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endothelium (29) 29
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mesenteric arteries - drug effects (24) 24
blood flow (23) 23
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mesenteric arteries - physiology (22) 22
nitric oxide (21) 21
rats, wistar (21) 21
vasodilation (21) 21
oxidative stress (20) 20
vascular resistance (20) 20
cardiology and cardiovascular system (18) 18
nitric-oxide (18) 18
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physiology (16) 16
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[sdv.mhep.csc]life sciences [q-bio]/human health and pathology/cardiology and cardiovascular system (14) 14
mice lacking (13) 13
myogenic tone (13) 13
shear stress (13) 13
signal transduction (13) 13
stress, mechanical (13) 13
vasodilation - physiology (13) 13
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activation (12) 12
humans (12) 12
in vitro techniques (12) 12
vasoconstriction - drug effects (12) 12
endothelium, vascular - physiology (11) 11
enzyme inhibitors - pharmacology (11) 11
nitric oxide synthase type iii - metabolism (11) 11
phosphorylation (11) 11
regional blood flow (11) 11
vascular resistance - drug effects (11) 11
angiotensin-ii (10) 10
article (10) 10
blood pressure - physiology (10) 10
endothelium, vascular - drug effects (10) 10
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mesenteric arteries - physiopathology (10) 10
nitric-oxide synthase (10) 10
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shear-stress (10) 10
spontaneously hypertensive-rats (10) 10
vascular resistance - physiology (10) 10
vascular smooth-muscle (10) 10
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acetylcholine (9) 9
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disease models, animal (9) 9
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mesenteric arteries (9) 9
mesenteric arteries - pathology (9) 9
microcirculation (9) 9
ng-nitroarginine methyl ester - pharmacology (9) 9
pharmacology (9) 9
phenylephrine - pharmacology (9) 9
reactive oxygen species - metabolism (9) 9
rodents (9) 9
aging (8) 8
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antiphospholipid syndrome (7) 7
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dose-response relationship, drug (7) 7
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Blood, ISSN 0006-4971, 06/2015, Volume 125, Issue 24, pp. 3805 - 3814
Journal Article
Nature Medicine, ISSN 1078-8956, 02/2010, Volume 16, Issue 2, pp. 183 - 190
Journal Article
by Belizna, Cristina and Pregnolato, Francesca and Abad, Sebastien and Alijotas-Reig, Jaume and Amital, Howard and Amoura, Zahir and Andreoli, Laura and Andres, Emmanuel and Aouba, Achile and Apras Bilgen, Sule and Arnaud, Laurent and Bienvenu, Boris and Bitsadze, Viktoria and Blanco, Patrick and Blank, Miri and Borghi, Maria Orietta and Caligaro, Antonia and Candrea, Elisabeta and Canti, Valentina and Chiche, Laurent and Chretien, Jean Marie and Cohen Tervaert, Jan Willem and Damian, Laura and Delross, Teresa and Dernis, Emmanuelle and Devreese, Katrien and Djokovic, Aleksandra and Esteve-Valverde, Enrique and Favaro, Maria and Fassot, Céline and Ferrer-Oliveras, Raquel and Godon, Alban and Hamidou, Mohamed and Hasan, Milena and Henrion, Daniel and Imbert, Bernard and Jeandel, Pierre Yves and Jeannin, Pascale and Jego, Patrick and Jourde-Chiche, Noemie and Khizroeva, Jamilya and Lambotte, Olivier and Landron, Cédric and Latino, Jose Omar and Lazaro, Estibaliz and de Leeuw, Karina and Le Gallou, Thomas and Kiliç, Levent and Limper, Maarten and Loufrani, Laurent and Lubin, Romain and Magy-Bertrand, Nadine and Mahe, Guillaume and Makatsariya, Alexander and Martin, Thierry and Muchardt, Christian and Nagy, Gyorgy and Omarjee, Loukman and Van Paasen, Pieter and Pernod, Gilles and Perrinet, Florence and Pïres Rosa, Gilberto and Pistorius, Marc Antoine and Ruffatti, Amelia and Said, Fatma and Saulnier, Patrick and Sene, Damien and Sentilhes, Loic and Shovman, Ova and Sibilia, Jean and Sinescu, Crina and Stanisavljevic, Natasa and Stojanovich, Ljudmila and Tam, Lai Shan and Tincani, Angela and Tollis, Fréderic and Udry, Sebastian and Ungeheuer, Marie Noelle and Versini, Mathilde and Cervera, Ricard and Meroni, Pier Luigi
Autoimmunity Reviews, ISSN 1568-9972, 12/2018, Volume 17, Issue 12, pp. 1153 - 1168
Journal Article
Journal Article
PLoS ONE, ISSN 1932-6203, 10/2016, Volume 11, Issue 10, p. e0164066
Background Recent data suggests the involvement of mitochondrial dynamics in cardiac ischemia/reperfusion (I/R) injuries. Whilst excessive mitochondrial... 
DOMINANT OPTIC ATROPHY | INHIBITION | OPA1 | MULTIDISCIPLINARY SCIENCES | HEART-FAILURE | SARCOPLASMIC-RETICULUM | VENTRICULAR MYOCYTES | CARDIOMYOCYTES | AFTERDEPOLARIZATIONS | CA2+ TRANSIENTS | MITOCHONDRIAL FISSION | Mitochondrial Dynamics | Mitochondrial Membrane Transport Proteins - metabolism | Sarcoplasmic Reticulum Calcium-Transporting ATPases - metabolism | Mitochondria, Heart - metabolism | Calcium - metabolism | Homeodomain Proteins - metabolism | Homeodomain Proteins - genetics | Mitochondrial Membrane Transport Proteins - genetics | Myocardial Reperfusion Injury - metabolism | Animals | GTP Phosphohydrolases - metabolism | GTP Phosphohydrolases - genetics | Mice, Mutant Strains | Myocytes, Cardiac - metabolism | Mice | Mitochondria, Heart - genetics | Sarcoplasmic Reticulum Calcium-Transporting ATPases - genetics | Myocardial Reperfusion Injury - genetics | Disease Models, Animal | Heart | Cardiac arrhythmia | Phosphorylation | Calcium | Arrhythmia | Mitochondrial permeability transition pore | Membrane permeability | Action potential | Mitochondrial DNA | Calcium influx | Fission | Ca2+-transporting ATPase | Proteins | Signal transduction | Na+/Ca2+-exchanging ATPase | Mitochondria | Reperfusion | Ischemia | Sarcoplasmic reticulum | Rodents | Fusion protein | Heart diseases | Injuries | Membrane fusion | Echocardiography | Cardiac muscle | Cardiomyocytes | Phospholamban | Permeability | Calcium permeability | Calcium (mitochondrial) | Oxidative phosphorylation | Myocardium | Protein expression | MPTP | Ventricle | Mutation | Calcium (reticular) | Apoptosis | Life Sciences
Journal Article
Journal Article
PLoS ONE, ISSN 1932-6203, 01/2016, Volume 11, Issue 1, p. e0146830
Epidemiologic studies have demonstrated that cardiovascular risk is not only determined by conventional risk factors in adulthood, but also by early life... 
PROSTACYCLIN RECEPTOR | ENDOTHELIAL DYSFUNCTION | MULTIDISCIPLINARY SCIENCES | CARDIOVASCULAR-DISEASE | RENAL-FUNCTION | NITRIC-OXIDE | MYOGENIC TONE | MECHANICAL-PROPERTIES | VASCULAR SMOOTH-MUSCLE | MICE LACKING | BLOOD-PRESSURE | Animals, Newborn | Blood Pressure | Microvessels - physiopathology | Epoprostenol - metabolism | Body Weight | Mesenteric Arteries - physiopathology | Vasoconstriction | Hyperglycemia - complications | Mesenteric Arteries - pathology | Microvessels - pathology | Prenatal Exposure Delayed Effects - physiopathology | Rats, Sprague-Dawley | Vasodilation | Pregnancy | Animals | Diabetes Mellitus, Experimental - pathology | Female | In Vitro Techniques | Prenatal Exposure Delayed Effects - pathology | Diabetes Mellitus, Experimental - physiopathology | Hypertension | Complications and side effects | Hyperglycemia | Care and treatment | Pregnant women | Physiological aspects | Mesentery | Health aspects | Risk factors | Protein kinase A | Heart | Phosphorylation | Smooth muscle | Cardiovascular disease | Prostacyclin | Kinases | Epidemiology | Arteries | Rodents | Blood pressure | Diabetes mellitus | Fetuses | Health risks | Rats | RhoA protein | Risk analysis | Blood flow | Endothelium | Studies | Sodium nitroprusside | Progeny | Offspring | Sodium | Acetylcholine | Microvasculature | Diabetes | Laboratory animals | Cardiovascular diseases | Veins & arteries | Life Sciences | Human health and pathology | Cardiology and cardiovascular system
Journal Article
by Belizna, Cristina and Pregnolato, Francesca and Abad, Sébastien and Alijotas-Reig, Jaume and Amital, Howard and Amoura, Zahir and Andreoli, Laura and Andres, Emmanuel and Aouba, Achile and Apras Bilgen, Sule and Arnaud, Laurent and Bienvenu, Boris and Bitsadze, Viktoria and Blanco, Patrick and Blank, Miri and Borghi, Maria Orietta and Caligaro, Antonia and Candrea, Elisabeta and Canti, Valentina and Chiche, Laurent and Chrétien, Jean Marie and Cohen Tervaert, Jan Willem and Damian, Laura and Delross, Teresa and Dernis, Emmanuelle and Devreese, Katrien and Djokovic, Aleksandra and Esteve-Valverde, Enrique and Favaro, Maria and Fassot, Céline and Ferrer-Oliveras, Raquel and Godon, Alban and Hamidou, Mohamed A and Hasan, Milena and Henrion, Daniel and Imbert, Bernard and Jeandel, Pierre Yves and Jeannin, Pascale and Jego, Patrick and Jourde-Chiche, Noemie and Khizroeva, Jamilya and Lambotte, Olivier and Landron, Cédric and Latino, Jose Omar and Lazaro, Estibaliz and de Leeuw, Karina and Le Gallou, Thomas and Kilic, Levent and Limper, Maarten and Loufrani, Laurent and Lubin, Romain and Magy-Bertrand, Nadine and Mahé, Guillaume and Makatsariya, Alexander and Martin, Thierry and Muchardt, Christian and Nagy, Gyorgy and Omarjee, Loukman and Van Paasen, Pieter and Pernod, Gilles and Perrinet, Florence and Pïres Rosa, Gilberto and Pistorius, Marc Antoine and Ruffatti, Amelia and Said, Fatma and Saulnier, Patrick and Sene, Damien and Sentilhes, Loïc and Shovman, Ova and Sibilia, Jean and Sinescu, Crina and Stanisavljevic, Natasa and Stojanovich, Ljudmila and Tam, Lai Shan and Tincani, Angela and Tollis, Fréderic and Udry, Sebastian and Ungeheuer, Marie Noelle and Versini, Mathilde and Cervera, Ricard and Meroni, Pier Luigi
Autoimmunity Reviews, ISSN 1568-9972, 12/2018, Volume 17, Issue 12, pp. 1153 - 1168
Journal Article
Microvascular Research, ISSN 0026-2862, 03/2019, Volume 122, pp. 13 - 21
Journal Article
Arteriosclerosis, Thrombosis, and Vascular Biology, ISSN 1079-5642, 02/2007, Volume 27, Issue 2, pp. 317 - 324
OBJECTIVE—Blood flow is altered in metabolic and ischemic diseases with dramatic consequences. Resistance arteries structure and function remodel in response... 
Matrix metalloproteases | Nitric oxide | Shear stress | Microcirculation (resistance arteries) | Remodeling | Blood flow | Endothelium | MICROVASCULAR ADAPTATION | endothelium | remodeling | nitric oxide | NITRIC-OXIDE SYNTHASE | CAROTID-ARTERY | matrix metalloproteases | ENLARGEMENT | MICE LACKING | shear stress | STRUCTURAL-CHANGES | microcirculation (resistance arteries) | IN-VIVO | PERIPHERAL VASCULAR DISEASE | HYPERTENSION | HEMATOLOGY | blood flow | EXPRESSION | MOLECULAR-MECHANISMS | Antihypertensive Agents - pharmacology | Mesenteric Arteries - physiology | Rats, Wistar | Matrix Metalloproteinase 2 - physiology | Mesenteric Arteries - pathology | Male | Mesenteric Arteries - drug effects | Vascular Resistance - physiology | Perindopril - pharmacology | Microcirculation | Matrix Metalloproteinase 9 - metabolism | Regional Blood Flow - drug effects | Matrix Metalloproteinase 9 - genetics | Nitric Oxide Synthase Type III - metabolism | NG-Nitroarginine Methyl Ester - pharmacology | Enzyme Inhibitors - pharmacology | Rats | Mice, Transgenic | Nitric Oxide - physiology | Nitric Oxide Synthase Type III - genetics | Vasoconstriction - drug effects | Gene Expression Regulation - drug effects | Matrix Metalloproteinase 2 - genetics | Animals | Matrix Metalloproteinase Inhibitors | Doxycycline - pharmacology | Signal Transduction - physiology | Mice | Regional Blood Flow - physiology | Hypertrophy | Enzyme Inhibitors | pathology | Transgenic | genetics | pharmacology | Antihypertensive Agents | Vascular Resistance | Signal Transduction | Matrix Metalloproteinase 2 | Gene Expression Regulation | NG-Nitroarginine Methyl Ester | Nitric Oxide Synthase Type III | Vasoconstriction | physiology | drug effects | Nitric Oxide | Regional Blood Flow | antagonists & inhibitors | Doxycycline | Wistar | Mesenteric Arteries | metabolism | Perindopril | Matrix Metalloproteinase 9
Journal Article