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Analytische Näherungsverfahren zur Beschreibung der nuklearen Spin-Dephasierung (2002)
Bauer, Wolfgang Rudolf
Die Dynamik der Kernspindephasierung in lebenden Systemen enhält relevante Informationen über biologisch wichtige Parameter, wie Sauerstoffversorgung, Mikrozirkulation, Diffusion etc.. Ursächlich für die Dephasierung sind Interaktionen des Spins mit fluktuierenden Magnetfeldern. Notwendig sind also Modelle, welche diese Interaktionen mit den biologisch relevanten Parametern in Beziehung setzen. Problematisch ist, daß fast alle analytische Ansätze nur in extremen Dynamikbereichen der Störfeldfluktuationen (motional narrowing - , static dephasing limit) gültig sind. In dieser Arbeit zeigen wir einen Ansatz, mit dem man die Dynamik der Störfeldfluktuationen erheblich vereinfachen und trotzdem noch deren wesentliche Eigenschaften beibehalten kann. Dieser Ansatz ist nicht auf einen speziellen Dynamikbereich festgelegt. Angewendet wird dieses Näherungsverfahren zur Beschreibung der Spin Dephasierung im Herzmuskel. Die Relaxationszeiten erhält man als Funktion der Kapillardichte und Blutoxygenierung. Vergleiche mit numerisch errechneten Daten anderer, eigenen Messungen am menschlichen Herzen und experimentellen Befunden in der Literatur, bestätigen die theoretischen Vorhersagen.
Regional in vivo transit time measurements of aortic pulse wave velocity in mice with high-field CMR at 17.6 Tesla (2010)
Parczyk, Marco ; Herold, Volker ; Klug, Gert ; Bauer, Wolfgang R. ; Rommel, Eberhard ; Jakob, Peter M.
Background: Transgenic mouse models are increasingly used to study the pathophysiology of human cardiovascular diseases. The aortic pulse wave velocity (PWV) is an indirect measure for vascular stiffness and a marker for cardiovascular risk. Results: This study presents a cardiovascular magnetic resonance (CMR) transit time (TT) method that allows the determination of the PWV in the descending murine aorta by analyzing blood flow waveforms. Systolic flow pulses were recorded with a temporal resolution of 1 ms applying phase velocity encoding. In a first step, the CMR method was validated by pressure waveform measurements on a pulsatile elastic vessel phantom. In a second step, the CMR method was applied to measure PWVs in a group of five eight-month-old apolipoprotein E deficient (ApoE(-/-)) mice and an age matched group of four C57Bl/6J mice. The ApoE(-/-) group had a higher mean PWV (PWV = 3.0 ± 0.6 m/s) than the C57Bl/6J group (PWV = 2.4 ± 0.4 m/s). The difference was statistically significant (p = 0.014). Conclusions: The findings of this study demonstrate that high field CMR is applicable to non-invasively determine and distinguish PWVs in the arterial system of healthy and diseased groups of mice.
Thermodynamics of Competitive Molecular Channel Transport: Application to Artificial Nuclear Pores (2010)
Bauer, Wolfgang R. ; Nadler, Walter
In an analytical model channel transport is analyzed as a function of key parameters, determining efficiency and selectivity of particle transport in a competitive molecular environment. These key parameters are the concentration of particles, solvent-channel exchange dynamics, as well as particle-in-channel- and interparticle interaction. These parameters are explicitly related to translocation dynamics and channel occupation probability. Slowing down the exchange dynamics at the channel ends, or elevating the particle concentration reduces the in-channel binding strength necessary to maintain maximum transport. Optimized in-channel interaction may even shift from binding to repulsion. A simple equation gives the interrelation of access dynamics and concentration at this transition point. The model is readily transferred to competitive transport of different species, each of them having their individual in-channel affinity. Combinations of channel affinities are determined which differentially favor selectivity of certain species on the cost of others. Selectivity for a species increases if its in-channel binding enhances the species’ translocation probablity when compared to that of the other species. Selectivity increases particularly for a wide binding site, long channels, and fast access dynamics. Recent experiments on competitive transport of in-channel binding and inert molecules through artificial nuclear pores serve as a paradigm for our model. It explains qualitatively and quantitatively how binding molecules are favored for transport at the cost of the transport of inert molecules.
Klonierung und Charakterisierung der humanen Puromycin-sensitiven Aminopeptidase (2002)
Bauer, Wolfgang
Auf der Suche nach neuen Vitamin D-responsiven Genen wurde die Methodik des Differential Display verwendet. Die eingesetzten Oligonukleotid-Primer waren homolog zur 24-Hydroxylase, einem für den Vitamin D-Stoffwechsel wichtigen Enzym, das von Vitamin D selbst reguliert wird. Mit diesem Ansatz sollten neue Mitglieder aus der Familie der P450-Enzyme gefunden werden. Mehrere differentiell exprimierte DNA-Fragmente wurden in der Folge isoliert und aufgearbeitet, die Sequenzierung eines 550 bp großen Fragments ergab beim Datenbankabgleich keine signifikanten Homologien und ließ daher auf ein noch unbekanntes Gen schließen. Die Klonierung und weitere Charakterisierung dieses Gens wies letztlich in eine nicht erwartete Richtung. Mit der Puromycin-sensitiven Aminopeptidase war ein Gen aus der Familie der Metallopeptidasen gefunden worden, eine Exopeptidase mit einem Zink-Ion im katalytischen Zentrum. Proteinchemisch schon vor einigen Jahren isoliert, war über die PSA (Puromycin-sensitive Aminopeptidase) bekannt, daß sie N-terminale Aminosäuren hydrolysiert mit einer Spezifität für basisch / neutrales und hydrophobes Substrat und überwiegend im Cytoplasma lokalisiert ist. Namengebend ist die starke Hemmbarkeit der Enzymaktivität durch Puromycin. Vorstehendes summiert die wichtigsten biochemischen Eigenschaften des Enzyms, aus molekularbiologischer Sicht war zum Zeitpunkt der Aufnahme der Arbeiten jedoch noch wenig über die PSA bekannt. Dies hat sich in letzter Zeit geändert, während der Sequenzierarbeiten im Rahmen dieser Arbeit konnte eine schweizer Arbeitsgruppe die Klonierung und Sequenz-Charakterisierung der murinen und später humanen cDNA des Gens veröffentlichen. Mit den Ergebnissen dieser Arbeitsgruppe wie auch den im Zuge der vorliegenden Dissertation erarbeiteten Resultaten konnte das molekularbiologische Wissen um die PSA erheblich erweitert werden. So liegt mittlerweile die komplette Nukleotid- und Aminosäurensequenz des Gens vor, das Auffinden des Zink-Bindungsmotives HEXXH(X)18E erlaubte die Einordnung des Enzyms in die Familie M1 der Metallopeptidasen, weiterhin konnte das Gen auf dem Chromosom 17q21 lokalisiert werden. Weitere Daten zur Gewebe- und Zellinienexpression sind nun ebenfalls vorhanden, interessant hierbei neben der erwartet starken Expression im Gehirn das deutliche Vorhandensein in Hoden und Nebennierenrinde. Auch in Bezug auf die Regulation der PSA wurden neue Ergebnisse erzielt, wichtigstes Resultat im Rahmen dieser Arbeit ist hier, daß sich die früher festgestellte Vitamin D –Responsivität nicht bestätigen ließ. Für die Zukunft von außerordentlichem Interesse dürfte das kürzlich gelungene Erstellen PSA-defizienter Mäuse sein, das nun erste Beobachtungen von Auswirkungen der Gen-Deletion am lebenden Organismus erlaubt. Trotz alledem sind in Bezug auf die physiologische Rolle der Puromycin-sensitiven Aminopeptidase weiterhin viele Fragen ungeklärt. Wie hoffentlich in dieser Dissertation herausgearbeitet, ergeben sich dabei interessante Perspektiven für die mögliche Funktion des Enzyms im Organismus.
Fast retrospectively triggered local pulse-wave velocity measurements in mice with CMR-microscopy using a radial trajectory (2013)
Winter, Patrick ; Kampf, Thomas ; Helluy, Xavier ; Gutjahr, Fabian T. ; Meyer, Cord B. ; Rommel, Eberhard ; Bauer, Wolfgang R. ; Jakob, Peter M. ; Herold, Volker
Background The aortic pulse-wave velocity (PWV) is an important indicator of cardiovascular risk. In recent studies MRI methods have been developed to measure this parameter noninvasively in mice. Present techniques require additional hardware for cardiac and respiratory gating. In this work a robust self-gated measurement of the local PWV in mice without the need of triggering probes is proposed. Methods The local PWV of 6-months-old wild-type C57BL/6J mice (n=6) was measured in the abdominal aorta with a retrospectively triggered radial Phase Contrast (PC) MR sequence using the flow-area (QA) method. A navigator signal was extracted from the CMR data of highly asymmetric radial projections with short repetition time (TR=3 ms) and post-processed with high-pass and low-pass filters for retrospective cardiac and respiratory gating. The self-gating signal was used for a reconstruction of high-resolution Cine frames of the aortic motion. To assess the local PWV the volume flow Q and the cross-sectional area A of the aorta were determined. The results were compared with the values measured with a triggered Cartesian and an undersampled triggered radial PC-Cine sequence. Results In all examined animals a self-gating signal could be extracted and used for retrospective breath-gating and PC-Cine reconstruction. With the non-triggered measurement PWV values of 2.3±0.2 m/s were determined. These values are in agreement with those measured with the triggered Cartesian (2.4±0.2 m/s) and the triggered radial (2.3±0.2 m/s) measurement. Due to the strong robustness of the radial trajectory against undersampling an acceleration of more than two relative to the prospectively triggered Cartesian sampling could be achieved with the retrospective method. Conclusion With the radial flow-encoding sequence the extraction of a self-gating signal is feasible. The retrospective method enables a robust and fast measurement of the local PWV without the need of additional trigger hardware.
Minimizing Risk of Nephrogenic systemic fibrosis in Cardiovascular Magnetic Resonance (2012)
Reiter, Theresa ; Ritter, Oliver ; Prince, Martin R. ; Nordbeck, Peter ; Wanner, Christoph ; Nagel, Eike ; Bauer, Wolfgang R.
Nephrogenic Systemic Fibrosis is a rare condition appearing only in patients with severe renal impairment or failure and presents with dermal lesions and involvement of internal organs. Although many cases are mild, an estimated 5 % have a progressive debilitating course. To date, there is no known effective treatment thus stressing the necessity of ample prevention measures. An association with the use of Gadolinium based contrast agents (GBCA) makes Nephrogenic Systemic Fibrosis a potential side effect of contrast enhanced magnetic resonance imaging and offers the opportunity for prevention by limiting use of gadolinium based contrast agents in renal failure patients. In itself toxic, Gadolinium is embedded into chelates that allow its safe use as a contrast agent. One NSF theory is that Gadolinium chelates distribute into the extracellular fluid compartment and set Gadolinium ions free, depending on multiple factors among which the duration of chelates exposure is directly related to the renal function. Major medical societies both in Europe and in North America have developed guidelines for the usage of GBCA. Since the establishment of these guidelines and the increased general awareness of this condition, the occurrence of NSF has been nearly eliminated. Giving an overview over the current knowledge of NSF pathobiochemistry, pathogenesis and treatment options this review focuses on the guidelines of the European Medicines Agency, the European Society of Urogenital Radiology, the FDA and the American College of Radiology from 2008 up to 2011 and the transfer of this knowledge into every day practice.
68Ga-DOTATATE PET/CT for the detection of inflammation of large arteries: correlation with18F-FDG, calcium burden and risk factors (2012)
Li, Xiang ; Samnick, Samuel ; Lapa, Constantin ; Israel, Ina ; Buck, Andreas K. ; Kreissl, Michael C. ; Bauer, Wolfgang
Background: Ga-[1,4,7,10-tetraazacyclododecane-N,N0,N00,N000-tetraacetic acid]-d-Phe1,Tyr3-octreotate (DOTATATE) positron emission tomography (PET) is commonly used for the visualization of somatostatin receptor (SSTR)-positive neuroendocrine tumors. SSTR is also known to be expressed on macrophages, which play a major role in inflammatory processes in the walls of coronary arteries and large vessels. Therefore, imaging SSTR expression has the potential to visualize vulnerable plaques. We assessed 68Ga-DOTATATE accumulation in large vessels in comparison to 18F-2-fluorodeoxyglucose (FDG) uptake, calcified plaques (CPs), and cardiovascular risk factors. Methods: Sixteen consecutive patients with neuroendocrine tumors or thyroid cancer underwent both 68Ga-DOTATATE and 18F-FDG PET/CT for staging or restaging purposes. Detailed clinical data, including common cardiovascular risk factors, were recorded. For a separate assessment, they were divided into a high-risk and a low-risk group. In each patient, we calculated the maximum target-to-background ratio (TBR) of eight arterial segments. The correlation of the TBRmean of both tracers with risk factors including plaque burden was assessed. Results: The mean TBR of 68Ga-DOTATATE in all large arteries correlated significantly with the presence of CPs (r = 0.52; p < 0.05), hypertension (r = 0.60; p < 0.05), age (r = 0.56; p < 0.05), and uptake of 18F-FDG (r = 0.64; p < 0.01). There was one significant correlation between 18F-FDG uptake and hypertension (0.58; p < 0.05). Out of the 37 sites with the highest focal 68Ga-DOTATATE uptake, 16 (43.2%) also had focal 18F-FDG uptake. Of 39 sites with the highest 18F-FDG uptake, only 11 (28.2%) had a colocalized 68Ga-DOTATATE accumulation. Conclusions: In this series of cancer patients, we found a stronger association of increased 68Ga-DOTATATE uptake with known risk factors of cardiovascular disease as compared to 18F-FDG, suggesting a potential role for plaque imaging in large arteries. Strikingly, we found that focal uptake of 68Ga-DOTATATE and 18F-FDG does not colocalize in a significant number of lesions.
Fast self-navigated wall shear stress measurements in the murine aortic archusing radial 4D-phase contrast cardiovascular magnetic resonance at 17.6 T (2019)
Winter, Patrick ; Andelovic, Kristina ; Kampf, Thomas ; Gutjahr, Fabian Tobias ; Heidenreich, Julius ; Zernecke, Alma ; Bauer, Wolfgang Rudolf ; Jakob, Peter Michael ; Herold, Volker
Purpose 4D flow cardiovascular magnetic resonance (CMR) and the assessment of wall shear stress (WSS) are non-invasive tools to study cardiovascular risks in vivo. Major limitations of conventional triggered methods are the long measurement times needed for high-resolution data sets and the necessity of stable electrocardiographic (ECG) triggering. In this work an ECG-free retrospectively synchronized method is presented that enables accelerated high-resolution measurements of 4D flow and WSS in the aortic arch of mice. Methods 4D flow and WSS were measured in the aortic arch of 12-week-old wildtype C57BL/6 J mice (n = 7) with a radial 4D-phase-contrast (PC)-CMR sequence, which was validated in a flow phantom. Cardiac and respiratory motion signals were extracted from the radial CMR signal and were used for the reconstruction of 4D-flow data. Rigid motion correction and a first order B0 correction was used to improve the robustness of magnitude and velocity data. The aortic lumen was segmented semi-automatically. Temporally averaged and time-resolved WSS and oscillatory shear index (OSI) were calculated from the spatial velocity gradients at the lumen surface at 14 locations along the aortic arch. Reproducibility was tested in 3 animals and the influence of subsampling was investigated. Results Volume flow, cross-sectional areas, WSS and the OSI were determined in a measurement time of only 32 min. Longitudinal and circumferential WSS and radial stress were assessed at 14 analysis planes along the aortic arch. The average longitudinal, circumferential and radial stress values were 1.52 ± 0.29 N/m2, 0.28 ± 0.24 N/m2 and − 0.21 ± 0.19 N/m2, respectively. Good reproducibility of WSS values was observed. Conclusion This work presents a robust measurement of 4D flow and WSS in mice without the need of ECG trigger signals. The retrospective approach provides fast flow quantification within 35 min and a flexible reconstruction framework.
Impact of Interparticle Interaction on Thermodynamics of Nano-Channel Transport of Two Species (2020)
Bauer, Wolfgang Rudolf
Understanding the function and control of channel transport is of paramount importance for cell physiology and nanotechnology. In particular, if several species are involved, the mechanisms of selectivity, competition, cooperation, pumping, and its modulation need to be understood. What lacks is a rigorous mathematical approach within the framework of stochastic thermodynamics, which explains the impact of interparticle in-channel interactions on the transport properties of the respective species. To achieve this, stochastic channel transport of two species is considered in a model, which different from mean field approaches, explicitly conserves the spatial correlation of the species within the channel by analysis of the stochastic dynamics within a state space, the elements of which are the channel’s spatial occupation states. The interparticle interactions determine the stochastic transitions between these states. Local flow and entropy production in this state space reveal the respective particle flows through the channel and the intensity of the Brownian ratchet like rectifying forces, which these species exert mutually on each other, together with its thermodynamic effectiveness and costs. Perfect coupling of transport of the two species is realized by an attractive empty channel and strong repulsive forces between particles of the same species. This confines the state space to a subspace with circular topology, in which the concentration gradients as thermodynamic driving forces act in series, and channel flow of both species becomes equivalent. For opposing concentration gradients, this makes the species with the stronger gradient the driving, positive entropy producing one; the other is driven and produces negative entropy. Gradients equal in magnitude make all flows vanish, and thermodynamic equilibrium occurs. A differential interparticle interaction with less repulsive forces within particles of one species but maintenance of this interaction for the other species adds a bypass path to this circular subspace. On this path, which is not involved in coupling of the two species, a leak flow of the species with less repulsive interparticle interaction emerges, which is directed parallel to its concentration gradient and, hence, produces positive entropy here. Different from the situation with perfect coupling, appropriate strong opposing concentration gradients may simultaneously parallelize the flow of their respective species, which makes each species produce positive entropy. The rectifying potential of the species with the bypass option is diminished. This implies the existence of a gradient of the other species, above which its flow and gradient are parallel for any gradient of the less coupled species. The opposite holds for the less coupled species. Its flow may always be rectified and turned anti-parallel to its gradient by a sufficiently strong opposing gradient of the other one.
Potential value of automated daily screening of cardiac resynchronization therapy defibrillator diagnostics for prediction of major cardiovascular events: results from Home-CARE (Home Monitoring in Cardiac Resynchronization Therapy) study (2011)
Sack, Stefan ; Wende, Christian Michael ; Nägele, Herbert ; Katz, Amos ; Bauer, Wolfgang Rudolf ; Barr, Craig Scott ; Malinowski, Klaus ; Schwacke, Harald ; Leyva, Francisco ; Proff, Jochen ; Berdyshev, Sergey ; Paul, Vincent
Aim To investigate whether diagnostic data from implanted cardiac resynchronization therapy defibrillators (CRT-Ds) retrieved automatically at 24 h intervals via a Home Monitoring function can enable dynamic prediction of cardiovascular hospitalization and death. Methods and results Three hundred and seventy-seven heart failure patients received CRT-Ds with Home Monitoring option. Data on all deaths and hospitalizations due to cardiovascular reasons and Home Monitoring data were collected prospectively during 1-year follow-up to develop a predictive algorithm with a predefined specificity of 99.5%. Seven parameters were included in the algorithm: mean heart rate over 24 h, heart rate at rest, patient activity, frequency of ventricular extrasystoles, atrial–atrial intervals (heart rate variability), right ventricular pacing impedance, and painless shock impedance. The algorithm was developed using a 25-day monitoring window ending 3 days before hospitalization or death. While the retrospective sensitivities of the individual parameters ranged from 23.6 to 50.0%, the combination of all parameters was 65.4% sensitive in detecting cardiovascular hospitalizations and deaths with 99.5% specificity (corresponding to 1.83 false-positive detections per patient-year of follow-up). The estimated relative risk of an event was 7.15-fold higher after a positive predictor finding than after a negative predictor finding. Conclusion We developed an automated algorithm for dynamic prediction of cardiovascular events in patients treated with CRT-D devices capable of daily transmission of their diagnostic data via Home Monitoring. This tool may increase patients’ quality of life and reduce morbidity, mortality, and health economic burden, it now warrants prospective studies.
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