Regional fibre stress-fibre strain area as an estimate of regional blood flow and oxygen demand in the canine heart. - Wikidata - awgldk - TriplyDB

Regional fibre stress-fibre strain area as an estimate of regional blood flow and oxygen demand in the canine heart.

Regional fibre stress-fibre strain area as an estimate of regional blood flow and oxygen demand in the canine heart.

http://www.wikidata.org/entity/Q42694072

about

The "missing" link between acute hemodynamic effect and clinical response Left-ventricular structure in the Southall And Brent REvisited (SABRE) study: explaining ethnic differences The role of the Frank-Starling law in the transduction of cellular work to whole organ pump function: a computational modeling analysis.Mapping of regional myocardial strain and work during ventricular pacing: experimental study using magnetic resonance imaging tagging.Heterogeneities in myocardial flow and metabolism: exacerbation with abnormal excitation The mechanical and metabolic basis of myocardial blood flow heterogeneity.Timing and magnitude of systolic stretch affect myofilament activation and mechanical work Analyses of the redistribution of work following cardiac resynchronisation therapy in a patient specific model.Cardiac pressure overload hypertrophy is differentially regulated by β-adrenergic receptor subtypes.Fast Simulation of Mechanical Heterogeneity in the Electrically Asynchronous Heart Using the MultiPatch Module.Cross-Bridge Group Ensembles Describing Cooperativity in Thermodynamically Consistent Way.A novel clinical method for quantification of regional left ventricular pressure-strain loop area: a non-invasive index of myocardial work.Remodeling of left circumflex coronary arterial tree in pacing-induced heart failure.Imaging asynchronous mechanical activation of the paced heart with tagged MRI The right ventricular outflow tract: the road to septal pacing.Evaluation of Long Term Effect of RV Apical Pacing on Global LV Function by Echocardiography Effects of Epicardial and Endocardial Cardiac Resynchronization Therapy on Coronary Flow: Insights From Wave Intensity Analysis.Physiology of biventricular pacing.Mechano-energetics of the asynchronous and resynchronized heart.The role of echocardiography in quantification of left ventricular dyssynchrony: state of the art and future directions.Right ventricular pacing, mechanical dyssynchrony, and heart failure.Pathophysiology of dyssynchrony: of squirrels and broken bones.Abnormal cardiac wall motion and early matrix metalloproteinase activity.Reduction of right ventricular pacing in patients with sinus node dysfunction through programming a long atrioventricular delay along with the DDIR mode.Mechanoelectric feedback as a trigger mechanism for cardiac electrical remodeling: a model study.Prognosis of patients with implanted pacemakers in 4‑year follow-up : Impact of right ventricular pacing site.Pacing to reduce refractory angina in patients with severe coronary artery disease: a crossover pilot trial.Deleterious acute and chronic effects of bradycardic right ventricular apex pacing: consequences for arrhythmic outcome.Redistribution of left ventricular strain by cardiac resynchronization therapy in heart failure patients.Left-ventricular shape determines intramyocardial mechanical heterogeneity.Wall thickness referenced to myocardial volume: a new noninvasive framework for cardiac mechanics.Global myocardial function, regional myocardial function, and the Daemon of Laplace.Effects of pacing rates on global and regional myocardial blood flow.Influence of left ventricular lead position relative to scar location on response to cardiac resynchronization therapy: a model study.Honing in on optimal ventricular pacing sites: an argument for his bundle pacing.Wall stress misrepresents afterload in children and young adults with abnormal left ventricular geometry.Short-Term Effects of Right Ventricular Pacing on Cardiorespiratory Function in Patients With a Biventricular Pacemaker

P2860

Q26824618-05AB43EC-B37F-45A1-8C04-B36F586551AE Q30435284-0CB3BF69-4098-4B3A-A866-02458E005DDD Q33434464-07ABCA80-7BE3-46A3-B6D0-B301DF8A995C Q33862641-60A34D35-7364-411C-85D0-17698947332E Q33883046-BFB9BE31-F1EF-4DB5-9F17-5252713EA4E0 Q33884416-386B2004-63E8-4EC8-9E48-3F9B1EB0793B Q34276494-489449E3-52D8-4085-AB5A-AF12CE6B26A1 Q34405252-55112337-CAB6-45B4-8817-5DFCB8B3A4B9 Q35395744-A559E9BA-5C0F-403F-8F64-E3F35B607CC8 Q35708479-8B0C115E-6F13-47B2-9D58-42972E20D96A Q35771046-4F27CB94-982B-4D74-B0D1-A241260D4B73 Q35830173-5456ABED-9ED0-453A-9C79-A2A1075CCBC9 Q35960066-9F14690A-1204-486D-B261-36D3EF7D5714 Q36315981-31096C4E-D906-4F27-95B7-BABD3FC2FC8C Q36793201-0B8CCECD-16F1-4209-AE10-144542D154FD Q36831091-80452264-887B-488B-BF86-06A6573C8227 Q36836456-125953C9-BE78-43F5-9913-28975B11FB06 Q36945236-D09CE9CF-5D16-44C7-9016-9842B6891AF1 Q37811952-F0049713-5C35-48B1-86CD-C68B9A03BC04 Q37957537-005DB4DF-F4F5-41A0-AB2B-39A40FA9D0C6 Q37970622-7056C6DC-1101-4BEE-8EC6-7ADE4FEEFF1E Q43114661-B9A9CEDB-BDFC-4709-887E-D73A494E2CFE Q45107982-182B86B9-1690-44B9-ABFB-1FD4841C3783 Q47297775-D3517D2F-87A2-4F07-8C32-0DEDEADC9A7F Q47358765-105EB19A-F4A5-47C4-91B4-CAEF6BDBA6E4 Q47797941-5DA2D006-D332-41C9-A50C-27E3965235DB Q48558332-4480DCEB-316D-4028-B2F5-3FCA849F3DDD Q50580251-F44AC027-C533-4CEA-B28C-279C4B32103B Q50691824-FF9677DB-21D7-498A-956C-FC0679D525B4 Q51528919-ABE37D18-48E8-4985-9E19-DB28E5BAFFC4 Q52209270-E173B9AF-653F-4770-BB80-70144A4A0039 Q52983648-75915DE2-F13D-4D6F-A82A-6350CDD0D0AE Q53223298-CB2231BA-1727-4D5A-A870-FEBDE96448D4 Q53399777-DE434298-21DA-41B5-B35E-3999F4D34131 Q53576115-E91DA2CB-3773-4BB4-9B84-A3AB04AC9E79 Q53979742-566B291C-6257-48B2-9F16-0BE0DEAE8477 Q57914148-9B258CA1-1FD1-4402-9E25-0C10B1CBEE2D

P2860

Regional fibre stress-fibre strain area as an estimate of regional blood flow and oxygen demand in the canine heart.

http://www.wikidata.org/entity/Q42694072

description

1994 nî lūn-bûn

@nan

1994年の論文

@ja

1994年論文

@yue

1994年論文

@zh-hant

1994年論文

@zh-hk

1994年論文

@zh-mo

1994年論文

@zh-tw

1994年论文

@wuu

1994年论文

@zh

1994年论文

@zh-cn

name

Regional fibre stress-fibre st ...... en demand in the canine heart.

@en

Regional fibre stress-fibre st ...... en demand in the canine heart.

@nl

type

label

Regional fibre stress-fibre st ...... en demand in the canine heart.

@en

Regional fibre stress-fibre st ...... en demand in the canine heart.

@nl

prefLabel

Regional fibre stress-fibre st ...... en demand in the canine heart.

@en

Regional fibre stress-fibre st ...... en demand in the canine heart.

@nl

P1433

Q42694072-B2F497BE-B1A2-4200-9E03-CF41B4668BF9

P1476

Q42694072-438030AA-4546-453D-ADB5-B86733C8427D

P2093

Q42694072-440CEF70-5F1F-4724-8660-D23C94D7C92C

Q42694072-8A37C94F-EDD3-46B7-9A49-3E1A636E785D

Q42694072-C3BB260D-0C18-4E4F-A1A3-B24AFB030781

P304

Q42694072-370DE902-65C7-4AAD-A798-D208389CE341

P31

Q42694072-EC508EC3-B6C7-4334-9A54-A4146EE9FA40

P356

Q42694072-CA5C7EA0-9447-4F01-81C5-BF4DFEC4654B

P407

Q42694072-0ACB50CD-0E9D-447D-B175-26F14DFE1936

P478

Q42694072-4C86C687-8272-40DB-9CD0-E4ADAA38B83C

P50

Q42694072-7D2C000B-DA43-4854-9196-D490CF63FBAC

P577

Q42694072-BC28695F-1616-449C-B069-BB34C45903CF

P5875

Q42694072-7001BF13-35D2-4068-A8F5-3B55410005E5

P698

Q42694072-FC7C4B37-383C-45BC-AA6D-04C7481AF534

P356

JPHYSIOL.1994.SP020209

P1433

The Journal of Physiology

P1476

Regional fibre stress-fibre st ...... en demand in the canine heart.

@en

P2093

Arts T

http://www.w3.org/2001/XMLSchema#string

Prinzen FW

http://www.w3.org/2001/XMLSchema#string

Reneman RS

http://www.w3.org/2001/XMLSchema#string

P304

481-496

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1113/JPHYSIOL.1994.SP020209

http://www.w3.org/2001/XMLSchema#string

P407

P478

477 ( Pt 3)

http://www.w3.org/2001/XMLSchema#string

P50

P577

1994-06-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

15267473

http://www.w3.org/2001/XMLSchema#string

P698

7932236

http://www.w3.org/2001/XMLSchema#string