Drug – bio-affecting and body treating compositions – Preparations characterized by special physical form – Capsules
Reexamination Certificate
1999-06-30
2001-07-31
Spear, James M. (Department: 1615)
Drug, bio-affecting and body treating compositions
Preparations characterized by special physical form
Capsules
C424S043000, C424S195110, C424S433000, C424S436000, C424S441000, C424S443000, C424S455000, C424S456000, C424S458000, C424S463000, C424S464000, C424S465000, C424S489000, C424S490000, C514S772200, C514S772300, C514S777000, C514S778000, C514S779000, C514S781000, C514S783000, C514S784000, C514S785000, C514S786000, C514S937000, C514S944000
Reexamination Certificate
active
06267985
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to drug and nutrient delivery systems, and in particular to pharmaceutical compositions and methods for the improved solubilization of triglycerides and improved delivery of therapeutic agents.
BACKGROUND
A wide variety of therapeutic agents, such as drugs, nutritional agents, and cosmeceuticals, are conventionally formulated in oil/water emulsion systems. These conventional emulsions take advantage of the increased solubility of many therapeutic agents in oils (triglycerides). Thus, one conventional approach is to solubilize a therapeutic agent in a bioacceptable triglyceride solvent, such as a digestible vegetable oil, and disperse this oil phase in an aqueous solution. The dispersion may be stabilized by emulsifying agents and provided in emulsion form. Alternatively, the therapeutic agent can be provided in a water-free formulation, with an aqueous dispersion being formed in vivo in the gastrointestinal environment. The properties of these oil-based formulations are determined by such factors as the size of the triglyceride/therapeutic agent colloidal particles and the presence or absence of surfactant additives.
In simplest form, a triglyceride-containing formulation suitable for delivering therapeutic agents through an aqueous environment is an oil-in-water emulsion. Such emulsions contain the hydrophobic therapeutic agent solubilized in an oil phase which is dispersed in an aqueous environment with the aid of a surfactant. The surfactant may be present in the oil-based formulation itself, or may be a compound provided in the gastrointestinal system, such as bile salts, which are known to be in vivo emulsifying agents. The colloidal oil particles sizes are relatively large, ranging from several hundred nanometers to several microns in diameter, in a broad particle size distribution. Since the particle sizes are on the order of or greater than the wavelength range of visible light, such emulsions, when prepared in an emulsion dosage form, are visibly “cloudy” or “milky” to the naked eye.
Although conventional triglyceride-based pharmaceutical compositions are useful in solubilizing and delivering some therapeutic agents, such compositions are subject to a number of significant limitations and disadvantages. Emulsions are thermodynamically unstable, and colloidal emulsion particles will spontaneously agglomerate, eventually leading to complete phase separation. The tendency to agglomerate and phase separate presents problems of storage and handling, and increases the likelihood that pharmaceutical emulsions initially properly prepared will be in a less optimal, less effective, and poorly-characterized state upon ultimate administration to a patient. Uncharacterized degradation is particularly disadvantageous, since increased particle size slows the rate of transport of the colloidal particle and digestion of the oil component, and hence the rate and extent of absorption of the therapeutic agent. These problems lead to poorly-characterized and potentially harmful changes in the effective dosage received by the patient. Moreover, changes in colloidal emulsion particle size are also believed to render absorption more sensitive to and dependent upon conditions in the gastrointestinal tract, such as pH, enzyme activity, bile components, and stomach contents. Such uncertainty in the rate and extent of ultimate absorption of the therapeutic agent severely compromises the medical professional's ability to safely administer therapeutically effective dosages. In addition, when such compositions are administered parenterally, the presence of large particles can block blood capillaries, further compromising patient safety.
A further disadvantage of conventional triglyceride-containing compositions is the dependence of therapeutic agent absorption on the rate and extent of lipolysis. Although colloidal emulsion particles can transport therapeutic agents through the aqueous environment of the gastrointestinal tract, ultimately the triglyceride must be digested and the therapeutic agent must be released in order to be absorbed through the intestinal mucosa. The triglyceride carrier is emulsified by bile salts and hydrolyzed, primarily by pancreatic lipase. The rate and extent of lipolysis, however, are dependent upon several factors that are difficult to adequately control. For example, the amount and rate of bile salt secretion affect the lipolysis of the triglycerides, and the bile salt secretion can vary with stomach contents, with metabolic abnormalities, and with functional changes of the liver, bile ducts, gall bladder and intestine. Lipase availability in patients with decreased pancreatic secretory function, such as cystic fibrosis or chronic pancreatitis, may be undesirably low, resulting in a slow and incomplete triglyceride lipolysis. The activity of lipase is pH dependent, with deactivation occurring at about pH 3, so that the lipolysis rate will vary with stomach contents, and may be insufficient in patients with gastric acid hyper-secretion. Moreover, certain surfactants commonly used in the preparation of pharmaceutical emulsions, such as polyethoxylated castor oils, may themselves act as inhibitors of lipolysis. Although recent work suggests that certain surfactant combinations, when used in combination with digestible oils in emulsion preparations, can substantially decrease the lipolysis-inhibiting effect of some common pharmaceutical surfactants (see, U.S. Pat. No. 5,645,856), such formulations are still subject to the other disadvantages of pharmaceutical emulsions and triglyceride-based formulations.
Yet another approach is based on formation of “microemulsions.” Like an emulsion, a microemulsion is a liquid dispersion of oil in water, stabilized by surfactants. Conventional microemulsions, however, present several safety and efficiency problems. The amount of triglyceride that can be solubilized in a conventional microemulsion is generally quite small, resulting in a poor loading capacity. In order to solubilize significant amounts of triglycerides, large amounts of hydrophilic surfactant and/or solvents must be used. These high concentrations of hydrophilic surfactant and solvents raise questions of safety, since the levels of hydrophilic surfactant and solvent needed can approach or exceed bioacceptable levels.
Thus, there is a need for pharmaceutical compositions that overcome the limitations and safety concerns of conventional triglyceride-containing formulations, but without suffering from the disadvantages described above.
SUMMARY OF THE INVENTION
It is therefore an object of the present invention to provide pharmaceutical compositions capable of solubilizing greater amounts of triglycerides in a homogeneous aqueous dispersion.
It is another object of the present invention to provide pharmaceutical compositions capable of solubilizing therapeutically effective amounts of therapeutic agents, including pharmaceutical, nutritional, and cosmeceutical agents.
It is another object of the invention to provide triglyceride-containing pharmaceutical compositions that are homogeneous and thermodynamically stable.
It is still another object of the invention to provide pharmaceutical compositions of a therapeutic agent that have decreased dependence upon lipolysis for bioabsorption.
It is yet another object of the invention to provide pharmaceutical compositions capable of increasing the rate and/or extent of bioabsorption of co-administered therapeutic agents.
In accordance with these and other objects and features, the present invention provides pharmaceutical compositions for improved solubilization of triglycerides, and improved delivery of therapeutic agents. It has been surprisingly found that pharmaceutical compositions containing significant amounts of triglycerides can be formed without the disadvantages of conventional triglyceride-containing compositions by using a combination of surfactants and triglycerides in amounts such that when the pharmaceutical composition is mixed with an aqueous solution, a c
Chen Feng-Jing
Patel Mahesh V.
Lipocine Inc.
Reed Dianne E.
Reed & Associates
Spear James M.
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