolti, catalogati e il DNA studiato in campioni biologici Le biobanche riflettono le tensioni della bioetica e del biodititto. Lo studio delle biobanche riguarda, tra l'altro, la riceca dell'equilibrio tra le diverse esigenze meritevoli di tutela: in primo luogo il diritto alla privacy, diritto a che le “proprie informazioni” non vengano divulgate ed il diritto a non essere discriminato ed in secondo luogo le necessità dettate dalla ricerca e dalla scienza medica. Nel 2009 la rivista Times messo biobanche tra le 10 idee in grado di cambiare il mondo anche in considarazione della medicina personalizzata e del fatto che costituiscono una la speranza per la ricerca contro le malattie attuali e future.

Gait analysis using a single wearable inertial measurement unit

Procedures for quantitative walking analysis include the assessment of body segment movements within defined gait cycles. Recently, methods to track human body motion using inertial measurement units have been suggested. It is not known if these techniques can be readily transferred to clinical measurement situations. This work investigates the aspects necessary for one inertial measurement unit mounted on the lower back to track orientation, and determine spatio-temporal features of gait outside the confines of a conventional gait laboratory. Apparent limitations of different inertial sensors can be overcome by fusing data using methods such as a Kalman filter. The benefits of optimizing such a filter for the type of motion are unknown. 3D accelerations and 3D angular velocities were collected for 18 healthy subjects while treadmill walking. Optimization of Kalman filter parameters improved pitch and roll angle estimates when compared to angles derived using stereophotogrammetry. A Weighted Fourier Linear Combiner method for estimating 3D orientation angles by constructing an analytical representation of angular velocities and allowing drift free integration is also presented. When tested this method provided accurate estimates of 3D orientation when compared to stereophotogrammetry. Methods to determine spatio-temporal features from lower trunk accelerations generally require knowledge of sensor alignment. A method was developed to estimate the instants of initial and final ground contact from accelerations measured by a waist mounted inertial device without rigorous alignment. A continuous wavelet transform method was used to filter and differentiate the signal and derive estimates of initial and final contact times. The technique was tested with data recorded for both healthy and pathologic (hemiplegia and Parkinson’s disease) subjects and validated using an instrumented mat. The results show that a single inertial measurement unit can assist whole body gait assessment however further investigation is required to understand altered gait timing in some pathological subjects.

Lo spazio senso-motorio come rappresentazione dei comportamenti intersoggettivi. Una nuova ipotesi sperimentale dalla filosofia alle neuroscienze

La ricerca ha preso le mosse da tre ipotesi fondamentali: 1) Esiste un legame tra processi cognitivi di basso ed alto livello; 2) Lo spazio senso-motorio è una percezione soggettiva; 3) Lo spazio senso-motorio varia in funzione delle diverse modalità di interazione sociale. La tesi sostiene che lo spazio senso-motorio si lascia modulare dalla semplice co-presenza di un altro agente umano e da interazioni cooperative e non cooperative. I capitoli I, II, III, hanno lo scopo di scomporre e spiegare il significato della prima, seconda e terza ipotesi; giungendo a formulare la tesi centrale che sarà poi dimostrata sperimentalmente nel capitolo IV. Il capitolo V introduce future linee di ricerca nell’ambito dell’etica proponendo una nuova ipotesi sul legame che potrebbe sussistere tra la percezione dello spazio durante l’interazione sociale e i giudizi morali. Il lavoro svolto chiama ad operare insieme diverse discipline che concorrono a formare le scienze cognitive: la storia della filosofia, la filosofia della mente contemporanea, la neuropsicologia sperimentale ed alcuni temi della psicologia sociale.

Development, degeneration and neural network of the bodily self

The question addressed by this dissertation is how the human brain builds a coherent representation of the body, and how this representation is used to recognize its own body. Recent approaches by neuroimaging and TMS revealed hints for a distinct brain representation of human body, as compared with other stimulus categories. Neuropsychological studies demonstrated that body-parts and self body-parts recognition are separate processes sub-served by two different, even if possibly overlapping, networks within the brain. Bodily self-recognition is one aspect of our ability to distinguish between self and others and the self/other distinction is a crucial aspect of social behaviour. This is the reason why I have conducted a series of experiment on subjects with everyday difficulties in social and emotional behaviour, such as patients with autism spectrum disorders (ASD) and patients with Parkinson’s disease (PD). More specifically, I studied the implicit self body/face recognition (Chapter 6) and the influence of emotional body postures on bodily self-processing in TD children as well as in ASD children (Chapter 7). I found that the bodily self-recognition is present in TD and in ASD children and that emotional body postures modulate self and others’ body processing. Subsequently, I compared implicit and explicit bodily self-recognition in a neuro-degenerative pathology, such as in PD patients, and I found a selective deficit in implicit but not in explicit self-recognition (Chapter 8). This finding suggests that implicit and explicit bodily self-recognition are separate processes subtended by different mechanisms that can be selectively impaired. If the bodily self is crucial for self/other distinction, the space around the body (personal space) represents the space of interaction and communication with others. When, I studied this space in autism, I found that personal space regulation is impaired in ASD children (Chapter 9).

Multimethodological study of molecular recognition phenomena

The study of the bio-recognition phenomena behind a biological process is nowadays considered a useful tool to deeply understand physiological mechanisms allowing the discovery of novel biological target and the development of new lead candidates. Moreover, understanding this kind of phenomena can be helpful in characterizing absorption, distribution, metabolism, elimination and toxicity properties of a new drug (ADMET parameters). Recent estimations show that about half of all drugs in development fail to make it to the market because of ADMET deficiencies; thus a rapid determination of ADMET parameters in early stages of drug discovery would save money and time, allowing to choose the better compound and to eliminate any losers. The monitoring of drug binding to plasma proteins is becoming essential in the field of drug discovery to characterize the drug distribution in human body. Human serum albumin (HSA) is the most abundant protein in plasma playing a fundamental role in the transport of drugs, metabolites and endogenous factors; so the study of the binding mechanism to HSA has become crucial to the early characterization of the pharmacokinetic profile of new potential leads. Furthermore, most of the distribution experiments carried out in vivo are performed on animals. Hence it is interesting to determine the binding of new compounds to albumins from different species to evaluate the reliability of extrapolating the distribution data obtained in animals to humans. It is clear how the characterization of interactions between proteins and drugs determines a growing need of methodologies to study any specific molecular event. A wide variety of biochemical techniques have been applied to this purpose. High-performance liquid affinity chromatography, circular dichroism and optical biosensor represent three techniques that can be able to elucidate the interaction of a new drug with its target and with others proteins that could interfere with ADMET parameters.

In vivo evaluation of the translations of the gleno-humeral joint using Magnetic resonance imaging

Gleno-humeral joint (GHJ) is the most mobile joint of the human body. This is related to theincongr uence between the large humeral head articulating with the much smaller glenoid (ratio 3:1). The GHJ laxity is the ability of the humeral head to be passively translated on the glenoid fossa and, when physiological, it guarantees the normal range of motion of the joint. Three-dimensional GHJ linear displacements have been measured, both in vivo and in vitro by means of different instrumental techniques. In vivo gleno-humeral displacements have been assessed by means of stereophotogrammetry, electromagnetic tracking sensors, and bio-imaging techniques. Both stereophotogrammetric systems and electromagnetic tracking devices, due to the deformation of the soft tissues surrounding the bones, are not capable to accurately assess small displacements, such as gleno-humeral joint translations. The bio-imaging techniques can ensure for an accurate joint kinematic (linear and angular displacement) description, but, due to the radiation exposure, most of these techniques, such as computer tomography or fluoroscopy, are invasive for patients. Among the bioimaging techniques, an alternative which could provide an acceptable level of accuracy and that is innocuous for patients is represented by magnetic resonance imaging (MRI). Unfortunately, only few studies have been conducted for three-dimensional analysis and very limited data is available in situations where preset loads are being applied. The general aim of this doctoral thesis is to develop a non-invasive methodology based on open-MRI for in-vivo evaluation of the gleno-humeral translation components in healthy subjects under the application of external loads.

Shape memory and elastoplastic materials: from constitutive and numerical to fatigue modeling

Shape memory materials (SMMs) represent an important class of smart materials that have the ability to return from a deformed state to their original shape. Thanks to such a property, SMMs are utilized in a wide range of innovative applications. The increasing number of applications and the consequent involvement of industrial players in the field have motivated researchers to formulate constitutive models able to catch the complex behavior of these materials and to develop robust computational tools for design purposes. Such a research field is still under progress, especially in the prediction of shape memory polymer (SMP) behavior and of important effects characterizing shape memory alloy (SMA) applications. Moreover, the frequent use of shape memory and metallic materials in biomedical devices, particularly in cardiovascular stents, implanted in the human body and experiencing millions of in-vivo cycles by the blood pressure, clearly indicates the need for a deeper understanding of fatigue/fracture failure in microsize components. The development of reliable stent designs against fatigue is still an open subject in scientific literature. Motivated by the described framework, the thesis focuses on several research issues involving the advanced constitutive, numerical and fatigue modeling of elastoplastic and shape memory materials. Starting from the constitutive modeling, the thesis proposes to develop refined phenomenological models for reliable SMA and SMP behavior descriptions. Then, concerning the numerical modeling, the thesis proposes to implement the models into numerical software by developing implicit/explicit time-integration algorithms, to guarantee robust computational tools for practical purposes. The described modeling activities are completed by experimental investigations on SMA actuator springs and polyethylene polymers. Finally, regarding the fatigue modeling, the thesis proposes the introduction of a general computational approach for the fatigue-life assessment of a classical stent design, in order to exploit computer-based simulations to prevent failures and modify design, without testing numerous devices.

Le variazioni anatomiche: La vera immagine dell'anatomia dell'uomo

La studio dell’Anatomia umana presenta una varietà di sfaccettature, che sono alla base della reale comprensione del corpo umano; ovvero la vera anatomia non è quella rappresentata nei testi ma quella che appare durante la dissezione o nelle più sofisticate analisi di immagine. Lo scopo di questa tesi è stato quello di rivisitare alcune situazioni vascolari che possono andare incontro a variazioni e cercare di comprendere, anche con l’aiuto della bibliografia, se tali variazioni possono essere causa o epifenomeni di patologie a carico delle arterie affette dalle variazioni stesse o di territori da esse dipendenti per l’afflusso sanguigno. E’ stata condotta una analisi su preparati cadaverici in particolare in tre distretti: a) addome e tripode celiaco/mesenterica superiore; b) circolo cerebrale; d) orco aortico.

Die Expression und Regulation der CYP3A in menschlicher Haut

In Leber und Dünndarm bauen CYP3A-Enzyme eine Vielzahl von Fremdstoffen ab, die in den Körper gelangt sind. Zudem aber sind diese Enzyme auch in anderen Organen, wie der Haut exprimiert. Doch weder die genaue Zusammensetzung der CYP3A-Isozyme noch deren physiologische Rolle in der Haut sind bisher bekannt. Basierend auf begrenzten in vitro-Daten ist eine Rolle der CYP3A in der kutanen Vitamin D-Synthese denkbar. Auf der anderen Seite könnten die kutanen CYP3A auch lokal oder systemisch verabreichte Medikamente in der Haut verstoffwechseln und so zur Entstehung immunologischer und nicht-immunologischer unerwünschter Arzneimittelwirkungen beitragen, von denen sich bis zu 45 % in der Haut manifestieren.rnDie Arbeitshypothese dieses Projekts war, dass die CYP3A die kutane Synthese von Vitamin D regulieren. In dieser Funktion wurden sie zur Vermeidung von Vitamin D-Mangel-Erkrankungen wie Rachitis oder Osteomalazie in Europäern negativ selektiert. rnDie Expression und Regulation der CYP3A wurde in Hautbiopsien, einer Zelllinie epidermalen Ursprungs und primären Hautzellen wie auch in transgenen Mäusen untersucht. Die metabolische Aktivität der CYP3A gegenüber den kutanen Vitamin D-Vorstufen wurde mit Hilfe rekombinant exprimierter Enzyme untersucht. CYP3A5-mRNA war die häufigste der CYP3A in humanen Hautproben und überstieg die von CYP3A4 um das Dreifache, die von CYP3A7 um das 130-Fache. Damit entsprach diese 1,3 %, 0,01 % bzw. 0,01 % der jeweiligen hepatischen Genexpression. Die Expression von CYP3A43 war zu vernachlässigen. CYP3A5 zeigte eine bimodale Expression sowohl auf mRNA- als auch auf Proteinebene. So zeigten Träger der Wildtyp-Allels *1 eine 3,3-fach höhere mRNA- und 1,8-fach höhere Proteinmenge als homozygote Träger des Nullallels *3. CYP3A4/7- und CYP3A5-Protein wurde v. a. in den Keratinozyten der Epidermis und den Talgdrüsen, also den Bereichen der kutanen Vitamin D-Synthese lokalisiert. Die CYP3A5-Expression wurde ferner in der Haut transgener Mäusen gezeigt, die das Reportergen Luziferase unter Kontrolle des humanen CYP3A5-Promoters exprimieren. Verglichen mit der Leber war die kutane Expression des Vitamin D-Rezeptors (VDR) 100-fach höher, die der Xenosensoren CAR und PXR vergleichbar bzw. zu vernachlässigen. Dementsprechend erhöhte die Behandlung mit 1,25-Dihydroxyvitamin D, dem aktiven Vitamin D-Hormon, und dessen Vorstufen außer 7-Dehydrocholesterol, jedoch nicht der PXR-Ligand Rifampicin, die Expression der CYP3A. Wie in Zwei-Hybrid-Experimenten gezeigt, wurden die Effekte des 1,25-Dihydroxyvitamin D und dessen Vorstufen alleinig durch VDR vermittelt. Die Effektstärke hingegen war abhängig von Zellspender, Zellpassage und Zelltypus. Alle drei CYP3A-Isozyme metabolisieren Vitamin D zu einem oder mehreren unbekannten Metaboliten, jedoch nicht zu 25-Hydroxyvitamin D, dem direkten Vorläufer des aktiven Vitamin D. rnZusammengefasst legen die Daten nahe, dass die kutanen CYP3A, allen voran CYP3A5, die Vitamin D-Homöostase durch VDR-vermittelte Induktion des Abbaus von Vitamin D-Vorstufen regulieren. Dies zusammen mit Sequenzdaten liefert starke Indizien für Vitamin D als treibende Kraft der Selektion des CYP3A-Lokus in Europäern. Der Einfluss der CYP3A-Expression auf selektiv wirksame, klinisch relevante Knochenveränderungen wie Rachitis oder Osteomalazie müssen folgen.rn

Complex tracer mobilities in polymer networks revealed by fluorescence correlation spectroscopy

Gels are elastic porous polymer networks that are accompanied by pronounced mechanical properties. Due to their biocompatibility, ‘responsive hydrogels’ (HG) have many biomedical applications ranging from biosensors and drug delivery to tissue engineering. They respond to external stimuli such as temperature and salt by changing their dimensions. Of paramount importance is the ability to engineer penetrability and diffusion of interacting molecules in the crowded HG environment, as this would enable one to optimize a specific functionality. Even though the conditions under which biomedical devices operate are rather complex, a bottom-up approach could reduce the complexity of mutually coupled parameters influencing tracer mobility. The present thesis focuses on the interaction-induced tracer diffusion in polymer solutions and their homologous gels, probed by means of Fluorescence Correlation Spectroscopy (FCS). This is a single-molecule-sensitive technique having the advantage of optimal performance under ultralow tracer concentrations, typically employed in biosensors. Two different types of hydrogels have been investigated, a conventional one with broad polydispersity in the distance between crosslink points and a so-called ‘ideal’, with uniform mesh size distribution. The former is based on a thermoresponsive polymer, exhibiting phase separation in water at temperatures close to the human body temperature. The latter represents an optimal platform to study tracer diffusion. Mobilities of different tracers have been investigated in each network, varying in size, geometry and in terms of tracer-polymer attractive strength, as perturbed by different stimuli. The thesis constitutes a systematic effort towards elucidating the role of the strength and nature of different tracer-polymer interactions, on tracer mobilities; it outlines that interactions can still be very important even in the simplified case of dilute polymer solutions; it also demonstrates that the presence of permanent crosslinks exerts distinct tracer slowdown, depending on the tracer type and the nature of the tracer-polymer interactions, expressed differently by each tracer with regard to the selected stimulus. In aqueous polymer solutions, the tracer slowdown is found to be system-dependent and no universal trend seems to hold, in contrast to predictions from scaling theory for non-interacting nanoparticle mobility and empirical relations concerning the mesh size in polymer solutions. Complex tracer dynamics in polymer networks may be distinctly expressed by FCS, depending on the specific synergy among-at least some of - the following parameters: nature of interactions, external stimuli employed, tracer size and type, crosslink density and swelling ratio.

Analysis of retrieved shoulder prostheses

In the last years the number of shoulder arthroplasties has been increasing. Simultaneously the study of their shape, size and strength and the reasons that bring to a possible early explantation have not yet been examined in detail. The research carried out directly on explants is practically nonexistent, this means a poor understanding of the mechanisms leading the patient and so the surgeon, to their removal. The analysis of the mechanisms which are the cause of instability, dislocation, broken, fracture, etc, may lead to a change in the structure or design of the shoulder prostheses and lengthen the life of the implant in situ. The idea was to analyze 22 explants through three methods in order to find roughness, corrosion and surface wear. In the first method, the humeral heads and/or the glenospheres were examined with the interferometer, a machine that through electromagnetic waves gives information about the roughness of the surfaces under examination. The output of the device was a total profile containing both roughness and information on the waves (representing the spatial waves most characteristic on the surface). The most important value is called "roughness average" and brings the average value of the peaks found in the local defects of the surfaces. It was found that 42% of the prostheses had considerable peak values in the area where the damage was caused by the implant and not only by external events, such as possibly the surgeon's hand. One of the problems of interest in the use of metallic biomaterials is their resistance to corrosion. The clinical significance of the degradation of metal implants has been the purpose of the second method; the interaction between human body and metal components is critical to understand how and why they arrive to corrosion. The percentage of damage in the joints of the prosthetic components has been calculated via high resolution photos and the software ImageJ. The 40% and 50% of the area appeared to have scratches or multiple lines due to mechanical artifacts. The third method of analysis has been made through the use of electron microscopy to quantify the wear surface in polyethylene components. Different joint movements correspond to different mechanisms of damage, which were imprinted in the parts of polyethylene examined. The most affected area was located mainly in the side edges. The results could help the manufacturers to modify the design of the prostheses and thus reduce the number of explants. It could also help surgeons in choosing the model of the prosthesis to be implanted in the patient.