995 results on '"P. Berchtold"'
Search Results
252. In vitro and in vivo effect of antibiotics on catheters colonized by staphylococci
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Guggenbichler, J. P., Berchtold, D., Allerberger, F., Bonatti, H., Hager, J., Pfaller, W., and Dierich, M. P.
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- 1992
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253. Decreased Renal Gluconeogenesis Is a Hallmark of Chronic Kidney Disease
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Verissimo, Thomas, Faivre, Anna, Rinaldi, Anna, Lindenmeyer, Maja, Delitsikou, Vasiliki, Veyrat-Durebex, Christelle, Heckenmeyer, Carolyn, Fernandez, Marylise, Berchtold, Lena, Dalga, Delal, Cohen, Clemens, Naesens, Maarten, Ricksten, Sven-Erik, Martin, Pierre-Yves, Pugin, J?r?me, Merlier, Franck, Haupt, Karsten, Rutkowski, Joseph M., Moll, Solange, Cipp?, Pietro E., Legouis, David, and de Seigneux, Sophie
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The ability to produce glucose from nonhexose precursors is a main metabolic function of renal proximal tubule (PT) cells. PT cells adapt metabolically during CKD, but little is known about gluconeogenesis in chronically injured PT cells. Our study demonstrates the progressive loss of gluconeogenesis enzymes in animal models and in CKD patients in parallel to global change in metabolic pathway expression and activation of injury pathways. This alteration is not only due to loss of PT cells but has systemic repercussions on glucose and lactate levels in experimental and human CKD. In retrospective human studies, gluconeogenesis downregulation predicted CKD progression. This work provides new evidence for metabolic regulation during CKD and the functional effect.
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- 2022
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254. Perfusate Enzymes and Platelets Indicate Early Allograft Dysfunction After Transplantation of Normothermically Preserved Livers
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Weissenbacher, Annemarie, Bogensperger, Christina, Oberhuber, Rupert, Meszaros, Andras, Gasteiger, Silvia, Ulmer, Hanno, Berchtold, Valeria, Krendl, Felix J., Fodor, Margot, Messner, Franka, Hautz, Theresa, Otarashvili, Giorgi, Resch, Thomas, Margreiter, Christian, Maglione, Manuel, Irsara, Christian, Griesmacher, Andrea, Raynaud, Marc, Breitkopf, Robert, Troppmair, Jakob, Öfner, Dietmar, Cardini, Benno, and Schneeberger, Stefan
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- 2022
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255. Diffusion-magnetic resonance imaging predicts decline of kidney function in chronic kidney disease and in patients with a kidney allograft
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Berchtold, Lena, Crowe, Lindsey A., Combescure, Christophe, Kassaï, Miklos, Aslam, Ibtisam, Legouis, David, Moll, Solange, Martin, Pierre-Yves, de Seigneux, Sophie, and Vallée, Jean-Paul
- Abstract
Kidney cortical interstitial fibrosis is highly predictive of kidney prognosis and is currently assessed by evaluation of a biopsy. Diffusion-weighted magnetic resonance imaging is a promising non-invasive tool to evaluate kidney fibrosis. We recently adapted diffusion-weighted imaging sequence for discrimination between the kidney cortex and medulla and found that the cortico-medullary difference in apparent diffusion coefficient (ΔADC) correlated with histological interstitial fibrosis. Here, we assessed whether ΔADC as measured with diffusion-weighted magnetic resonance imaging is predictive of kidney function decline and dialysis initiation in chronic kidney disease (CKD) and patients with a kidney allograft in a prospective study encompassing 197 patients. We measured ΔADC in 43 patients with CKD (estimated GFR (eGFR) 55ml/min/1.73m2) and 154 patients with a kidney allograft (eGFR 53ml/min/1.73m2). Patients underwent a kidney biopsy and diffusion-weighted magnetic resonance imaging within one week of biopsy; median follow-up of 2.2 years with measured laboratory parameters. The primary outcome was a rapid decline of kidney function (eGFR decline over 30% or dialysis initiation) during follow up. Significantly, patients with a negative ΔADC had 5.4 times more risk of rapid decline of kidney function or dialysis (95% confidence interval: 2.29-12.58). After correction for kidney function at baseline and proteinuria, low ADC still predicted significant kidney function loss with a hazard ratio of 4.62 (95% confidence interval 1.56-13.67) independent of baseline age, sex, eGFR and proteinuria. Thus, low ΔADC can be a predictor of kidney function decline and dialysis initiation in patients with native kidney disease or kidney allograft, independent of baseline kidney function and proteinuria.
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- 2022
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256. Not all Whipple procedures are equal: Proposal for a classification of pancreatoduodenectomies.
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Mihaljevic, Andre L., Hackert, Thilo, Loos, Martin, Hinz, Ulf, Schneider, Martin, Mehrabi, Arianeb, Hoffmann, Katrin, Berchtold, Christoph, Müller-Stich, Beat P., Diener, Markus, Strobel, Oliver, and Büchler, Markus W.
- Abstract
Pancreatoduodenectomy is the standard treatment for pathologies of the pancreatic head and is performed routinely worldwide. The aim of the study was to analyze this procedure in terms of extent of surgery, technical difficulty, and clinical outcomes and thereby provide a standardized surgical categorization of pancreatoduodenectomies for future reference. For this cohort study, all patients who underwent pancreatoduodenectomy at a single center within an 18-year period (October 2001 to December 2019) were identified in a prospectively maintained database. Based on technical difficulty and extent of surgery, 4 pancreatoduodenectomy types were proposed: (1) standard pancreatoduodenectomy; (2) pancreatoduodenectomy with portal vein/superior mesenteric vein resection; (3) pancreatoduodenectomy with multivisceral resection; and (4) pancreatoduodenectomy with arterial resection. Patient characteristics, surgical parameters, and perioperative morbidity and mortality were analyzed. The 4 types were compared with regard to their surgical outcomes. A total of 3,953 pancreatoduodenectomies were performed in the study period. Standard pancreatoduodenectomy (type 1) was the most frequent procedure (n = 2,931, 74.1%), followed by pancreatoduodenectomy with portal vein/superior mesenteric vein resection (type 2: n = 568, 14.4%), pancreatoduodenectomy with multivisceral resection (type 3: n = 415, 10.5%), and pancreatoduodenectomy with arterial resection (type 4: n = 39, 1.0%). Demographic baseline characteristics were clinically comparable among pancreatoduodenectomy types. Mortality within 90-days correlated with the type of pancreatoduodenectomy (type 1: 2.9%; type 2: 4.2%; type 3: 6.3%; type 4: 10.3%; P =.0007). Overall surgical morbidity was 41.7% (type 1), 40.8% (type 2), 52.5% (type 3), and 59.0% (type 4) (P <.0001), including postoperative pancreatic fistula type B/C (type 1: 11.9%; type 2: 7.7%; type 3: 14.7%; type 4: 15.4; P =.0031) and delayed gastric emptying (type 1: 19.4%; type 2: 22.5%; type 3: 22.0%; type 4: 25.6%; P =.187) as the most frequent complications. Relaparotomies were more frequent in type 4 (20.5%) and type 3 (20.6%) than in type 2 (12.0%) or type 1 (10.4%) pancreatoduodenectomy (P <.0001). Intensive care unit stay ≥2 days was more frequent in type 4 (48.7%) compared with type 3 (25.7%) or type 2 (27.1%) and type 1 (18.6%) (P <.0001). The results show different clinical outcomes for the 4 types of pancreatoduodenectomy. Morbidity and mortality correlate with pancreatoduodenectomy type. The proposed pancreatoduodenectomy classification is useful for reporting pancreatoduodenectomy procedures, enhances the comparability of future studies, may be used for training purposes, and may guide intra and postoperative decision-making. [ABSTRACT FROM AUTHOR]
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- 2021
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257. Detection and correction of probe-level artefacts on microarrays
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Petri Tobias, Berchtold Evi, Zimmer Ralf, and Friedel Caroline C
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Microarrays ,Quality control ,Artefact detection ,Computer applications to medicine. Medical informatics ,R858-859.7 ,Biology (General) ,QH301-705.5 - Abstract
Abstract Background A recent large-scale analysis of Gene Expression Omnibus (GEO) data found frequent evidence for spatial defects in a substantial fraction of Affymetrix microarrays in the GEO. Nevertheless, in contrast to quality assessment, artefact detection is not widely used in standard gene expression analysis pipelines. Furthermore, although approaches have been proposed to detect diverse types of spatial noise on arrays, the correction of these artefacts is mostly left to either summarization methods or the corresponding arrays are completely discarded. Results We show that state-of-the-art robust summarization procedures are vulnerable to artefacts on arrays and cannot appropriately correct for these. To address this problem, we present a simple approach to detect artefacts with high recall and precision, which we further improve by taking into account the spatial layout of arrays. Finally, we propose two correction methods for these artefacts that either substitute values of defective probes using probeset information or filter corrupted probes. We show that our approach can identify and correct defective probe measurements appropriately and outperforms existing tools. Conclusions While summarization is insufficient to correct for defective probes, this problem can be addressed in a straightforward way by the methods we present for identification and correction of defective probes. As these methods output CEL files with corrected probe values that serve as input to standard normalization and summarization procedures, they can be easily integrated into existing microarray analysis pipelines as an additional pre-processing step. An R package is freely available from http://www.bio.ifi.lmu.de/artefact-correction.
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- 2012
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258. Categorization of Differing Types of Total Pancreatectomy
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Loos, Martin, Al-Saeedi, Mohammed, Hinz, Ulf, Mehrabi, Arianeb, Schneider, Martin, Berchtold, Christoph, Müller-Stich, Beat P., Schmidt, Thomas, Kulu, Yakup, Hoffmann, Katrin, Strobel, Oliver, Hackert, Thilo, and Büchler, Markus W.
- Abstract
IMPORTANCE: Comparability of morbidity and mortality rates after total pancreatectomy (TP) reported by different surgical centers is limited. Procedure-specific differences, such as the extent of resection, including additional vascular or multivisceral resections, are rarely acknowledged when postoperative outcomes are reported. OBJECTIVES: To evaluate postoperative outcomes after TP and categorize different types of TP based on the extent, complexity, and technical aspects of each procedure. DESIGN, SETTING, AND PARTICIPANTS: This single-center study included a retrospective cohort of 1451 patients who had undergone TP between October 1, 2001, and December 31, 2020. Each patient was assigned to 1 of the following 4 categories that reflect increasing levels of procedure-related difficulty: standard TP (type 1), TP with venous resection (type 2), TP with multivisceral resection (type 3), and TP with arterial resection (type 4). Postoperative outcomes among the groups were compared. MAIN OUTCOMES AND MEASURES: Categorization of different types of TP based on the procedure-related difficulty and differing postoperative outcomes. RESULTS: Of the 1451 patients who had undergone TP and were included in the analysis, 840 were men (57.9%); median age was 64.9 (IQR, 56.7-71.7) years. A total of 676 patients (46.6%) were assigned to type 1, 296 patients (20.4%) to type 2, 314 patients (21.6%) to type 3, and 165 patients (11.4%) to type 4 TP. A gradual increase in surgical morbidity was noted by TP type (type 1: 255 [37.7%], type 2: 137 [46.3%], type 3: 178 [56.7%], and type 4: 98 [59.4%]; P < .001), as was noted for median length of hospital stay (type 1: 14 [IQR, 10-19] days, type 2: 16 [IQR, 12-23] days, type 3: 17 [IQR, 13-29] days, and type 4: 18 [IQR, 13-30] days; P < .001), and 90-day mortality (type 1: 23 [3.4%], type 2: 17 [5.7%], type 3: 29 [9.2%], and type 4: 20 [12.1%]; P < .001). In the multivariable analysis, type 3 (TP with multivisceral resection) and type 4 (TP with arterial resection) were independently associated with an increased 90-day mortality rate. CONCLUSIONS AND RELEVANCE: The findings of this study suggest there are significant differences in postoperative outcomes when the extent, complexity, and technical aspects of the procedure are considered. Classifying TP into 4 different categories may allow for better postoperative risk stratification as well as more accurate comparisons in future studies.
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- 2022
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259. Consistency of data collected through online life history calendars
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Berchtold, André, Wicht, Bertil, Surís, Joan-Carles, and Morselli, Davide
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- 2022
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260. Periarterial divestment in pancreatic cancer surgery.
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Diener, Markus K., Mihaljevic, André L., Strobel, Oliver, Loos, Martin, Schmidt, Thomas, Schneider, Martin, Berchtold, Christoph, Mehrabi, Arianeb, Müller-Stich, Beat P., Jiang, Kuirong, Neoptolemos, John P., Hackert, Thilo, Miao, Yi, and Büchler, Markus W.
- Abstract
Modern pancreatic cancer surgery changed with the introduction of effective neoadjuvant therapies. Complete tumor resection is the mainstay for long-term, disease-free, and overall survival and has been a prerequisite for decreasing local recurrence. The medial resection margin in the area of the superior mesenteric vessels limits the radicalness of the resection, especially in borderline and locally advanced cases. Therefore, the periarterial soft tissue around the peripancreatic visceral arteries must be completely cleared. This procedure, namely periarterial divestment, is technically demanding but often represents an alternative to arterial resection. Here we describe the technique and our initial experience with periarterial divestment along the peripancreatic visceral arteries during pancreatic surgery. This technique, in combination with previously published resection strategies, such as artery first maneuver and mesenterico-portal venous bypass first, enables tumor resection in locally advanced pancreatic cancer. Periarterial divestment can prevent the need for arterial resection in borderline and locally advanced pancreatic cancer, especially after neoadjuvant therapy. The feasibility, improved safety, and oncologic equivalence of arterial divestment versus arterial resection for pancreatic cancer surgery must be evaluated by clinical trials. [ABSTRACT FROM AUTHOR]
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- 2021
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261. Forced IFIT-2 expression represses LPS induced TNF-alpha expression at posttranscriptional levels
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Autenrieth Ingo B, Geisel Julia, Klenk Juliane, Manncke Birgit, Berchtold Susanne, and Bohn Erwin
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Immunologic diseases. Allergy ,RC581-607 - Abstract
Abstract Background Interferon induced tetratricopeptide repeat protein 2 (IFIT-2, P54) belongs to the type I interferon response genes and is highly induced after stimulation with LPS. The biological function of this protein is so far unclear. Previous studies indicated that IFIT-2 binds to the initiation factor subunit eIF-3c, affects translation initiation and inhibits protein synthesis. The aim of the study was to further characterize the function of IFIT-2. Results Stimulation of RAW264.7 macrophages with LPS or IFN-γ leads to the expression of IFIT-2 in a type I interferon dependent manner. By using stably transfected RAW264.7 macrophages overexpressing IFIT-2 we found that IFIT-2 inhibits selectively LPS induced expression of TNF-α, IL-6, and MIP-2 but not of IFIT-1 or EGR-1. In IFIT-2 overexpressing cells TNF-α mRNA expression was lower after LPS stimulation due to reduced mRNA stability. Further experiments suggest that characteristics of the 3'UTR of transcripts discriminate whether IFIT-2 has a strong impact on protein expression or not. Conclusion Our data suggest that IFIT-2 may affect selectively LPS induced protein expression probably by regulation at different posttranscriptional levels.
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- 2008
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262. Nutzung von Standortrollen für die Fabrikkonzeptplanung
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Berchtold, Marc-André, Böhm, Markus, Erlach, Klaus, and Bauernhansl, Thomas
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Bisher verwenden Fabrikplanungsansätze im frühen strategischen Planungsabschnitt oft sogenannte Fabriktypen. Diese Fabriktypen verfolgen jedoch nicht ein ganzheitliches Zielsystem, sondern fokussieren jeweils auf einzelne Ziele. Darüber hinaus ermöglichen die Fabriktypen nur eine isolierte Betrachtung der Einzelfabriken, weshalb deren Planung in Produktionsnetzwerken nicht mit Blick auf das Gesamtsystem erfolgt. Für Fabrikplanungen in Netzwerken sind gerade die Relationen zwischen den Fabriken relevant, was in den Fabriktypen nicht abgebildet ist. Die Perspektive „Standortrolle“ kann helfen, diese Lücke zu schließen.
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- 2021
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263. Risk of the Watch-and-Wait Concept in Surgical Treatment of Intraductal Papillary Mucinous Neoplasm
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Tjaden, Christine, Sandini, Marta, Mihaljevic, André L., Kaiser, Jörg, Khristenko, Ekaterina, Mayer, Philipp, Hinz, Ulf, Gaida, Matthias M., Berchtold, Christoph, Diener, Markus K., Schneider, Martin, Mehrabi, Arianeb, Müller-Stich, Beat P., Strobel, Oliver, Hackert, Thilo, and Büchler, Markus W.
- Abstract
IMPORTANCE: The natural history of intraductal papillary mucinous neoplasms (IPMNs) remains uncertain. The inconsistencies among published guidelines preclude accurate decision-making. The outcomes and potential risks of a conservative watch-and-wait approach vs a surgical approach must be compared. OBJECTIVE: To provide an overview of the surgical management of IPMNs, focusing on the time of resection. DESIGN, SETTING, AND PARTICIPANTS: This cohort study was conducted in a single referral center; all patients with pathologically proven IPMN who received a pancreatic resection at the institution between October 2001 and December 2019 were analyzed. Preoperatively obtained images and the medical history were scrutinized for signs of progression and/or malignant features. The timeliness of resection was stratified into too early (adenoma and low-grade dysplasia), timely (intermediate-grade dysplasia and in situ carcinoma), and too late (invasive cancer). The perioperative characteristics and outcomes were compared between these groups. EXPOSURES: Timeliness of resection according to the final pathological findings. MAIN OUTCOMES AND MEASURES: The risk of malignant transformation at the final pathology. RESULTS: Of 1439 patients, 438 (30.4%) were assigned to the too early group, 504 (35.1%) to the timely group, and 497 (34.5%) to the too late group. Radiological criteria for malignant conditions were detected in 53 of 382 patients (13.9%), 149 of 432 patients (34.5%), and 341 of 385 patients (88.6%) in the too early, timely, and too late groups, respectively (P < .001). Patients in the too early group underwent more parenchyma-sparing resections (too early group, 123 of 438 [28.1%]; timely group, 40 of 504 [7.9%]; too late group, 5 of 497 [1.0%]; P < .001), while morbidity (too early group, 112 of 438 [25.6%]; timely group, 117 of 504 [23.2%]; too late group, 158 of 497 [31.8%]; P = .002) and mortality (too early group, 4 patients [0.9%]; timely, 4 [0.8%]; too late, 13 [2.6%]; P = .03) were highest in the too late group. Of the 497 patients in the too late group, 124 (24.9%) had a previous history of watch-and-wait care. CONCLUSIONS AND RELEVANCE: Until the biology and progression patterns of IPMN are clarified and accurate guidelines established, a watch-and-wait policy should be applied with caution, especially in IPMN bearing a main-duct component. One-third of IPMNs reach the cancer stage before resection. At specialized referral centers, the risks of surgical morbidity and mortality are justifiable.
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- 2021
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264. Hyperamylasemia and acute pancreatitis after pancreatoduodenectomy: Two different entities.
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Loos, Martin, Strobel, Oliver, Dietrich, Maximilian, Mehrabi, Arianeb, Ramouz, Ali, Al-Saeedi, Mohammed, Müller-Stich, Beat P., Diener, Markus K., Schneider, Martin, Berchtold, Christoph, Feisst, Manuel, Hinz, Ulf, Mayer, Philipp, Giannakis, Athanasios, Schneider, Daniel, Weigand, Markus A., Büchler, Markus W., and Hackert, Thilo
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Serum amylase activity greater than the institutional upper limit of normal (hyperamylasemia) on postoperative day 0-2 has been suggested as a criterion to define postoperative acute pancreatitis after pancreatoduodenectomy, but robust evidence supporting this definition is lacking. To assess the clinical impact of hyperamylasemia after pancreatoduodenectomy and to define postoperative acute pancreatitis. Data of 1,235 consecutive patients who had undergone pancreatoduodenectomy between January 2010 and December 2014 were extracted from a prospective database and analyzed. Postoperative acute pancreatitis was defined based on the computed tomography severity index. Logistic regression modeling was used to calculate the postoperative acute pancreatitis rate of the entire study population. Hyperamylasemia on postoperative day 1 was found in 52% of patients after pancreatoduodenectomy. Patients with hyperamylasemia on postoperative day 1 had statistically significantly greater morbidity and mortality than patients with a normal serum amylase activity on postoperative day 1 with the rates of postoperative pancreatic fistula of 14.5% vs 2.1%, and 90-day mortality of 6.6% vs 2.2%, respectively. Of the 364 patients who underwent postoperative computed tomography, 103 (28%) had radiologic signs of acute pancreatitis, thus defining them as having postoperative acute pancreatitis by our definition. Logistic regression modeling showed a 14.7% rate of postoperative acute pancreatitis for the entire patient cohort and 29.2% for patients with hyperamylasemia on postoperative day 1. Outcomes of patients with postoperative acute pancreatitis defined based on the computed tomography severity index showed a rate of postoperative pancreatic fistula of 32.4% and a 90-day mortality rate of 11.8%, which were worse than those of patients with hyperamylasemia on postoperative day 1 alone. Hyperamylasemia on postoperative day 1 is a frequent finding after pancreatoduodenectomy, but hyperamylasemia on postoperative day 1 alone is not synonymous with postoperative acute pancreatitis because only 29.2% of such patients have acute pancreatitis based on computed tomography findings. Postoperative acute pancreatitis is a dangerous complication after pancreatoduodenectomy, but its prevalence, according to the gold standard of CT, is not as high as reported previously. Our data suggest that hyperamylasemia on postoperative day 1 and postoperative acute pancreatitis are 2 different entities. [ABSTRACT FROM AUTHOR]
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- 2021
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265. Visiting Out-of-Home Places When Living With Dementia: A Cross-Sectional Observational Study: Visiter des lieux hors du domicile lorsque l'on vit avec une démence: étude transversale observationnelle
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Margot-Cattin, Isabel, Ludwig, Catherine, Kühne, Nicolas, Eriksson, Gunilla, Berchtold, André, Nygard, Louise, and Kottorp, Anders
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Background. Persons living with dementia face a reduction of their life space outside home and disengagement from participation, linked to places visited.Purpose. This study explored stability and change in perceived participation in places visited outside home and its relationship with occupational gaps among older adults.Method. Older adults living with (n= 35) or without (n= 35) dementia were interviewed using the Participation in ACTivities and Places OUTside Home (ACT-OUT) questionnaire and the Occupational Gaps Questionnaire (OGQ). Data analysis used descriptive and inferential statistics.Findings. The group of people living with dementia reported significantly fewer places (p< .001) visited than the comparison group and having abandoned more places visited (p< .001) than the comparison group. The number of occupational gaps was significantly different between groups (p< .001).Implications. Participation outside home is not influenced in a uniform and straightforward way for persons living with dementia; the shrinking world effect appears differently in relation to types of places.
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- 2021
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266. Impact of Compliance With Components of an ERAS Pathway on the Outcomes of Anatomic VATS Pulmonary Resections.
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Forster, Céline, Doucet, Valérie, Perentes, Jean Yannis, Abdelnour-Berchtold, Etienne, Zellweger, Matthieu, Marcucci, Carlo, Krueger, Thorsten, Rosner, Lorenzo, and Gonzalez, Michel
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Implementation of an Enhanced Recovery After Surgery (ERAS) program is associated with better postoperative outcomes. The aim of this study was to evaluate the impact of ERAS compliance (overall and to specific elements of the program) on them. Retrospective analysis of prospectively collected data. University hospital, monocentric. All adult (≥18 years old) patients undergoing video-assisted thoracic surgery (VATS) anatomic pulmonary resection. ERAS-governed VATS anatomic pulmonary resection. Demographics, surgical characteristics and pre-, peri-, and postoperative compliance with 16 elements of the ERAS program were assessed. Postoperative outcomes and length of stay were compared between low- (<75% of adherence) and high-compliance (≥75%) groups. From April 2017 to November 2018, 192 ERAS patients (female/male: 98/94) of median age of 66 years (interquartile range 58-71) underwent VATS resection (109 lobectomies, 83 segmentectomies). There was no 30-day mortality and resurgery rate was 5.7%. Overall ERAS compliance was 76%. High compliance was associated with fewer complications (18% v 48%, p < 0.0001) and lower rate of delayed discharge (37% v 60%, p = 0.0013). Early removal of chest tubes (odds ratio [OR]: 0.26, p < 0.002), use of electronic drainage (OR: 0.39, p = 0.036), opioid cessation on day 3 (OR: 0.28, p = 0.016), and early feeding (OR: 0.12, p = 0.014) were associated with reduced rates of postoperative complications. Shorter hospital stay was correlated with early removal of chest tubes (OR: 0.12, p < 0.0001) and opioid cessation on day 3 (OR: 0.23, p = 0.001). High ERAS compliance is associated with better postoperative outcomes in patients undergoing anatomic pulmonary VATS resections. [ABSTRACT FROM AUTHOR]
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- 2020
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267. Symptomatic marginal ulcer after pancreatoduodenectomy.
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Sulieman, Ibnouf, Strobel, Oliver, Scharenberg, Christian, Mihaljevic, André M., Müller, Beat M., Diener, Markus K., Mehrabi, Arianeb, Schneider, Martin, Berchtold, Christoph, Tjaden, Christin, Hinz, Ulf, Feisst, Manuel, Büchler, Markus W., Hackert, Thilo, and Loos, Martin
- Abstract
Marginal ulcer is a well-known complication after pancreatoduodenectomy. In light of increasing long-term survival after pancreatoduodenectomy, the identification of risk factors and preventive strategies are of utmost importance. We assessed the incidence, clinical impact, and potential risk factors of marginal ulcer after pancreatoduodenectomy. A prospectively maintained database of patients undergoing pancreatoduodenectomy was analyzed retrospectively. Univariate and bivariate competing-risk Cox regression analyses were performed to identify risk factors for marginal ulcer. Two hundred and fifty-five consecutive patients underwent pancreatoduodenectomy. The median follow-up was 35.7 months. Marginal ulcer was diagnosed in 19 patients (7.5%), and the median time from pancreatoduodenectomy to marginal ulcer diagnosis was 450 days. Thirteen of these 19 patients presented with abdominal pain, melena, or anemia. In all these 13 patients, marginal ulcer resolved with proton pump inhibitor therapy and endoscopic surveillance. Six patients with marginal ulcer presented with an acute abdomen and underwent emergency laparotomy for marginal ulcer perforation and peritonitis. There was no marginal ulcer-related mortality. Univariate and bivariate competing-risk analyses showed an increased risk for marginal ulcer with discontinuation of proton pump inhibitor therapy, smoking, alcohol intake, and the use of non-steroidal anti-inflammatory drugs. Discontinuation of proton pump inhibitor therapy was an independent risk factor for marginal ulcer development. Marginal ulcer is a relevant long-term complication after pancreatoduodenectomy that occurs more frequently after proton pump inhibitor therapy is discontinued. Based on our data, permanent use of proton pump inhibitor after pancreatoduodenectomy is strongly recommended especially for those patients who smoke, consume alcohol, or use non-steroidal anti-inflammatory drugs. [ABSTRACT FROM AUTHOR]
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- 2020
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268. Konzeptionelle Vorstudien in der Fabrikplanung
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Erlach, Klaus, Berchtold, Marc-André, Gessert, Stephan, Kaucher, Christian, Leipoldt, Christoph, and Ungern-Sternberg, Roman
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Vorstudien im Sinne des Systems Engineering (SE) eignen sich zur Bewertung der Machbarkeit und Entwicklung eines Rahmenkonzepts für große Investitionsprojekte. Trotz der hohen Relevanz für die Fabrikplanung fehlt in der Fachliteratur eine systematische Beschreibung einer geeigneten Vorgehensweise. Aufbauend auf dem Problemlösungszyklus des SE wird eine Vorgehensweise zur fachlichen Machbarkeitsprüfung von wandlungsfähigen, wertstromorientierten Fabriken vorgestellt – das Rapid Plant Planning.*
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- 2021
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269. Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1
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Klionsky, Daniel J., Abdel-Aziz, Amal Kamal, Abdelfatah, Sara, Abdellatif, Mahmoud, Abdoli, Asghar, Abel, Steffen, Abeliovich, Hagai, Abildgaard, Marie H., Abudu, Yakubu Princely, Acevedo-Arozena, Abraham, Adamopoulos, Iannis E., Adeli, Khosrow, Adolph, Timon E., Adornetto, Annagrazia, Aflaki, Elma, Agam, Galila, Agarwal, Anupam, Aggarwal, Bharat B., Agnello, Maria, Agostinis, Patrizia, Agrewala, Javed N., Agrotis, Alexander, Aguilar, Patricia V., Ahmad, S. Tariq, Ahmed, Zubair M., Ahumada-Castro, Ulises, Aits, Sonja, Aizawa, Shu, Akkoc, Yunus, Akoumianaki, Tonia, Akpinar, Hafize Aysin, Al-Abd, Ahmed M., Al-Akra, Lina, Al-Gharaibeh, Abeer, Alaoui-Jamali, Moulay A., Alberti, Simon, Alcocer-Gómez, Elísabet, Alessandri, Cristiano, Ali, Muhammad, Alim Al-Bari, M. Abdul, Aliwaini, Saeb, Alizadeh, Javad, Almacellas, Eugènia, Almasan, Alexandru, Alonso, Alicia, Alonso, Guillermo D., Altan-Bonnet, Nihal, Altieri, Dario C., Álvarez, Élida M. C., Alves, Sara, Alves da Costa, Cristine, Alzaharna, Mazen M., Amadio, Marialaura, Amantini, Consuelo, Amaral, Cristina, Ambrosio, Susanna, Amer, Amal O., Ammanathan, Veena, An, Zhenyi, Andersen, Stig U., Andrabi, Shaida A., Andrade-Silva, Magaiver, Andres, Allen M., Angelini, Sabrina, Ann, David, Anozie, Uche C., Ansari, Mohammad Y., Antas, Pedro, Antebi, Adam, Antón, Zuriñe, Anwar, Tahira, Apetoh, Lionel, Apostolova, Nadezda, Araki, Toshiyuki, Araki, Yasuhiro, Arasaki, Kohei, Araújo, Wagner L., Araya, Jun, Arden, Catherine, Arévalo, Maria-Angeles, Arguelles, Sandro, Arias, Esperanza, Arikkath, Jyothi, Arimoto, Hirokazu, Ariosa, Aileen R., Armstrong-James, Darius, Arnauné-Pelloquin, Laetitia, Aroca, Angeles, Arroyo, Daniela S., Arsov, Ivica, Artero, Rubén, Asaro, Dalia Maria Lucia, Aschner, Michael, Ashrafizadeh, Milad, Ashur-Fabian, Osnat, Atanasov, Atanas G., Au, Alicia K., Auberger, Patrick, Auner, Holger W., Aurelian, Laure, Autelli, Riccardo, Avagliano, Laura, Ávalos, Yenniffer, Aveic, Sanja, Aveleira, Célia Alexandra, Avin-Wittenberg, Tamar, Aydin, Yucel, Ayton, Scott, Ayyadevara, Srinivas, Azzopardi, Maria, Baba, Misuzu, Backer, Jonathan M., Backues, Steven K., Bae, Dong-Hun, Bae, Ok-Nam, Bae, Soo Han, Baehrecke, Eric H., Baek, Ahruem, Baek, Seung-Hoon, Baek, Sung Hee, Bagetta, Giacinto, Bagniewska-Zadworna, Agnieszka, Bai, Hua, Bai, Jie, Bai, Xiyuan, Bai, Yidong, Bairagi, Nandadulal, Baksi, Shounak, Balbi, Teresa, Baldari, Cosima T., Balduini, Walter, Ballabio, Andrea, Ballester, Maria, Balazadeh, Salma, Balzan, Rena, Bandopadhyay, Rina, Banerjee, Sreeparna, Banerjee, Sulagna, Bánréti, Ágnes, Bao, Yan, Baptista, Mauricio S., Baracca, Alessandra, Barbati, Cristiana, Bargiela, Ariadna, Barilà, Daniela, Barlow, Peter G., Barmada, Sami J., Barreiro, Esther, Barreto, George E., Bartek, Jiri, Bartel, Bonnie, Bartolome, Alberto, Barve, Gaurav R., Basagoudanavar, Suresh H., Bassham, Diane C., Bast, Robert C., Basu, Alakananda, Batoko, Henri, Batten, Isabella, Baulieu, Etienne E., Baumgarner, Bradley L., Bayry, Jagadeesh, Beale, Rupert, Beau, Isabelle, Beaumatin, Florian, Bechara, Luiz R.G., Beck, George R., Beers, Michael F., Begun, Jakob, Behrends, Christian, Behrens, Georg M.N., Bei, Roberto, Bejarano, Eloy, Bel, Shai, Behl, Christian, Belaid, Amine, Belgareh-Touzé, Naïma, Bellarosa, Cristina, Belleudi, Francesca, Belló Pérez, Melissa, Bello-Morales, Raquel, Beltran, Jackeline Soares de Oliveira, Beltran, Sebastián, Benbrook, Doris Mangiaracina, Bendorius, Mykolas, Benitez, Bruno A., Benito-Cuesta, Irene, Bensalem, Julien, Berchtold, Martin W., Berezowska, Sabina, Bergamaschi, Daniele, Bergami, Matteo, Bergmann, Andreas, Berliocchi, Laura, Berlioz-Torrent, Clarisse, Bernard, Amélie, Berthoux, Lionel, Besirli, Cagri G., Besteiro, Sebastien, Betin, Virginie M., Beyaert, Rudi, Bezbradica, Jelena S., Bhaskar, Kiran, Bhatia-Kissova, Ingrid, Bhattacharya, Resham, Bhattacharya, Sujoy, Bhattacharyya, Shalmoli, Bhuiyan, Md. Shenuarin, Bhutia, Sujit Kumar, Bi, Lanrong, Bi, Xiaolin, Biden, Trevor J., Bijian, Krikor, Billes, Viktor A., Binart, Nadine, Bincoletto, Claudia, Birgisdottir, Asa B., Bjorkoy, Geir, Blanco, Gonzalo, Blas-Garcia, Ana, Blasiak, Janusz, Blomgran, Robert, Blomgren, Klas, Blum, Janice S., Boada-Romero, Emilio, Boban, Mirta, Boesze-Battaglia, Kathleen, Boeuf, Philippe, Boland, Barry, Bomont, Pascale, Bonaldo, Paolo, Bonam, Srinivasa Reddy, Bonfili, Laura, Bonifacino, Juan S., Boone, Brian A., Bootman, Martin D., Bordi, Matteo, Borner, Christoph, Bornhauser, Beat C., Borthakur, Gautam, Bosch, Jürgen, Bose, Santanu, Botana, Luis M., Botas, Juan, Boulanger, Chantal M., Boulton, Michael E., Bourdenx, Mathieu, Bourgeois, Benjamin, Bourke, Nollaig M., Bousquet, Guilhem, Boya, Patricia, Bozhkov, Peter V., Bozi, Luiz H. M., Bozkurt, Tolga O., Brackney, Doug E., Brandts, Christian H., Braun, Ralf J., Braus, Gerhard H., Bravo-Sagua, Roberto, Bravo-San Pedro, José M., Brest, Patrick, Bringer, Marie-Agnès, Briones-Herrera, Alfredo, Broaddus, V. Courtney, Brodersen, Peter, Brodsky, Jeffrey L., Brody, Steven L., Bronson, Paola G., Bronstein, Jeff M., Brown, Carolyn N., Brown, Rhoderick E., Brum, Patricia C., Brumell, John H., Brunetti-Pierri, Nicola, Bruno, Daniele, Bryson-Richardson, Robert J., Bucci, Cecilia, Buchrieser, Carmen, Bueno, Marta, Buitrago-Molina, Laura Elisa, Buraschi, Simone, Buch, Shilpa, Buchan, J. Ross, Buckingham, Erin M., Budak, Hikmet, Budini, Mauricio, Bultynck, Geert, Burada, Florin, Burgoyne, Joseph R., Burón, M. Isabel, Bustos, Victor, Büttner, Sabrina, Butturini, Elena, Byrd, Aaron, Cabas, Isabel, Cabrera-Benitez, Sandra, Cadwell, Ken, Cai, Jingjing, Cai, Lu, Cai, Qian, Cairó, Montserrat, Calbet, Jose A., Caldwell, Guy A., Caldwell, Kim A., Call, Jarrod A., Calvani, Riccardo, Calvo, Ana C., Calvo-Rubio Barrera, Miguel, Camara, Niels OS, Camonis, Jacques H., Camougrand, Nadine, Campanella, Michelangelo, Campbell, Edward M., Campbell-Valois, François-Xavier, Campello, Silvia, Campesi, Ilaria, Campos, Juliane C., Camuzard, Olivier, Cancino, Jorge, Candido de Almeida, Danilo, Canesi, Laura, Caniggia, Isabella, Canonico, Barbara, Cantí, Carles, Cao, Bin, Caraglia, Michele, Caramés, Beatriz, Carchman, Evie H., Cardenal-Muñoz, Elena, Cardenas, Cesar, Cardenas, Luis, Cardoso, Sandra M., Carew, Jennifer S., Carle, Georges F., Carleton, Gillian, Carloni, Silvia, Carmona-Gutierrez, Didac, Carneiro, Leticia A., Carnevali, Oliana, Carosi, Julian M., Carra, Serena, Carrier, Alice, Carrier, Lucie, Carroll, Bernadette, Carter, A. Brent, Carvalho, Andreia Neves, Casanova, Magali, Casas, Caty, Casas, Josefina, Cassioli, Chiara, Castillo, Eliseo F., Castillo, Karen, Castillo-Lluva, Sonia, Castoldi, Francesca, Castori, Marco, Castro, Ariel F., Castro-Caldas, Margarida, Castro-Hernandez, Javier, Castro-Obregon, Susana, Catz, Sergio D., Cavadas, Claudia, Cavaliere, Federica, Cavallini, Gabriella, Cavinato, Maria, Cayuela, Maria L., Cebollada Rica, Paula, Cecarini, Valentina, Cecconi, Francesco, Cechowska-Pasko, Marzanna, Cenci, Simone, Ceperuelo-Mallafré, Victòria, Cerqueira, João J., Cerutti, Janete M., Cervia, Davide, Cetintas, Vildan Bozok, Cetrullo, Silvia, Chae, Han-Jung, Chagin, Andrei S., Chai, Chee-Yin, Chakrabarti, Gopal, Chakrabarti, Oishee, Chakraborty, Tapas, Chakraborty, Trinad, Chami, Mounia, Chamilos, Georgios, Chan, David W., Chan, Edmond Y. W., Chan, Edward D., Chan, H.Y. Edwin, Chan, Helen H., Chan, Hung, Chan, Matthew T.V., Chan, Yau Sang, Chandra, Partha K., Chang, Chih-Peng, Chang, Chunmei, Chang, Hao-Chun, Chang, Kai, Chao, Jie, Chapman, Tracey, Charlet-Berguerand, Nicolas, Chatterjee, Samrat, Chaube, Shail K., Chaudhary, Anu, Chauhan, Santosh, Chaum, Edward, Checler, Frédéric, Cheetham, Michael E., Chen, Chang-Shi, Chen, Guang-Chao, Chen, Jian-Fu, Chen, Liam L., Chen, Leilei, Chen, Lin, Chen, Mingliang, Chen, Mu-Kuan, Chen, Ning, Chen, Quan, Chen, Ruey-Hwa, Chen, Shi, Chen, Wei, Chen, Weiqiang, Chen, Xin-Ming, Chen, Xiong-Wen, Chen, Xu, Chen, Yan, Chen, Ye-Guang, Chen, Yingyu, Chen, Yongqiang, Chen, Yu-Jen, Chen, Yue-Qin, Chen, Zhefan Stephen, Chen, Zhi, Chen, Zhi-Hua, Chen, Zhijian J., Chen, Zhixiang, Cheng, Hanhua, Cheng, Jun, Cheng, Shi-Yuan, Cheng, Wei, Cheng, Xiaodong, Cheng, Xiu-Tang, Cheng, Yiyun, Cheng, Zhiyong, Chen, Zhong, Cheong, Heesun, Cheong, Jit Kong, Chernyak, Boris V., Cherry, Sara, Cheung, Chi Fai Randy, Cheung, Chun Hei Antonio, Cheung, King-Ho, Chevet, Eric, Chi, Richard J., Chiang, Alan Kwok Shing, Chiaradonna, Ferdinando, Chiarelli, Roberto, Chiariello, Mario, Chica, Nathalia, Chiocca, Susanna, Chiong, Mario, Chiou, Shih-Hwa, Chiramel, Abhilash I., Chiurchiù, Valerio, Cho, Dong-Hyung, Choe, Seong-Kyu, Choi, Augustine M.K., Choi, Mary E., Choudhury, Kamalika Roy, Chow, Norman S., Chu, Charleen T., Chua, Jason P., Chua, John Jia En, Chung, Hyewon, Chung, Kin Pan, Chung, Seockhoon, Chung, So-Hyang, Chung, Yuen-Li, Cianfanelli, Valentina, Ciechomska, Iwona A., Cifuentes, Mariana, Cinque, Laura, Cirak, Sebahattin, Cirone, Mara, Clague, Michael J., Clarke, Robert, Clementi, Emilio, Coccia, Eliana M., Codogno, Patrice, Cohen, Ehud, Cohen, Mickael M., Colasanti, Tania, Colasuonno, Fiorella, Colbert, Robert A., Colell, Anna, Čolić, Miodrag, Coll, Nuria S., Collins, Mark O., Colombo, María I., Colón-Ramos, Daniel A., Combaret, Lydie, Comincini, Sergio, Cominetti, Márcia R., Consiglio, Antonella, Conte, Andrea, Conti, Fabrizio, Contu, Viorica Raluca, Cookson, Mark R., Coombs, Kevin M., Coppens, Isabelle, Corasaniti, Maria Tiziana, Corkery, Dale P., Cordes, Nils, Cortese, Katia, Costa, Maria do Carmo, Costantino, Sarah, Costelli, Paola, Coto-Montes, Ana, Crack, Peter J., Crespo, Jose L., Criollo, Alfredo, Crippa, Valeria, Cristofani, Riccardo, Csizmadia, Tamas, Cuadrado, Antonio, Cui, Bing, Cui, Jun, Cui, Yixian, Cui, Yong, Culetto, Emmanuel, Cumino, Andrea C., Cybulsky, Andrey V., Czaja, Mark J., Czuczwar, Stanislaw J., D’Adamo, Stefania, D’Amelio, Marcello, D’Arcangelo, Daniela, D’Lugos, Andrew C., D’Orazi, Gabriella, da Silva, James A., Dafsari, Hormos Salimi, Dagda, Ruben K., Dagdas, Yasin, Daglia, Maria, Dai, Xiaoxia, Dai, Yun, Dai, Yuyuan, Dal Col, Jessica, Dalhaimer, Paul, Dalla Valle, Luisa, Dallenga, Tobias, Dalmasso, Guillaume, Damme, Markus, Dando, Ilaria, Dantuma, Nico P., Darling, April L., Das, Hiranmoy, Dasarathy, Srinivasan, Dasari, Santosh K., Dash, Srikanta, Daumke, Oliver, Dauphinee, Adrian N., Davies, Jeffrey S., Dávila, Valeria A., Davis, Roger J., Davis, Tanja, Dayalan Naidu, Sharadha, De Amicis, Francesca, De Bosscher, Karolien, De Felice, Francesca, De Franceschi, Lucia, De Leonibus, Chiara, de Mattos Barbosa, Mayara G., De Meyer, Guido R.Y., De Milito, Angelo, De Nunzio, Cosimo, De Palma, Clara, De Santi, Mauro, De Virgilio, Claudio, De Zio, Daniela, Debnath, Jayanta, DeBosch, Brian J., Decuypere, Jean-Paul, Deehan, Mark A., Deflorian, Gianluca, DeGregori, James, Dehay, Benjamin, Del Rio, Gabriel, Delaney, Joe R., Delbridge, Lea M. D., Delorme-Axford, Elizabeth, Delpino, M. Victoria, Demarchi, Francesca, Dembitz, Vilma, Demers, Nicholas D., Deng, Hongbin, Deng, Zhiqiang, Dengjel, Joern, Dent, Paul, Denton, Donna, DePamphilis, Melvin L., Der, Channing J., Deretic, Vojo, Descoteaux, Albert, Devis, Laura, Devkota, Sushil, Devuyst, Olivier, Dewson, Grant, Dharmasivam, Mahendiran, Dhiman, Rohan, di Bernardo, Diego, Di Cristina, Manlio, Di Domenico, Fabio, Di Fazio, Pietro, Di Fonzo, Alessio, Di Guardo, Giovanni, Di Guglielmo, Gianni M., Di Leo, Luca, Di Malta, Chiara, Di Nardo, Alessia, Di Rienzo, Martina, Di Sano, Federica, Diallinas, George, Diao, Jiajie, Diaz-Araya, Guillermo, Díaz-Laviada, Inés, Dickinson, Jared M., Diederich, Marc, Dieudé, Mélanie, Dikic, Ivan, Ding, Shiping, Ding, Wen-Xing, Dini, Luciana, Dinić, Jelena, Dinic, Miroslav, Dinkova-Kostova, Albena T., Dionne, Marc S., Distler, Jörg H.W., Diwan, Abhinav, Dixon, Ian M.C., Djavaheri-Mergny, Mojgan, Dobrinski, Ina, Dobrovinskaya, Oxana, Dobrowolski, Radek, Dobson, Renwick C.J., Đokić, Jelena, Dokmeci Emre, Serap, Donadelli, Massimo, Dong, Bo, Dong, Xiaonan, Dong, Zhiwu, 2nd Dorn, Gerald W., Dotsch, Volker, Dou, Huan, Dou, Juan, Dowaidar, Moataz, Dridi, Sami, Drucker, Liat, Du, Ailian, Du, Caigan, Du, Guangwei, Du, Hai-Ning, Du, Li-Lin, du Toit, André, Duan, Shao-Bin, Duan, Xiaoqiong, Duarte, Sónia P., Dubrovska, Anna, Dunlop, Elaine A., Dupont, Nicolas, Durán, Raúl V., Dwarakanath, Bilikere S., Dyshlovoy, Sergey A., Ebrahimi-Fakhari, Darius, Eckhart, Leopold, Edelstein, Charles L., Efferth, Thomas, Eftekharpour, Eftekhar, Eichinger, Ludwig, Eid, Nabil, Eisenberg, Tobias, Eissa, N. Tony, Eissa, Sanaa, Ejarque, Miriam, El Andaloussi, Abdeljabar, El-Hage, Nazira, El-Naggar, Shahenda, Eleuteri, Anna Maria, El-Shafey, Eman S., Elgendy, Mohamed, Eliopoulos, Aristides G., Elizalde, María M., Elks, Philip M., Elsasser, Hans-Peter, Elsherbiny, Eslam S., Emerling, Brooke M., Emre, N. C. Tolga, Eng, Christina H., Engedal, Nikolai, Engelbrecht, Anna-Mart, Engelsen, Agnete S.T., Enserink, Jorrit M., Escalante, Ricardo, Esclatine, Audrey, Escobar-Henriques, Mafalda, Eskelinen, Eeva-Liisa, Espert, Lucile, Eusebio, Makandjou-Ola, Fabrias, Gemma, Fabrizi, Cinzia, Facchiano, Antonio, Facchiano, Francesco, Fadeel, Bengt, Fader, Claudio, Faesen, Alex C., Fairlie, W. Douglas, Falcó, Alberto, Falkenburger, Bjorn H., Fan, Daping, Fan, Jie, Fan, Yanbo, Fang, Evandro F., Fang, Yanshan, Fang, Yognqi, Fanto, Manolis, Farfel-Becker, Tamar, Faure, Mathias, Fazeli, Gholamreza, Fedele, Anthony O., Feldman, Arthur M., Feng, Du, Feng, Jiachun, Feng, Lifeng, Feng, Yibin, Feng, Yuchen, Feng, Wei, Fenz Araujo, Thais, Ferguson, Thomas A., Fernández, Álvaro F., Fernandez-Checa, Jose C., Fernández-Veledo, Sonia, Fernie, Alisdair R., Ferrante, Anthony W., Ferraresi, Alessandra, Ferrari, Merari F., Ferreira, Julio C.B., Ferro-Novick, Susan, Figueras, Antonio, Filadi, Riccardo, Filigheddu, Nicoletta, Filippi-Chiela, Eduardo, Filomeni, Giuseppe, Fimia, Gian Maria, Fineschi, Vittorio, Finetti, Francesca, Finkbeiner, Steven, Fisher, Edward A., Fisher, Paul B., Flamigni, Flavio, Fliesler, Steven J., Flo, Trude H., Florance, Ida, Florey, Oliver, Florio, Tullio, Fodor, Erika, Follo, Carlo, Fon, Edward A., Forlino, Antonella, Fornai, Francesco, Fortini, Paola, Fracassi, Anna, Fraldi, Alessandro, Franco, Brunella, Franco, Rodrigo, Franconi, Flavia, Frankel, Lisa B., Friedman, Scott L., Fröhlich, Leopold F., Frühbeck, Gema, Fuentes, Jose M., Fujiki, Yukio, Fujita, Naonobu, Fujiwara, Yuuki, Fukuda, Mitsunori, Fulda, Simone, Furic, Luc, Furuya, Norihiko, Fusco, Carmela, Gack, Michaela U., Gaffke, Lidia, Galadari, Sehamuddin, Galasso, Alessia, Galindo, Maria F., Gallolu Kankanamalage, Sachith, Galluzzi, Lorenzo, Galy, Vincent, Gammoh, Noor, Gan, Boyi, Ganley, Ian G., Gao, Feng, Gao, Hui, Gao, Minghui, Gao, Ping, Gao, Shou-Jiang, Gao, Wentao, Gao, Xiaobo, Garcera, Ana, Garcia, Maria Noé, Garcia, Verónica E., García-Del Portillo, Francisco, Garcia-Escudero, Vega, Garcia-Garcia, Aracely, Garcia-Macia, Marina, García-Moreno, Diana, Garcia-Ruiz, Carmen, García-Sanz, Patricia, Garg, Abhishek D., Gargini, Ricardo, Garofalo, Tina, Garry, Robert F., Gassen, Nils C., Gatica, Damian, Ge, Liang, Ge, Wanzhong, Geiss-Friedlander, Ruth, Gelfi, Cecilia, Genschik, Pascal, Gentle, Ian E., Gerbino, Valeria, Gerhardt, Christoph, Germain, Kyla, Germain, Marc, Gewirtz, David A., Ghasemipour Afshar, Elham, Ghavami, Saeid, Ghigo, Alessandra, Ghosh, Manosij, Giamas, Georgios, Giampietri, Claudia, Giatromanolaki, Alexandra, Gibson, Gary E., Gibson, Spencer B., Ginet, Vanessa, Giniger, Edward, Giorgi, Carlotta, Girao, Henrique, Girardin, Stephen E., Giridharan, Mridhula, Giuliano, Sandy, Giulivi, Cecilia, Giuriato, Sylvie, Giustiniani, Julien, Gluschko, Alexander, Goder, Veit, Goginashvili, Alexander, Golab, Jakub, Goldstone, David C., Golebiewska, Anna, Gomes, Luciana R., Gomez, Rodrigo, Gómez-Sánchez, Rubén, Gomez-Puerto, Maria Catalina, Gomez-Sintes, Raquel, Gong, Qingqiu, Goni, Felix M., González-Gallego, Javier, Gonzalez-Hernandez, Tomas, Gonzalez-Polo, Rosa A., Gonzalez-Reyes, Jose A., González-Rodríguez, Patricia, Goping, Ing Swie, Gorbatyuk, Marina S., Gorbunov, Nikolai V., Görgülü, Kıvanç, Gorojod, Roxana M., Gorski, Sharon M., Goruppi, Sandro, Gotor, Cecilia, Gottlieb, Roberta A., Gozes, Illana, Gozuacik, Devrim, Graef, Martin, Gräler, Markus H., Granatiero, Veronica, Grasso, Daniel, Gray, Joshua P., Green, Douglas R., Greenhough, Alexander, Gregory, Stephen L., Griffin, Edward F., Grinstaff, Mark W., Gros, Frederic, Grose, Charles, Gross, Angelina S., Gruber, Florian, Grumati, Paolo, Grune, Tilman, Gu, Xueyan, Guan, Jun-Lin, Guardia, Carlos M., Guda, Kishore, Guerra, Flora, Guerri, Consuelo, Guha, Prasun, Guillén, Carlos, Gujar, Shashi, Gukovskaya, Anna, Gukovsky, Ilya, Gunst, Jan, Günther, Andreas, Guntur, Anyonya R., Guo, Chuanyong, Guo, Chun, Guo, Hongqing, Guo, Lian-Wang, Guo, Ming, Gupta, Pawan, Gupta, Shashi Kumar, Gupta, Swapnil, Gupta, Veer Bala, Gupta, Vivek, Gustafsson, Asa B., Gutterman, David D., H.B., Ranjitha, Haapasalo, Annakaisa, Haber, James E., Hać, Aleksandra, Hadano, Shinji, Hafrén, Anders J., Haidar, Mansour, Hall, Belinda S., Halldén, Gunnel, Hamacher-Brady, Anne, Hamann, Andrea, Hamasaki, Maho, Han, Weidong, Hansen, Malene, Hanson, Phyllis I., Hao, Zijian, Harada, Masaru, Harhaji-Trajkovic, Ljubica, Hariharan, Nirmala, Haroon, Nigil, Harris, James, Hasegawa, Takafumi, Hasima Nagoor, Noor, Haspel, Jeffrey A., Haucke, Volker, Hawkins, Wayne D., Hay, Bruce A., Haynes, Cole M., Hayrabedyan, Soren B., Hays, Thomas S., He, Congcong, He, Qin, He, Rong-Rong, He, You-Wen, He, Yu-Ying, Heakal, Yasser, Heberle, Alexander M., Hejtmancik, J. Fielding, Helgason, Gudmundur Vignir, Henkel, Vanessa, Herb, Marc, Hergovich, Alexander, Herman-Antosiewicz, Anna, Hernández, Agustín, Hernandez, Carlos, Hernandez-Diaz, Sergio, Hernandez-Gea, Virginia, Herpin, Amaury, Herreros, Judit, Hervás, Javier H., Hesselson, Daniel, Hetz, Claudio, Heussler, Volker T., Higuchi, Yujiro, Hilfiker, Sabine, Hill, Joseph A., Hlavacek, William S., Ho, Emmanuel A., Ho, Idy H.T., Ho, Philip Wing-Lok, Ho, Shu-Leong, Ho, Wan Yun, Hobbs, G. 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Razaul, Karmakar, Parimal, Katare, Rajesh G., Kato, Masaru, Kaufmann, Stefan H.E., Kauppinen, Anu, Kaushal, Gur P., Kaushik, Susmita, Kawasaki, Kiyoshi, Kazan, Kemal, Ke, Po-Yuan, Keating, Damien J., Keber, Ursula, Kehrl, John H., Keller, Kate E., Keller, Christian W., Kemper, Jongsook Kim, Kenific, Candia M., Kepp, Oliver, Kermorgant, Stephanie, Kern, Andreas, Ketteler, Robin, Keulers, Tom G., Khalfin, Boris, Khalil, Hany, Khambu, Bilon, Khan, Shahid Y., Khandelwal, Vinoth Kumar Megraj, Khandia, Rekha, Kho, Widuri, Khobrekar, Noopur V., Khuansuwan, Sataree, Khundadze, Mukhran, Killackey, Samuel A., Kim, Dasol, Kim, Deok Ryong, Kim, Do-Hyung, Kim, Dong-Eun, Kim, Eun Young, Kim, Eun-Kyoung, Kim, Hak-Rim, Kim, Hee-Sik, Kim, Hyung-Ryong, Kim, Jeong Hun, Kim, Jin Kyung, Kim, Jin-Hoi, Kim, Joungmok, Kim, Ju Hwan, Kim, Keun Il, Kim, Peter K., Kim, Seong-Jun, Kimball, Scot R., Kimchi, Adi, Kimmelman, Alec C., Kimura, Tomonori, King, Matthew A., Kinghorn, Kerri J., Kinsey, Conan G., Kirkin, Vladimir, Kirshenbaum, Lorrie A., Kiselev, Sergey L., Kishi, Shuji, Kitamoto, Katsuhiko, Kitaoka, Yasushi, Kitazato, Kaio, Kitsis, Richard N., Kittler, Josef T., Kjaerulff, Ole, Klein, Peter S., Klopstock, Thomas, Klucken, Jochen, Knævelsrud, Helene, Knorr, Roland L., Ko, Ben C.B., Ko, Fred, Ko, Jiunn-Liang, Kobayashi, Hotaka, Kobayashi, Satoru, Koch, Ina, Koch, Jan C., Koenig, Ulrich, Kögel, Donat, Koh, Young Ho, Koike, Masato, Kohlwein, Sepp D., Kocaturk, Nur M., Komatsu, Masaaki, König, Jeannette, Kono, Toru, Kopp, Benjamin T., Korcsmaros, Tamas, Korkmaz, Gözde, Korolchuk, Viktor I., Korsnes, Mónica Suárez, Koskela, Ali, Kota, Janaiah, Kotake, Yaichiro, Kotler, Monica L., Kou, Yanjun, Koukourakis, Michael I., Koustas, Evangelos, Kovacs, Attila L., Kovács, Tibor, Koya, Daisuke, Kozako, Tomohiro, Kraft, Claudine, Krainc, Dimitri, Krämer, Helmut, Krasnodembskaya, Anna D., Kretz-Remy, Carole, Kroemer, Guido, Ktistakis, Nicholas T., Kuchitsu, Kazuyuki, Kuenen, Sabine, Kuerschner, Lars, Kukar, Thomas, Kumar, Ajay, Kumar, Ashok, Kumar, Deepak, Kumar, Dhiraj, Kumar, Sharad, Kume, Shinji, Kumsta, Caroline, Kundu, Chanakya N., Kundu, Mondira, Kunnumakkara, Ajaikumar B., Kurgan, Lukasz, Kutateladze, Tatiana G., Kutlu, Ozlem, Kwak, SeongAe, Kwon, Ho Jeong, Kwon, Taeg Kyu, Kwon, Yong Tae, Kyrmizi, Irene, La Spada, Albert, Labonté, Patrick, Ladoire, Sylvain, Laface, Ilaria, Lafont, Frank, Lagace, Diane C., Lahiri, Vikramjit, Lai, Zhibing, Laird, Angela S., Lakkaraju, Aparna, Lamark, Trond, Lan, Sheng-Hui, Landajuela, Ane, Lane, Darius J. R., Lane, Jon D., Lang, Charles H., Lange, Carsten, Langel, Ülo, Langer, Rupert, Lapaquette, Pierre, Laporte, Jocelyn, LaRusso, Nicholas F., Lastres-Becker, Isabel, Lau, Wilson Chun Yu, Laurie, Gordon W., Lavandero, Sergio, Law, Betty Yuen Kwan, Law, Helen Ka-wai, Layfield, Rob, Le, Weidong, Le Stunff, Herve, Leary, Alexandre Y., Lebrun, Jean-Jacques, Leck, Lionel Y.W., Leduc-Gaudet, Jean-Philippe, Lee, Changwook, Lee, Chung-Pei, Lee, Da-Hye, Lee, Edward B., Lee, Erinna F., Lee, Gyun Min, Lee, He-Jin, Lee, Heung Kyu, Lee, Jae Man, Lee, Jason S., Lee, Jin-A, Lee, Joo-Yong, Lee, Jun Hee, Lee, Michael, Lee, Min Goo, Lee, Min Jae, Lee, Myung-Shik, Lee, Sang Yoon, Lee, Seung-Jae, Lee, Stella Y., Lee, Sung Bae, Lee, Won Hee, Lee, Ying-Ray, Lee, Yong-ho, Lee, Youngil, Lefebvre, Christophe, Legouis, Renaud, Lei, Yu L., Lei, Yuchen, Leikin, Sergey, Leitinger, Gerd, Lemus, Leticia, Leng, Shuilong, Lenoir, Olivia, Lenz, Guido, Lenz, Heinz Josef, Lenzi, Paola, León, Yolanda, Leopoldino, Andréia M., Leschczyk, Christoph, Leskelä, Stina, Letellier, Elisabeth, Leung, Chi-Ting, Leung, Po Sing, Leventhal, Jeremy S., Levine, Beth, Lewis, Patrick A., Ley, Klaus, Li, Bin, Li, Da-Qiang, Li, Jianming, Li, Jing, Li, Jiong, Li, Ke, Li, Liwu, Li, Mei, Li, Min, Li, Min, Li, Ming, Li, Mingchuan, Li, Pin-Lan, Li, Ming-Qing, Li, Qing, Li, Sheng, Li, Tiangang, Li, Wei, Li, Wenming, Li, Xue, Li, Yi-Ping, Li, Yuan, Li, Zhiqiang, Li, Zhiyong, Li, Zhiyuan, Lian, Jiqin, Liang, Chengyu, Liang, Qiangrong, Liang, Weicheng, Liang, Yongheng, Liang, YongTian, Liao, Guanghong, Liao, Lujian, Liao, Mingzhi, Liao, Yung-Feng, Librizzi, Mariangela, Lie, Pearl P. Y., Lilly, Mary A., Lim, Hyunjung J., Lima, Thania R.R., Limana, Federica, Lin, Chao, Lin, Chih-Wen, Lin, Dar-Shong, Lin, Fu-Cheng, Lin, Jiandie D., Lin, Kurt M., Lin, Kwang-Huei, Lin, Liang-Tzung, Lin, Pei-Hui, Lin, Qiong, Lin, Shaofeng, Lin, Su-Ju, Lin, Wenyu, Lin, Xueying, Lin, Yao-Xin, Lin, Yee-Shin, Linden, Rafael, Lindner, Paula, Ling, Shuo-Chien, Lingor, Paul, Linnemann, Amelia K., Liou, Yih-Cherng, Lipinski, Marta M., Lipovšek, Saška, Lira, Vitor A., Lisiak, Natalia, Liton, Paloma B., Liu, Chao, Liu, Ching-Hsuan, Liu, Chun-Feng, Liu, Cui Hua, Liu, Fang, Liu, Hao, Liu, Hsiao-Sheng, Liu, Hua-feng, Liu, Huifang, Liu, Jia, Liu, Jing, Liu, Julia, Liu, Leyuan, Liu, Longhua, Liu, Meilian, Liu, Qin, Liu, Wei, Liu, Wende, Liu, Xiao-Hong, Liu, Xiaodong, Liu, Xingguo, Liu, Xu, Liu, Xuedong, Liu, Yanfen, Liu, Yang, Liu, Yang, Liu, Yueyang, Liu, Yule, Livingston, J. Andrew, Lizard, Gerard, Lizcano, Jose M., Ljubojevic-Holzer, Senka, LLeonart, Matilde E., Llobet-Navàs, David, Llorente, Alicia, Lo, Chih Hung, Lobato-Márquez, Damián, Long, Qi, Long, Yun Chau, Loos, Ben, Loos, Julia A., López, Manuela G., López-Doménech, Guillermo, López-Guerrero, José Antonio, López-Jiménez, Ana T., López-Pérez, Óscar, López-Valero, Israel, Lorenowicz, Magdalena J., Lorente, Mar, Lorincz, Peter, Lossi, Laura, Lotersztajn, Sophie, Lovat, Penny E., Lovell, Jonathan F., Lovy, Alenka, Lőw, Péter, Lu, Guang, Lu, Haocheng, Lu, Jia-Hong, Lu, Jin-Jian, Lu, Mengji, Lu, Shuyan, Luciani, Alessandro, Lucocq, John M., Ludovico, Paula, Luftig, Micah A., Luhr, Morten, Luis-Ravelo, Diego, Lum, Julian J., Luna-Dulcey, Liany, Lund, Anders H., Lund, Viktor K., Lünemann, Jan D., Lüningschrör, Patrick, Luo, Honglin, Luo, Rongcan, Luo, Shouqing, Luo, Zhi, Luparello, Claudio, Lüscher, Bernhard, Luu, Luan, Lyakhovich, Alex, Lyamzaev, Konstantin G., Lystad, Alf Håkon, Lytvynchuk, Lyubomyr, Ma, Alvin C., Ma, Changle, Ma, Mengxiao, Ma, Ning-Fang, Ma, Quan-Hong, Ma, Xinliang, Ma, Yueyun, Ma, Zhenyi, MacDougald, Ormond A., Macian, Fernando, MacIntosh, Gustavo C., MacKeigan, Jeffrey P., Macleod, Kay F., Maday, Sandra, Madeo, Frank, Madesh, Muniswamy, Madl, Tobias, Madrigal-Matute, Julio, Maeda, Akiko, Maejima, Yasuhiro, Magarinos, Marta, Mahavadi, Poornima, Maiani, Emiliano, Maiese, Kenneth, Maiti, Panchanan, Maiuri, Maria Chiara, Majello, Barbara, Major, Michael B., Makareeva, Elena, Malik, Fayaz, Mallilankaraman, Karthik, Malorni, Walter, Maloyan, Alina, Mammadova, Najiba, Man, Gene Chi Wai, Manai, Federico, Mancias, Joseph D., Mandelkow, Eva-Maria, Mandell, Michael A., Manfredi, Angelo A., Manjili, Masoud H., Manjithaya, Ravi, Manque, Patricio, Manshian, Bella B., Manzano, Raquel, Manzoni, Claudia, Mao, Kai, Marchese, Cinzia, Marchetti, Sandrine, Marconi, Anna Maria, Marcucci, Fabrizio, Mardente, Stefania, Mareninova, Olga A., Margeta, Marta, Mari, Muriel, Marinelli, Sara, Marinelli, Oliviero, Mariño, Guillermo, Mariotto, Sofia, Marshall, Richard S., Marten, Mark R., Martens, Sascha, Martin, Alexandre P.J., Martin, Katie R., Martin, Sara, Martin, Shaun, Martín-Segura, Adrián, Martín-Acebes, Miguel A., Martin-Burriel, Inmaculada, Martin-Rincon, Marcos, Martin-Sanz, Paloma, Martina, José A., Martinet, Wim, Martinez, Aitor, Martinez, Ana, Martinez, Jennifer, Martinez Velazquez, Moises, Martinez-Lopez, Nuria, Martinez-Vicente, Marta, Martins, Daniel O., Martins, Joilson O., Martins, Waleska K., Martins-Marques, Tania, Marzetti, Emanuele, Masaldan, Shashank, Masclaux-Daubresse, Celine, Mashek, Douglas G., Massa, Valentina, Massieu, Lourdes, Masson, Glenn R., Masuelli, Laura, Masyuk, Anatoliy I., Masyuk, Tetyana V., Matarrese, Paola, Matheu, Ander, Matoba, Satoaki, Matsuzaki, Sachiko, Mattar, Pamela, Matte, Alessandro, Mattoscio, Domenico, Mauriz, José L., Mauthe, Mario, Mauvezin, Caroline, Maverakis, Emanual, Maycotte, Paola, Mayer, Johanna, Mazzoccoli, Gianluigi, Mazzoni, Cristina, Mazzulli, Joseph R., McCarty, Nami, McDonald, Christine, McGill, Mitchell R., McKenna, Sharon L., McLaughlin, BethAnn, McLoughlin, Fionn, McNiven, Mark A., McWilliams, Thomas G., Mechta-Grigoriou, Fatima, Medeiros, Tania Catarina, Medina, Diego L., Megeney, Lynn A., Megyeri, Klara, Mehrpour, Maryam, Mehta, Jawahar L., Meijer, Alfred J., Meijer, Annemarie H., Mejlvang, Jakob, Meléndez, Alicia, Melk, Annette, Memisoglu, Gonen, Mendes, Alexandrina F., Meng, Delong, Meng, Fei, Meng, Tian, Menna-Barreto, Rubem, Menon, Manoj B., Mercer, Carol, Mercier, Anne E., Mergny, Jean-Louis, Merighi, Adalberto, Merkley, Seth D., Merla, Giuseppe, Meske, Volker, Mestre, Ana Cecilia, Metur, Shree Padma, Meyer, Christian, Meyer, Hemmo, Mi, Wenyi, Mialet-Perez, Jeanne, Miao, Junying, Micale, Lucia, Miki, Yasuo, Milan, Enrico, Milczarek, Małgorzata, Miller, Dana L., Miller, Samuel I., Miller, Silke, Millward, Steven W., Milosevic, Ira, Minina, Elena A., Mirzaei, Hamed, Mirzaei, Hamid Reza, Mirzaei, Mehdi, Mishra, Amit, Mishra, Nandita, Mishra, Paras Kumar, Misirkic Marjanovic, Maja, Misasi, Roberta, Misra, Amit, Misso, Gabriella, Mitchell, Claire, Mitou, Geraldine, Miura, Tetsuji, Miyamoto, Shigeki, Miyazaki, Makoto, Miyazaki, Mitsunori, Miyazaki, Taiga, Miyazawa, Keisuke, Mizushima, Noboru, Mogensen, Trine H., Mograbi, Baharia, Mohammadinejad, Reza, Mohamud, Yasir, Mohanty, Abhishek, Mohapatra, Sipra, Möhlmann, Torsten, Mohmmed, Asif, Moles, Anna, Moley, Kelle H., Molinari, Maurizio, Mollace, Vincenzo, Møller, Andreas Buch, Mollereau, Bertrand, Mollinedo, Faustino, Montagna, Costanza, Monteiro, Mervyn J., Montella, Andrea, Montes, L. 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Patrick, Murthy, Aditya, Myöhänen, Timo T., Mysorekar, Indira U., Mytych, Jennifer, Nabavi, Seyed Mohammad, Nabissi, Massimo, Nagy, Péter, Nah, Jihoon, Nahimana, Aimable, Nakagawa, Ichiro, Nakamura, Ken, Nakatogawa, Hitoshi, Nandi, Shyam S., Nanjundan, Meera, Nanni, Monica, Napolitano, Gennaro, Nardacci, Roberta, Narita, Masashi, Nassif, Melissa, Nathan, Ilana, Natsumeda, Manabu, Naude, Ryno J., Naumann, Christin, Naveiras, Olaia, Navid, Fatemeh, Nawrocki, Steffan T., Nazarko, Taras Y., Nazio, Francesca, Negoita, Florentina, Neill, Thomas, Neisch, Amanda L., Neri, Luca M., Netea, Mihai G., Neubert, Patrick, Neufeld, Thomas P., Neumann, Dietbert, Neutzner, Albert, Newton, Phillip T., Ney, Paul A., Nezis, Ioannis P., Ng, Charlene C.W., Ng, Tzi Bun, Nguyen, Hang T. T., Nguyen, Long T., Ni, Hong-Min, Ní Cheallaigh, Clíona, Ni, Zhenhong, Nicolao, M. Celeste, Nicoli, Francesco, Nieto-Diaz, Manuel, Nilsson, Per, Ning, Shunbin, Niranjan, Rituraj, Nishimune, Hiroshi, Niso-Santano, Mireia, Nixon, Ralph A., Nobili, Annalisa, Nobrega, Clevio, Noda, Takeshi, Nogueira-Recalde, Uxía, Nolan, Trevor M., Nombela, Ivan, Novak, Ivana, Novoa, Beatriz, Nozawa, Takashi, Nukina, Nobuyuki, Nussbaum-Krammer, Carmen, Nylandsted, Jesper, O’Donovan, Tracey R., O’Leary, Seónadh M., O’Rourke, Eyleen J., O’Sullivan, Mary P., O’Sullivan, Timothy E., Oddo, Salvatore, Oehme, Ina, Ogawa, Michinaga, Ogier-Denis, Eric, Ogmundsdottir, Margret H., Ogretmen, Besim, Oh, Goo Taeg, Oh, Seon-Hee, Oh, Young J., Ohama, Takashi, Ohashi, Yohei, Ohmuraya, Masaki, Oikonomou, Vasileios, Ojha, Rani, Okamoto, Koji, Okazawa, Hitoshi, Oku, Masahide, Oliván, Sara, Oliveira, Jorge M. A., Ollmann, Michael, Olzmann, James A., Omari, Shakib, Omary, M. Bishr, Önal, Gizem, Ondrej, Martin, Ong, Sang-Bing, Ong, Sang-Ging, Onnis, Anna, Orellana, Juan A., Orellana-Muñoz, Sara, Ortega-Villaizan, Maria Del Mar, Ortiz-Gonzalez, Xilma R., Ortona, Elena, Osiewacz, Heinz D., Osman, Abdel-Hamid K., Osta, Rosario, Otegui, Marisa S., Otsu, Kinya, Ott, Christiane, Ottobrini, Luisa, Ou, Jing-hsiung James, Outeiro, Tiago F., Oynebraten, Inger, Ozturk, Melek, Pagès, Gilles, Pahari, Susanta, Pajares, Marta, Pajvani, Utpal B., Pal, Rituraj, Paladino, Simona, Pallet, Nicolas, Palmieri, Michela, Palmisano, Giuseppe, Palumbo, Camilla, Pampaloni, Francesco, Pan, Lifeng, Pan, Qingjun, Pan, Wenliang, Pan, Xin, Panasyuk, Ganna, Pandey, Rahul, Pandey, Udai B., Pandya, Vrajesh, Paneni, Francesco, Pang, Shirley Y., Panzarini, Elisa, Papademetrio, Daniela L., Papaleo, Elena, Papinski, Daniel, Papp, Diana, Park, Eun Chan, Park, Hwan Tae, Park, Ji-Man, Park, Jong-In, Park, Joon Tae, Park, Junsoo, Park, Sang Chul, Park, Sang-Youel, Parola, Abraham H., Parys, Jan B., Pasquier, Adrien, Pasquier, Benoit, Passos, João F., Pastore, Nunzia, Patel, Hemal H., Patschan, Daniel, Pattingre, Sophie, Pedraza-Alva, Gustavo, Pedraza-Chaverri, Jose, Pedrozo, Zully, Pei, Gang, Pei, Jianming, Peled-Zehavi, Hadas, Pellegrini, Joaquín M., Pelletier, Joffrey, Peñalva, Miguel A., Peng, Di, Peng, Ying, Penna, Fabio, Pennuto, Maria, Pentimalli, Francesca, Pereira, Cláudia MF, Pereira, Gustavo J.S., Pereira, Lilian C., Pereira de Almeida, Luis, Perera, Nirma D., Pérez-Lara, Ángel, Perez-Oliva, Ana B., Pérez-Pérez, María Esther, Periyasamy, Palsamy, Perl, Andras, Perrotta, Cristiana, Perrotta, Ida, Pestell, Richard G., Petersen, Morten, Petrache, Irina, Petrovski, Goran, Pfirrmann, Thorsten, Pfister, Astrid S., Philips, Jennifer A., Pi, Huifeng, Picca, Anna, Pickrell, Alicia M., Picot, Sandy, Pierantoni, Giovanna M., Pierdominici, Marina, Pierre, Philippe, Pierrefite-Carle, Valérie, Pierzynowska, Karolina, Pietrocola, Federico, Pietruczuk, Miroslawa, Pignata, Claudio, Pimentel-Muiños, Felipe X., Pinar, Mario, Pinheiro, Roberta O., Pinkas-Kramarski, Ronit, Pinton, Paolo, Pircs, Karolina, Piya, Sujan, Pizzo, Paola, Plantinga, Theo S., Platta, Harald W., Plaza-Zabala, Ainhoa, Plomann, Markus, Plotnikov, Egor Y., Plun-Favreau, Helene, Pluta, Ryszard, Pocock, Roger, Pöggeler, Stefanie, Pohl, Christian, Poirot, Marc, Poletti, Angelo, Ponpuak, Marisa, Popelka, Hana, Popova, Blagovesta, Porta, Helena, Porte Alcon, Soledad, Portilla-Fernandez, Eliana, Post, Martin, Potts, Malia B., Poulton, Joanna, Powers, Ted, Prahlad, Veena, Prajsnar, Tomasz K., Praticò, Domenico, Prencipe, Rosaria, Priault, Muriel, Proikas-Cezanne, Tassula, Promponas, Vasilis J., Proud, Christopher G., Puertollano, Rosa, Puglielli, Luigi, Pulinilkunnil, Thomas, Puri, Deepika, Puri, Rajat, Puyal, Julien, Qi, Xiaopeng, Qi, Yongmei, Qian, Wenbin, Qiang, Lei, Qiu, Yu, Quadrilatero, Joe, Quarleri, Jorge, Raben, Nina, Rabinowich, Hannah, Ragona, Debora, Ragusa, Michael J., Rahimi, Nader, Rahmati, Marveh, Raia, Valeria, Raimundo, Nuno, Rajasekaran, Namakkal-Soorappan, Ramachandra Rao, Sriganesh, Rami, Abdelhaq, Ramírez-Pardo, Ignacio, Ramsden, David B., Randow, Felix, Rangarajan, Pundi N., Ranieri, Danilo, Rao, Hai, Rao, Lang, Rao, Rekha, Rathore, Sumit, Ratnayaka, J. Arjuna, Ratovitski, Edward A., Ravanan, Palaniyandi, Ravegnini, Gloria, Ray, Swapan K., Razani, Babak, Rebecca, Vito, Reggiori, Fulvio, Régnier-Vigouroux, Anne, Reichert, Andreas S., Reigada, David, Reiling, Jan H., Rein, Theo, Reipert, Siegfried, Rekha, Rokeya Sultana, Ren, Hongmei, Ren, Jun, Ren, Weichao, Renault, Tristan, Renga, Giorgia, Reue, Karen, Rewitz, Kim, Ribeiro de Andrade Ramos, Bruna, Riazuddin, S. Amer, Ribeiro-Rodrigues, Teresa M., Ricci, Jean-Ehrland, Ricci, Romeo, Riccio, Victoria, Richardson, Des R., Rikihisa, Yasuko, Risbud, Makarand V., Risueño, Ruth M., Ritis, Konstantinos, Rizza, Salvatore, Rizzuto, Rosario, Roberts, Helen C., Roberts, Luke D., Robinson, Katherine J., Roccheri, Maria Carmela, Rocchi, Stephane, Rodney, George G., Rodrigues, Tiago, Rodrigues Silva, Vagner Ramon, Rodriguez, Amaia, Rodriguez-Barrueco, Ruth, Rodriguez-Henche, Nieves, Rodriguez-Rocha, Humberto, Roelofs, Jeroen, Rogers, Robert S., Rogov, Vladimir V., Rojo, Ana I., Rolka, Krzysztof, Romanello, Vanina, Romani, Luigina, Romano, Alessandra, Romano, Patricia S., Romeo-Guitart, David, Romero, Luis C., Romero, Montserrat, Roney, Joseph C., Rongo, Christopher, Roperto, Sante, Rosenfeldt, Mathias T., Rosenstiel, Philip, Rosenwald, Anne G., Roth, Kevin A., Roth, Lynn, Roth, Steven, Rouschop, Kasper M.A., Roussel, Benoit D., Roux, Sophie, Rovere-Querini, Patrizia, Roy, Ajit, Rozieres, Aurore, Ruano, Diego, Rubinsztein, David C., Rubtsova, Maria P., Ruckdeschel, Klaus, Ruckenstuhl, Christoph, Rudolf, Emil, Rudolf, Rüdiger, Ruggieri, Alessandra, Ruparelia, Avnika Ashok, Rusmini, Paola, Russell, Ryan R., Russo, Gian Luigi, Russo, Maria, Russo, Rossella, Ryabaya, Oxana O., Ryan, Kevin M., Ryu, Kwon-Yul, Sabater-Arcis, Maria, Sachdev, Ulka, Sacher, Michael, Sachse, Carsten, Sadhu, Abhishek, Sadoshima, Junichi, Safren, Nathaniel, Saftig, Paul, Sagona, Antonia P., Sahay, Gaurav, Sahebkar, Amirhossein, Sahin, Mustafa, Sahin, Ozgur, Sahni, Sumit, Saito, Nayuta, Saito, Shigeru, Saito, Tsunenori, Sakai, Ryohei, Sakai, Yasuyoshi, Sakamaki, Jun-Ichi, Saksela, Kalle, Salazar, Gloria, Salazar-Degracia, Anna, Salekdeh, Ghasem H., Saluja, Ashok K., Sampaio-Marques, Belém, Sanchez, Maria Cecilia, Sanchez-Alcazar, Jose A., Sanchez-Vera, Victoria, Sancho-Shimizu, Vanessa, Sanderson, J. Thomas, Sandri, Marco, Santaguida, Stefano, Santambrogio, Laura, Santana, Magda M., Santoni, Giorgio, Sanz, Alberto, Sanz, Pascual, Saran, Shweta, Sardiello, Marco, Sargeant, Timothy J., Sarin, Apurva, Sarkar, Chinmoy, Sarkar, Sovan, Sarrias, Maria-Rosa, Sarkar, Surajit, Sarmah, Dipanka Tanu, Sarparanta, Jaakko, Sathyanarayan, Aishwarya, Sathyanarayanan, Ranganayaki, Scaglione, K. Matthew, Scatozza, Francesca, Schaefer, Liliana, Schafer, Zachary T., Schaible, Ulrich E., Schapira, Anthony H.V., Scharl, Michael, Schatzl, Hermann M., Schein, Catherine H., Scheper, Wiep, Scheuring, David, Schiaffino, Maria Vittoria, Schiappacassi, Monica, Schindl, Rainer, Schlattner, Uwe, Schmidt, Oliver, Schmitt, Roland, Schmidt, Stephen D., Schmitz, Ingo, Schmukler, Eran, Schneider, Anja, Schneider, Bianca E., Schober, Romana, Schoijet, Alejandra C., Schott, Micah B., Schramm, Michael, Schröder, Bernd, Schuh, Kai, Schüller, Christoph, Schulze, Ryan J., Schürmanns, Lea, Schwamborn, Jens C., Schwarten, Melanie, Scialo, Filippo, Sciarretta, Sebastiano, Scott, Melanie J., Scotto, Kathleen W., Scovassi, A. Ivana, Scrima, Andrea, Scrivo, Aurora, Sebastian, David, Sebti, Salwa, Sedej, Simon, Segatori, Laura, Segev, Nava, Seglen, Per O., Seiliez, Iban, Seki, Ekihiro, Selleck, Scott B., Sellke, Frank W., Selsby, Joshua T., Sendtner, Michael, Senturk, Serif, Seranova, Elena, Sergi, Consolato, Serra-Moreno, Ruth, Sesaki, Hiromi, Settembre, Carmine, Setty, Subba Rao Gangi, Sgarbi, Gianluca, Sha, Ou, Shacka, John J., Shah, Javeed A., Shang, Dantong, Shao, Changshun, Shao, Feng, Sharbati, Soroush, Sharkey, Lisa M., Sharma, Dipali, Sharma, Gaurav, Sharma, Kulbhushan, Sharma, Pawan, Sharma, Surendra, Shen, Han-Ming, Shen, Hongtao, Shen, Jiangang, Shen, Ming, Shen, Weili, Shen, Zheni, Sheng, Rui, Sheng, Zhi, Sheng, Zu-Hang, Shi, Jianjian, Shi, Xiaobing, Shi, Ying-Hong, Shiba-Fukushima, Kahori, Shieh, Jeng-Jer, Shimada, Yohta, Shimizu, Shigeomi, Shimozawa, Makoto, Shintani, Takahiro, Shoemaker, Christopher J., Shojaei, Shahla, Shoji, Ikuo, Shravage, Bhupendra V., Shridhar, Viji, Shu, Chih-Wen, Shu, Hong-Bing, Shui, Ke, Shukla, Arvind K., Shutt, Timothy E., Sica, Valentina, Siddiqui, Aleem, Sierra, Amanda, Sierra-Torre, Virginia, Signorelli, Santiago, Sil, Payel, Silva, Bruno J. de Andrade, Silva, Johnatas D., Silva-Pavez, Eduardo, Silvente-Poirot, Sandrine, Simmonds, Rachel E., Simon, Anna Katharina, Simon, Hans-Uwe, Simons, Matias, Singh, Anurag, Singh, Lalit P., Singh, Rajat, Singh, Shivendra V., Singh, Shrawan K., Singh, Sudha B., Singh, Sunaina, Singh, Surinder Pal, Sinha, Debasish, Sinha, Rohit Anthony, Sinha, Sangita, Sirko, Agnieszka, Sirohi, Kapil, Sivridis, Efthimios L., Skendros, Panagiotis, Skirycz, Aleksandra, Slaninová, Iva, Smaili, Soraya S., Smertenko, Andrei, Smith, Matthew D., Soenen, Stefaan J., Sohn, Eun Jung, Sok, Sophia P. M., Solaini, Giancarlo, Soldati, Thierry, Soleimanpour, Scott A., Soler, Rosa M., Solovchenko, Alexei, Somarelli, Jason A., Sonawane, Avinash, Song, Fuyong, Song, Hyun Kyu, Song, Ju-Xian, Song, Kunhua, Song, Zhiyin, Soria, Leandro R., Sorice, Maurizio, Soukas, Alexander A., Soukup, Sandra-Fausia, Sousa, Diana, Sousa, Nadia, Spagnuolo, Paul A., Spector, Stephen A., Srinivas Bharath, M. M., St. Clair, Daret, Stagni, Venturina, Staiano, Leopoldo, Stalnecker, Clint A., Stankov, Metodi V., Stathopulos, Peter B., Stefan, Katja, Stefan, Sven Marcel, Stefanis, Leonidas, Steffan, Joan S., Steinkasserer, Alexander, Stenmark, Harald, Sterneckert, Jared, Stevens, Craig, Stoka, Veronika, Storch, Stephan, Stork, Björn, Strappazzon, Flavie, Strohecker, Anne Marie, Stupack, Dwayne G., Su, Huanxing, Su, Ling-Yan, Su, Longxiang, Suarez-Fontes, Ana M., Subauste, Carlos S., Subbian, Selvakumar, Subirada, Paula V., Sudhandiran, Ganapasam, Sue, Carolyn M., Sui, Xinbing, Summers, Corey, Sun, Guangchao, Sun, Jun, Sun, Kang, Sun, Meng-xiang, Sun, Qiming, Sun, Yi, Sun, Zhongjie, Sunahara, Karen K.S., Sundberg, Eva, Susztak, Katalin, Sutovsky, Peter, Suzuki, Hidekazu, Sweeney, Gary, Symons, J. David, Sze, Stephen Cho Wing, Szewczyk, Nathaniel J., Tabęcka-Łonczynska, Anna, Tabolacci, Claudio, Tacke, Frank, Taegtmeyer, Heinrich, Tafani, Marco, Tagaya, Mitsuo, Tai, Haoran, Tait, Stephen W. G., Takahashi, Yoshinori, Takats, Szabolcs, Talwar, Priti, Tam, Chit, Tam, Shing Yau, Tampellini, Davide, Tamura, Atsushi, Tan, Chong Teik, Tan, Eng-King, Tan, Ya-Qin, Tanaka, Masaki, Tanaka, Motomasa, Tang, Daolin, Tang, Jingfeng, Tang, Tie-Shan, Tanida, Isei, Tao, Zhipeng, Taouis, Mohammed, Tatenhorst, Lars, Tavernarakis, Nektarios, Taylor, Allen, Taylor, Gregory A., Taylor, Joan M., Tchetina, Elena, Tee, Andrew R., Tegeder, Irmgard, Teis, David, Teixeira, Natercia, Teixeira-Clerc, Fatima, Tekirdag, Kumsal A., Tencomnao, Tewin, Tenreiro, Sandra, Tepikin, Alexei V., Testillano, Pilar S., Tettamanti, Gianluca, Tharaux, Pierre-Louis, Thedieck, Kathrin, Thekkinghat, Arvind A., Thellung, Stefano, Thinwa, Josephine W., Thirumalaikumar, V.P., Thomas, Sufi Mary, Thomes, Paul G., Thorburn, Andrew, Thukral, Lipi, Thum, Thomas, Thumm, Michael, Tian, Ling, Tichy, Ales, Till, Andreas, Timmerman, Vincent, Titorenko, Vladimir I., Todi, Sokol V., Todorova, Krassimira, Toivonen, Janne M., Tomaipitinca, Luana, Tomar, Dhanendra, Tomas-Zapico, Cristina, Tomić, Sergej, Tong, Benjamin Chun-Kit, Tong, Chao, Tong, Xin, Tooze, Sharon A., Torgersen, Maria L., Torii, Satoru, Torres-López, Liliana, Torriglia, Alicia, Towers, Christina G., Towns, Roberto, Toyokuni, Shinya, Trajkovic, Vladimir, Tramontano, Donatella, Tran, Quynh-Giao, Travassos, Leonardo H., Trelford, Charles B., Tremel, Shirley, Trougakos, Ioannis P., Tsao, Betty P., Tschan, Mario P., Tse, Hung-Fat, Tse, Tak Fu, Tsugawa, Hitoshi, Tsvetkov, Andrey S., Tumbarello, David A., Tumtas, Yasin, Tuñón, María J., Turcotte, Sandra, Turk, Boris, Turk, Vito, Turner, Bradley J., Tuxworth, Richard I., Tyler, Jessica K., Tyutereva, Elena V., Uchiyama, Yasuo, Ugun-Klusek, Aslihan, Uhlig, Holm H., Ułamek-Kozioł, Marzena, Ulasov, Ilya V., Umekawa, Midori, Ungermann, Christian, Unno, Rei, Urbe, Sylvie, Uribe-Carretero, Elisabet, Üstün, Suayib, Uversky, Vladimir N, Vaccari, Thomas, Vaccaro, Maria I., Vahsen, Björn F., Vakifahmetoglu-Norberg, Helin, Valdor, Rut, Valente, Maria J., Valko, Ayelén, Vallee, Richard B., Valverde, Angela M., Van den Berghe, Greet, van der Veen, Stijn, Van Kaer, Luc, van Loosdregt, Jorg, van Wijk, Sjoerd J.L., Vandenberghe, Wim, Vanhorebeek, Ilse, Vannier-Santos, Marcos A., Vannini, Nicola, Vanrell, M. Cristina, Vantaggiato, Chiara, Varano, Gabriele, Varela-Nieto, Isabel, Varga, Máté, Vasconcelos, M. Helena, Vats, Somya, Vavvas, Demetrios G., Vega-Naredo, Ignacio, Vega-Rubin-de-Celis, Silvia, Velasco, Guillermo, Velázquez, Ariadna P., Vellai, Tibor, Vellenga, Edo, Velotti, Francesca, Verdier, Mireille, Verginis, Panayotis, Vergne, Isabelle, Verkade, Paul, Verma, Manish, Verstreken, Patrik, Vervliet, Tim, Vervoorts, Jörg, Vessoni, Alexandre T., Victor, Victor M., Vidal, Michel, Vidoni, Chiara, Vieira, Otilia V., Vierstra, Richard D., Viganó, Sonia, Vihinen, Helena, Vijayan, Vinoy, Vila, Miquel, Vilar, Marçal, Villalba, José M., Villalobo, Antonio, Villarejo-Zori, Beatriz, Villarroya, Francesc, Villarroya, Joan, Vincent, Olivier, Vindis, Cecile, Viret, Christophe, Viscomi, Maria Teresa, Visnjic, Dora, Vitale, Ilio, Vocadlo, David J., Voitsekhovskaja, Olga V., Volonté, Cinzia, Volta, Mattia, Vomero, Marta, Von Haefen, Clarissa, Vooijs, Marc A., Voos, Wolfgang, Vucicevic, Ljubica, Wade-Martins, Richard, Waguri, Satoshi, Waite, Kenrick A., Wakatsuki, Shuji, Walker, David W., Walker, Mark J., Walker, Simon A., Walter, Jochen, Wandosell, Francisco G., Wang, Bo, Wang, Chao-Yung, Wang, Chen, Wang, Chenran, Wang, Chenwei, Wang, Cun-Yu, Wang, Dong, Wang, Fangyang, Wang, Feng, Wang, Fengming, Wang, Guansong, Wang, Han, Wang, Hao, Wang, Hexiang, Wang, Hong-Gang, Wang, Jianrong, Wang, Jigang, Wang, Jiou, Wang, Jundong, Wang, Kui, Wang, Lianrong, Wang, Liming, Wang, Maggie Haitian, Wang, Meiqing, Wang, Nanbu, Wang, Pengwei, Wang, Peipei, Wang, Ping, Wang, Ping, Wang, Qing Jun, Wang, Qing, Wang, Qing Kenneth, Wang, Qiong A., Wang, Wen-Tao, Wang, Wuyang, Wang, Xinnan, Wang, Xuejun, Wang, Yan, Wang, Yanchang, Wang, Yanzhuang, Wang, Yen-Yun, Wang, Yihua, Wang, Yipeng, Wang, Yu, Wang, Yuqi, Wang, Zhe, Wang, Zhenyu, Wang, Zhouguang, Warnes, Gary, Warnsmann, Verena, Watada, Hirotaka, Watanabe, Eizo, Watchon, Maxinne, Wawrzyńska, Anna, Weaver, Timothy E., Wegrzyn, Grzegorz, Wehman, Ann M., Wei, Huafeng, Wei, Lei, Wei, Taotao, Wei, Yongjie, Weiergräber, Oliver H., Weihl, Conrad C., Weindl, Günther, Weiskirchen, Ralf, Wells, Alan, Wen, Runxia H., Wen, Xin, Werner, Antonia, Weykopf, Beatrice, Wheatley, Sally P., Whitton, J. Lindsay, Whitworth, Alexander J., Wiktorska, Katarzyna, Wildenberg, Manon E., Wileman, Tom, Wilkinson, Simon, Willbold, Dieter, Williams, Brett, Williams, Robin S.B., Williams, Roger L., Williamson, Peter R., Wilson, Richard A., Winner, Beate, Winsor, Nathaniel J., Witkin, Steven S., Wodrich, Harald, Woehlbier, Ute, Wollert, Thomas, Wong, Esther, Wong, Jack Ho, Wong, Richard W., Wong, Vincent Kam Wai, Wong, W. Wei-Lynn, Wu, An-Guo, Wu, Chengbiao, Wu, Jian, Wu, Junfang, Wu, Kenneth K., Wu, Min, Wu, Shan-Ying, Wu, Shengzhou, Wu, Shu-Yan, Wu, Shufang, Wu, William K.K., Wu, Xiaohong, Wu, Xiaoqing, Wu, Yao-Wen, Wu, Yihua, Xavier, Ramnik J., Xia, Hongguang, Xia, Lixin, Xia, Zhengyuan, Xiang, Ge, Xiang, Jin, Xiang, Mingliang, Xiang, Wei, Xiao, Bin, Xiao, Guozhi, Xiao, Hengyi, Xiao, Hong-tao, Xiao, Jian, Xiao, Lan, Xiao, Shi, Xiao, Yin, Xie, Baoming, Xie, Chuan-Ming, Xie, Min, Xie, Yuxiang, Xie, Zhiping, Xie, Zhonglin, Xilouri, Maria, Xu, Congfeng, Xu, En, Xu, Haoxing, Xu, Jing, Xu, JinRong, Xu, Liang, Xu, Wen Wen, Xu, Xiulong, Xue, Yu, Yakhine-Diop, Sokhna M.S., Yamaguchi, Masamitsu, Yamaguchi, Osamu, Yamamoto, Ai, Yamashina, Shunhei, Yan, Shengmin, Yan, Shian-Jang, Yan, Zhen, Yanagi, Yasuo, Yang, Chuanbin, Yang, Dun-Sheng, Yang, Huan, Yang, Huang-Tian, Yang, Hui, Yang, Jin-Ming, Yang, Jing, Yang, Jingyu, Yang, Ling, Yang, Liu, Yang, Ming, Yang, Pei-Ming, Yang, Qian, Yang, Seungwon, Yang, Shu, Yang, Shun-Fa, Yang, Wannian, Yang, Wei Yuan, Yang, Xiaoyong, Yang, Xuesong, Yang, Yi, Yang, Ying, Yao, Honghong, Yao, Shenggen, Yao, Xiaoqiang, Yao, Yong-Gang, Yao, Yong-Ming, Yasui, Takahiro, Yazdankhah, Meysam, Yen, Paul M., Yi, Cong, Yin, Xiao-Ming, Yin, Yanhai, Yin, Zhangyuan, Yin, Ziyi, Ying, Meidan, Ying, Zheng, Yip, Calvin K., Yiu, Stephanie Pei Tung, Yoo, Young H., Yoshida, Kiyotsugu, Yoshii, Saori R., Yoshimori, Tamotsu, Yousefi, Bahman, Yu, Boxuan, Yu, Haiyang, Yu, Jun, Yu, Jun, Yu, Li, Yu, Ming-Lung, Yu, Seong-Woon, Yu, Victor C., Yu, W. 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Charlie, Kenchappa, Chandra Shekar, Li, Zuguo, Lin, Yong, Oshima, Shigeru, Rong, Yueguang, Sluimer, Judith C., Stallings, Christina L., and Tong, Chun-Kit
- Abstract
ABSTRACTIn 2008, we published the first set of guidelines for standardizing research in autophagy. Since then, this topic has received increasing attention, and many scientists have entered the field. Our knowledge base and relevant new technologies have also been expanding. Thus, it is important to formulate on a regular basis updated guidelines for monitoring autophagy in different organisms. Despite numerous reviews, there continues to be confusion regarding acceptable methods to evaluate autophagy, especially in multicellular eukaryotes. Here, we present a set of guidelines for investigators to select and interpret methods to examine autophagy and related processes, and for reviewers to provide realistic and reasonable critiques of reports that are focused on these processes. These guidelines are not meant to be a dogmatic set of rules, because the appropriateness of any assay largely depends on the question being asked and the system being used. Moreover, no individual assay is perfect for every situation, calling for the use of multiple techniques to properly monitor autophagy in each experimental setting. Finally, several core components of the autophagy machinery have been implicated in distinct autophagic processes (canonical and noncanonical autophagy), implying that genetic approaches to block autophagy should rely on targeting two or more autophagy-related genes that ideally participate in distinct steps of the pathway. Along similar lines, because multiple proteins involved in autophagy also regulate other cellular pathways including apoptosis, not all of them can be used as a specific marker for bona fideautophagic responses. Here, we critically discuss current methods of assessing autophagy and the information they can, or cannot, provide. Our ultimate goal is to encourage intellectual and technical innovation in the field.
- Published
- 2021
- Full Text
- View/download PDF
270. Ethische Konfliktfelder in der Notfallversorgung
- Author
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P. Berchtold
- Subjects
Emergency Medicine - Abstract
Vor dem Hintergrund steigender Kosten in der Gesundheitsversorgung gerat auch die Notfallversorgung bzw. deren Finanzierung und Steuerung in den Fokus von Politikern und Finanzierenden. Aus okonomischer Sicht stellt sich hier die Frage, wie die Notfallversorgung gesteuert bzw. deren Ressourcenbedarf optimiert oder sogar eingeschrankt werden kann. Die Steuerung uber die Leistungsvergutung und damit eine Rationierung in der Notfallversorgung ist aus ethischer Sicht nicht zulassig. Durch eine Systematisierung und Integration von Behandlungsablaufen kann eine bessere Effektivitat und Effizienz erreicht werden, Prozess- und Ergebnisqualitat konnen optimiert werden. Vor allem durch einen hoheren Vernetzungsgrad zwischen den Akteuren im Gesundheitswesen konnen insbesondere an den Schnittstellen Reibungsverluste vermindert werden, sodass eine okonomischere Versorgung auch in der Notfallversorgung moglich ist.
- Published
- 2007
271. Treatment of Diabetes mellitus with the Glycoside Hydrolase Inhibitor Acarbose (BAYg 5421)
- Author
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I. Hillebrand, K. Schöffling, and P. Berchtold
- Subjects
business.industry ,Diabetes mellitus ,medicine ,Glycoside hydrolase ,Pharmacology ,medicine.disease ,business ,Acarbose ,medicine.drug - Published
- 2015
272. Characteristics defining perceived popularity among same-sex and opposite-sex peers
- Author
-
Akre, Christina, Berchtold, André, Barrense-Dias, Yara, and Suris, Joan-Carles
- Published
- 2020
- Full Text
- View/download PDF
273. Siblings of youths with chronic conditions: a school-based survey
- Author
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Le Boudec, Audraine, Akre, Christina, Barrense-Dias, Yara, Berchtold, André, and Suris, Joan-Carles
- Published
- 2020
- Full Text
- View/download PDF
274. Treatment with 3‐aminobenzamide during ex vivo lung perfusion of damaged rat lungs reduces graft injury and dysfunction after transplantation
- Author
-
Wang, Xingyu, Parapanov, Roumen, Debonneville, Anne, Wang, Yabo, Abdelnour‐Berchtold, Etienne, Gonzalez, Michel, Gronchi, Fabrizio, Perentes, Jean‐Yannis, Ris, Hans‐Beat, Eckert, Philippe, Piquilloud, Lise, Lugrin, Jérôme, Letovanec, Igor, Krueger, Thorsten, and Liaudet, Lucas
- Abstract
Ex vivo lung perfusion (EVLP) with pharmacological reconditioning may increase donor lung utilization for transplantation (LTx). 3‐Aminobenzamide (3‐AB), an inhibitor of poly(ADP‐ribose) polymerase (PARP), reduces ex vivo lung injury in rat lungs damaged by warm ischemia (WI). Here we determined the effects of 3‐AB reconditioning on graft outcome after LTx. Three groups of donor lungs were studied: Control (Ctrl): 1 hour WI + 3 hours cold ischemia (CI) + LTx; EVLP: 1 hour WI + 3 hours EVLP + LTx; EVLP + 3‐AB: 1 hour WI + 3 hours EVLP + 3‐AB (1 mg.mL−1) + LTx. Two hours after LTx, we determined lung graft compliance, edema, histology, neutrophil counts in bronchoalveolar lavage (BAL), mRNA levels of adhesion molecules within the graft, as well as concentrations of interleukin‐6 and 10 (IL‐6, IL‐10) in BAL and plasma. 3‐AB reconditioning during EVLP improved compliance and reduced lung edema, neutrophil infiltration, and the expression of adhesion molecules within the transplanted lungs. 3‐AB also attenuated the IL‐6/IL‐10 ratio in BAL and plasma, supporting an improved balance between pro‐ and anti‐inflammatory mediators. Thus, 3‐AB reconditioning during EVLP of rat lung grafts damaged by WI markedly reduces inflammation, edema, and physiological deterioration after LTx, supporting the use of PARP inhibitors for the rehabilitation of damaged lungs during EVLP. The pharmacological reconditioning during ex vivo lung perfusion of damaged rat lung grafts, using the poly(ADP‐ribose) polymerase inhibitor 3‐aminobenzamide, reduces inflammation, edema, and physiological deterioration following lung transplantation.
- Published
- 2020
- Full Text
- View/download PDF
275. Severe coenurosis caused by larvae of Taenia serialis in an olive baboon (Papio anubis) in Benin.
- Author
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Chanove, E., Ionică, A.M., Hochman, D., Berchtold, F., Gherman, C.M., and Mihalca, A.D.
- Abstract
In March 2017, a captive male juvenile (ca. 6 months old) olive baboon (Papio anubis) was brought to a primate rescue center in Benin with multiple subcutaneous swellings of unknown aetiology. At the general inspection of the body, around 15 partially mobile masses of variable sizes were found in different locations across the body. Following two surgical procedures, several cyst-like structures were removed and placed either in 10% formalin or in absolute ethanol. The cysts had a typical coenurus-like morphology. Genomic DNA was extracted from one cyst using a commercially available kit. The molecular characterization was performed by PCR amplification and sequencing of a region of the nuclear ITS-2 rDNA and a fragment of the mitochondrial 12S rDNA gene, revealing its identity as T. serialis , with 88%–98% similarity to T. serialis isolates from USA, Japan and Germany This study reports a new host for the larval form of T. serialis and confirms the role of primates as intermediate host, highlighting also the risk for human infection. Further genetic studies from multiple geographic isolates are needed to clarify the taxonomic status of this group. Image 1 • The present study reports a the olive baboon as new host for the larval form of Taenia serialis. • This is the first report of T. serialis in Benin. • The relevance and risk for the health and welfare of primates in rescues centers is discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
276. Multi-Reference Spectral Library Yields Almost Complete Coverage of Heterogeneous LC-MS/MS Data Sets.
- Author
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Ammar, Constantin, Berchtold, Evi, Csaba, Gergely, Schmidt, Andreas, Imhof, Axel, and Zimmer, Ralf
- Published
- 2019
- Full Text
- View/download PDF
277. Youth With Chronic Conditions and Risky Behaviors: An Indirect Path.
- Author
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Gubelmann, Alicia, Berchtold, André, Barrense-Dias, Yara, Akre, Christina, Newman, Christopher J., and Suris, Joan-Carles
- Abstract
Abstract Purpose To compare risk behaviors between youths living with a chronic condition (CC) and their healthy peers, controlling for condition severity. Methods Data were drawn from the baseline wave of the GenerationFRee study (students aged 15–24 years in postmandatory education) during the 2014–2015 school year. The sample (N = 5,179) was divided into youths with CC without limitations (N = 536; 10.4%), youths with limitations (N = 114; 2.2%), and a control group (CG; N = 4,529; 87.4%). Groups were compared on internalizing (perceived health status, vision of their future, emotional wellbeing) and externalizing behaviors (substance use, gambling, excessive internet use, disordered eating, violent and antisocial acts) controlling for potential confounders. Statistical analyses were carried out through structural equation modeling. Results are given as unstandardized coefficients. Results Overall, CC youths showed an association with internalizing behaviors (coefficient:.78) but not with externalizing behaviors. In fact, the connection with externalizing behaviors was indirect via the internalizing behaviors (.32). CC Youths reporting psychological issues were more likely to adopt every externalizing behavior. Analyzing separately youths with CC limiting daily life activities and those without limitations, the results did not change substantially. However, the association with internalizing behaviors was much higher for those reporting limitations (2.18 vs..42). Conclusions Our results show that the link between suffering from a CC and adopting risk behaviors is indirect through internalizing behaviors. Health professionals should address emotional wellbeing and perception of the future rather than focus exclusively on the effects of risk behaviors on specific diseases. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
278. Insight of CO2 and ethanol emission from maize silage: A case study with real-time identification of aerobic and anaerobic microbial respiration using a multi-sensor-fusion method.
- Author
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Shan, Guilin, Sun, Yurui, Maack, Christian, Buescher, Wolfgang, Berchtold, Wilfried, and Grantz, David A.
- Subjects
GREENHOUSE gases ,SILAGE ,MICROBIAL respiration ,CARBON emissions ,SUSTAINABILITY ,BIOGAS production - Abstract
Silage is produced worldwide for both livestock feeding and biogas production. Sustainable silage production requires characterization and mitigation of potential effects on environmental quality, particularly from greenhouse gas emissions during the production cycle. Ex-situ sampling has demonstrated that major emissions are carbon dioxide (CO 2) and ethanol (EtOH). In-situ gas measurements from farm silo and bale silage are rare and may be important to improve our knowledge of the physical and biochemical causes, and constraints on these gas emissions. This study focused on tracking the kinetics of CO 2 and EtOH emissions from bale maize silage, with real-time identification, quantification and separation of aerobic and anaerobic respiratory components in the period following opening of the silage. For this, an automatic multi-sensor gas-flux chamber (AMGC) was developed. Three bales (mean weight: 890 kg) of maize silage were tested (n = 3). Oxygen (O 2) and temperature (T si) sensors were co-located at 10- and 20-cm behind the open face of the bales. Over the two weeks of the experiment we observed: (i) significant initial discharge of CO 2 across the open face (1.68–2.55 mol m
−2 h−1 ) and EtOH (0.027–0.034 mol m−2 h−1 ); (ii) peak CO 2 emission occurred when O 2 concentration (10 cm depth) was 3∼8% vol., while peak EtOH emission occurred below 2% vol. O 2 , (iii) dynamic conversion of O 2 to CO 2 from aerobic respiration; and (iv) the cumulative emission of EtOH during the anaerobic period was 4–6 times greater than that during aerobic plus semi-aerobic periods. These novel measurements provide mechanistic understanding, and may facilitate improved management of silage production to minimize environmental impact and aerobic loss of silage. [Display omitted] • Multi-sensor-fusion to measure gas flux, O 2 and reheating from/in maize silage bale. • Linear characteristics and optimal cycle of automatic multi-sensor gas-flux chamber. • Anaerobic condition recreated due to microbial activity/respiration after open silage. • Data cross identification for CO 2 and ethanol fluxes in aerobic and anaerobic periods. • Quantitative comparison of ethanol productions during aerobic and anaerobic periods. [ABSTRACT FROM AUTHOR]- Published
- 2023
- Full Text
- View/download PDF
279. Adipositas : Pathophysiologie, Klinik und Therapie
- Author
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F.A. Gries, P. Berchtold, M. Berger, F.A. Gries, P. Berchtold, and M. Berger
- Subjects
- Pathology
- Published
- 2013
280. Diabetes mellitus · B
- Author
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R. Beckmann, M. Berger, A. Beringer, P. Berchtold, J. Beyer, A. Bischoff, G. Brehm, B. F. Clarke, G. R. Constam, L. J. P. Duncan, F. A. Gries, A. Hasselblatt, R. Hild, K. Irmscher, K. Jahnke, J. Kühnau, H. Liebermeister, K. Lundbaek, G. Meyer-Schwickerath, Sigrid Napp-Mellinghoff, M. Neubauer, F. Nobbe, Karl Oberdisse, P. Petrides, R. Petzoldt, H. Sauer, K. Schöffling, M. Spitznas, J. Steinke, M. Vogel, K. H. Vogelberg, A. Wessing, R. Beckmann, M. Berger, A. Beringer, P. Berchtold, J. Beyer, A. Bischoff, G. Brehm, B. F. Clarke, G. R. Constam, L. J. P. Duncan, F. A. Gries, A. Hasselblatt, R. Hild, K. Irmscher, K. Jahnke, J. Kühnau, H. Liebermeister, K. Lundbaek, G. Meyer-Schwickerath, Sigrid Napp-Mellinghoff, M. Neubauer, F. Nobbe, Karl Oberdisse, P. Petrides, R. Petzoldt, H. Sauer, K. Schöffling, M. Spitznas, J. Steinke, M. Vogel, K. H. Vogelberg, and A. Wessing
- Subjects
- Medical sciences
- Abstract
Leider war es nicht möglich, den zweiten Band unmittelbar im Anschluß an den ersten herauszubringen. Dies hat zwar den Vorteil, daß eine Reihe neuer Erkenntnisse aufgenommen werden konnte; andererseits hat sich aber wiederum deutlich gezeigt, daß in der so kurzen Zeit von zwei Jahren manches Problem aktuell wird, das im ersten Band nur angedeutet oder kurz behandelt werden konnte, das aber die Arbeit der nächsten Zukunft voraussichtlich bestimmen wird. Um nur einiges herauszugreifen: Für die Genese des juvenilen Diabetes wird die Infektion mit dem Coxsackie Virus nicht mehr in Betracht gezogen. Dagegen hat sich unbezweifelbar zeigen lassen, daß die Erzeugung eines Diabetes im Tierversuch durch Virusinfektion an immunopathologische Vorgänge und genetische Faktoren geknüpft ist. Die Genese des menschlichen, akut entstehenden Insulinmangel-Diabetes auf immu nologischer plus hereditärer Basis wird weiterhin in der Diskussion bleiben. Pathogenetische Erkenntnisse sind zu erhoffen. In Zusammenhang damit steht die genetische Verbindung der Insulin-Antikörperproduktion bei insulinbedürf tigen Diabetikern mit Histokompatibilitäts-(HL-A)-Antigenen, die das Diabetes risiko erhöhen, andererseits aber Schutzfunktionen für die Diabetesentstehung signalisieren können. Ein weiteres Problem, dem sich die wissenschaftliche Arbeit in naher Zukunft mit Sicherheit widmen wird, ist die Frage nach der Bedeutung des Somatostatin und der D-Zelle im Inselsystem, in der dieses produziert wird. Hier wird sich die Frage der Sicherung der von OReI und UNGER entwickelten Hypothese der Insel als eines multihormonellen Mikroorganismus stellen, in dem nebeneinander Insulin, Glukagon und Somatostatin gebildet werden und gegenseitige regulato rische Funktionen ausüben.
- Published
- 2013
281. Recombinant Anti-idiotypic Antibodies Inhibit Human Natural Anti-glycoprotein (GP)IIb/IIIa Autoantibodies
- Author
-
Beda M. Stadler, Sylvia Miescher, Monique Vogel, P. Berchtold, R. Escher, and G. Escher
- Subjects
Phage display ,Phagemid ,Molecular Sequence Data ,Immunology ,Antibody Affinity ,Platelet Glycoprotein GPIIb-IIIa Complex ,Biology ,medicine.disease_cause ,Platelet membrane glycoprotein ,Binding, Competitive ,Autoimmunity ,Antigen-Antibody Reactions ,Antigen ,Peptide Library ,medicine ,Humans ,Immunology and Allergy ,Platelet ,Amino Acid Sequence ,Cloning, Molecular ,Immunoglobulin Fragments ,Autoantibodies ,Purpura, Thrombocytopenic, Idiopathic ,Autoantibody ,Molecular biology ,Recombinant Proteins ,Antibodies, Anti-Idiotypic ,biology.protein ,Binding Sites, Antibody ,Immunotherapy ,Antibody ,Epitope Mapping - Abstract
Anti-idiotypic antibodies (anti-Id) have been described against idiotypes expressed on various autoantibodies. Since an immunoregulatory effect has been postulated for anti-Id, modulation of the anti-Id response in autoimmune disease may be of interest. In chronic immune thrombocytopenic purpura (AITP), autoantibodies directed mainly against platelet membrane glycoprotein (GP) IIb/IIIa cause platelet destruction by Fc-mediated phagocytosis or by complement lysis. We have previously reported on the generation of two recombinant anti-GPIIb/IIIa autoantibody fragments (PDG-X, PDG-B), that are specific for conformationally intact GPIIb/IIIa and inhibit binding of autoantibodies from patients with AITP. In the present study, we show that anti-GPIIb/IIIa specificities are not limited to a single individual by isolating five additional anti-GPIIb/IIIa autoantibody fragments from a second phagemid Fab library of an unrelated healthy donor. Using soluble Fab of PDG-X and PDG-B as antigens for panning Fab phagemid libraries from healthy human individuals, we isolated anti-Id phage clones specific for PDG-X or PDG-B. In addition they inhibited the binding of PDG-X or PDG-B to GPIIb/IIIa. Amino acid sequence comparison between these specific antiId and GPIIb/IIIa was performed. Generation of these anti-Id directed against pathologically relevant anti-GPIIb/IIIa autoantibodies may represent a new suitable and specific therapeutic option for the treatment of antibody-mediated AITP.
- Published
- 2002
282. Recombinant human natural autoantibodies against GPIIb/IIIa inhibit binding of autoantibodies from patients with AITP
- Author
-
R. Escher, Müller D, Beda M. Stadler, P. Berchtold, Sylvia Miescher, and Monique Vogel
- Subjects
congenital, hereditary, and neonatal diseases and abnormalities ,Phage display ,Autoantibody ,Hematology ,Biology ,Molecular biology ,Epitope ,law.invention ,Antigen ,law ,hemic and lymphatic diseases ,Immunology ,Monoclonal ,Recombinant DNA ,biology.protein ,Platelet ,Antibody ,circulatory and respiratory physiology - Abstract
Autoimmune thrombocytopenic purpura (AITP) is caused by autoantibodies predominantly against platelet membrane glycoproteins (GP) IIb/IIIa and GPIb/IX. Naturally occurring autoantibodies have been described against a variety of autoantigens; it has been suggested that perturbation of their regulation may be associated with autoimmune diseases. Using a combinatorial Fab phagemid library from an individual immunized with human RhD+ red blood cells, we evaluated the presence of natural anti-GPIIb/IIIa autoantibodies as well as their relation to AITP-associated anti-GPIIb/IIIa autoantibodies. Selection on native GPIIb/IIIa and characterization of positive clones by inhibition studies against murine monoclonal anti-GPIIb/IIIa antibodies and by DNA analysis revealed the presence of two distinct recombinant anti-GPIIb/IIIa autoantibodies, which partially inhibited binding of affinity-purified platelet-associated autoantibodies from 8/12 AITP patients. Our results demonstrated that GPIIb/IIIa-specific Fab directed against conformational epitopes within the GPIIb/IIIa complex may be cloned from the genome of an individual immunized with RhD+ red blood cells, who was not affected by AITP. The partial inhibition of binding of platelet-associated autoantibodies from AITP patients to GPIIb/IIIa by the recombinant anti-GPIIb/IIIa phage clones suggests recognition of closely related antigenic epitopes. These phage clones may represent down-regulated, potentially pathological autoantibodies and could be used as new tools for investigation of AITP.
- Published
- 1998
283. International study to compare antigen-specific methods used for the measurement of the antiplatelet autoantibodies
- Author
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K. Fujisawa, R. Kekoma¨ki, Cécile Kaplan, P. Imbach, Robert McMillan, Volker Kiefel, A. E. G. Kr. von dem Borne, D. Beardsley, E. Lipp, P. Berchtold, D. Mu¨ller, M. C. Morell-Kopp, and Faculteit der Geneeskunde
- Subjects
Blood Platelets ,Immunoassay ,Observer Variation ,Autoimmune disease ,Purpura, Thrombocytopenic, Idiopathic ,biology ,business.industry ,Concordance ,Autoantibody ,Platelet Glycoprotein GPIIb-IIIa Complex ,Hematology ,medicine.disease ,Spearman's rank correlation coefficient ,Plasma ,Platelet Glycoprotein GPIb-IX Complex ,Antigen ,Immunopathology ,Immunology ,medicine ,biology.protein ,Humans ,Platelet ,Antibody ,business ,Autoantibodies - Abstract
Platelet-associated and plasma autoantibodies against platelet glycoproteins (GP) have been demonstrated in patients with autoimmune thrombocytopenia (AITP) using various methods. Eight laboratories in seven countries participated in this international study to evaluate the interlaboratory agreement using glycoprotein-specific immunoassays for these autoantibodies. The participating laboratories received blind samples of frozen washed platelets and plasma from 22 normal donors and 22 AITP patients. Platelet-associated and plasma autoantibodies against GPIIb-IIIa and GPIb-IX were measured by MAIPA, immunobead assay or modified antigen capture assay. Of the control samples, 96.0% and 97.2% of all results for platelet-associated and plasma autoantibodies to GPIIb-IIIa/ GPIb-IX, respectively, were negative. The mean variation coefficient of the control samples of platelet-associated and plasma autoantibodies was 89.5% (range 11.1-272.9%) and 46.5% (range 21.0-78.0%), respectively. In 20/22 patient samples, platelet-associated autoantibodies to either glycoprotein were noted by at least two laboratories. The mean degree of agreement in these samples was 74.0%. There was a significant correlation in the individual antibody measurements between all laboratories (Kendall coefficient of concordance 0.60 and 0.38, P < 0.001; Spearman rank order test, range of correlation coefficient 52.3-94.0% and 42.2-85.0%, P < 0.05, for anti-GPIIb-IIIa and anti-GPIb-IX, respectively). In contrast, plasma autoantibodies to either glycoprotein were noted by at least two laboratories in only 13/22 patient samples. Moreover, the degree of agreement was poor (50.1%) and a significant correlation was noted between only six pairs of laboratories. We conclude that methods used in this study yield good interlaboratory agreement in measuring platelet-associated autoantibodies against GPIIb-IIIa and GPIb-IX. In contrast, poor agreement was found in detecting plasma autoantibodies to the same glycoproteins.
- Published
- 1997
284. 5. Operationsstrategie bei Schilddrüsen-Autonomie und Basedow-Hyperthyreose
- Author
-
Berchtold, R., Studer, H., and Teuscher, J.
- Published
- 1985
- Full Text
- View/download PDF
285. Localization of parvalbumin mRNA in rat brain by in situ hybridization histochemistry
- Author
-
Seto-Ohshima, A., Emson, P. C., Berchtold, M. W., and Heizmann, C. W.
- Published
- 1989
- Full Text
- View/download PDF
286. The effects of theα-glucosidase inhibitor BAY g 5421 (Acarbose) on meal-stimulated elevations of circulating glucose, insulin, and triglyceride levels in man
- Author
-
Hillebrand, I., Boehme, K., Frank, G., Fink, H., and Berchtold, P.
- Published
- 1979
- Full Text
- View/download PDF
287. A Technique for distal splenocaval shunt in the rat
- Author
-
Holmin, Torsten, Schröder, Rolf, and Berchtold, Rudolf
- Published
- 1977
- Full Text
- View/download PDF
288. Radioprotection by pretreatment with deuterated water: cytokinetic changes in the small intestine of the mouse
- Author
-
Michell, Franz, Altermatt, Hans Jörg, Gebbers, Jan-Olaf, Bally, Ernst, Berchtold, Willi, and Laissue, Jean-Albert
- Published
- 1987
- Full Text
- View/download PDF
289. Hydrogen formation by cyanobacteria cultures selected for nitrogen fixation
- Author
-
Berchtold, Martin and Bachofen, Reinhard
- Published
- 1979
- Full Text
- View/download PDF
290. Ultracytochemical demonstration and probable localization of 3β-hydroxysteroid dehydrogenase activity with a ferricyanide technique
- Author
-
Berchtold, Jean-Pierre
- Published
- 1977
- Full Text
- View/download PDF
291. The effects of theα-glucosidase inhibitor BAY g 5421 (Acarbose) on postprandial blood glucose, serum insulin, and triglyceride levels: Dose-time-response relationships in man
- Author
-
Hillebrand, I., Boehme, K., Frank, G., Fink, H., and Berchtold, P.
- Published
- 1979
- Full Text
- View/download PDF
292. Treadmill training improves intravenous glucose tolerance and insulin sensitivity in fatty zucker rats
- Author
-
Becker-Zimmermann, K., Berger, M., Berchtold, P., Gries, F. A., Herberg, L., and Schwenen, M.
- Published
- 1982
- Full Text
- View/download PDF
293. Fine structure and function of interrenal (adrenocortical) cells of dexamethasone-treated trout (Salmo fario L.)
- Author
-
Jung, Bernard, Moritz, Marie-Eve, and Berchtold, Jean-Pierre
- Published
- 1981
- Full Text
- View/download PDF
294. Possible role of cyclic AMP in the synthesis of chlorophyll in Chlorella fusca
- Author
-
Berchtold, Martin and Bachofen, Reinhard
- Published
- 1977
- Full Text
- View/download PDF
295. Electron microscopic localization of 3β-hydroxysteroid dehydrogenase and nadh-ferricyanide reductase activities in amphibian interrenal cells
- Author
-
Berchtold, Jean-Pierre
- Published
- 1978
- Full Text
- View/download PDF
296. In vitro tests overestimatein vivo neutralizing capacity of antacids in presence of food
- Author
-
Berchtold, P., Reinhart, W. H., Niederhäuser, U., Koller, U., and Halter, F.
- Published
- 1985
- Full Text
- View/download PDF
297. Ultrastructural demonstration of glucose-6-phosphate dehydrogenase activity in steroid-secreting cells
- Author
-
Berchtold, J. -P.
- Published
- 1979
- Full Text
- View/download PDF
298. Effect of physical training on glucose tolerance and on glucose metabolism of skeletal muscle in anaesthetized normal rats
- Author
-
Berger, M., Kemmer, F. W., Becker, K., Herberg, L., Schwenen, M., Gjinavci, A., and Berchtold, P.
- Published
- 1979
- Full Text
- View/download PDF
299. 14. Der Warren-Shunt
- Author
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Berchtold, R.
- Published
- 1976
- Full Text
- View/download PDF
300. Oxidation of Ni-base alloys in atmospheres with widely varying oxygen partial pressures
- Author
-
Christ, H. J., Berchtold, L., and Sockel, H. G.
- Published
- 1986
- Full Text
- View/download PDF
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