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57 research outputs found

Reconstruction of oral mucosal defects using the nasolabial flap: clinical experience with 22 patients

Author: A Eckardt
Andre M Eckardt
B Hynes
BT Varghese
C Ikeda
C Ioannides
C Thiersch
EH Rose
EI Hofstra
Frank Tavassol
HH El-Marakby
HK Rökenes
Horst Kokemüller
HS Gewirtz
IK Cohen
J Garatea
J Garatea
JF Esser
KL Mutimer
MP van Wijk
N Lazaridis
N Lazaridis
ND Futran
Nils-Claudius Gellrich
P Maurer
RA Elliott Jr
Y Ducic
Publication venue: BioMed Central
Publication date: 23/05/2011
Field of study

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PubMed Central

Systematic, early rhythm control strategy for atrial fibrillation in patients with or without symptoms:the EAST-AFNET 4 trial

Author: Borof Katrin
Brandes Axel
Breithardt Gunter
Camm A. John
Crijns Harry J. G. M.
Eckardt Lars
Gessler Nele
Goette Andreas
Haegeli Laurent M.
Heidbuchel Hein
Kautzner Josef
Kirchhof Paulus
Ng G. Andre
Schnabel Renate B.
Suling Anna
Szumowski Lukasz
Themistoclakis Sakis
van Gelder Isabelle C.
Vardas Panos
Wegscheider Karl
Willems Stephan
Publication venue: 'Oxford University Press (OUP)'
Publication date: 27/08/2021
Field of study

AIMS: Clinical practice guidelines restrict rhythm control therapy to patients with symptomatic atrial fibrillation (AF). The EAST-AFNET 4 trial demonstrated that early, systematic rhythm control improves clinical outcomes compared to symptom-directed rhythm control. METHODS AND RESULTS: This prespecified EAST-AFNET 4 analysis compared the effect of early rhythm control therapy in asymptomatic patients (EHRA score I) to symptomatic patients. Primary outcome was a composite of death from cardiovascular causes, stroke, or hospitalization with worsening of heart failure or acute coronary syndrome, analyzed in a time-to-event analysis. At baseline, 801/2633 (30.4%) patients were asymptomatic [mean age 71.3 years, 37.5% women, mean CHA(2)DS(2)-VASc score 3.4, 169/801 (21.1%) heart failure]. Asymptomatic patients randomized to early rhythm control (395/801) received similar rhythm control therapies compared to symptomatic patients [e.g. AF ablation at 24 months: 75/395 (19.0%) in asymptomatic; 176/910 (19.3%) symptomatic patients, P = 0.672]. Anticoagulation and treatment of concomitant cardiovascular conditions was not different between symptomatic and asymptomatic patients. The primary outcome occurred in 79/395 asymptomatic patients randomized to early rhythm control and in 97/406 patients randomized to usual care (hazard ratio 0.76, 95% confidence interval [0.6; 1.03]), almost identical to symptomatic patients. At 24 months follow-up, change in symptom status was not different between randomized groups (P = 0.19). CONCLUSION: The clinical benefit of early, systematic rhythm control was not different between asymptomatic and symptomatic patients in EAST-AFNET 4. These results call for a shared decision discussing the benefits of rhythm control therapy in all patients with recently diagnosed AF and concomitant cardiovascular conditions (EAST-AFNET 4; ISRCTN04708680; NCT01288352; EudraCT2010-021258-20)

Maastricht University Research Portal

Proceedings - University of Groningen

University of Groningen

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Dissertations of the University of Groningen

Genome-wide analyses identify a role for SLC17A4 and AADAT in thyroid hormone regulation.

Author: Ahluwalia T.S. (Tarunveer Singh)
Akiyama M. (Masato)
Alizadeh B.Z. (Behrooz)
Appel E.V.R. (Emil Vincent R.)
Arking D.E. (Dan)
Arnold A.M. (Alice)
Astrup A. (Arne)
Barbieri C. (Caterina)
Beekman M. (Marian)
Beilby J.P. (John)
Bekaert S. (Sofie)
Boerwinkle E. (Eric)
Boezen H.M. (Marike)
Brown S.J. (Stephen)
Buyzere M. (Marc) de
Campbell P.J. (Purdey J.)
Cappola A.R. (Anne)
Ceresini G. (Graziano)
Cerqueira C. (Charlotte)
Chaker L. (Layal)
Cucca F. (Francesco)
Deary I.J. (Ian)
Deelen J. (Joris)
Di Munno C. (Celia)
Eckardt K.-U. (Kai-Uwe)
Ekici A.B. (Arif B.)
Ferrrucci L. (Luigi)
Fiers T. (Tom)
Fiorillo E. (Edoardo)
Ford I. (Ian)
Fox C.S. (Caroline)
Franke L. (Lude)
Fuchsberger C. (Christian)
Galesloot T.E. (Tessel)
Gieger C. (Christian)
Grandi A. (Alessandro) de
Grarup N. (Niels)
Greiser K.H. (Karin Halina)
Groeneweg S. (Stefan)
Gögele M. (Martin)
Hagen K. (Knut)
Haljas K. (Kadri)
Hansen T. (Torben)
Harris S.E. (Sarah)
Heemst D. (Diana) van
Heijer M. (Martin) den
Hicks A.A. (Andrew A.)
Hollander W. (Wouter) den
Homuth G. (Georg)
Hui J. (Jennie)
Ikram M.A. (Arfan)
Ittermann T. (Till)
Jensen R.A. (Richard A.)
Jing J. (Jiaojiao)
Jukema J.W. (Jan Wouter)
Kajantie E. (Eero)
Kamatani Y. (Yoichiro)
Kasbohm E. (Elisa)
Kaufman J.-M. (Jean-Marc)
Kiemeney L.A. (Lambertus A.)
Kloppenburg M. (Margreet)
Kronenberg F. (Florian)
Kubo M. (Michiaki)
Köttgen A. (Anna)
Lahti J. (Jari)
Lapauw B. (Bruno)
Li S. (Shuo)
Li Y. (Yong)
Liewald D.C.M. (David C. M.)
Lim E.M. (Ee Mun)
Linneberg A. (Allan)
Marina M. (Michela)
Mascalzoni D. (Deborah)
Matsuda K. (Koichi)
Medenwald D. (Daniel)
Medici M. (Marco)
Meisinger C. (Christa)
Meulenbelt I. (Ingrid)
Meyer zu Schwabedissen H.E. (Henriette E.)
Meyer T. (Thorsten)
Mikolajczyk R. (Rafael)
Moed H. (Heleen)
Naitza S. (Silvia)
Navis G. (Gerjan)
Netea-Maier R.T. (Romana)
Nolte I.M. (Ilja)
Okada Y. (Yukinori)
Pala M. (Mauro)
Pedersen O. (Oluf)
Peeters R.P. (Robin)
Penninx B.W.J.H.
Petersmann A. (Astrid)
Porcu E. (Eleonora)
Postmus D. (Douwe)
Pramstaller P.P. (Peter Paul)
Psaty B.M. (Bruce)
Ramos Y.F.M. (Yolande F. M.)
Rawal R. (Rajesh)
Redmond P. (Paul)
Richards J.B. (Brent)
Rietzschel E.R. (Ernst)
Rivadeneira Ramirez F. (Fernando)
Roef G.L. (Greet)
Rots M.G. (M.)
Rotter J.I. (Jerome I.)
Sala C. (Cinzia)
Sanna S. (Serena)
Schlessinger D. (David)
Schultheiss U.T. (Ulla T.)
Selvin E. (Elizabeth)
Slagboom P.E. (Eline)
Snieder H. (Harold)
Soranzo N. (Nicole)
Spector T.D. (Timothy)
Starr J.M. (John)
Stott D.J. (David. J.)
Swertz M.A. (Morris A.)
Sørensen T.I.A. (Thorkild)
Taes Y.E. (Youri)
Taliun D. (Daniel)
Tanaka T. (Toshiko)
Teumer A. (Alexander)
Thuesen L. (Leif)
Tiller D. (Daniel)
Toniolo D. (Daniela)
Traglia M. (Michela)
Uitterlinden A.G. (Andre G.)
van der Harst P. (Pim)
Visser T.J. (Theo)
Visser W.E. (Edward)
Völzke H. (Henry)
Walsh J.P. (John P.)
Wijmenga C. (Cisca)
Wilson S.G. (Scott)
Wolffenbuttel B.H.R. (Bruce)
Yang Q. (Qiong Fang)
Zheng H.-F. (Hou-Feng)
Publication venue: Nat Commun
Publication date: 01/01/2018
Field of study

Thyroid dysfunction is an important public health problem, which affects 10% of the general population and increases the risk of cardiovascular morbidity and mortality. Many aspects of thyroid hormone regulation have only partly been elucidated, including its transport, metabolism, and genetic determinants. Here we report a large meta-analysis of genome-wide association studies for thyroid function and dysfunction, testing 8 million genetic variants in up to 72,167 individuals. One-hundred-and-nine independent genetic variants are associated with these traits. A genetic risk score, calculated to assess their combined effects on clinical end points, shows significant associations with increased risk of both overt (Graves' disease) and subclinical thyroid disease, as well as clinical complications. By functional follow-up on selected signals, we identify a novel thyroid hormone transporter (SLC17A4) and a metabolizing enzyme (AADAT). Together, these results provide new knowledge about thyroid hormone physiology and disease, opening new possibilities for therapeutic targets

Genome-wide association meta-analyses and fine-mapping elucidate pathways influencing albuminuria

Author: Akilesh Shreeram
Bakker Stephan J. L.
Bansal Nisha
Baptista Daniela
Biggs Mary L.
Bochud Murielle
Boerwinkle Eric
Brenner Hermann
Burkhardt Ralph
Butterworth Adam S.
Böger Carsten A.
Carroll Robert J.
Chai Jin-Fang
Chee Miao-Li
Chee Miao-Ling
Chen Mengmeng
Cheng Ching-Yu
Chu Audrey Y.
Cocca Massimiliano
Connell Jeffrey O’
Cook James P.
Coresh Josef
Corre Tanguy
Danesh John
de Borst Martin H.
De Grandi Alessandro
de Mutsert Renée
de Vries Aiko P. J.
Degenhardt Frauke
Devuyst Olivier
Dittrich Katalin
Divers Jasmin
Eckardt Kai-Uwe
Edwards Todd L.
Ehret Georg
Endlich Karlhans
Feitosa Mary F.
Felix Janine F.
Foo Valencia Hui Xian
Franco Oscar H.
Franke Andre
Freedman Barry I.
Freitag-Wolf Sandra
Fuchsberger Christian
Gansevoort Ron T.
Gerstner Lea
Ghasemi Sahar
Giedraitis Vilmantas
Giri Ayush
Gorski Mathias
Grundner-Culemann Franziska
Gudbjartsson Daniel F.
Gudnason Vilmundur
Gögele Martin
Hamet Pavel
Harris Tamara B.
Heid Iris M.
Hermle Tobias
Hicks Andrew A.
Ho Kevin
Holm Hilma
Hoppmann Anselm
Horn Katrin
Hung Adriana M.
Hwang Shih-Jen
Ikram M. Arfan
Ingelsson Erik
Jaddoe Vincent W. V.
Jakobsdottir Johanna
Josyula Navya Shilpa
Jung Bettina
Khor Chiea-Chuen
Kiess Wieland
Kirsten Holger
Koenig Wolfgang
Kovacs Peter
Kramer Holly
Kronenberg Florian
Krämer Bernhard K.
Kähönen Mika
Körner Antje
Köttgen Anna
Lange Leslie A.
Langefeld Carl D.
Lee Jeannette Jen-Mai
Lehtimäki Terho
Li Man
Li Yong
Lieb Wolfgang
Lim Su-Chi
Lind Lars
Lindgren Cecilia M.
Liu Jianjun
Loeffler Markus
Lyytikäinen Leo-Pekka
Mahajan Anubha
Maranville Joseph C.
Marten Jonathan
Mascalzoni Deborah
McMullen Barbara
Meisinger Christa
Meitinger Thomas
Miliku Kozeta
Mook-Kanamori Dennis O.
Morris Andrew P.
Mychaleckyj Josyf C.
Müller-Nurasyid Martina
Nauck Matthias
Nikus Kjell
Ning Boting
Noce Damia
Noordam Raymond
Nutile Teresa
Olafsson Isleifur
Palmer Nicholette D.
Parsa Afshin
Pattaro Cristian
Pendergrass Sarah A.
Peters Annette
Podgornaia Anna I.
Ponte Belen
Poulain Tanja
Pramstaller Peter P.
Prins Bram P.
Psaty Bruce M.
Qiu Chengxiang
Rabelink Ton J.
Raffield Laura M.
Reilly Dermot F.
Rettig Rainer
Rheinberger Myriam
Rice Kenneth M.
Rivadeneira Fernando
Rotter Jerome I.
Runz Heiko
Ryan Kathleen A.
Sabanayagam Charumathi
Saum Kai-Uwe
Scholz Markus
Schöttker Ben
Sedaghat Sanaz
Shaffer Christian M.
Shi Yuan
Sieber Karsten B.
Smith Albert V.
Snieder Harold
Stefansson Kari
Strauch Konstantin
Stumvoll Michael
Sun Benjamin B.
Susztak Katalin
Sveinbjornsson Gardar
Szymczak Silke
Tai E-Shyong
Tan Nicholas Y. Q.
Taylor Kent D.
Tayo Bamidele O.
Teren Andrej
Teumer Alexander
Tham Yih-Chung
Thiery Joachim
Thio Chris H. L.
Thomsen Hauke
Thorsteinsdottir Unnur
Tin Adrienne
Tremblay Johanne
Tönjes Anke
Uitterlinden André G.
van der Harst Pim
van der Most Peter J.
Verweij Niek
Vogelezang Suzanne
Völker Uwe
Waldenberger Melanie
Wang Chaolong
Wang Lihua
Wilson James G.
Wilson Otis D.
Wong Charlene
Wong Tien-Yin
Wuttke Matthias
Xu Yizhe
Yang Qiong
Yasuda Masayuki
Yu Zhi
Ärnlöv Johan
Publication venue: Nature Communications
Publication date: 01/01/2019
Field of study

Abstract: Increased levels of the urinary albumin-to-creatinine ratio (UACR) are associated with higher risk of kidney disease progression and cardiovascular events, but underlying mechanisms are incompletely understood. Here, we conduct trans-ethnic (n = 564,257) and European-ancestry specific meta-analyses of genome-wide association studies of UACR, including ancestry- and diabetes-specific analyses, and identify 68 UACR-associated loci. Genetic correlation analyses and risk score associations in an independent electronic medical records database (n = 192,868) reveal connections with proteinuria, hyperlipidemia, gout, and hypertension. Fine-mapping and trans-Omics analyses with gene expression in 47 tissues and plasma protein levels implicate genes potentially operating through differential expression in kidney (including TGFB1, MUC1, PRKCI, and OAF), and allow coupling of UACR associations to altered plasma OAF concentrations. Knockdown of OAF and PRKCI orthologs in Drosophila nephrocytes reduces albumin endocytosis. Silencing fly PRKCI further impairs slit diaphragm formation. These results generate a priority list of genes and pathways for translational research to reduce albuminuria

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Dissertations of the University of Groningen

Genome-wide association meta-analyses and fine-mapping elucidate pathways influencing albuminuria

Author: Akilesh S. (Shreeram)
Bakker S.J.L. (Stephan)
Bansal N. (Nisha)
Baptista D. (Daniela)
Biggs M.L. (M.)
Bochud M. (Murielle)
Boerwinkle E.A. (Eric)
Brenner H. (Hermann)
Burkhardt R. (Ralph)
Butterworth A.S. (Adam S.)
Böger C.A. (Carsten)
Carroll R.J. (Robert J.)
Chai J.-F. (Jin-Fang)
Chee M.-L. (Miao-Li)
Chee M.-L. (Miao-Ling)
Chen M. (Mengmeng)
Cheng C.-Y. (Ching-Yu)
Chu A.Y. (Audrey Y)
Cocca M. (Massimiliano)
Connell J.O. (Jeffrey O')
Cook J.P. (James P.)
Coresh J. (Josef)
Corre T. (Tanguy)
Danesh J. (John)
de Borst M.H. (Martin H.)
de Vries A.P.J. (Aiko P J)
Degenhardt F. (Frauke)
Devuyst O. (Olivier)
Dittrich K. (Katalin)
Divers J. (Jasmin)
Eckardt K.-U. (Kai-Uwe)
Edwards T.L. (Todd L.)
Ehret G.B. (Georg)
Endlich K. (Karlhans)
Feitosa M.F. (Mary Furlan)
Felix J.F. (Janine)
Foo V.H.X. (Valencia Hui Xian)
Franco O.H. (Oscar)
Franke A. (Andre)
Freedman B.I. (Barry)
Freitag-Wolf S. (Sandra)
Fuchsberger C. (Christian)
Gansevoort R.T. (Ron)
Gerstner L. (Lea)
Ghasemi S. (Sahar)
Giedraitis V. (Vilmantas)
Giri A. (Ayush)
Gorski M. (Mathias)
Grandi A. (Alessandro) de
Grundner-Culemann F. (Franziska)
Gudbjartsson D.F. (Daniel)
Gudnason V. (Vilmundur)
Gögele M. (Martin)
Hamet P. (Pavel)
Harris T.B. (Tamara)
Harst P. (Pim) van der
Heid I.M. (Iris)
Hermle T. (Tobias)
Hicks A.A. (Andrew A.)
Ho K. (Kevin)
Holm H. (Hilma)
Hoppmann A. (Anselm)
Horn K. (Katrin)
Hung A.M. (Adriana M.)
Hwang S.-J. (Shih-Jen)
Ikram M.A. (Arfan)
Ingelsson E. (Erik)
Jaddoe V.W.V. (Vincent)
Jakobsdottir M. (Margret)
Josyula N.S. (Navya Shilpa)
Jung B. (Bettina)
Kao W.H.L. (Wen)
Khor C.C.
Kieß W. (Wieland)
Kirsten H. (Holger)
Koenig W. (Wolfgang)
Kovacs P. (Peter)
Kramer H. (Holly)
Kronenberg F. (Florian)
Krämer B.K. (Bernhard)
Kähönen M. (Mika)
Körner A. (Antje)
Köttgen A. (Anna)
Lange L.A. (Leslie)
Langefeld C.D. (Carl)
Lee J.J.-M. (Jeannette Jen-Mai)
Lehtimäki T. (Terho)
Li M. (Man)
Li Y. (Yong)
Lieb W. (Wolfgang)
Lim S.-C. (Su-Chi)
Lindgren C.M. (Cecilia M.)
Liu J. (Jianjun)
Loeffler M. (Markus)
Lyytikäinen L.-P. (Leo-Pekka)
Mahajan A. (Anubha)
Maranville J.C. (Joseph C.)
Marten J. (Jonathan)
Mascalzoni D. (Deborah)
McMullen B. (Barbara)
Meisinger C. (Christa)
Meitinger T. (Thomas)
Miliku K. (Kozeta)
Mook-Kanamori D.O. (Dennis O.)
Morris A.P. (Andrew)
Most P.J. (Peter) van der
Mutsert R. (Reneé) de
Mychaleckyj J.C. (Josyf)
Müller-Nurasyid M. (Martina)
Nauck M. (Matthias)
Nikus K. (Kjell)
Ning B. (Boting)
Noce D. (Damia)
Noordam R. (Raymond)
Nutile T. (Teresa)
Olafsson I. (Isleifur)
Palmer N.D. (Nicholette)
Parsa A. (Afshin)
Pendergrass S.A. (Sarah)
Penninx B.W.J.H.
Peters A. (Annette)
Podgornaia A.I. (Anna I.)
Ponte B. (Belen)
Poulain T. (Tanja)
Pramstaller P.P. (Peter Paul)
Prins B.P. (Bram Peter)
Psaty B.M. (Bruce)
Qiu C. (Chengxiang)
Rabelink T. (Ton)
Raffield L.M. (Laura M.)
Reilly D.F. (Dermot F.)
Rettig R. (Rainer)
Rheinberger M. (Myriam)
Rice K.M. (Kenneth)
Rivadeneira F. (Fernando)
Rotter J.I. (Jerome I.)
Runz H. (Heiko)
Ryan K.A. (Kathleen A.)
Sabanayagam C. (Charumathi)
Saum K.-U. (Kai-Uwe)
Scholz M. (Markus)
Schöttker B. (Ben)
Sedaghat S. (Sanaz)
Shaffer C.M. (Christian M.)
Shi Y. (Yuan)
Sieber K.B. (Karsten B.)
Smith A.V. (Albert)
Snieder H. (Harold)
Strauch K. (Konstantin)
Stumvoll M. (Michael)
Sun B.B. (Benjamin B.)
Susztak K. (Katalin)
Sveinbjornsson G. (Gardar)
Szymczak S. (Silke)
Tai E.-S. (E-Shyong)
Tan N.Y.Q. (Nicholas Y Q)
Taylor K.D. (Kent)
Tayo B. (Bamidele)
Teren A. (Andrej)
Teumer A. (Alexander)
Tham Y.-C. (Yih-Chung)
Thiery J. (Joachim)
Thio C.H.L. (Chris H L)
Thomsen H. (Hauke)
Thorsteinsdottir U. (Unnur)
Tin A. (Adrienne)
Tremblay J. (Johanne)
Tönjes A. (Anke)
Uitterlinden A.G. (André)
Verweij N. (Niek)
Vogelezang S.
Völker U. (Uwe)
Waldenberger M. (Melanie)
Wang C. (Chunliang)
Wang L. (Lihua)
Wilson J.F. (James)
Wilson O.D. (Otis D.)
Wong C. (Charlene)
Wong T.-Y. (Tien-Yin)
Wuttke M. (Matthias)
Xu Y. (Yizhe)
Yang Q. (Qiong)
Yasuda M. (Masayuki)
Yu Z. (Zhi)
Zwart J-A. (John-Anker)
Ärnlöv J. (Johan)
Publication venue: 'Springer Science and Business Media LLC'
Publication date: 11/09/2019
Field of study

Increased levels of the urinary albumin-to-creatinine ratio (UACR) are associated with higher risk of kidney disease progression and cardiovascular events, but underlying mechanisms are incompletely understood. Here, we conduct trans-ethnic (n = 564,257) and European-ancestry specific meta-analyses of genome-wide association studies of UACR, including ancestry- and diabetes-specific analyses, and identify 68 UACR-associated loci. Genetic correlation analyses and risk score associations in an independent electronic medical records database (n = 192,868) reveal connections with proteinuria, hyperlipidemia, gout, and hypertension. Fine-mapping and trans-Omics analyses with gene expression in 47 tissues and plasma protein levels implicate genes potentially operating through differential expression in kidney (including TGFB1, MUC1, PRKCI, and OAF), and allow coupling of UACR associations to altered plasma OAF concentrations. Knockdown of OAF and PRKCI orthologs in Drosophila nephrocytes reduces albumin endocytosis. Silencing fly PRKCI further impairs slit diaphragm formation. These results generate a priority list of genes and pathways for translational research to reduce albuminuria

Erasmus University Digital Repository

Genetic loci and prioritization of genes for kidney function decline derived from a meta-analysis of 62 longitudinal genome-wide association studies

Author: Ahluwalia Tarunveer S
Bakker Stephan J L
Banas Bernhard
Bansal Nisha
Bergler Tobias
Biggs Mary L
Biino Ginevra
Boerwinkle Eric
Bottinger Erwin P
Brenner Hermann
Brumpton Ben
Böger Carsten A
Böhnke Michael
Carroll Robert J
Chai Jin-Fang
Chaker Layal
Chalmers John
Chee Miao-Li
Chee Miao-Ling
Cheng Ching-Yu
Chu Audrey Y
Ciullo Marina
Cocca Massimiliano
Cook James P
Coresh Josef
Cusi Daniele
de Borst Martin H
Degenhardt Frauke
Eckardt Kai-Uwe
Endlich Karlhans
Evans Michele K
Feitosa Mary F
Franke Andre
Freitag-Wolf Sandra
Fuchsberger Christian
Gampawar Piyush
Gansevoort Ron T
Ghanbari Mohsen
Ghasemi Sahar
Giedraitis Vilmantas
Gieger Christian
Gorski Mathias
Graham Sarah E
Gudbjartsson Daniel F
Günther Felix
Hallan Stein
Hamet Pavel
Heid Iris M
Hishida Asahi
Ho Kevin
Hofer Edith
Holleczek Bernd
Holm Hilma
Hoppmann Anselm
Horn Katrin
Hutri-Kähönen Nina
Hveem Kristian
Hwang Shih-Jen
Ikram M Arfan
Josyula Navya Shilpa
Jung Bettina
Karabegović Irma
Khor Chiea-Chuen
Koenig Wolfgang
Kramer Holly
Kronenberg Florian
Krämer Bernhard K
Kuusisto Johanna
Kähönen Mika
Köttgen Anna
Kühnel Brigitte
Laakso Markku
Lange Leslie A
Lehtimäki Terho
Li Man
Li Yong
Lieb Wolfgang
Lifelines Cohort Study
Lind Lars
Lindgren Cecilia M
Loos Ruth J F
Lukas Mary Ann
Lyytikäinen Leo-Pekka
Mahajan Anubha
Matias-Garcia Pamela R
Meisinger Christa
Meitinger Thomas
Melander Olle
Milaneschi Yuri
Mishra Pashupati P
Mononen Nina
Morris Andrew P
Mychaleckyj Josyf C
Nadkarni Girish N
Naito Mariko
Nakatochi Masahiro
Nalls Mike A
Nauck Matthias
Nikus Kjell
Ning Boting
Nolte Ilja M
Nutile Teresa
O\u27Connell Jeffrey
O\u27Donoghue Michelle L
Olafsson Isleifur
Orho-Melander Marju
Parsa Afshin
Pattaro Cristian
Pendergrass Sarah A
Penninx Brenda W J H
Pirastu Mario
Preuss Michael H
Psaty Bruce M
Raffield Laura M
Raitakari Olli T
Rasheed Humaira
Rheinberger Myriam
Rice Kenneth M
Rizzi Federica
Rosenkranz Alexander R
Rossing Peter
Rotter Jerome I
Ruggiero Daniela
Ryan Kathleen A
Sabanayagam Charumathi
Salvi Erika
Schmidt Helena
Schmidt Reinhold
Scholz Markus
Schulz Christina-Alexandra
Schöttker Ben
Sedaghat Sanaz
Shaffer Christian M
Sieber Karsten B
Sim Xueling
Sims Mario
Snieder Harold
Stanzick Kira J
Stark Klaus J
Stefansson Kari
Stocker Hannah
Strauch Konstantin
Stringham Heather M
Sulem Patrick
Sveinbjornsson Gardar
Szymczak Silke
Taylor Kent D
Tayo Bamidele O
Teumer Alexander
Thio Chris H L
Thomas Laurent F
Thorsteinsdottir Unnur
Tin Adrienne
Tremblay Johanne
Vaccargiu Simona
van der Harst Pim
van der Most Peter J
Verweij Niek
Völker Uwe
Wakai Kenji
Waldenberger Melanie
Wallentin Lars
Wallner Stefan
Wang Judy
Waterworth Dawn M
White Harvey D
Willer Cristen J
Winkler Thomas W
Wong Tien-Yin
Woodward Mark
Wuttke Matthias
Yang Qiong
Yerges-Armstrong Laura M
Zimmermann Martina
Zonderman Alan B
Ärnlöv Johan
Åsvold Bjørn Olav
Publication venue: 'Elsevier BV'
Publication date: 01/01/2022
Field of study

Estimated glomerular filtration rate (eGFR) reflects kidney function. Progressive eGFR-decline can lead to kidney failure, necessitating dialysis or transplantation. Hundreds of loci from genome-wide association studies (GWAS) for eGFR help explain population cross section variability. Since the contribution of these or other loci to eGFR-decline remains largely unknown, we derived GWAS for annual eGFR-decline and meta-analyzed 62 longitudinal studies with eGFR assessed twice over time in all 343,339 individuals and in high-risk groups. We also explored different covariate adjustment. Twelve genome-wide significant independent variants for eGFR-decline unadjusted or adjusted for eGFR-baseline (11 novel, one known for this phenotype), including nine variants robustly associated across models were identified. All loci for eGFR-decline were known for cross-sectional eGFR and thus distinguished a subgroup of eGFR loci. Seven of the nine variants showed variant-by-age interaction on eGFR cross section (further about 350,000 individuals), which linked genetic associations for eGFR-decline with age-dependency of genetic cross-section associations. Clinically important were two to four-fold greater genetic effects on eGFR-decline in high-risk subgroups. Five variants associated also with chronic kidney disease progression mapped to genes with functional in-silico evidence (UMOD, SPATA7, GALNTL5, TPPP). An unfavorable versus favorable nine-variant genetic profile showed increased risk odds ratios of 1.35 for kidney failure (95% confidence intervals 1.03-1.77) and 1.27 for acute kidney injury (95% confidence intervals 1.08-1.50) in over 2000 cases each, with matched controls). Thus, we provide a large data resource, genetic loci, and prioritized genes for kidney function decline, which help inform drug development pipelines revealing important insights into the age-dependency of kidney function genetics

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New loci for body fat percentage reveal link between adiposity and cardiometabolic disease risk

Author: Afzal Uzma
Ahluwalia Tarunveer Singh
Bakker Stephan J. L.
Bataille Veronique
Bellis Claire
Bennett David A.
Bertram Lars
Bishop D. Timothy
Bishop Julia A. N.
Blangero John
Bluher Matthias
Boehnke Michael
Boettcher Yvonne
Bonnefond Amelie
Borecki Ingrid B.
Borodulin Katja
Bouchard Claude
Buchkovich Martin L.
Buchman Aron S.
Campbell Harry
Cederholm Tommy
Chambers John C.
Cho Nam H.
Choh Audrey C.
Choi Hyung Jin
Cooper Richard S.
Cousminer Diana L.
Cummings Steven R.
Cupples L. Adrienne
Curran Joanne E.
Czerwinski Stefan A.
Dastani Zari
Day Felix R.
de Groot Lisette C. P. G. M.
De Jager Philip L.
Dehghan Abbas
Deloukas Panos
Demirkan Ayse
Demuth Ilja
Dhonukshe-Rutten Rosalie A. M.
Doring Angela
Drong Alexander W.
Eckardt Rahel
Enneman Anke W.
Eriksson Johan G.
Esko Tonu
Eury Elodie
Evans Daniel S.
Evans David M.
Falchi Mario
Fatemifar Ghazaleh
Feitosa Mary F.
Ferreira Teresa
Ferrucci Luigi
Forouhi Nita G.
Forrester Terrence
Forsen Tom
Fox Caroline
Franco Oscar H.
Franke Lude
Friedrich Nele
Froguel Philippe
Fumeron Frederic
Furey Terrence S.
Gansevoort Ron T.
Garcia Melissa E.
Gartner Simone
Gieger Christian
Grallert Harald
Grarup Niels
Gudnason Vilmundur
Gustafsson Stefan
Han Bok-Ghee
Han Jiali
Hansen Torben
Haring Robin
Harris Tamara B.
Hastie Nicholas
Havulinna Aki S.
Hayward Caroline
Hedman Asa K.
Heliovaara Markku
Hernandez Dena
Hillege Hans
Hingorani Aroon
Hirschhorn Joel N.
Hofman Albert
Hunter David J.
Hysi Pirro G.
Iles Mark M.
Ingelsson Erik
Ittermann Till
Jackson Anne U.
Jordan Joanne M.
Jorgensen Torben
Jousilahti Pekka
Jula Antti
Justice Anne E.
Kahonen Mika
Kajantie Eero
Kanoni Stavroula
Kaplan Robert C.
Karjalainen Juha
Karpe Fredrik
Kent Jack W.
Kiel Douglas P.
Kilpelainen Tuomas Oskari
Kivimaki Mika
Knekt Paul B.
Kolcic Ivana
Kooner Jaspal S.
Koskinen Seppo
Kovacs Peter
Kristiansson Kati
Kuhnel Brigitte
Kumari Meena
Kuulasmaa Teemu
Kuusisto Johanna
Laakso Markku
Laatikainen Tiina
Lagou Vasiliki
Lahti Jari
Langenberg Claudia
Leach Irene Mateo
Lee Christine G.
Lee Jong-Young
Lehtimaki Terho
Li Rui
Li Xin
Lichtner Peter
Lind Lars
Lindgren Cecilia
Linneberg Allan
Liu Tian
Liu Yongmei
Liu Youfang
Lobbens Stephane
Locke Adam
Loh Marie
Loos Ruth J. F.
Lu Chen
Lu Yingchang
Luan Jian'an
Luke Amy
Lyytikainen Leo-Pekka
Magi Reedik
Mahajan Anubha
Mangino Massimo
Mannisto Satu
McCarthy Mark I.
Mckenzie Colin A.
Mcknight Barbara
Medina-Gomez Carolina
Menni Cristina
Michaelsson Karl
Mohlke Karen L.
Morris Andrew P.
Murabito Joanne M.
Na Jianbo
Nalls Mike A.
Narancic Nina Smolej
Nielson Carrie M.
North Kari E.
O'Connell Jeffrey R.
Ohlsson Claes
Ong Ken K.
Oostra Ben A.
Oozageer Laticia
Orwoll Eric S.
Osmond Clive
Palmer Cameron D.
Palotie Aarno
Pascoe Laura
Paternoster Lavinia
Pedersen Oluf
Pellikka Niina
Perola Markus
Perry John R. B.
Pers Tune H.
Perusse Louis
Peters Annette
Polasek Ozren
Pospisilik John Andrew
Prokopenko Inga
Qi Qibin
Raitakari Olli T.
Rankinen Tuomo
Rao D. C.
Rice Treva K.
Richards J. Brent
Ried Janina S.
Ripatti Samuli
Rivadeneira Fernando
Rudan Igor
Salomaa Veikko
Sanna Marianna
Sarzynski Mark A.
Schadt Eric E.
Schmidt Ellen M.
Scott Robert A.
Scott William R.
Shin Chan Soo
Shuldiner Alan R.
Shungin Dmitry
Song Kijoung
Sorensen Thorkild I. A.
Spector Tim D.
Spira Dominik
Srikanth Priya
Stancakova Alena
Steinhagen-Thiessen Elisabeth
Strauch Konstantin
Stumvoll Michael
Sung Yun Ju
Swart Karin M. A.
Taittonen Leena
Tanaka Toshiko
Tayo Bamidele O.
Teumer Alexander
Tikkanen Emmi
Tonjes Anke
Towne Bradford
Tranah Gregory J.
Tremblay Angelo
Uitterlinden Andre G.
van der Harst Pim
van der Velde Nathalie
van Duijn Cornelia M.
van Schoor Natasja M.
Vandenput Liesbeth
Vartiainen Erkki
Verweij Niek
Viikari Jorma S.
Vinkhuyzen Anna A. E.
Vitart Veronique
Vohl Marie-Claude
Vollenweider Peter
Volzke Henry
Wagner Peter J.
Walker Mark
Walker Ryan W.
Wallaschofski Henri
Wareham Nicholas J.
Westra Harm-Jan
White Charles C.
Widen Elisabeth
Wild Sarah
Willer Cristen J.
Wilson James F.
Wright Alan F.
Yang Jian
Yengo Loic
Yu Lei
Zhang Mingfeng
Zhang Weihua
Zhao Jing Hua
Zhu Zhihong
Zillikens M. Carola
Zmuda Joseph M.
Publication venue
Publication date: 01/01/2016
Field of study

To increase our understanding of the genetic basis of adiposity and its links to cardiometabolic disease risk, we conducted a genome-wide association meta-analysis of body fat percentage (BF%) in up to 100,716 individuals. Twelve loci reached genome-wide significance (P <5 x 10(-8)), of which eight were previously associated with increased overall adiposity (BMI, BF%) and four (in or near COBLL1/GRB14, IGF2BP1, PLA2G6, CRTC1) were novel associations with BF%. Seven loci showed a larger effect on BF% than on BMI, suggestive of a primary association with adiposity, while five loci showed larger effects on BMI than on BF%, suggesting association with both fat and lean mass. In particular, the loci more strongly associated with BF% showed distinct cross-phenotype association signatures with a range of cardiometabolic traits revealing new insights in the link between adiposity and disease risk.Peer reviewe

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