M. Schneider scite author profile

Fibroblast growth factor 21 (FGF21) is a metabolic regulator that provides efficient and durable glycemic and lipid control in various animal models. However, its potential to treat obesity, a major health concern affecting over 30% of the population, has not been fully explored. Here we report that systemic administration of FGF21 for 2 wk in diet-induced obese and ob/ob mice lowered their mean body weight by 20% predominantly via a reduction in adiposity. Although no decrease in total caloric intake or effect on physical activity was observed, FGF21-treated animals exhibited increased energy expenditure, fat utilization, and lipid excretion, reduced hepatosteatosis, and ameliorated glycemia. Transcriptional and blood cytokine profiling studies revealed effects consistent with the ability of FGF21 to ameliorate insulin and leptin resistance, enhance fat oxidation and suppress de novo lipogenesis in liver as well as to activate futile cycling in adipose. Overall, these data suggest that FGF21 exhibits the therapeutic characteristics necessary for an effective treatment of obesity and fatty liver disease and provides novel insights into the metabolic determinants of these activities.

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Circumferential Pulmonary Vein Isolation With the Cryoballoon Technique

Neumann¹,

Vogt²,

Schumacher³

et al. 2008

Journal of the American College of Cardiology

431

336

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Timing attacks on Web privacy

2000

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We describe a class of attacks that can compromise the privacy of users' Web-browsing histories. The attacks allow a malicious Web site to determine whether or not the user has recently visited some other, unrelated Web page. The malicious page can determine this information by measuring the time the user's browser requires to perform certain operations. Since browsers perform various forms of caching, the time required for operations depends on the user's browsing history; this paper shows that the resulting time variations convey enough information to compromise users' privacy. This attack method also allows other types of information gathering by Web sites, such as a more invasive form of Web "cookies". The attacks we describe can be carried out without the victim's knowledge, and most "anonymous browsing" tools fail to prevent them. Other simple countermeasures also fail to prevent these attacks. We describe a way of reengineering browsers to prevent most of them.

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Fundamentals of FGF19 & FGF21 Action In Vitro and In Vivo

et al. 2012

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Fibroblast growth factors 19 (FGF19) and 21 (FGF21) have emerged as key regulators of energy metabolism. Several studies have been conducted to understand the mechanism of FGF19 and FGF21 action, however, the data presented has often been inconsistent and at times contradictory. Here in a single study we compare the mechanisms mediating FGF19/FGF21 actions, and how similarities/differences in actions at the cellular level between these two factors translate to common/divergent physiological outputs. Firstly, we show that in cell culture FGF19/FGF21 are very similar, however, key differences are still observed differentiating the two. In vitro we found that both FGF's activate FGFRs in the context of βKlotho (KLB) expression. Furthermore, both factors alter ERK phosphorylation and glucose uptake with comparable potency. Combination treatment of cells with both factors did not have additive effects and treatment with a competitive inhibitor, the FGF21 delta N17 mutant, also blocked FGF19's effects, suggestive of a shared receptor activation mechanism. The key differences between FGF21/FGF19 were noted at the receptor interaction level, specifically the unique ability of FGF19 to bind/signal directly via FGFR4. To determine if differential effects on energy homeostasis and hepatic mitogenicity exist we treated DIO and ob/ob mice with FGF19/FGF21. We find comparable efficacy of the two proteins to correct body weight and serum glucose in both DIO and ob/ob mice. Nevertheless, FGF21 and FGF19 had distinctly different effects on proliferation in the liver. Interestingly, in vivo blockade of FGF21 signaling in mice using ΔN17 caused profound changes in glycemia indicative of the critical role KLB and FGF21 play in the regulation of glucose homeostasis. Overall, our data demonstrate that while subtle differences exist in vitro the metabolic effects in vivo of FGF19/FGF21 are indistinguishable, supporting a shared mechanism of action for these two hormones in the regulation of energy balance.

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Biatrial multisite mapping of atrial premature complexes triggering onset of atrial fibrillation

Schmitt

Ndrepepa

Weber

et al. 2002

The American Journal of Cardiology

127

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Acute and Long‐Term Results of Slow Pathway Ablation in Patients with Atrioventricular Nodal Reentrant Tachycardia—An Analysis of the Predictive Factors for Arrhythmia Recurrence

Estner

Ndrepepa

Dong

et al. 2005

Pacing Clinical Electrophis

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Access control on the Web using proof-carrying authorization

Bauer

Schneider

Felten

et al.

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Prospective Randomized Comparison of Closed Cooled‐Tip versus 8‐mm‐Tip Catheters for Radiofrequency Ablation of Typical Atrial Flutter

Schreieck

Zrenner

Kumpmann

et al. 2002

Cardiovasc electrophysiol

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M. Schneider

Fibroblast Growth Factor 21 Corrects Obesity in Mice

Circumferential Pulmonary Vein Isolation With the Cryoballoon Technique

Timing attacks on Web privacy

Fundamentals of FGF19 & FGF21 Action In Vitro and In Vivo

Biatrial multisite mapping of atrial premature complexes triggering onset of atrial fibrillation

Acute and Long‐Term Results of Slow Pathway Ablation in Patients with Atrioventricular Nodal Reentrant Tachycardia—An Analysis of the Predictive Factors for Arrhythmia Recurrence

Access control on the Web using proof-carrying authorization

Prospective Randomized Comparison of Closed Cooled‐Tip versus 8‐mm‐Tip Catheters for Radiofrequency Ablation of Typical Atrial Flutter

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