Cardiac Biomarkers in Hyperthyroid Cats

Sangster, Jodi Kirsten

03 April 2013

Background: Hyperthyroidism has substantial effects on the circulatory system. The cardiac biomarkers NT-proBNP and troponin I (cTNI) have proven useful in identifying cats with myocardial disease but have not been as extensively investigated in hyperthyroidism. Hypothesis: Plasma NT-proBNP and cTNI concentrations are higher in cats with primary cardiac disease than in cats with hyperthyroidism and higher in cats with hyperthyroidism than in healthy control cats. Animals: Twenty-three hyperthyroid cats, 19 cats with HCM without congestive heart failure, and 19 euthyroid, normotensive healthy cats eight years of age or older. Fourteen of the hyperthyroid cats were re-evaluated three months after administration of 131I. Methods: A complete history, physical examination, complete blood count, serum biochemistries, urinalysis, blood pressure measurement, serum T4 concentration, plasma concentrations of NT-proBNP and cTNI, and echocardiogram was prospectively obtained from each cat. Results: Hyperthyroid and HCM cats had plasma NT-proBNP and cTNI concentrations that were significantly greater than healthy older cats, but there was no significant difference between hyperthyroid and HCM cats with respect to concentration of either biomarker. In hyperthyroid cats that were re-evaluated three months after 131I treatment, plasma NT-proBNP and cTNI concentrations as well as ventricular wall thickness decreased. Conclusions and Clinical Relevance: Although there may be a role for NT-proBNP in monitoring the cardiac response to treatment of hyperthyroidism, neither NT-proBNP nor cTNI can be used to distinguish hyperthyroid cats from cats with HCM. Therefore, the thyroid status of older cats should be ascertained prior to interpreting results of cardiac biomarker testing. / Master of Science

NT-proBNP

cardiac troponin I

Negative Predictive Value of Cardiac Troponin for Predicting Adverse Cardiac Events Following Blunt Chest Trauma

Guild, Cameron S., Deshazo, Matthew, Geraci, Stephen A.

01 January 2014

Cardiac-specific troponins (Tns) are sensitive and specific markers of myocardial injury that have been shown to be predictive of outcomes in many cardiac and noncardiac conditions. We sought to determine whether normal cardiac Tn concentrations obtained during the first 24 hours following blunt chest trauma would predict good cardiac outcomes. A PubMed/MEDLINE search was performed to identify prospective studies in patients with blunt chest trauma in which serial cardiac TnT or TnI values were measured within 24 hours of admission and clinical outcomes assessed. Ten studies qualified for review. Studies that used the lower reference limit of Tn as the cutoff for cardiac injury showed 100% negative predictive value (NPV) for developing cardiac complications, whereas studies using higher Tn cutoffs showed wider variation in NPV (50%-98%). Cardiac Tn measured within 24 hours using the lower reference limit (LRL) as the cutoff appears to have excellent NPV for clinically significant adverse cardiac events. This could allow for early discharge after a 24-hour observation period in otherwise uncomplicated blunt chest trauma patients and avoid the need for more expensive cardiac imaging and additional resource utilization.

blunt chest trauma

cardiac troponin

myocardial contusion

Clinical significance of measurement of cardiac troponin Ⅰ in Emergency Room

斉木, 厚, Saiki, Atsushi

25 March 2008

名古屋大学博士学位論文 学位の種類:博士(医療技術学) (課程) 学位授与年月日:平成20年3月25日

Acute coronary syndrome

Cardiac troponin I

Emergency room

Overexpression of Calpastatin Ameliorates Functional Recovery from Ischemic Injury in the Rat Heart

MAEKAWA, Atsuo, LEE, Jong-Kook, MIWA, Keiko, NAGAYA, Takashi, UEDA, Yuichi, KODAMA, Itsuo

12 1900

国立情報学研究所で電子化したコンテンツを使用している。

gene therapy

ischemia

reperfusion injury

calpain

calpastatin

cardiac troponin I

Mechanical properties of myocardium following cardiomyocyte transplantation into infarcted hearts and investigations of the role of troponin C Ca2+ binding kinetics in skeletal muscle contraction /

Moreno-Gonzalez, Alicia,

January 2007

Thesis (Ph. D.)--University of Washington, 2007. / Vita. Includes bibliographical references (leaves 143-159).

THE STRUCTURAL MECHANISM OF Β-ADRENERGIC MODULATION OF CARDIAC TROPONIN SWITCH CALCIUM SENSITIVITY

Abbott, Maxwell Bret

11 October 2001

No description available.

CARDIAC TROPONIN

PROTEIN-PROTEIN INTERACTIONS

NUCLEAR MAGNETIC

STRUCTURE - FUNCTION

PHOSPHORYLATION

Improving the risk stratification, diagnosis and classification of patients with suspected myocardial infarction

Chapman, Andrew R.

January 2018

Myocardial infarction is a leading cause of morbidity and mortality worldwide. The purpose of this thesis was to develop strategies for the assessment of patients with suspected myocardial infarction using a high-sensitivity cardiac troponin I assay, and to evaluate the relationship between the aetiology of myocardial infarction and long term clinical outcomes to identify opportunities to modify outcomes. In the United Kingdom, approximately 1 million patients present to hospital with chest pain each year and are assessed for suspected myocardial infarction, yet fewer than 20% of patients receive this diagnosis. Prior clinical standards mandated the admission of patients for serial cardiac troponin testing to identify myocardial necrosis and determine if myocardial infarction had occurred. However, new high-sensitivity assays offer a magnitude improvement in diagnostic precision, and as such provide a novel approach to diagnose or exclude myocardial infarction at an earlier stage. In our first study, I evaluate the performance of a high-sensitivity cardiac troponin I assay as a risk stratification tool in patients with suspected acute coronary syndrome. A systematic review and individual patient-level data meta-analysis was performed, including prospective studies measuring high-sensitivity cardiac troponin I in patients with suspected acute coronary syndrome, where the diagnosis was adjudicated according to the universal definition of myocardial infarction. The primary outcome was myocardial infarction or cardiac death during the index hospitalization or at 30 days. Meta-estimates for primary and secondary outcomes were derived using a binomial-normal random effects model. Performance was evaluated in subgroups and across a range of troponin concentrations (2-16 ng/L) using individual patient data. A total of 22,457 patients were included in the meta-analysis (age 62 [15.5] years; n=9,329 (41.5%) women), of whom 2,786 (12.4%) experienced myocardial infarction or cardiac death at 30 days. Cardiac troponin I concentrations were < 5 ng/L at presentation in 11,012 (49%) patients, with a negative predictive value of 99.5% (95% confidence interval [CI] 99.3-99.6) for myocardial infarction or cardiac death at 30 days. Lower thresholds did not improve safety, but did significantly reduce the proportion identified as low risk. This threshold of 5 ng/L formed the basis for the development of a diagnostic pathway for patients with suspected acute coronary syndrome. In a cohort study of 1,218 patients with suspected acute coronary syndrome who underwent high-sensitivity cardiac troponin I measurement at presentation, 3 and 6 or 12 hours, I derived and validated a novel pathway (rule out myocardial infarction if < 5 ng/L at presentation, or change < 3 ng/L and < 99th centile at 3 hours), and compared this with the established European Society of Cardiology 3-hour pathway (rule out myocardial infarction if < 99th centile at presentation, or at 3 hours if symptoms < 6 hours). The primary outcome was a comparison of the negative predictive value (NPV) of both pathways for myocardial infarction or cardiac death at 30 days. The primary outcome was evaluated in pre-specified subgroups stratified by age, gender, time of symptom onset and known ischaemic heart disease. In those < 99th centile at presentation, the ESC pathway ruled out myocardial infarction in 28.1% (342/1,218) and 78.9% (961/1,218) at presentation and 3 hours respectively, missing 18 index and two 30-day events (NPV 97.9%, 95% confidence intervals [CI] 96.9-98.7%). The novel pathway ruled out 40.7% (496/1,218) and 74.2% (904/1,218) at presentation and 3 hours, missing two index and two 30-day events (NPV 99.5%, 95% CI 99.0-99.9%; P < 0.001 for comparison). The NPV of the novel pathway was greater than the ESC pathway overall (P < 0.001), and in all subgroups including those presenting early or known to have ischaemic heart disease. There are a number of additional approaches for the rule out of myocardial infarction. Clinical risk scores apply conventional risk factors to estimate the probability of myocardial infarction. The most widely implemented scores, HEART, EDACS, GRACE and TIMI, have been extensively validated when used alongside contemporary troponin assays, however, their impact on pathways applying high-sensitivity cardiac troponin testing is less clear. In 1,935 patients with suspected acute coronary syndrome, I evaluated the safety and efficacy of our novel pathway or the European Society of Cardiology 3-hour pathway alone, or in conjunction with low-risk TIMI (0 or 1), GRACE (≤108), EDACS (< 16) or HEART (≤3) scores. Myocardial infarction or cardiac death at 30-days occurred in 14.3% (276/1,935). The ESC pathway ruled out 70% with 27 missed events giving a negative predictive value (NPV) of 97.9% (95% confidence interval [CI], 97.1 to 98.6%). Addition of a HEART score ≤3 reduced the proportion ruled out by the ESC pathway to 25%, but improved the NPV to 99.7% (95%CI 99.0 to 100%, P < 0.001). The novel pathway ruled out 65% with three missed events for a NPV of 99.7% (95%CI 99.4 to 99.9%). No risk score improved the NPV, but all reduced the proportion ruled out (24-47%, P < 0.001 for all). Whilst myocardial infarction due to atherosclerotic plaque rupture and thrombosis (type 1) is well described, the natural disease course of myocardial infarction due to oxygen supply-demand imbalance without atherothrombosis (type 2) is poorly understood. I aimed to define long-term outcomes and explore risk stratification in patients with type 2 myocardial infarction and myocardial injury. Consecutive patients (n=2,122) with elevated cardiac troponin I concentrations (≥0.05 μg/L) were identified at a tertiary cardiac centre. All diagnoses were adjudicated as per the Universal Definition of Myocardial Infarction. The primary outcome was all-cause death. Secondary outcomes included major adverse cardiovascular events (MACE; non-fatal myocardial infarction or cardiovascular death) and non-cardiovascular death. To explore competing risks, cause-specific hazard ratios were obtained using Cox regression models. The adjudicated index diagnosis was type 1 or type 2 myocardial infarction or myocardial injury in 1,171 (55.2%), 429 (20.2%) and 522 (24.6%) patients, respectively. At five years, all-cause death rates were higher in those with type 2 myocardial infarction (62.5%) or myocardial injury (72.4%) compared with type 1 myocardial infarction (36.7%). The majority of excess deaths in those with type 2 myocardial infarction or myocardial injury were due to non-cardiovascular causes (HR 2.32, 95%CI 1.92-2.81, versus type 1 myocardial infarction). Despite this, the observed crude MACE rates were similar between groups (30.6% versus 32.6%), with differences apparent after adjustment for co-variates (HR 0.82, 95%CI 0.69-0.96). Coronary heart disease was an independent predictor of MACE in those with type 2 myocardial infarction or myocardial injury (HR 1.71, 95%CI 1.31-2.24). Patients with type 2 myocardial infarction were less likely to receive secondary prevention therapy, suggesting a treatment gap may exist and there may be potential to modify clinical outcomes. A risk stratification threshold has been defined using high-sensitivity cardiac troponin I which identifies patients at very low risk of myocardial infarction or cardiac death. A diagnostic pathway incorporating this risk stratification threshold appears safer than established guidelines which apply the 99th centile alone. The use of clinical risk scores does not appear to improve the safety of this approach, however, does significantly reduce efficacy. Overall, these findings demonstrate the potential of high-sensitivity cardiac troponin testing to improve the efficiency of the assessment of patients with suspected acute coronary syndrome without compromising patient safety. The observations in those with myocardial injury and infarction have identified a phenotype of patients with type 2 myocardial infarction and coronary artery disease who are at increased cardiovascular risk, and who may benefit from targeted secondary prevention. The studies presented will inform the design of future clinical trials, and may inform international guidelines for the assessment of patients with suspected acute coronary syndrome.

Investigating the Structural Pathogenesis of Δ 160E Mutation – Linked Hypertrophic Cardiomyopathy

Abdullah, Salwa

January 2016

Hypertrophic cardiomyopathy (HCM) is a primary disease of the myocardium. 4-11% of HCM is caused by mutations in cardiac troponin T (cTnT) and 65% of them are within the tropomyosin (TM)-binding TNT1 domain. Two of the known mutational hotspots within TNT1 are in the N and C-terminal domains. Unlike the N-terminal domain; no high-resolution structure exists for the highly conserved C-terminal domain limiting both our ability to understand the functional role of this extended domain in myofilament activation and molecular mechanism(s) of HCM. The Δ160E mutation is an in-frame deletion of a glutamic acid residue at position 160 of cTnT. This TNT1 C-terminal mutation is associated with an especially poor prognosis. The Δ160E mutation is located in a putative "hinge region" immediately adjacent to the unstructured flexible linker connecting the TM-binding TNT1 domain to the Ca²⁺-sensitive TNT2 domain. Unwinding of this α-helical hinge may provide the flexibility necessary for thin filament function. Previous regulated in vitro motility assay (R-IVM) data showed mutation-induced impairment of weak actomyosin binding. Thus, we hypothesized that the Δ160E mutation repositions the flexible linker which impairs weak electrostatic binding and ultimately leads to severe cardiac remodeling. The goal of our studies is two-fold: 1) to gain high-resolution insight into the position of the cTnT linker with respect to the C-terminus of TM, and 2) to identify Δ160E-induced positional changes using Fluorescence Resonance Energy Transfer (FRET) in a fully reconstituted thin filament. To this end, residues in the middle and distal regions of the cTnT linker were sequentially cysteine-substituted (A168C, A177C, A192C and S198C) and labeled with the energy donor IAEDANS. The energy acceptor, DABMI was attached to cysteine 190 (C190) in the C-terminal region of TM and FRET measurements were obtained in the presence and absence of Ca²⁺ and myosin subfragment 1 (S1). An all-atom thin filament model in the Ca²⁺–on state was employed to predict the pathogenic effects of the Δ160E mutation on the structure and the dynamics of the cTnT linker region. Our data suggest that the linker domain runs alongside the C-terminus of TM and is differentially repositioned by calcium, myosin and the Δ160E mutation. The Δ160E mutation moves the linker closer to the C-terminus of TM. The in silico model supported this finding and demonstrated a mutation-induced decrease in linker flexibility. Moreover, the model predicted a pathogenic change in the orientation of the middle region of the linker and in the position of the Ca²⁺-sensitive TNT2 domain and the TM-binding TNT1 domain in response to Δ160E mutation. Collectively, our findings suggest that the Δ160E mutation-induced changes in the structure, position and dynamics of the linker region cause steric blocking of weak myosin binding sites on actin and subsequent impairment of contraction and disruption of sarcomeric integrity. These studies, for the first time, provided information regarding the role of the extended linker in both myofilament activation and disease.

Hypertrophic Cardiomyopathy

Sarcomere

Thin Filament

Molecular & Cellular Biology

Cardiac Troponin T

Influência do exercício físico prolongado sobre a concentração sérica de troponina I cardíaca e sobre a função cardíaca em cavalos de enduro / Influence of prolonged physical exercise on serum cardiac troponin I concentration and on cardiac function in endurance horses

Michima, Lilian Emy dos Santos

29 June 2007

Com o objetivo de avaliar se o exercício físico prolongado causa alterações miocárdicas em eqüinos de enduro e se estas alterações cardíacas têm influência no desempenho dos animais durante as provas, avaliaram-se 30 cavalos, divididos em três grupos de dez animais cada, sendo G1 composto por animais que percorreram distâncias acima de 100 km, G2 por animais que percorreram distâncias menores de 100 km e G3 por animais desqualificados por alterações metabólicas. Os animais foram avaliados em três momentos distintos, T0 (pré-exercício, em repouso), T1 (entre 30 e 60 minutos após o exercício) e T2 (entre 90 e 120 minutos pós-exercício). Realizaram-se o exame físico e o exame ecocardiográfico, além de colheita de amostras de sangue para determinação de troponina I cardíaca sérica e outras provas bioquímicas. Não houve diferença nos valores de troponina I cardíaca entre os diversos grupos nem nos diferentes tempos. Observou-se diminuição dos valores do diâmetro interno do ventrículo esquerdo em diástole e aumento de espessura de septo interventricular pós-exercício. Não houve diferença nos índices funcionais cardíacos e houve manutenção do débito cardíaco por aumento da freqüência cardíaca. Estas alterações ecocardiográficas de pequena magnitude foram mais evidentes nos animais desqualificados por alterações metabólicas e não parecem estar relacionadas a injúria miocárdica e sim secundárias a outras condições orgânicas. Conclui-se que o exercício físico prolongado não leva a injúrias cardíacas severas em cavalos de enduro. / With the purpose of evaluating myocardial alterations caused by prolonged physical exercise and whether these alterations influence the endurance horses\' performance during the races, 30 horses were evaluated, divided into three groups of ten horses each, being G1 composed by animals that performed distances of more than 100 km, G2 by animals that performed distances of less than 100 km and G3 by animals disqualified by metabolic alterations. The horses were evaluated in three distinct moments, T0 (pre-exercise, at rest), T1 (between 30 and 60 minutes post-exercise) and T2 (between 90 and 120 minutes post-exercise). Physical and echocardiographic examinations and else blood sample collection for the determination of cardiac troponin I and other biochemical tests were done. There was no difference in cardiac troponin I values neither between the various groups, nor between the moments. There was a decrease in the post-exercise values of the diastolic left ventricle internal diameter and an increase in the post-exercise values of the interventricular septal thickness. There was no difference in the cardiac functional indexes and the cardiac output was maintainded by augmentation of the heart rate. These minor echocardiographic alterations were more evident in the animals that were disqualified by metabolic alterations, and they don\'t seem to be related to myocardial injury, but secondary to other organic conditions. Based on these results, prolonged physical exercise doesn\'t seem to cause severe cardiac injuries in endurance horses.

Cardiac troponin I

Echocardiography

Ecocardiografia

Endurance

Enduro

Eqüinos

Horse

Troponina I cardíaca

Influência do exercício físico prolongado sobre a concentração sérica de troponina I cardíaca e sobre a função cardíaca em cavalos de enduro / Influence of prolonged physical exercise on serum cardiac troponin I concentration and on cardiac function in endurance horses

Lilian Emy dos Santos Michima

29 June 2007

Com o objetivo de avaliar se o exercício físico prolongado causa alterações miocárdicas em eqüinos de enduro e se estas alterações cardíacas têm influência no desempenho dos animais durante as provas, avaliaram-se 30 cavalos, divididos em três grupos de dez animais cada, sendo G1 composto por animais que percorreram distâncias acima de 100 km, G2 por animais que percorreram distâncias menores de 100 km e G3 por animais desqualificados por alterações metabólicas. Os animais foram avaliados em três momentos distintos, T0 (pré-exercício, em repouso), T1 (entre 30 e 60 minutos após o exercício) e T2 (entre 90 e 120 minutos pós-exercício). Realizaram-se o exame físico e o exame ecocardiográfico, além de colheita de amostras de sangue para determinação de troponina I cardíaca sérica e outras provas bioquímicas. Não houve diferença nos valores de troponina I cardíaca entre os diversos grupos nem nos diferentes tempos. Observou-se diminuição dos valores do diâmetro interno do ventrículo esquerdo em diástole e aumento de espessura de septo interventricular pós-exercício. Não houve diferença nos índices funcionais cardíacos e houve manutenção do débito cardíaco por aumento da freqüência cardíaca. Estas alterações ecocardiográficas de pequena magnitude foram mais evidentes nos animais desqualificados por alterações metabólicas e não parecem estar relacionadas a injúria miocárdica e sim secundárias a outras condições orgânicas. Conclui-se que o exercício físico prolongado não leva a injúrias cardíacas severas em cavalos de enduro. / With the purpose of evaluating myocardial alterations caused by prolonged physical exercise and whether these alterations influence the endurance horses\' performance during the races, 30 horses were evaluated, divided into three groups of ten horses each, being G1 composed by animals that performed distances of more than 100 km, G2 by animals that performed distances of less than 100 km and G3 by animals disqualified by metabolic alterations. The horses were evaluated in three distinct moments, T0 (pre-exercise, at rest), T1 (between 30 and 60 minutes post-exercise) and T2 (between 90 and 120 minutes post-exercise). Physical and echocardiographic examinations and else blood sample collection for the determination of cardiac troponin I and other biochemical tests were done. There was no difference in cardiac troponin I values neither between the various groups, nor between the moments. There was a decrease in the post-exercise values of the diastolic left ventricle internal diameter and an increase in the post-exercise values of the interventricular septal thickness. There was no difference in the cardiac functional indexes and the cardiac output was maintainded by augmentation of the heart rate. These minor echocardiographic alterations were more evident in the animals that were disqualified by metabolic alterations, and they don\'t seem to be related to myocardial injury, but secondary to other organic conditions. Based on these results, prolonged physical exercise doesn\'t seem to cause severe cardiac injuries in endurance horses.

Ecocardiografia

Enduro

Eqüinos

Troponina I cardíaca

Cardiac troponin I

Echocardiography

Endurance

Horse