Stephen M. Testa scite author profile

Background Extracellular matrix (ECM) expansion may be a fundamental feature of adverse myocardial remodeling, appears to be treatable, and its measurement may improve risk stratification. Yet, the relationship between mortality and ECM is not clear due to difficulties with its measurement. To assess its relationship with outcomes, we used novel, validated cardiovascular magnetic resonance (CMR) techniques to quantify the full spectrum of ECM expansion not readily detectable by conventional CMR. Methods and Results We recruited 793 consecutive patients at the time of CMR without amyloidosis or hypertrophic cardiomyopathy as well as 9 healthy volunteers (ages 20–50). We measured the extracellular volume fraction (ECV) to quantify the extracellular matrix expansion in myocardium without myocardial infarction (MI). ECV employs gadolinium contrast (Gd) as an extracellular space marker based on T1 measures of blood and myocardium pre-/post-Gd and hematocrit measurement. In volunteers, ECV ranged from 21.7–26.2%, but in patients, it ranged from 21.0–45.8%, indicating considerable burden. There were 39 deaths over a median follow-up of 0.8 years (IQR 0.5–1.2 years), and 43 individuals who experienced the composite endpoint of death/cardiac transplant/left ventricular assist device (LVAD) implantation. In Cox regression models, ECV related to all-cause mortality and the composite endpoint (HR 1.55; 95% CI 1.27–1.88 and HR 1.48; 95% CI 1.23–1.78, respectively, for every 3% increase in ECV), adjusting for age, left ventricular ejection fraction, and MI size. Conclusions ECV measures of extracellular matrix expansion may predict mortality as well as other composite endpoints (death/cardiac transplant/LVAD).

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Myocardial extravascular extracellular volume fraction measurement by gadolinium cardiovascular magnetic resonance in humans: slow infusion versus bolus

Schelbert

Testa

Meier

et al. 2011

Journal of Cardiovascular Magnetic Resonance

212

213

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BackgroundMyocardial extravascular extracellular volume fraction (Ve) measures quantify diffuse fibrosis not readily detectable by conventional late gadolinium (Gd) enhancement (LGE). Ve measurement requires steady state equilibrium between plasma and interstitial Gd contrast. While a constant infusion produces steady state, it is unclear whether a simple bolus can do the same. Given the relatively slow clearance of Gd, we hypothesized that a bolus technique accurately measures Ve, thus facilitating integration of myocardial fibrosis quantification into cardiovascular magnetic resonance (CMR) workflow routines. Assuming equivalence between techniques, we further hypothesized that Ve measures would be reproducible across scans.MethodsIn 10 volunteers (ages 20-81, median 33 yr, 3 females), we compared serial Ve measures from a single short axis slice from two scans: first, during a constant infusion, and second, 12-50 min after a bolus (0.2 mmol/kg gadoteridol) on another day. Steady state during infusion was defined when serial blood and myocardial T1 data varied <5%. We measured T1 on a 1.5 T Siemens scanner using a single-shot modified Look Locker inversion recovery sequence (MOLLI) with balanced SSFP. To shorten breath hold times, T1 values were measured with a shorter sampling scheme that was validated with spin echo relaxometry (TR = 15 sec) in CuSO4-Agar phantoms. Serial infusion vs. bolus Ve measures (n = 205) from the 10 subjects were compared with generalized estimating equations (GEE) with exchangeable correlation matrices. LGE images were also acquired 12-30 minutes after the bolus.ResultsNo subject exhibited LGE near the short axis slices where Ve was measured. The Ve range was 19.3-29.2% and 18.4-29.1% by constant infusion and bolus, respectively. In GEE models, serial Ve measures by constant infusion and bolus did not differ significantly (difference = 0.1%, p = 0.38). For both techniques, Ve was strongly related to age (p < 0.01 for both) in GEE models, even after adjusting for heart rate. Both techniques identically sorted older individuals with higher mean Ve values.ConclusionMyocardial Ve can be measured reliably and accurately 12-50 minutes after a simple bolus. Ve measures are also reproducible across CMR scans. Ve estimation can be integrated into CMR workflow easily, which may simplify research applications involving the quantification of myocardial fibrosis.

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A Pneumocystis carinii Group I Intron Ribozyme That Does Not Require 2‘ OH Groups on Its 5‘ Exon Mimic for Binding to the Catalytic Core

et al. 1997

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The recent increase in the population of immunocompromised patients has led to an insurgence of opportunistic human fungal infections. The lack of effective treatments against some of these pathogens makes it important to develop new therapeutic strategies. One such strategy is to target key RNAs with antisense compounds. We report the development of a model system for studying the potential for antisense targeting of group I self-splicing introns in fungal pathogens. The group I intron from the large ribosomal subunit RNA of mouse-derived Pneumocystis carinii has been isolated and characterized. This intron self-splices in vitro. A catalytically active ribozyme, P-8/4x, has been constructed from this intron to allow measurement of dissociation constants for potential antisense agents. At 37 degrees C, in 50 mM Hepes (25 mM Na+), 15 mM MgCl2, and 135 mM KCl at pH 7.5, the exogenous 5' exon mimic r(AUGACU) binds about 60 000 times more tightly to this ribozyme than to r(GGUCAU), a mimic of its complementary binding site on the ribozyme. This enhanced binding is due to tertiary interactions. This tertiary stabilization is increased by single deoxynucleotide substitutions in the exon mimic at every position except for the internal A, which is essentially unchanged. Thus 2' OH groups of the 5' exon mimic do not form stabilizing tertiary interactions with the P-8/4x ribozyme, in contrast to the Tetrahymena L-21 ScaI ribozyme. Furthermore, at 37 degrees C, the exogenous 5' exon mimic d(ATGACT) binds nearly 32 000 times more tightly to the P-8/4x ribozyme than to r(GGUCAU). Therefore, oligonucleotides without 2' OH groups can exploit tertiary stabilization to bind dramatically more tightly and with more specificity than possible from base pairing. These results suggest a new paradigm for antisense targeting: targeting the tertiary interactions of structural RNAs with short antisense oligonucleotides.

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Thermodynamics of RNA−RNA Duplexes with 2- or 4-Thiouridines: Implications for Antisense Design and Targeting a Group I Intron

et al. 1999

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Antisense compounds are designed to optimize selective hybridization of an exogenous oligonucleotide to a cellular target. Typically, Watson-Crick base pairing between the antisense compound and target provides the key recognition element. Uridine (U), however, not only stably base pairs with adenosine (A) but also with guanosine (G), thus reducing specificity. Studies of duplex formation by oligonucleotides with either an internal or a terminal 2- or 4-thiouridine (s(2)U or s(4)U) show that s(2)U can increase the stability of base pairing with A more than with G, while s(4)U can increase the stability of base pairing with G more than with A. The latter may be useful when binding can be enhanced by tertiary interactions with a s(4)U-G pair. To test the effects of s(2)U and s(4)U substitutions on tertiary interactions, binding to a group I intron ribozyme from mouse-derived Pneumocystis carinii was measured for the hexamers, r(AUGACU), r(AUGACs(2)U), and r(AUGACs(4)U), which mimic the 3' end of the 5' exon. The results suggest that at least one of the carbonyl groups of the 3' terminal U of r(AUGACU) is involved in tertiary interactions with the catalytic core of the ribozyme and/or thio groups change the orientation of a terminal U-G base pair. Thus thio substitutions may affect tertiary interactions. Studies of trans-splicing of 5' exon mimics to a truncated rRNA precursor, however, indicate that thio substitutions have negligible effects on overall reactivity. Therefore, modified bases can enhance the specificity of base pairing while retaining other activities and, thus, increase the specificity of antisense compounds targeting cellular RNA.

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Stephen M. Testa

Association Between Extracellular Matrix Expansion Quantified by Cardiovascular Magnetic Resonance and Short-Term Mortality

Myocardial extravascular extracellular volume fraction measurement by gadolinium cardiovascular magnetic resonance in humans: slow infusion versus bolus

A Pneumocystis carinii Group I Intron Ribozyme That Does Not Require 2‘ OH Groups on Its 5‘ Exon Mimic for Binding to the Catalytic Core

Thermodynamics of RNA−RNA Duplexes with 2- or 4-Thiouridines: Implications for Antisense Design and Targeting a Group I Intron

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