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Background The arterial in line application of the leukocyte inhibition module (LIM) in the cardiopulmonary bypass (CPB) limits overshooting leukocyte activity during cardiac surgery. We now studied in a porcine model whether LIM may have beneficial effects on cardiac function after CPB. Methods German landrace pigs underwent CPB (60 min myocardial ischemia; 30 min reperfusion)without (group I; n=6) or with LIM (group II; n=6). The cardiac indices (CI) and cardiac function were analyzed pre and post CPB with a Swan-Ganz catheter and the cardiac function analyzer. Neutrophil labeling with technetium, scintigraphy, and histological analyses were done to track activated neutrophils within the organs. Results LIM prevented CPB-associated increase of neutrophil counts in peripheral blood. In group I, the CI significantly declined post CPB (post: 3.26 +/- 0.31; pre: 4.05 +/- 0.45 l/min/m2; p<0.01). In group II, the CI was only slightly reduced (post: 3.86 +/- 0.49; pre 4.21 +/- 1.32 l/min/m2; p=0.23). Post CPB, the intergroup difference showed significantly higher CI values in the LIM group (p<0.05) which was in conjunction with higher pre-load independent endsystolic pressure volume relationship (ESPVR) values (group I: 1.57 +/- 0.18; group II: 1.93 +/- 0.16; p<0.001). Moreover, the systemic vascular resistance and pulmonary vascular resistance were lower in the LIM group. LIM appeared to accelerate the sequestration of hyperactivated neutrophils in the spleen and to reduce neutrophil infiltration of heart and lung. Conclusions Our data provide strong evidence that LIM improves perioperative hemodynamics and cardiac function after CPB by limiting neutrophil activity and inducing accelerated sequestration of neutrophils in the spleen.
Poster presentation: The mammalian pineal organ is a peripheral oscillator, depending on afferent information from the so-called master clock in the suprachiasmatic nuclei of the hypothalamus. One of the best studied outputs of the pineal gland is the small and hydrophobic molecule melatonin. In all vertebrates, melatonin is synthesized rhythmically with high levels at night, signalling the body the duration of the dark period. Changes or disruptions of melatonin rhythms in humans are related to a number of pathophysiological disorders, like Alzheimer's disease, seasonal affective disorder or the Smith-Magenis-Syndrome. To use melatonin in preventive or curative interferences with the human circadian system, a complete understanding of the generation of the rhythmic melatonin signal in the human pineal gland is essential. Melatonin biosynthesis is best studied in the rodent pineal gland, where the activity of the penultimate and rate-limiting enzyme, the arylalkylamine N-acetyltransferase (AA-NAT), is regulated on the transcriptional level, whereas the regulatory role of the ultimate enzymatic step, achieved by the hydroxyindole O-methyltransferase (HIOMT), is still under debate. In rodents, Aa-nat mRNA is about 100-fold elevated during the night in response to adrenergic stimulation of the cAMP-signalling pathway, with AA-NAT protein levels closely following this dynamics. In contrast, in all ungulates studied so far (cow, sheep), a post-transcriptional regulation of the AA-NAT is central to determine rhythmic melatonin synthesis. AA-NAT mRNA levels are constantly elevated, and lead to a constitutive up-regulation of AA-NAT protein, which is, however, rapidly degraded via proteasomal proteolysis during the day. AA-NAT proteolysis is only terminated upon the nocturnal increase in cAMP levels. Similar to ungulates, a post-transcriptional control of this enzyme seems evident in the pineal gland of the primate Macaca mulatta. Studies on the molecular basis of melatonin synthesis in the human being are sparse and almost exclusively based on phenomenological data, derived from non-invasive investigations. Yet the molecular mechanisms underlying the generation of the hormonal message of darkness can currently only be deciphered using autoptic material. We therefore analyzed in human post-mortem pineal tissue Aa-nat and Hiomt mRNA levels, AA-NAT and HIOMT enzyme activity, and melatonin levels for the first time simultaneously within tissue samples of the same specimen. Here presented data show the feasibility of this approach. Our results depict a clear diurnal rhythm in AA-NAT activity and melatonin content, despite constant values for Aa-nat and Hiomt mRNA, and for HIOMT activity. Notably, the here elevated AA-NAT activity during the dusk period does not correspond to a simultaneous elevation in melatonin content. It is currently unclear whether this finding may suggest a more important role of the ultimate enzyme in melatonin synthesis, the HIOMT, for rate-limiting the melatonin rhythm, as reported recently for the rodent pineal gland. Thus, our data support for the first time experimentally that post-transcriptional mechanisms are responsible for the generation of rhythmic melatonin synthesis in the human pineal gland.
Poor condition subarachnoid hemorrhage (SAH) patients present a high mortality and morbidity. In this study, we reviewed the acute interventional (surgical and endovascular) management of 109 SAH-poor condition patients, who were treated as early as logistically possible after confirming stable circulation parameters. Patients over the age of 70 years, without clinical response to painful stimulation were excluded. We recognized at least 3 different postinterventional therapeutic approaches: (1) Norm- or hypovolemic, normotensive hemodilution in 30 patients with space-occupying intracranial hematomas as well as in 31 cases with acute cerebro-spinal-fluid obstruction. (2) Normovolemic, hypertensive hemodilution after unilateral decompressive craniotomy in 23 surgical- and 2 endovascular-treated patients with focalized space occupying lesions and reduced cerebral perfusion. (3) Hypovolemic, normo-, or hypertensive hemodilution after bilateral decompressive craniotomy in 23 cases with massive brain-swelling. We observed a reduced mortality (21%). The overall late outcome was favorable in 56% and unfavorable in 23%. Selective aggressive treatment adapted to increase the cerebral perfusion, seems to be an effective therapy to improve the survival and outcome of several poor condition SAH-patients.
Blutproben und Gewebe von Familien mit erblich bedingten degenerativen Erkrankungen wie Parkinson sind ein zentrales Forschungsobjekt der neu eingerichteten Forschungsprofessur »Molekulare Neurogenetik« innerhalb der Neurologischen Klinik der Universität Frankfurt. Sind die verantwortlichen Mutationen identifiziert, werden sie im Hirngewebe von Mäusen künstlich erzeugt. Aus der Untersuchung der krankhaften Veränderungen lassen sich Diagnostik und Therapie weiter entwickeln. Als bisherigen Höhepunkt unserer Forschungstätigkeit haben wir in einigen Parkinson- Familien als Krankheitsursache den Funktionsverlust eines Eiweißes namens PINK1 in den Mitochondrien nachgewiesen. Aufgrund dieser Beobachtung lässt sich oxidativer Stress als auslösender Schritt im Krankheitsgeschehen interpretieren. Experimentelle Therapien mit anti-oxidativen Medikamenten sind in Zellkultur getestet worden und sollen künftig auch im Mausmodell zum Einsatz kommen.
The human amygdala is thought to play a pivotal role in the processing of emotionally significant sensory information. The major subdivisions of the human amygdala—the laterobasal group (LB), the superficial group (SF), and the centromedial group (CM)—have been anatomically delineated, but the functional response properties of these amygdala subregions in humans are still unclear. We combined functional MRI with cyto-architectonically defined probabilistic maps to analyze the response characteristics of amygdala subregions in subjects presented with auditory stimuli. We found positive auditory stimulation-related signal changes predominantly in probabilistically defined LB, and negative responses predominantly in SF and CM. In the left amygdala, mean response magnitude in the core area of LB with 90–100% assignment probability was significantly larger than in the core areas of SF and CM. These differences were observed for pleasant and unpleasant stimuli. Our findings reveal that the probabilistically defined anatomical subregions of the human amygdala show distinctive fMRI response patterns. The stronger auditory responses in LB as compared with SF and CM may reflect a predominance of auditory inputs to human LB, similar to many animal species in which the majority of sensory, including auditory, afferents project to this subdivision of the amygdala. Our study indicates that the intrinsic functional differentiation of the human amygdala may be probed using fMRI combined with probabilistic anatomical maps.
Was passiert auf molekularer Ebene, wenn der Körper altert? Eine Antwort darauf lautet: Es häufen sich irreparable Schäden an Zellen, an Zellbestandteilen wie den Organellen, der DNA oder Eiweißen und anderen Molekülen. DassFehler passieren, ist unvermeidlich, denn jeder Stoffwechselvorgang birgt eine gewisse Störanfälligkeit in sich. Ein junger Organismus ist dank ausgefeilter Reparatursysteme in der Lage, Fehler zu korrigieren. Nimmt diese Fähigkeit mit dem Altern ab, so treten zwei Arten von Problemen mit besonders weitreichenden Folgen auf: Fehler bei der Replikation (dem Kopieren) der DNA und molekulare Schäden, die freie Radikale anrichten. So können Defekte der DNA einerseits die Entstehung von Tumoren verursachen, andererseits aber auch Alterungsprozesse beschleunigen.
Das Altenpflegeheim ist für die Heimbewohner einerseits ihr Zuhause, andererseits wird es aber von vielen alten Menschen als der erzwungene Daueraufenthalt bis zum Lebensende empfunden. Dies ruft in den Beziehungen zwischen Heimbewohnern, ihren Angehörigen und den Pflegenden oftmals Spannungen hervor, die das zentrale Recht der Bewohnerinnen und Bewohner, aber auch das zentrale Anliegen der Pflegenden tangieren: die Erhaltung und Förderung der Selbstbestimmtheit des alten Menschen. Viele der betroffenen Heimbewohner sind vor allem aufgrund von Demenzerkrankungen unterschiedlicher Genese nicht mehr einwilligungsfähig. Dennoch äußern sie durch Gestik und Mimik in recht differenzierter Weise ihre Freude, ihre Vorlieben, ihre Ängste und ihren Unwillen. So zeigen sie oftmals, ob sie einer therapeutischen oder pflegerischen Maßnahme zustimmen oder sie ablehnen. Diese außerordentlich schwer zu interpretierenden Willensäußerungen sind zweifellos eine erhebliche Herausforderung, die nur in Kooperation aller Beteiligten gelöst werden kann.
Viele Patienten, die zum Radiologen geschickt werden, um eine Röntgenaufnahme ihrer Lunge machen zu lassen, fragen besorgt: Aber die Röntgenstrahlen sind doch schädlich, muss das denn wirklich sein? Solche Einwände kommen selbst von langjährigen Rauchern und Menschen, die ansonsten bereit sind, gesundheitliche Gefährdungen auf sich zu nehmen. Bald könnte es jedoch eine Alternative zur Röntgenuntersuchung der Lunge geben. In der Abteilung Pneumologie des Universitätsklinikums Frankfurt wird derzeit ein Verfahren zur bildhaften Darstellung der Lunge erprobt, das sich an den Luftschwingungen in der Lunge orientiert und ganz auf Röntgenstrahlen verzichtet.