BACKGROUND: Despite the FDA guidelines for studies to be performed to rule out potential cardiac toxicity, many drugs have nevertheless entered the market only to be later withdrawn from the market owing to cardiac toxicity. Cardiac toxicity may result from drugs causing impaired function or death of cardiomyocytes, valvular damage, myocardial ischemia and/or ventricular arrhythmias. Negative cardiovascular events have been implicated in 28% of drug withdrawals in the USA. The significance for patients, regulators and the pharmaceutical industry is immense. OBJECTIVE: We address whether a more rigorous and integrative approach is needed for cardiovascular safety screening of all new drug candidates. Furthermore, we will present a cardionomics approach that looks at several in vitro and in vivo models that can be applied to all drugs independent of category, therapeutic area or class. METHODS: We present examples of drugs demonstrating cardiac toxicity and provide an in-depth review of how calcium homeostasis may be a unifying theme in clinically observed cardiotoxic events. We introduce a cardionomics approach that detects clinical cardiac toxicity early in the drug discovery process, thus, preventing costly late attrition. CONCLUSION: The consequences of a failure to detect potential cardiovascular safety issues before clinical launch can have an enormous cost for the pharmaceutical industry, when major drugs are withdrawn due to lawsuits as well as loss of time and resources. An integrated cardionomics approach may reduce the risk of drug withdrawals as a result of unexpected clinical cardiac safety issues.
BACKGROUND: Despite the FDA guidelines for studies to be performed to rule out potential cardiac toxicity, many drugs have nevertheless entered the market only to be later withdrawn from the market owing to cardiac toxicity. Cardiac toxicity may result from drugs causing impaired function or death of cardiomyocytes, valvular damage, myocardial ischemia and/or ventricular arrhythmias. Negative cardiovascular events have been implicated in 28% of drug withdrawals in the USA. The significance for patients, regulators and the pharmaceutical industry is immense. OBJECTIVE: We address whether a more rigorous and integrative approach is needed for cardiovascular safety screening of all new drug candidates. Furthermore, we will present a cardionomics approach that looks at several in vitro and in vivo models that can be applied to all drugs independent of category, therapeutic area or class. METHODS: We present examples of drugs demonstrating cardiac toxicity and provide an in-depth review of how calcium homeostasis may be a unifying theme in clinically observed cardiotoxic events. We introduce a cardionomics approach that detects clinical cardiac toxicity early in the drug discovery process, thus, preventing costly late attrition. CONCLUSION: The consequences of a failure to detect potential cardiovascular safety issues before clinical launch can have an enormous cost for the pharmaceutical industry, when major drugs are withdrawn due to lawsuits as well as loss of time and resources. An integrated cardionomics approach may reduce the risk of drug withdrawals as a result of unexpected clinical cardiac safety issues.
Authors: Kyuri Kim; Naseem Chini; David G Fairchild; Steven K Engle; William J Reagan; Sandra D Summers; Jon C Mirsalis Journal: Toxicol Pathol Date: 2016-09-28 Impact factor: 1.902
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Authors: D L Misner; C Frantz; L Guo; M R Gralinski; P B Senese; J Ly; M Albassam; K L Kolaja Journal: Br J Pharmacol Date: 2012-04 Impact factor: 8.739
Authors: Yashu Liu; Toufan Parman; Bridget Schneider; Benben Song; Amit K Galande; Dave Anderson; Jon Mirsalis Journal: J Proteome Res Date: 2013-03-28 Impact factor: 4.466
Authors: Fabio Cerignoli; David Charlot; Ross Whittaker; Randy Ingermanson; Piyush Gehalot; Alex Savchenko; David J Gallacher; Rob Towart; Jeffrey H Price; Patrick M McDonough; Mark Mercola Journal: J Pharmacol Toxicol Methods Date: 2012-08-25 Impact factor: 1.950