The quest to find novel strategies to tackle respiratory illnesses has led to the exploration of the potential therapeutic effects of carbon monoxide (CO) as an endogenous signaling molecule and a cytoprotective agent. Further, several studies have demonstrated the pharmacological efficacy of CO in animal models of respiratory disorders, such as acute lung injury and pulmonary hypertension. Because of the gaseous nature of CO and its affinity for multiple targets, its controlled delivery has been a challenge. Past studies have employed different delivery modalities, including CO gas, HO-1 inducers, and CO donors, sometimes leading to substantive variations in the resulting pharmacological effects for various reasons. Herein, this review summarizes and analyzes the differences among the profiles of various CO-delivery modalities in terms of their efficacy, dosing regimen, and pharmacokinetics in airways models. We believe that analysis of these issues will help in understanding the fundamental roles of CO in airways, and eventually, contribute to its development as a medicine for respiratory diseases.
Keywords: Respiratory system, CO, HO-1 inducers, CO-RMs, Cytokines, Delivery modalities.