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1 es in energy production, and improvements in contractile function.
2 sulting in subsequent improvement of cardiac contractile function.
3 al stress throughout life to maintain proper contractile function.
4 ons of NO exert purely inhibitory effects on contractile function.
5 in modulations of myocardial energetics and contractile function.
6 iling heart to revive the myocardium and its contractile function.
7 pathways important for energy metabolism and contractile function.
8 LM, and correlates with impaired post-anoxia contractile function.
9 roduction then inhibits all other aspects of contractile function.
10 , maintaining ventricular wall thickness and contractile function.
11 tes sarcomere assembly, and promotes cardiac contractile function.
12 e and lipid metabolism, energy transfer, and contractile function.
13 ascular load than IPAH and leads to worse RV contractile function.
14 ee of pathological remodeling, and preserves contractile function.
15 acellular cAMP but minimally affects cardiac contractile function.
16 d cytoskeletal dynamics in the regulation of contractile function.
17 soforms that is essential for tuning cardiac contractile function.
18 g to balance myocardial substrate supply and contractile function.
19 ophy, left ventricular dilation, and reduced contractile function.
20 umption was proportionate to the increase in contractile function.
21 ncreasing SERCA activity results in enhanced contractile function.
22 essential for normal cardiac respiratory and contractile function.
23 (LDH) release and infarct size and improved contractile function.
24 y effects of genetic manipulation on cardiac contractile function.
25 mide does not limit left ventricular chamber contractile function.
26 of genetic and extrinsic factors to maintain contractile function.
27 cription, signaling, growth, metabolism, and contractile function.
28 (d) improved myocyte calcium transients and contractile function.
29 AP-targeted PKA in control of heart rate and contractile function.
30 remodeling, as well as greater depression of contractile function.
31 ceptor signalling and the impacts on cardiac contractile function.
32 erobic metabolism, which collectively impair contractile function.
33 P mice reflects impaired ventricular myocyte contractile function.
34 anoids, thereby restoring ENS cell types and contractile function.
35 l-D-glucosamine (GlcNAc) may regulate muscle contractile function.
36 r perfusion, reduced apoptosis, and improved contractile function.
37 heir potential role in regulating myocardial contractile function.
38 significantly improving muscle histology and contractile function.
39 ltered PKD activity in disease may impact on contractile function.
40 than 3 months of age despite preservation of contractile function.
41 dose-dependent effects on basal and dynamic contractile function.
42 ations in intracellular calcium handling and contractile function.
43 ing produced cardiac hypertrophy and reduced contractile function.
44 e expense of an attenuated level of regional contractile function.
45 accompanied by time-dependent restoration of contractile function.
46 e apoptosis and thereby preserves myocardial contractile function.
47 es may also partly contribute to the altered contractile function.
48 een associated with abnormalities in cardiac contractile function.
49 ropometric measurements and left ventricular contractile function.
50 nner consistent with impaired relaxation and contractile function.
51 stress modulates trabeculation to influence contractile function.
52 comere shortening and reduced in vivo atrial contractile function.
53 rgy in the form of ATP to support persistent contractile function.
54 ly significant parasympathetic control of LV contractile function.
55 in the heart directly correlate with cardiac contractile function.
56 ormationally sensitive regions that underlie contractile function.
57 nergetics to cardiac myocyte and whole-heart contractile function.
58 y role in the regulation of normal PVAT anti-contractile function.
59 role of oxygen in the regulation of cardiac contractile function.
60 han wild-type mice but unexpectedly enhanced contractile function.
61 is preferentially required for Rho-mediated contractile functions.
62 etrimental effects on cardiac electrical and contractile functions.
63 ses revealed improvement in left ventricular contractile function 2 weeks after transplant (hCPC vers
64 ed (1) improved remodeling, hypertrophy, and contractile function; (2) less apoptosis; and (3) dimini
65 r dilation and preserved regional and global contractile function after myocardial infarction compare
67 by an absence of muscle pathology, restored contractile function and a reduction in serum creatine k
70 ct heart can improve myofilament and in vivo contractile function and attenuate maladaptive remodelin
71 , VEGF-B167 markedly preserved diastolic and contractile function and attenuated ventricular chamber
72 develop cardiac dilation and showed improved contractile function and blunted adverse remodeling.
73 nvestigate protein localization and evaluate contractile function and Ca(2+) transients, compared wit
78 This perturbation has been shown to impair contractile function and cause muscle fatigue in dystrop
79 ink in the myocyte, influencing both cardiac contractile function and cell metabolism and survival an
80 myocyte architecture, calcium handling, and contractile function and compared our results vs. severa
82 and NO generation with increased recovery of contractile function and decreased infarction in the pos
85 PDPN receptor CLEC-2, PDPN endowed FRCs with contractile function and exerted tension within the reti
88 for ROS-induced SrcFK activity in normal VSM contractile function and in vascular remodelling in card
90 usion injury, evidenced by lower recovery of contractile function and increased necrosis and apoptosi
91 s with type 2 diabetes mellitus (DM2) affect contractile function and insulin action in cardiomyocyte
93 oxide synthase (iNOS) expression on regional contractile function and left ventricular (LV) remodelin
94 c reticulum Ca2+ handling, included improved contractile function and left ventricular remodeling.
95 l resting SR Ca(2+) leak resulted in reduced contractile function and muscle fiber atrophy for longer
97 baseline (pH 7.4) indicated similar cellular contractile function and myofilament calcium sensitivity
98 with diminished IGF contents but with normal contractile function and no apparent endoplasmic reticul
99 he main contributor to depressed ventricular contractile function and occurrence of arrhythmia in hea
100 g complete SERCA inhibition eventually limit contractile function and precipitate LV pump failure.
101 ue by combining experimental measurements of contractile function and pressure generation with a prev
102 on (MI) is associated with depressed cardiac contractile function and progression to heart failure.
103 al cardiomyocyte hypertrophy, maintenance of contractile function and progression towards inherited o
106 fer revealed improved systolic and diastolic contractile function and reductions in left ventricular
107 d play different roles in regulating cardiac contractile function and remodeling in response to injur
108 rare variant in MYH11, R247C, alters myosin contractile function and SMC phenotype, leading to incre
111 streptozotocin (STZ) treatment, and bladder contractile function and TLR4 pathway expression were ev
113 ating peptide preserved the left ventricular contractile function and was accompanied by increased le
114 of nitric oxide (NO) in regulating lymphatic contractile function and, consequently, lymph flow has b
115 h wild type, suggesting a greater reserve of contractile function and/or recruitment of compensatory
117 6a3(+/d16) mice displayed compromised muscle contractile functions and thereby provide an essential p
118 VEGF reduces apoptosis, preserves myocardial contractile function, and delays the onset of failure in
120 more left ventricle (LV) dilation, worse LV contractile function, and higher LV end-diastolic pressu
121 ransforming growth factor betabeta1, reduced contractile function, and inhibited mRNA expression of a
124 requires a constant flux of ATP to maintain contractile function, and there is increasing evidence t
127 of ejection fraction (EF)-ventricular size, contractile function, and ventricular-arterial (VA) inte
128 Left ventricular structure, diastolic and contractile function, and ventricular-arterial coupling
129 o determine whether vascular SM and pericyte contractile functions, and not merely their presence, ar
131 observation that myosin II organization and contractile function are optimally matched to the load c
133 r mechanisms by which vascular smooth muscle contractile functions are regulated are not completely e
134 ter TAC resulted in a significant decline in contractile function as compared with animals in which C
136 s, acting to regulate cardiac metabolism and contractile function, as well as promoting anticontracti
137 lt heart elicited significant enhancement of contractile function, associated with preferential phosp
139 peptide 1 (GLP-1) therapies improve cardiac contractile function at rest and in response to adrenerg
141 uce CEPT1, which remodels the SR to preserve contractile function at the expense of insulin sensitivi
142 of mutations in cMyBPC that lead to abnormal contractile function at the myofilament level, thereby c
143 t rate, aortic function or mesenteric artery contractile function, at either 3 or 6 months of age.
144 nsfer in the failing heart not only improves contractile function but also directly restores electric
145 RB3 were generated and they exhibited normal contractile function but altered cardiac signal transduc
146 n A and angiopoietin-2 reduced cardiomyocyte contractile function, but only activin A reduced the exp
147 pharmacological agent that augments cardiac contractile function by enhancing myofilament Ca(2+) sen
149 Failure to induce critical genes involved in contractile function, calcium handling and energy metabo
150 he proximal C-terminal domain causes reduced contractile function, cardiac hypertrophy, and heart fai
151 myofibers and have impaired skeletal muscle contractile function compared to their wild type control
152 lts align with the hypothesis that defective contractile function contributes to the pathogenesis of
158 tes cTnI at Ser-150 in vivo to alter cardiac contractile function directly at the level of the myofil
159 so it is unclear whether these cells improve contractile function directly through addition of new fo
161 osporin A (CsA) is known to preserve cardiac contractile function during endotoxemia, but the mechani
162 stigate the effects of cardiomyocyte Nox2 on contractile function during increased Ang II activation.
164 nd most significantly increased intact heart contractile function (echocardiography) compared to vehi
165 lation (eg, protein disulfide isomerase A3), contractile function (eg, filamin-C), and serine/threoni
166 citation-contraction coupling, modulation of contractile function, energy supply-demand balance (incl
167 nsion, atherosclerosis, depressed myocardial contractile function, fatty acid metabolism, hypertrophi
169 12-hour controlled mechanical ventilation on contractile function, fiber dimension, cytokine producti
170 thods to preserve cardiac cell viability and contractile function following ischemia are limited in t
171 oponin I cleavage in rat hearts and improved contractile function following ischemia-reperfusion.
172 baseline mitochondrial function and cardiac contractile function following pressure overload hypertr
173 the cardiomyocyte would be unable to recover contractile function following the simulated conditions
174 othelin-1 is critical for maintaining normal contractile function, for controlling superoxide and Mmp
175 occur within the heart with age to maintain contractile function from the maladaptive responses asso
176 is function of the right ventricle show that contractile function improvement precedes right ventricu
180 th gata1 MO rescued trabeculation to restore contractile function in association with upregulation of
181 alogues significantly increased intact heart contractile function in calsequestrin-overexpressing mic
183 regression of acute individual measures with contractile function in corresponding areas at day 21 de
186 thermia (33.0 degrees C) on left ventricular contractile function in healthy pigs and compared them w
190 mulation impairs beta-adrenergically induced contractile function in isolated cardiomyocytes and Lang
197 We hypothesized that EMEPO would improve contractile function in myocytes with altered nitroso-re
199 Remarkably, in the context of well preserved contractile function in perfused hearts, we observed dec
200 ce suggests an abnormal vascular reactivity, contractile function in Pkd mutant vessels has not been
202 ed hearts indicated exacerbated postischemic contractile function in Sestrin2 KO hearts compared with
205 re consequences for the energetic support of contractile function in the heart and is implicated in t
207 eversing concentric remodeling and improving contractile function in the hearts of patients with diab
208 egeneration that stabilizes bioenergetic and contractile function in the infarct zone and border zone
212 rs that may have specialized trafficking and contractile functions in cytoskeletal compartments that
213 hy and showed ventricular dilation, impaired contractile function, increased myocyte length and accum
214 phy, indicating that Akt activation improves contractile function independently of its growth-promoti
215 25 in vivo resulted in a significant loss of contractile function, injection of an antisense oligonuc
216 se provides further evidence that proper SMC contractile function is critical for maintaining the int
217 the diabetic lipoprotein particle; decreased contractile function is not related to cardiac lipid acc
221 ve of human engineered cardiac tissue (hECT) contractile function measurements under matched experime
223 , cardiomyocyte hypertrophy, and enhanced LA contractile function (median active emptying fraction 16
225 ex, stroke volume index, global and regional contractile function (myocardial strain), coronary arter
226 er mutations in the kinase that controls SMC contractile function (myosin light chain kinase [MYLK])
227 stolic calcium, consistent with the observed contractile function observed in experimental PV measure
228 pothesized that diminished LA compliance and contractile function occur early during the development
229 profound implications for understanding the contractile function of actomyosin, as needed in therape
231 maturation, but its specific effects on the contractile function of aneural engineered muscle remain
232 vivo, neural agrin can directly promote the contractile function of aneural engineered muscle via me
236 tructural organization, vascularization, and contractile function of fully differentiated vs. undiffe
237 tes glomerular filtration rate (GFR) and the contractile function of glomerular mesangial cells (MCs)
239 ty has emerged as a novel therapy to restore contractile function of injured failing myocardium.
246 BVR and HO-2 levels, myocyte apoptosis, and contractile function of the heart can be modulated by sm
247 showed a normal survival rate and unaltered contractile function of the heart monitored by serial ec
249 ted to promote calcium handling and increase contractile function of the intact heart independently o
252 the downstream consequences of the earliest contractile function on cardiac differentiation and morp
255 alone had no effect on left ventricular (LV) contractile function or on isoprenaline- or preload-indu
256 myofibril organization, and skeletal muscle contractile function owing to compensatory upregulation
257 t of energy significantly impaired postshock contractile function (p < .05), whereas the change of en
258 the failing heart improved left ventricular contractile function (P<0.01), suppressed cardiac altern
259 was associated with reduced left ventricular contractile function (P=0.026) and relaxation (P=0.041).
260 diac regeneration and contributes to loss of contractile function, pathological remodelling and susce
261 s essential throughout vSMC life to maintain contractile function, prevent vSMC reprogramming, and pr
263 rt, yet their functional roles in modulating contractile function remain incompletely understood.
267 p(-/-) mice manifested a severe reduction of contractile function, signs of heart failure, and increa
269 ocardium can improve myofilament and in vivo contractile function, suggesting that cMyBPC gene therap
270 ties in cell signaling, gene expression, and contractile function that are not clearly understood.
271 : cardiac size (end-diastolic volume [EDV]); contractile function (the end-systolic pressure volume r
273 itin kinase region emerges as a regulator of contractile function through effects on calcium handling
274 that TRPC6 may regulate GFR by modulating MC contractile function through multiple Ca(2+) signaling p
275 modulates cardiomyocyte SR Ca(2+) uptake and contractile function through redox-regulated changes in
276 s (KATP channels) in cardiac myocytes adjust contractile function to compensate for the level of avai
279 reconcile observed cellular and organ level contractile function using a cardiac multiscale model.
281 IS200D were protected, recovering 88+/-8% of contractile function versus 35+/-15% in littermate contr
282 in the central region of Tm modifies cardiac contractile function via its effect on the overlapping e
283 Although OB fetal hearts exhibited a normal contractile function vs. CON fetal hearts during basal p
284 splantation and to compare regional MBF with contractile function (wall motion) and microvascular den
287 /kg intraperitoneally), and left ventricular contractile function was assessed 5 days later using bot
297 for all of the cardiomyocytes that recovered contractile function, whereas the absence of Mb(III) ban
298 mphatic vasculature, NO production depresses contractile function, which influences lymph flow needed
300 engraftment of adult myofibers with enhanced contractile function without the formation of teratomas.
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