Matrix- and reservoir-based transmucosal delivery systems

Traditionally, per-oral delivery has been the primary route of administration for therapeutic agents targeting systemic delivery. However, oral administration subjects these compounds to extensive presystemic elimination, which may include gastrointestinal degradation, metabolism, or first-pass clearance via the liver, and may ultimately result in poor bioavailability. Parenteral routes, such as intravenous or intramuscular, permit therapeutic agents to gain direct entry into the systemic circulation and, therefore, reach the intended site of action more rapidly. Unfortunately, this mode of drug administration entails numerous disadvantages, including the requirement for close medical supervision and the need for specialized equipment. Transmucosal absorption of nitroglycerin from solutions through the oral cavity was demonstrated in the mid-nineteenth century, and since that time various conventional drug delivery systems for oral mucosal delivery have been proposed and have achieved clinical application. Technologic advances in biomaterials and techniques have resulted in the formulation of novel designs more pertinent to the oral cavity, meeting the challenges of the physicochemical properties of the drug entity itself and achieving the therapeutic aims of the drug delivery system. Issues of patient compliance and convenience have recently resulted in a trend toward once-a-day administration regimens, requiring drugs with high potency and sustained effect. Such drugs usually have a short biologic half-life, exhibit poor permeability and solubility, and are susceptible to enzymatic degradation. However, because of the advantages of delivering a drug through the oral mucosa, these drugs are viable candidates for delivery via this route. Many investigators have studied the potential of transmucosal delivery through the oral cavity, and the oral mucosa is increasingly being considered as a plausible route for many drug classes. Sublingual tablets, oral lozenges, chewing gum systems, and other dosage forms represent potential drug delivery systems for the oral mucosa, but most of the literature has not discussed information on specific drug delivery systems and their challenges. This article examines the anatomy, physiology, and absorption properties of the oral mucosal environment; explores the considerations for a transmucosal system; reviews these types of systems; and evaluates and proposes matrix and reservoir transmucosal applications.