bay-68-4986 and Pain

bay-68-4986 has been researched along with Pain* in 1 studies

Reviews

1 review(s) available for bay-68-4986 and Pain

Article	Year
A1 adenosine receptor agonists and their potential therapeutic applications. Expert opinion on investigational drugs, 2008, Volume: 17, Issue:12 The challenges in developing any A(1) adenosine receptor (A(1)-AdoR) agonist involve having the desired effect on target tissue while avoiding side effects due to activation of A(1)-AdoR on other tissues. A(1)-AdoR de-sensitization leading to tachyphylaxis is also another challenge.. The major goal of this review is twofold: to highlight the structure affinity relationships (SAR) of A(1)-AdoR agonists, starting with initial lead compounds that were the genesis for second-generation compounds with high selectivity, affinity, and partial agonism; and to give an overview of the A(1)-AdoR agonists under development for various indications.. Intense efforts by many pharmaceutical companies and academicians in the A(1)-AdoR agonist field have led to the discovery of clinical candidates for the following conditions: atrial arrhythmias - Tecadenoson, Selodenoson and PJ-875; type 2 diabetes (T2D) and insulin-sensitizing agents - GR79236, ARA, and CVT-3619; pain management - SDZ WAG 994, GW493838; and angina - BAY-68-4986. For the i.v. antiarrhythmic agents that act as ventricular rate control agents, a selective response can be accomplished by careful dosing paradigms. The treatment of T2D using A(1)-AdoR agonists has been met by limited success due to cardiovascular side effects and well-defined desensitization of full agonists in both animal models and human trials (GR79236 and ARA). However, new partial A(1)-AdoR agonists are in development, including CVT-3619 (hA(1)-AdoR K(i) = 55 nm, selectivity A(2A) > 200; A(2B) > 1000; A(3) > 20, CV Therapeutics), that have the potential to provide enhanced insulin sensitivity without cardiovascular side effects or tachyphylaxis. The A(1)-AdoR agonists GW493838 and GR792363 are under evaluation for pain management. The non-nucleosidic A(1)-AdoR agonist, BAY-68-4986 (Capadenoson), represents a unique approach to angina wherein both animal studies and early human studies are promising.. The challenges associated with developing an A(1)-AdoR agonist for therapeutic intervention are now well defined in humans. Significant progress has been made in identifying agents for the treatment of atrial arrhythmias, T2D, and angina. Topics: Adenosine A1 Receptor Agonists; Aminopyridines; Angina Pectoris; Animals; Anti-Arrhythmia Agents; Humans; Insulin; Pain; Receptor, Adenosine A1; Thiazoles	2008

Article

Year

A1 adenosine receptor agonists and their potential therapeutic applications.

Expert opinion on investigational drugs, 2008, Volume: 17, Issue:12

The challenges in developing any A(1) adenosine receptor (A(1)-AdoR) agonist involve having the desired effect on target tissue while avoiding side effects due to activation of A(1)-AdoR on other tissues. A(1)-AdoR de-sensitization leading to tachyphylaxis is also another challenge.. The major goal of this review is twofold: to highlight the structure affinity relationships (SAR) of A(1)-AdoR agonists, starting with initial lead compounds that were the genesis for second-generation compounds with high selectivity, affinity, and partial agonism; and to give an overview of the A(1)-AdoR agonists under development for various indications.. Intense efforts by many pharmaceutical companies and academicians in the A(1)-AdoR agonist field have led to the discovery of clinical candidates for the following conditions: atrial arrhythmias - Tecadenoson, Selodenoson and PJ-875; type 2 diabetes (T2D) and insulin-sensitizing agents - GR79236, ARA, and CVT-3619; pain management - SDZ WAG 994, GW493838; and angina - BAY-68-4986. For the i.v. antiarrhythmic agents that act as ventricular rate control agents, a selective response can be accomplished by careful dosing paradigms. The treatment of T2D using A(1)-AdoR agonists has been met by limited success due to cardiovascular side effects and well-defined desensitization of full agonists in both animal models and human trials (GR79236 and ARA). However, new partial A(1)-AdoR agonists are in development, including CVT-3619 (hA(1)-AdoR K(i) = 55 nm, selectivity A(2A) > 200; A(2B) > 1000; A(3) > 20, CV Therapeutics), that have the potential to provide enhanced insulin sensitivity without cardiovascular side effects or tachyphylaxis. The A(1)-AdoR agonists GW493838 and GR792363 are under evaluation for pain management. The non-nucleosidic A(1)-AdoR agonist, BAY-68-4986 (Capadenoson), represents a unique approach to angina wherein both animal studies and early human studies are promising.. The challenges associated with developing an A(1)-AdoR agonist for therapeutic intervention are now well defined in humans. Significant progress has been made in identifying agents for the treatment of atrial arrhythmias, T2D, and angina.

Topics: Adenosine A1 Receptor Agonists; Aminopyridines; Angina Pectoris; Animals; Anti-Arrhythmia Agents; Humans; Insulin; Pain; Receptor, Adenosine A1; Thiazoles

2008