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Landslides are frequent natural hazards in rugged terrain, when the resisting frictional force of the surface of rupture yields to the gravitational force. These forces are functions of geological and morphological factors, such as angle of internal friction, local slope gradient or curvature, which remain static over hundreds of years; whereas more dynamic triggering events, such as rainfall and earthquakes, compromise the force balance by temporarily reducing resisting forces or adding transient loads. This thesis investigates landslide distribution and orientation due to landslide triggers (e.g. rainfall) at different scales (6-4∙10^5 km^2) and aims to link rainfall movement with the landslide distribution. It additionally explores the local impacts of the extreme rainstorms on landsliding and the role of precursory stability conditions that could be induced by an earlier trigger, such as an earthquake.
Extreme rainfall is a common landslide trigger. Although several studies assessed rainfall intensity and duration to study the distribution of thus triggered landslides, only a few case studies quantified spatial rainfall patterns (i.e. orographic effect). Quantifying the regional trajectories of extreme rainfall could aid predicting landslide prone regions in Japan. To this end, I combined a non-linear correlation metric, namely event synchronization, and radial statistics to assess the general pattern of extreme rainfall tracks over distances of hundreds of kilometers using satellite based rainfall estimates. Results showed that, although the increase in rainfall intensity and duration positively correlates with landslide occurrence, the trajectories of typhoons and frontal storms were insufficient to explain landslide distribution in Japan. Extreme rainfall trajectories inclined northwestwards and were concentrated along some certain locations, such as coastlines of southern Japan, which was unnoticed in the landslide distribution of about 5000 rainfall-triggered landslides. These landslides seemed to respond to the mean annual rainfall rates.
Above mentioned findings suggest further investigation on a more local scale to better understand the mechanistic response of landscape to extreme rainfall in terms of landslides. On May 2016 intense rainfall struck southern Germany triggering high waters and landslides. The highest damage was reported at the Braunsbach, which is located on the tributary-mouth fan formed by the Orlacher Bach. Orlacher Bach is a ~3 km long creek that drains a catchment of about ~6 km^2. I visited this catchment in June 2016 and mapped 48 landslides along the creek. Such high landslide activity was not reported in the nearby catchments within ~3300 km^2, despite similar rainfall intensity and duration based on weather radar estimates. My hypothesis was that several landslides were triggered by rainfall-triggered flash floods that undercut hillslope toes along the Orlacher Bach. I found that morphometric features such as slope and curvature play an important role in landslide distribution on this micro scale study site (<10 km^2). In addition, the high number of landslides along the Orlacher Bach could also be boosted by accumulated damages on hillslopes due karst weathering over longer time scales.
Precursory damages on hillslopes could also be induced by past triggering events that effect landscape evolution, but this interaction is hard to assess independently from the latest trigger. For example, an earthquake might influence the evolution of a landscape decades long, besides its direct impacts, such as landslides that follow the earthquake. Here I studied the consequences of the 2016 Kumamoto Earthquake (MW 7.1) that triggered some 1500 landslides in an area of ~4000 km^2 in central Kyushu, Japan. Topography, i.e. local slope and curvature, both amplified and attenuated seismic waves, thus controlling the failure mechanism of those landslides (e.g. progressive). I found that topography fails in explaining the distribution and the preferred orientation of the landslides after the earthquake; instead the landslides were concentrated around the northeast of the rupture area and faced mostly normal to the rupture plane. This preferred location of the landslides was dominated mainly by the directivity effect of the strike-slip earthquake, which is the propagation of wave energy along the fault in the rupture direction; whereas amplitude variations of the seismic radiation altered the preferred orientation. I suspect that the earthquake directivity and the asymmetry of seismic radiation damaged hillslopes at those preferred locations increasing landslide susceptibility. Hence a future weak triggering event, e.g. scattered rainfall, could further trigger landslides at those damaged hillslopes.
מחקר זה עוסק במשנתו החדשנית של ר' צדוק הכהן מלובלין. לפי רוב החוקרים, ר' צדוק ממשיך את משנת רבו, ר' מרדכי יוסף ליינער מאיזביצה, ומציג פטליזם אקזיסטנציאליסטי: לאדם יש חופש כנגד החוק המקובל, לפי רצון האל הנגלה בליבו, אפילו בתשוקותיו, החורג מההלכה; ואולם, האדם אינו קובע את הרצון המתגלה בשורש נשמתו, אלא חושפו בלבד. בכתבי ר' צדוק ניתן למצוא ביטויים רבים, בתוכן ובצורה, לפטליזם זה; עם זאת, הוא מציג גם התבטאויות רבות בדבר הבחירה האנושית החופשית וכוחה היצירתי לכונן ולקבוע את שורשו של האדם, ולחדש ולהשפיע על העולמות האלוקיים ועל העולם-הזה. מחקר זה מתמקד בקטעים אלו שמרכזיותם הוזנחה במחקר עד כה, ומכאן הבנתו המחודשת במשנתו.
את עמדת ר' צדוק ניתן להסביר באמצעות התפיסה הפרדוקסלית, הטוענת לכוחם המלא של שני הקטבים הסותרים ואף להשפעה הדדית ביניהם, היוצרת מתח קשה אך פורה: בניגוד לתהליך הפורמלי, האניטלקטואלי והאפריורי של הפטליזם, שבו 'הידיעה' האלוהית מבטלת את 'הבחירה' האנושית החופשית, ר' צדוק מציג פטאליות, המזהה המציאות עצמה את הידיעה והרצון האלוהיים המצויים בכל. בפטליות זו הידיעה אינה מבטלת את הבחירה; להיפך: ללא הידיעה האלוקית אין לאף דבר קיום, ולכן רק מציאות הידיעה בבחירה היא המאפשרת את קיומה הממשי.
תפיסתו האונטולוגית של ר' צדוק מתקיימת לא רק בתוכן הישיר של דבריו, אלא גם בעקיפין, באופן דרשנותו ובמובן שהוא מעניק למושגים שבהם הוא דן; לכן, הפטליות מתגלה גם בתחומים נוספים, שבהם מצוי פער בין הממד המוחלט וההכרחי ('ידיעה') לממד הקונטינגנטי, הארעי והיחסי ('בחירה'): השקר, הדמיון, הרוע, החטא, הייסורים ועוד, אמנם קונטינגנטיים ויחסיים לעומת מוחלטות האמת, הטוב וכו'; אך לפי ר' צדוק, האל רוצה בהם ככאלה – כלומר יש להם ממשות שאינה מוחלטת, אלא ממשות ככאלה, כקונטינגנטיים. אך ממשות זו אינה מאשרת אותם כפי שהם, אלא יוצרת בהם-עצמם טרנספורמציה. למשל, הרוע אינו הופך לטוב מוחלט או נותר כרוע, אלא הופך ל'טוב מאד' שלפי ר' צדוק גדול מהטוב הרגיל.
מכאן עולה גם ההשפעה ההפוכה, זו של הבחירה על הידיעה. לפי ר' צדוק, משקבלה הקונטינגנטיות והיחסיות של 'הבחירה' – שהיא למעשה מהות הבריאה ומהות האדם ומעשיו – את ממשותה, בכוחה אף להוסיף כביכול על המוחלטות האלוקית הקבועה של 'הידיעה': 'נגע' החטא או הייסורים הופך בעצמו, בחילוף אותם אותיות, ל'ענג' הגדול מההנאה הרגילה; בכוח האדם להשפיע על העולמות העליונים בגזירת גזירות ובביטול גזירות אלוקיות; בכוחו אף להשפיע על העולם-הזה, בחידושו היומיומי על-ידי חידושי התושב"ע, ובקידוש החודש המסוגל לשנות את תנועת המזלות השמימיים. מצד אחד, היצירתיות האנושית של חידושי התושב"ע כלולה באמת האלוקית הגנוזה בתושב"כ האלוקית והיא רק חושפת אותה; אך לפי ר"צ, מצד אחר מתברר שמקור חידושי התושב"ע דווקא גבוה ממקור התושב"כ והם אלו היוצרים וקובעים אותה.
ר' צדוק מציג שני מושגים מרכזיים לפרדוקס שלו: בממד האונטולוגי – 'הייחוד הגמור' של האל, שבו הדואליות הקונטינגנטית (בין האל לנבראיו, והבחירה שהיא מאפשרת) של 'הייחוד התחתון' מתקיימת פרדוקסלית עם האחדות המוחלטת ו'הידיעה' האלוהית של 'הייחוד העליון'.
בממד של מצבו האקזיסטנציאלי של האדם – 'השורש הנעלם': בניגוד לר' מרדכי יוסף רבו, ר' צדוק טוען שהאדם קובע את גורלו על-ידי מעשיו הבחיריים והקונטינגנטיים; ואולם, במקביל, בדומה לרבו, הוא טוען גם שהשורש הקבוע של האדם נקבע על-ידי 'הידיעה' האלוהית והיא זו הקובעת את מעשיו לטוב או למוטב. אך מעל אלו מציג ר' צדוק שורש נוסף, 'נעלם' הגבוה מהשורש הקבוע: הוא אכן שורש מוחלט ('ידיעה'), אך הוא נקבע ומכוּנן על-ידי מעשיו הבחיריים של האדם, בדומה לבריאה האלוהית 'יש מאין'.
Die Gesundheit unserer Jugend ist seit je ein gesellschaftspolitisches Primat und verdient die grösstmögliche Beachtung. Ein Teilbereich, nämlich Bewegung und Sport, ist in der Schweiz auch aus diesem Grund verfassungsmässig geregelt. Sämtliche Volksschulen müssen bis ins neunte Schuljahr pro Woche drei Lektionen Bewegung und Sport anbieten.. Als einziges Schulfach geniesst Bewegung und Sport diesen bundesgesetzlichen Support im sonst streng föderalistisch organisierten Bildungssystem der Schweiz. Trotz diesen drei verordneten Sportlektionen ist die physische Leistungsfähigkeit unserer Jugend einhergehend mit gesundheitlichen Parametern seit 1985 rückläufig und seit ein paar Jahren auf tiefem Niveau stagnierend. Zudem berichten Lehrpersonen über sinkende Konzentrationsfähigkeit in den letzten Jahren. Um eine flächendeckende Verbesserung der Situation zu bewirken, bietet sich die Schule als zentraler Ort der Einflussnahme an. Dies gilt im Besonderen für den Bereich Bewegung und Sport. Im Jahr 2005 wurde das Programm einer täglichen Bewegungs- und Sportstunde an der Primarschule in Luzern/Schweiz gestartet. Nach einem kontinuierlichen Ausbau kamen ab 2011 etwas über 1300 Kinder von der ersten bis zur sechsten Klasse in den Genuss dieser täglichen Bewegungslektion. Die wissenschaftlichen Untersuchungen in den drei gesellschaftlich hoch relevanten Bereichen der Konzentrationsfähigkeit, des Übergewichts und der Gleichgewichtsfähigkeit ergaben positive Resultate. So konnte die Konzentrationsfähigkeit – die Basis für erfolgreiches Lernen – signifikant gesteigert werden und teilweise signifikant war die Verbesserung des statischen Gleichgewichts. Ein positiver Trend zeigte sich auch bei der Senkung des Body-Mass-Indexes bei Knaben. Dies konnte bei den Mädchen nicht nachgewiesen werden. Auch wenn nicht alle Hypothesen vollumfänglich bestätigt werden konnten, gilt es festzuhalten, dass das Projekt der täglichen Sport- und Bewegungsstunde die Erwartungen in allen drei Messbereichen erfüllt hat und die Verbesserungen hinsichtlich der Konzentrationsfähigkeit, des Übergewichts und der Gleichgewichtsfähigkeit mehrheitlich ausgewiesen werden können. Es lohnt sich also, die tägliche Sport- und Bewegungsstunde an der Primarschule einzuführen und den Präventionsgedanken auch Taten folgen zu lassen.
This research addressed the question, if it is possible to simplify current microcontact printing systems for the production of anisotropic building blocks or patchy particles, by using common chemicals while still maintaining reproducibility, high precision and tunability of the Janus-balance
Chapter 2 introduced the microcontact printing materials as well as their defined electrostatic interactions. In particular polydimethylsiloxane stamps, silica particles and high molecular weight polyethylenimine ink were mainly used in this research. All of these components are commercially available in large quantities and affordable, which gives this approach a huge potential for further up-scaling developments. The benefits of polymeric over molecular inks was described including its flexible influence on the printing pressure. With this alteration of the µCP concept, a new method of solvent assisted particle release mechanism enabled the switch from two-dimensional surface modification to three-dimensional structure printing on colloidal silica particles, without changing printing parameters or starting materials. This effect opened the way to use the internal volume of the achieved patches for incorporation of nano additives, introducing additional physical properties into the patches without alteration of the surface chemistry.
The success of this system and its achievable range was further investigated in chapter 3 by giving detailed information about patch geometry parameters including diameter, thickness and yield. For this purpose, silica particles in a size range between 1µm and 5µm were printed with different ink concentrations to change the Janus-balance of these single patched particles. A necessary intermediate step, consisting of air-plasma treatment, for the production of trivalent particles using "sandwich" printing was discovered and comparative studies concerning the patch geometry of single and double patched particles were conducted. Additionally, the usage of structured PDMS stamps during printing was described. These results demonstrate the excellent precision of this approach and opens the pathway for even greater accuracy as further parameters can be finely tuned and investigated, e.g. humidity and temperature during stamp loading.
The performance of these synthesized anisotropic colloids was further investigated in chapter 4, starting with behaviour studies in alcoholic and aqueous dispersions. Here, the stability of the applied patches was studied in a broad pH range, discovering a release mechanism by disabling the electrostatic bonding between particle surface and polyelectrolyte ink. Furthermore, the absence of strong attractive forces between divalent particles in water was investigated using XPS measurements. These results lead to the conclusion that the transfer of small PDMS oligomers onto the patch surface is shielding charges, preventing colloidal agglomeration. However, based on this knowledge, further patch modifications for particle self-assembly were introduced including physical approaches using magnetic nano additives, chemical patch functionalization with avidin-biotin or the light responsive cyclodextrin-arylazopyrazoles coupling as well as particle surface modification for the synthesis of highly amphiphilic colloids. The successful coupling, its efficiency, stability and behaviour in different solvents were evaluated to find a suitable coupling system for future assembly experiments. Based on these results the possibility of more sophisticated structures by colloidal self-assembly is given.
Certain findings needed further analysis to understand their underlying mechanics, including the relatively broad patch diameter distribution and the decreasing patch thickness for smaller silica particles. Mathematical assumptions for both effects are introduced in chapter 5. First, they demonstrate the connection between the naturally occurring particle size distribution and the broadening of the patch diameter, indicating an even higher precision for this µCP approach. Second, explaining the increase of contact area between particle and ink surface due to higher particle packaging, leading to a decrease in printing pressure for smaller particles.
These calculations ultimately lead to the development of a new mechanical microcontact printing approach, using centrifugal forces for high pressure control and excellent parallel alignment of printing substrates. First results with this device and the comparison with previously conducted by-hand experiments conclude this research. It furthermore displays the advantages of such a device for future applications using a mechanical printing approach, especially for accessing even smaller nano particles with great precision and excellent yield.
In conclusion, this work demonstrates the successful adjustment of the µCP approach using commercially available and affordable silica particles and polyelectrolytes for high flexibility, reduced costs and higher scale-up value. Furthermore, its was possible to increase the modification potential by introducing three-dimensional patches for additional functionalization volume. While keeping a high colloidal stability, different coupling systems showed the self-assembly capabilities of this toolbox for anisotropic particles.
Direkte Arylierung
(2018)
The ongoing trend of miniaturizing multifunctional devices, especially for minimally-invasive medical or sensor applications demands new strategies for designing the required functional polymeric micro-components or micro-devices. Here, polymers, which are capable of active movement, when an external stimulus is applied (e.g. shape-memory polymers), are intensively discussed as promising material candidates for realization of multifunctional micro-components. In this context further research activities are needed to gain a better knowledge about the underlying working principles for functionalization of polymeric micro-scale objects with a shape-memory effect. First reports about electrospun solid microfiber scaffolds, demonstrated a much more pronounced shape-memory effect than their bulk counterparts, indicating the high potential of electrospun micro-objects.
Based on these initial findings this thesis was aimed at exploring whether the alteration of the geometry of micro-scale electrospun polymeric objects can serve as suitable parameter to tailor their shape-memory properties. The central hypothesis was that different geometries should result in different degrees of macromolecular chain orientation in the polymeric micro-scale objects, which will influence their mechanical properties as well as thermally-induced shape-memory function. As electrospun micro-scale objects, microfiber scaffolds composed of hollow microfibers with different wall thickness and electrosprayed microparticles as well as their magneto-sensitive nanocomposites all prepared from the same polymer exhibiting pronounced bulk shape-memory properties were investigated. For this work a thermoplastic multiblock copolymer, named PDC, with excellent bulk shape-memory properties, associated with crystallizable oligo(ε-caprolactone) (OCL) switching domains, was chosen for the preparation of electrospun micro-scale objects, while crystallizable oligo(p-dioxanone) (OPDO) segments serve as hard domains in PDC.
In the first part of the thesis microfiber scaffolds with different microfiber geometries (solid or hollow with different wall thickness) were discussed. Hollow microfiber based PDC scaffolds were prepared by coaxial electrospinning from a 1, 1, 1, 3, 3, 3 hexafluoro-2-propanol (HFP) solution with a polymer concentration of 13% w·v-1. Here as a first step core-shell fiber scaffolds consisting of microfibers with a PDC shell and sacrificial poly(ethylene glycol) (PEG) core are generated. The hollow PDC microfibers were achieved after dissolving the PEG core with water. The utilization of a fixed electrospinning setup and the same polymer concentration of the PDC spinning solution could ensure the fabrication of microfibers with almost identical outer diameters of 1.4 ± 0.3 µm as determined by scanning electron microscopy (SEM). Different hollow microfiber wall thicknesses of 0.5 ± 0.2 and 0.3 ± 0.2 µm (analyzed by SEM) have been realized by variation of the mass flow rate, while solid microfibers were obtained by coaxial electrospinning without supplying any core solution. Differential scanning calorimetry experiments and tensile tests at ambient temperature revealed an increase in degree of OCL crystallinity form χc,OCL = 34 ± 1% to 43 ± 1% and a decrease in elongation of break from 800 ± 40% to 200 ± 50% associated with an increase in Young´s modulus and failture stress for PDC hollow microfiber scaffolds when compared with soild fibers. The observed effects were enhanced with decreasing wall thickness of the single hollow fibers. The shape-memory properties of the electrospun PDC scaffolds were quantified by cyclic, thermomechanical tensile tests. Here, scaffolds comprising hollow microfibers exhibited lower shape fixity ratios around Rf = 82 ± 1% and higher shape recovery ratios of Rr = 67 ± 1% associated to more pronounced relaxation at constant strain during the first test cycle and a lower switching temperature of Tsw = 33 ± 1 °C than the fibrous meshes consisting of solid microfibers. These findings strongly support the central hypothesis that different fiber geometries (solid or hollow with different wall thickness) in electrospun scaffolds result in different degrees of macromolecular chain orientation in the polymeric micro-scale objects, which can be applied as design parameter for tailoring their mechanical and shape-memory properties.
The second part of the thesis deals with electrosprayed particulate PDC micro-scale objects. Almost spherical PDC microparticles with diameters of 3.9 ± 0.9 μm (as determined by SEM) were achieved by electrospraying of HFP solution with a polymer concentration of 2% w·v-1. In contrast, smaller particles with sizes of 400 ± 100 nm or 1.2 ± 0.3 μm were obtained for the magneto-sensitive composite PDC microparticles containing 23 ± 0.5 wt% superparamagnetic magnetite nanoparticles (mNPs). All prepared PDC microparticles exhibited a similar overall crystallinity like the PDC bulk material as analyzed by DSC. AFM nanoindentation results revealed no influence of the nanofiller incorporation on the local mechanical properties represented by the reduced modulus determined for pure PDC microparticles and magneto-sensitive composite PDC microparticles with similar diameters around 1.3 µm. It was found that the reduced modulus of the nanocomposite microparticles increased substantially with decreasing particles size from 2.4 ± 0.9 GPa (1.2 µm) to 11.9 ± 3.1 GPa (0.4 µm), which can be related to a higher orientation of the macromolecules at the surface of smaller sized microparticles. The magneto-sensitivity of such nanocomposite microparticles could be demonstrated in two aspects. One was by attracting/collecting the composite micro-objects with an external permanent magnet. The other one was by a inductive heating to 44 ± 1 °C, which is well above the melting transition of the OCL switching domains, when compacted to a 10 x 10 mm2 film with a thickness of 10 µm and exposed to an alternating magnet field with an magnetic field strength of 30 kA·m-1. Both functions are of great relevance for designing next generation drug delivery systems combining targeting and on demand release.
By a compression approach shape-memory functionalization of individual microparticles could be realized. Here different programming pressures and compression temperatures were applied. The shape-recovery capability of the programmed PDC microparticles was quantified by online and off-line heating experiments analyzed via microscopy measurement. The obtained shape-memory properties were found to be strongly depending on the applied programming pressure and temperature. The best shape-memory performance with a high shape recovery rate of about Rr = 80±1% was obtained when a low pressure of 0.2 MPa was applied at 55 °C. Finally, it was demonstrated that PDC microparticles can be utilized as micro building parts for preparation of a macroscopic film with temporary stability by compression of a densely packed array of PDC microparticles at 60 °C followed by subsequent cooling to ambient temperature. This film disintegrates into individual microparticles upon heating to 60 °C. Based on this technology the design of stable macroscopic release systems can be envisioned, which can be easily fixed at the site of treatment (i.e. by suturing) and disintegrate on demand to microparticles facilitating the drug release.
In summary, the results of this thesis could confirm the central hypothesis that the variation of the geometry of polymeric micro-objects is a suitable parameter to adjust their shape-memory performance by changing the degree of macromolecular chain orientation in the specimens or by enabling new functions like on demand disintegration. These fundamental findings might be relevant for designing novel miniaturized multifunctional polymer-based devices.
Background: Individuals with aphasia after stroke (IWA) often present with working memory (WM) deficits. Research investigating the relationship between WM and language abilities has led to the promising hypothesis that treatments of WM could lead to improvements in language, a phenomenon known as transfer. Although recent treatment protocols have been successful in improving WM, the evidence to date is scarce and the extent to which improvements in trained tasks of WM transfer to untrained memory tasks, spoken sentence comprehension, and functional communication is yet poorly understood.
Aims: We aimed at (a) investigating whether WM can be improved through an adaptive n-back training in IWA (Study 1–3); (b) testing whether WM training leads to near transfer to unpracticed WM tasks (Study 1–3), and far transfer to spoken sentence comprehension (Study 1–3), functional communication (Study 2–3), and memory in daily life in IWA (Study 2–3); and (c) evaluating the methodological quality of existing WM treatments in IWA (Study 3). To address these goals, we conducted two empirical studies – a case-controls study with Hungarian speaking IWA (Study 1) and a multiple baseline study with German speaking IWA (Study 2) – and a systematic review (Study 3).
Methods: In Study 1 and 2 participants with chronic, post-stroke aphasia performed an adaptive, computerized n-back training. ‘Adaptivity’ was implemented by adjusting the tasks’ difficulty level according to the participants’ performance, ensuring that they always practiced at an optimal level of difficulty. To assess the specificity of transfer effects and to better understand the underlying mechanisms of transfer on spoken sentence comprehension, we included an outcome measure testing specific syntactic structures that have been proposed to involve WM processes (e.g., non-canonical structures with varying complexity).
Results: We detected a mixed pattern of training and transfer effects across individuals: five participants out of six significantly improved in the n-back training. Our most important finding is that all six participants improved significantly in spoken sentence comprehension (i.e., far transfer effects). In addition, we also found far transfer to functional communication (in two participants out of three in Study 2) and everyday memory functioning (in all three participants in Study 2), and near transfer to unpracticed n-back tasks (in four participants out of six). Pooled data analysis of Study 1 and 2 showed a significant negative relationship between initial spoken sentence comprehension and the amount of improvement in this ability, suggesting that the more severe the participants’ spoken sentence comprehension deficit was at the beginning of training, the more they improved after training. Taken together, we detected both near far and transfer effects in our studies, but the effects varied across participants. The systematic review evaluating the methodological quality of existing WM treatments in stroke IWA (Study 3) showed poor internal and external validity across the included 17 studies. Poor internal validity was mainly due to use of inappropriate design, lack of randomization of study phases, lack of blinding of participants and/or assessors, and insufficient sampling. Low external validity was mainly related to incomplete information on the setting, lack of use of appropriate analysis or justification for the suitability of the analysis procedure used, and lack of replication across participants and/or behaviors. Results in terms of WM, spoken sentence comprehension, and reading are promising, but further studies with more rigorous methodology and stronger experimental control are needed to determine the beneficial effects of WM intervention.
Conclusions: Results of the empirical studies suggest that WM can be improved with a computerized and adaptive WM training, and improvements can lead to transfer effects to spoken sentence comprehension and functional communication in some individuals with chronic post-stroke aphasia. The fact that improvements were not specific to certain syntactic structures (i.e., non-canonical complex sentences) in spoken sentence comprehension suggest that WM is not involved in the online, automatic processing of syntactic information (i.e., parsing and interpretation), but plays a more general role in the later stage of spoken sentence comprehension (i.e., post-interpretive comprehension). The individual differences in treatment outcomes call for future research to clarify how far these results are generalizable to the population level of IWA. Future studies are needed to identify a few mechanisms that may generalize to at least a subpopulation of IWA as well as to investigate baseline non-linguistic cognitive and language abilities that may play a role in transfer effects and the maintenance of such effects. These may require larger yet homogenous samples.