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1. Computed tomographic angiography measures of coronary plaque in clinical trials: opportunities and considerations to accelerate drug translation.

Author

Howden, N, Branch, K, Douglas, P, Gray, M, Dewey, M, Newby, D, Nicholls, S, Blankstein, R, Fathieh, S, Grieve, S, Figtree, G, and Budoff, Matthew

Subjects
CCTA, atherosclerosis, coronary CT, coronary plaque, drug development
Abstract

Atherosclerotic coronary artery disease (CAD) is the causal pathological process driving most major adverse cardiovascular events (MACE) worldwide. The complex development of atherosclerosis manifests as intimal plaque which occurs in the presence or absence of traditional risk factors. There are numerous effective medications for modifying CAD but new pharmacologic therapies require increasingly large and expensive cardiovascular outcome trials to assess their potential impact on MACE and to obtain regulatory approval. For many disease areas, nearly a half of drugs are approved by the U.S. Food & Drug Administration based on beneficial effects on surrogate endpoints. For cardiovascular disease, only low-density lipoprotein cholesterol and blood pressure are approved as surrogates for cardiovascular disease. Valid surrogates of CAD are urgently needed to facilitate robust evaluation of novel, beneficial treatments and inspire investment. Fortunately, advances in non-invasive imaging offer new opportunity for accelerating CAD drug development. Coronary computed tomography angiography (CCTA) is the most advanced candidate, with the ability to measure accurately and reproducibly characterize the underlying causal disease itself. Indeed, favourable changes in plaque burden have been shown to be associated with improved outcomes, and CCTA may have a unique role as an effective surrogate endpoint for therapies that are designed to improve CAD outcomes. CCTA also has the potential to de-risk clinical endpoint-based trials both financially and by enrichment of participants at higher likelihood of MACE. Furthermore, total non-calcified, and high-risk plaque volume, and their change over time, provide a causally linked measure of coronary artery disease which is inextricably linked to MACE, and represents a robust surrogate imaging biomarker with potential to be endorsed by regulatory authorities. Global consensus on specific imaging endpoints and protocols for optimal clinical trial design is essential as we work towards a rigorous, sustainable and staged pathway for new CAD therapies.

Published
2024

2. Computed tomographic angiography measures of coronary plaque in clinical trials: opportunities and considerations to accelerate drug translation

Author

Howden, N., primary, Branch, K., additional, Douglas, P., additional, Gray, M., additional, Budoff, M., additional, Dewey, M., additional, Newby, D. E., additional, Nicholls, S. J., additional, Blankstein, R., additional, Fathieh, S., additional, Grieve, S. M., additional, and Figtree, G. A., additional

Published
2024
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5. Incorporating a polygenic risk score into cardiovascular disease examinations to identify subclinical coronary artery disease: rationale and design of the ESCALATE trial

Author

Gray, M P, primary, Berman, Y, additional, Grieve, S M, additional, Ho, A, additional, Hu, J, additional, Hyun, K, additional, Ingles, J, additional, Jennings, G, additional, Kilov, G, additional, Levesque, J, additional, Redfern, J, additional, Usherwood, T, additional, Vernon, S T, additional, Nicholls, S, additional, and Figtree, G, additional

Published
2023
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8. IL-1b as a potential biomarker and therapeutic target in coronary artery disease

Author

Genetzakis, E, primary, Hansen, T, additional, Besnier, M, additional, Bubb, K, additional, Mcguire, H, additional, De Dreu, M, additional, Vernon, S, additional, Kott, K, additional, Gray, M P, additional, De St Groth, B F, additional, Patel, S, additional, Grieve, S M, additional, Yang, J, additional, Kassiou, M, additional, and Figtree, G A, additional

Published
2023
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19. National Survey of Rapid Access Chest Pain Clinics in Australia

Author

Cho, K., Kozor, R., Thiagalingam, A., Biasi, A., Lennox-Bradley, W., Mooney, J., Indraratna, P., Pitney, M., Chetty, R., Ihdayhid, A., Hamilton-Craig, C., French, J., Favretti, J., Thomas, A., Davies, A., Black, A., Zoumberis, C., Al-Fiadh, A., Lowe, H., Kwan, T., Leow, K., Scott, P., Kangaharan, N., Baumann, A., Spiro, J., Kalathil, S., Evans, G., Van, Gaal W., Filipopoulos, B., Chapman, N., Reid, C., Figtree, G., Hillis, G., Jennings, G., and Chow, C.

Published
2024
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28. Biofabrication of advancedin vitro3D models to study ischaemic and doxorubicin-induced myocardial damage.

Author

Sharma, P, Liu Chung Ming, C, Wang, X, Bienvenu, LA, Beck, D, Figtree, G, Boyle, A, Gentile, C, Sharma, P, Liu Chung Ming, C, Wang, X, Bienvenu, LA, Beck, D, Figtree, G, Boyle, A, and Gentile, C

Abstract

Current preclinicalin vitroandin vivomodels of cardiac injury typical of myocardial infarction (MI, or heart attack) and drug induced cardiotoxicity mimic only a few aspects of these complex scenarios. This leads to a poor translation of findings from the bench to the bedside. In this study, we biofabricated for the first time advancedin vitromodels of MI and doxorubicin (DOX) induced injury by exposing cardiac spheroids (CSs) to pathophysiological changes in oxygen (O2) levels or DOX treatment. Then, contractile function and cell death was analyzed in CSs in control verses I/R and DOX CSs. For a deeper dig into cell death analysis, 3D rendering analyses and mRNA level changes of cardiac damage-related genes were compared in control verses I/R and DOX CSs. Overall,in vitroCSs recapitulated major features typical of thein vivoMI and drug induced cardiac damages, such as adapting intracellular alterations to O2concentration changes and incubation with cardiotoxic drug, mimicking the contraction frequency and fractional shortening and changes in mRNA expression levels for genes regulating sarcomere structure, calcium transport, cell cycle, cardiac remodelling and signal transduction. Taken together, our study supports the use of I/R and DOX CSs as advancedin vitromodels to study MI and DOX-induced cardiac damge by recapitulating their complexin vivoscenario.

Published
2022

29. Fibulin-3 Deficiency Protects Against Myocardial Injury Following Ischaemia/ Reperfusion in in vitro Cardiac Spheroids.

Author

Sharma, P, Beck, D, Murtha, LA, Figtree, G, Boyle, A, Gentile, C, Sharma, P, Beck, D, Murtha, LA, Figtree, G, Boyle, A, and Gentile, C

Abstract

Myocardial infarction (MI, or heart attack) is a leading cause of death worldwide. Myocardial ischaemia reperfusion (I/R) injury typical of MI events is also associated with the development of cardiac fibrosis and heart failure in patients. Fibulin-3 is an extracellular matrix component that plays a role in regulating MI response in the heart. In this study, we generated and compared in vitro cardiac spheroids (CSs) from wild type (WT) and fibulin-3 knockout (Fib-3 KO) mice. These were then exposed to pathophysiological changes in oxygen (O2) concentrations to mimic an MI event. We finally measured changes in contractile function, cell death, and mRNA expression levels of cardiovascular disease genes between WT and Fib-3 KO CSs. Our results demonstrated that there are significant differences in growth kinetics and endothelial network formation between WT and Fib-3 KO CSs, however, they respond similarly to changes in O2 concentrations. Fib-3 deficiency resulted in an increase in viability of cells and improvement in contraction frequency and fractional shortening compared to WT I/R CSs. Gene expression analyses demonstrated that Fib-3 deficiency inhibits I/R injury and cardiac fibrosis and promotes angiogenesis in CSs. Altogether, our findings suggest that Fib-3 deficiency makes CSs resistant to I/R injury and associated cardiac fibrosis and helps to improve the vascular network in CSs.

Published
2022

35. End Unexplained Cardiac Death (EndUCD) NSW Registry: A Data Linkage Cohort Study Protocol

Author

Leslie, F., primary, Avis, S., additional, Bagnall, R., additional, Bendall, J., additional, Briffa, T., additional, Brouwer, I., additional, Butters, A., additional, Figtree, G., additional, La Gerche, A., additional, van Heusden, A., additional, Nedkoff, L., additional, Paratz, E., additional, Semsarian, C., additional, Sy, R., additional, du Toit-Prinsloo, L., additional, Sweeting, J., additional, and Ingles, J., additional

Published
2022
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43. Considerations for the Bioengineering of Advanced Cardiac In Vitro Models of Myocardial Infarction

Author

Sharma, P, Wang, X, Ming, CLC, Vettori, L, Figtree, G, Boyle, A, and Gentile, C

Subjects
Disease Models, Animal, Myocardium, Bioprinting, Myocardial Infarction, Animals, Humans, Bioengineering, Myocardial Reperfusion Injury, Nanoscience & Nanotechnology
Abstract

Despite the latest advances in cardiovascular biology and medicine, myocardial infarction (MI) remains one of the major causes of deaths worldwide. While reperfusion of the myocardium is critical to limit the ischemic damage typical of a MI event, it causes detrimental morphological and functional changes known as "reperfusion injury." This complex scenario is poorly represented in currently available models of ischemia/reperfusion injury, leading to a poor translation of findings from the bench to the bedside. However, more recent bioengineered in vitro models of the human heart represent more clinically relevant tools to prevent and treat MI in patients. These include 3D cultures of cardiac cells, the use of patient-derived stem cells, and 3D bioprinting technology. This review aims at highlighting the major features typical of a heart attack while comparing current in vitro, ex vivo, and in vivo models. This information has the potential to further guide in developing novel advanced in vitro cardiac models of ischemia/reperfusion injury. It may pave the way for the generation of advanced pathophysiological cardiac models with the potential to develop personalized therapies.

Published
2021

44. Initial treatment with a single pill containing quadruple combination of quarter doses of blood pressure medicines versus standard dose monotherapy in patients with hypertension (QUARTET): a phase 3, randomised, double-blind, active-controlled trial

Author

Chow, CK, Atkins, ER, Hillis, GS, Nelson, MR, Reid, CM, Schlaich, MP, Hay, P, Rogers, K, Billot, L, Burke, M, Chalmers, J, Neal, B, Patel, A, Usherwood, T, Webster, R, Rodgers, A, Hung, A, Edison, A, Abraham, AE, Xu, D, Bloch, MT, Figtree, G, Nolde, JM, Black, A, Jansen, S, Biswas, S, Ajani, AE, Carnagarin, R, Wynne, D, Altman, M, Thakkar, J, Thiagalingam, A, Klimis, H, Chow, CK, Atkins, ER, Hillis, GS, Nelson, MR, Reid, CM, Schlaich, MP, Hay, P, Rogers, K, Billot, L, Burke, M, Chalmers, J, Neal, B, Patel, A, Usherwood, T, Webster, R, Rodgers, A, Hung, A, Edison, A, Abraham, AE, Xu, D, Bloch, MT, Figtree, G, Nolde, JM, Black, A, Jansen, S, Biswas, S, Ajani, AE, Carnagarin, R, Wynne, D, Altman, M, Thakkar, J, Thiagalingam, A, and Klimis, H

Abstract

Background: Treatment inertia is a recognised barrier to blood pressure control, and simpler, more effective treatment strategies are needed. We hypothesised that a hypertension management strategy starting with a single pill containing ultra-low-dose quadruple combination therapy would be more effective than a strategy of starting with monotherapy. Methods: QUARTET was a multicentre, double-blind, parallel-group, randomised, phase 3 trial among Australian adults (≥18 years) with hypertension, who were untreated or receiving monotherapy. Participants were randomly assigned to either treatment, that started with the quadpill (containing irbesartan at 37·5 mg, amlodipine at 1·25 mg, indapamide at 0·625 mg, and bisoprolol at 2·5 mg) or an indistinguishable monotherapy control (irbesartan 150 mg). If blood pressure was not at target, additional medications could be added in both groups, starting with amlodipine at 5 mg. Participants were randomly assigned using an online central randomisation service. There was a 1:1 allocation, stratified by site. Allocation was masked to all participants and study team members (including investigators and those assessing outcomes) except the manufacturer of the investigational product and one unmasked statistician. The primary outcome was difference in unattended office systolic blood pressure at 12 weeks. Secondary outcomes included blood pressure control (standard office blood pressure <140/90 mm Hg), safety, and tolerability. A subgroup continued randomly assigned allocation to 12 months to assess long-term effects. Analyses were per intention to treat. This trial was prospectively registered with the Australian New Zealand Clinical Trials Registry, ACTRN12616001144404, and is now complete. Findings: From June 8, 2017, to Aug 31, 2020, 591 participants were recruited, with 743 assessed for eligibility, 152 ineligible or declined, 300 participants randomly assigned to intervention of initial quadpill treatment, and 291 to control of

Published
2021

46. Sodium-glucose co-transporter-2 inhibitors with and without metformin: A meta-analysis of cardiovascular, kidney and mortality outcomes

Author

Neuen, BL, Arnott, C, Perkovic, V, Figtree, G, de Zeeuw, D, Fulcher, G, Jun, M, Jardine, MJ, Zoungas, S, Pollock, C, Mahaffey, KW, Neal, B, Heerspink, HJL, Neuen, BL, Arnott, C, Perkovic, V, Figtree, G, de Zeeuw, D, Fulcher, G, Jun, M, Jardine, MJ, Zoungas, S, Pollock, C, Mahaffey, KW, Neal, B, and Heerspink, HJL

Abstract

Aim: To assess whether the effects of sodium-glucose co-transporter-2 (SGLT2) inhibitors on cardiovascular, kidney and mortality outcomes are consistent with and without concomitant metformin use. Material and methods: We conducted a meta-analysis of event-driven, randomized, placebo-controlled SGLT2 inhibitor trials that reported cardiovascular, kidney or mortality outcomes by baseline metformin use. Treatment effects, reported as hazards ratios (HRs) and 95% confidence intervals (CIs), were pooled using random-effects meta-analysis. The main outcomes in this analysis were (i) major adverse cardiovascular events (MACE) and (ii) hospitalization for heart failure (HHF) or cardiovascular death. Results: We included six trials of four SGLT2 inhibitors that enrolled a total of 51 743 participants. Baseline metformin use varied from 21% in DAPA-HF to 82% in DECLARE-TIMI 58. SGLT2 inhibitors reduced the risk of MACE, with and without concomitant metformin use (HR 0.93, 95% CI 0.87–1.00 and HR 0.82, 95% CI 0.71–0.86, respectively; P-heterogeneity = 0.14). There were also clear and separate reductions in HHF or cardiovascular death with SGLT2 inhibitors, irrespective of metformin use (HR 0.79, 95% CI 0.73–0.86 and HR 0.74, 95% CI 0.63–0.87, respectively; P-heterogeneity = 0.48), as well as for major kidney outcomes and all-cause mortality (all P-heterogeneity > 0.40). Conclusion: Treatment with SGLT2 inhibitors results in clear and consistent reductions in cardiovascular, kidney and mortality outcomes regardless of whether patients are receiving or not receiving metformin.

Published
2021

47. A Call to Action for New Global Approaches to Cardiovascular Disease Drug Solutions

Author

Figtree, G. A., Broadfoot, K., Casadei, B., Califf, R., Crea, Filippo, Drummond, G. R., Freedman, J. E., Guzik, T. J., Harrison, D., Hausenloy, D. J., Hill, J. A., Januzzi, J. L., Kingwell, B. A., Lam, C. S. P., Macrae, C. A., Misselwitz, F., Miura, T., Ritchie, R. H., Tomaszewski, M., Wu, J. C., Xiao, J., Zannad, F., Crea F. (ORCID:0000-0001-9404-8846), Figtree, G. A., Broadfoot, K., Casadei, B., Califf, R., Crea, Filippo, Drummond, G. R., Freedman, J. E., Guzik, T. J., Harrison, D., Hausenloy, D. J., Hill, J. A., Januzzi, J. L., Kingwell, B. A., Lam, C. S. P., Macrae, C. A., Misselwitz, F., Miura, T., Ritchie, R. H., Tomaszewski, M., Wu, J. C., Xiao, J., Zannad, F., and Crea F. (ORCID:0000-0001-9404-8846)

Abstract

While we continue to wrestle with the immense challenge of implementing equitable access to established evidence-based treatments, substantial gaps remain in our pharmacotherapy armament for common forms of cardiovascular disease including coronary and peripheral arterial disease, heart failure, hypertension, and arrhythmia. We need to continue to invest in the development of new approaches for the discovery, rigorous assessment, and implementation of new therapies. Currently, the time and cost to progress from lead compound/product identification to the clinic, and the success rate in getting there reduces the incentive for industry to invest, despite the enormous burden of disease and potential size of market. There are tremendous opportunities with improved phenotyping of patients currently batched together in syndromic "buckets." Use of advanced imaging and molecular markers may allow stratification of patients in a manner more aligned to biological mechanisms that can, in turn, be targeted by specific approaches developed using high-throughput molecular technologies. Unbiased "omic" approaches enhance the possibility of discovering completely new mechanisms in such groups. Furthermore, advances in drug discovery platforms, and models to study efficacy and toxicity more relevant to the human disease, are valuable. Re-imagining the relationships among discovery, translation, evaluation, and implementation will help reverse the trend away from investment in the cardiovascular space, establishing innovative platforms and approaches across the full spectrum of therapeutic development.

Published
2021

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