In the first part of this paper is present a discussion ofthe anatomical and physiological characteristics and limitation present in the human eye. In a simplistic sense, the eye can be viewed as two compartment system: the anterior segment (containing the cornea, conjunctiva, sclera externally, and the anterior chamber, iris, pupil, posterior chamber, ciliary body internally) and the posterior segment (containing the lens, vitreous body, rear ocular tissue layers /retina and choroid/ internally, and the optic nerve and associated vasculature externally). The anterior segment has been described as a dynamic environment. In contrast, the posterior segment is viewed as being somewhat static. Delivering drugs to the front of the eye is an exceedingly complicated issue because ofthe numerous protective mechanisms that are present in the eye to shield the visual pathway from foreign chemicals. Most conventional ophthalmic dosage forms are simplistic. It is usual that water-soluble drugs are delivered through topical administration in an aqueous solution, and water-insoluble drugs are administered topically as an ointment or aqueous suspension. The major deficiencies of these conventional dosage forms include poor ocular drug bioavailability, pulse-drug entry after topical administration, systemic exposure because of nasolacrimal duet drainage, and a lack of effective systems for drug delivery to the posterior segment of ocular tissue. Poor ocular drug bioavailability is the result of ocular anatomical and physiological constraints, which include the relative impermeability of the corneal epithelial membrane, tear dynamics, nasolacrimal drainage, and the high efficiency ofthe blood-ocular barrier. Pulse entry is a common pharmacokinetic characteristic associated with eye drops. The initial high drug concentration found in tears, followed by a rapid decline, poses a potential risk of toxicity. Consequently, eye drops do not remain in contact with the eye for a long time, and they must be administered at relatively frequent intervals. Suspensions have the advantage oflonger contact time in the eye, but also the disadvantage of an irritation potential, due to the particle size of the suspended drugs. Irritation may produce excessive tearing and, consequently, rapid drainage of the instilled dose. Ointments have the advantages of longer contact time and greater storage stability, but also the disadvantage of producing a film over the eye, thereby blurring vision. The delivery of drugs to the posterior segment of ocular tissue is prevented by the same factors that are responsible for the poor ocular bioavailability. In addition, the blood-retinal barrier limits the effectiveness of the intravenous route in posterior drug delivery. To date, the most acceptable method for posterior drug delivery is topical ocular injections (intracameral, retrobulbar ).