modified drug release - pharmaceutics

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8. MODIFIED-RELEASE DOSAGE FORMS AND DRUG DELEVERY SYSTEMS

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Page 1: Modified drug release - Pharmaceutics

8. MODIFIED-RELEASE DOSAGE FORMS AND DRUG DELEVERY

SYSTEMS

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CONTENTS

I. The rationale for extended-release pharmaceuticals

II. TerminologyIII. Extended-release oral dosage formsIV. Delayed-release oral dosage formsV. USP requirements and FDA Guidance for

modified-release dosage formsVI. Clinical considerations in the use of oral

modified-release dosage formVII. Packaging and storing modified-release tablets

and capsules

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In contrast to conventional forms, modified-release products provide either delayed-release or extended-release of drug.

Delayed-release products usually are enteric-coated tablets or capsules designed to pass through the stomach unaltered, later to release their medication within the intestinal tract.

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Extended-release products are designed to release their medication in a controlled manner, at a predetermined rate, duration and location to achieve and maintain optimum therapeutic blood levels of drug.

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I. The rationale for extended-release pharmaceuticals

Extended-release tablets and capsules are commonly taken only once or twice daily, compared with counterpart conventional forms that may have to be taken three or four times daily to achieve the same therapeutic effect.

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Typically, extended-release products provide an immediate release of drug that promptly produces the desired therapeutic effect, followed by gradual release of additional amounts of drug to maintain this effect over a predetermined period.

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II. Terminology

Modified-release use to describe dosage forms having drug release features based on time, course, and /or location which are designed to accomplish therapeutic or convenience objectives not offered by conventional or immediate-release forms.

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An Extended-release dosage forms are defined as one that allows a reduction in dosing frequency to that presented by a conventional dosage form.

A Delayed-release dosage form is designed to release the drug from the dosage form at a time other than promptly after administration. The delay may be time-based or based on the influence of environmental conditions, as gastrointestinal pH.

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Repeat-action forms usually contain two single doses of medication, one for immediate release and the second for delayed release.

Targeted release describes drug release directed toward isolating or concentrating a drug in a body region, or site for absorption or for drug action.

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III. Extended-release oral dosage forms

1. Drug-candidates for extended-release productsThe drugs best suited for incorporation into an extended-release product have the following characteristics:

- They exhibit neither very slow nor very fast rates of absorption and excretion.

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- They are uniformly absorbed from the gastrointestinal tract.- They are administered in relatively small doses.- They possess a good margin of safety.- They are used in the treatment of chronic rather than acute conditions.

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The rate of drug release from solid dosage forms may be modified by the technologies described below:

- Modifying drug dissolution by controlling access of biologic fluids to the drug through the use of barrier coatings.

2. Extended-release technology for oral dosage forms

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- Controlling drug diffusion rates from dosage forms.- Chemically reacting or interacting between the drug substance or its pharmaceutical barrier and site-specific biologic fluids.

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1) Coated beads, granules, or microspheres- In these systems, the drug is distributed onto beads, pellets, granules, or other particulate systems.

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- Using conventional pan coating or air suspension coating, a solution of the drug substance is placed on small inert nonpareil seeds or beads made of sugar and starch or on microcrystalline cellulose spheres.

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2) Multitablet system Small spheroid compressed tablets 3 to 4 mm in diameter may be prepared to have varying drug release characteristics. They may be placed in gelatin capsule shells to provide the desired pattern of drug release. Each capsule may contain 8 to 10 minitablets, some uncoated for immediate release and others coated for extended drug release.

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3) Microencapsulated drugMicroencapsulation is a process by which solids, liquids, or even gases may be enclosed in microscopic particles by formation of thin coatings of wall material around the substance.

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The typical encapsulation process usually begins with dissolving the wall material, say gelatin, in water.

The material to be encapsulated is added and the two-phase mixture thoroughly stirred.

With the material to be encapsulated broken up to the desired particle size, a solution of a second material, usually acacia, is added.

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This additive material concentrates the gelatin into tiny liquid droplets. One of the advantages of microencapsulation is that the administered dose of a drug is subdivided into small units that are spread over a large area of the gastrointestinal tract, which may enhance absorption by diminishing localized drug concentration.

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By this process, the drug substance is combined and made into granules with an excipient material that slowly erodes in body fluids, progressively releasing the drug for absorption.

4) Embedding drug in slowly eroding or hydrophilic matrix system

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When these granules are mixed with granules of drug prepared without the excipient, the uncombined granules provide the immediate drug effect whereas the drug-excipient granules provide extended drug action.

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5) Embedding drug in inert plastic matrix By this method, the drug is granulated with an inert plastic material such as polyethylene, polyvinyl acetate, or polymethacrylate, and the granulation is compressed into tablets. The drug is slowly released from the inert plastic matrix by diffusion. The inert tablet matrix, expended of drug, is excreted with the feces.

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6) Complex formation

Certain drug substances when chemically combined with certain other chemical agents form chemical complexes that may be only slowly soluble in body fluids, depending upon the pH of the environment.

This slow dissolution rate provides the extended release of the drug.

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Salts of tannic acid, tannates(鞣酸盐复合物) , provide this quality in a variety of proprietary produces by the tradename Rynatan.

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7) Ion-exchange resins A solution of a cationic drug may be passed through a column containing an ion-exchange resin, forming a complex by the replacement of hydrogen atoms. The resin-drug complex is then washed and may be tableted, encapsulated, or suspended in an aqueous vehicle. The release of the drug is dependent upon the pH and the electrolyte concentration in the gastrointestinal tract.

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Release is greater in the acidity of the stomach than in the less acidic environment of the small intestine.

Examples of drug products of this type include hydrocodone polistirex and chlorpheniramine polistirex suspension and phentermine resin capsules.

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The mechanism of action of drug release

In the stomach:1. Drug resinate+HClacidic resin+drug hydrochl

oride2. Resin salt+HClresin chloride+sodium salt of

drug

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In the intestine 1. Drug resinate+NaClsodium resinate+dru

g hydrochloride2. Resin salt+NaClresin chloride+sodium s

alt of drug

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8) Osmotic pump The pioneer oral osmotic pump drug delivery system is the Oros system, developed by Alza. The system is composed of a core tablet surrounded by a semipermeable membrane coating have a 0.4 mm diameter hole produced by laser beam.

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Osmotic core containing drug

Osmotic delivery orifice

Semipermeable membrane

Osmotic pressure-controlled drug delivery system

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The system is designed such that only a few drops of water are drawn into the tablet each hour.

The rate of inflow of water and the function of the tablet depends upon the existence of an osmotic gradient between the contents of the bi-layer core and the fluid in the GI tract.

Drug delivery is essentially constant as long as the osmotic gradient remains constant.

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The drug release rate may be altered by

Changing the surface area, The thickness or composition of the

membrane, Changing the diameter of the drug release

orifice.

The drug-release rate is not affected by gastrointestinal acidity, alkalinity, fed conditions, or GI motility.

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Effect of coating membrane thickness on the rate and duration of zero-order release of indomethacin from osmotic pressure-controlled gastrointestinal delivery system

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9) Repeat action tablets

Repeat action tablets are prepared so that an initial dose of drug is released immediately followed later by a second dose.

The tablets may be prepared with the immediate-release dose in the tablet’s outer shell or coating with the second dose in the tablet’s inner core, separated by a slowly permeable barrier coating.

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Repeat action dosage forms are best suited for the treatment of chronic conditions requiring repeated dosing.

The drugs utilized should have low dosage and fairly rapid rates of absorption and excretion.

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IV. Delayed-release oral dosage forms

The release of a drug from an oral dosage form may be intentionally delayed until it reaches the intestines for several reasons.

- to protect a drug destroyed by gastric fluids,

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- to reduce gastric distress caused by drugs particularly irritating to the stomach.- to facilitate GI transit for drugs which are better absorbed from the intestines.

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Capsules and tablets specially coated to remain intact in the stomach and to yield their ingredients in the intestines are termed enteric coated.

The enteric coating may be pH dependent, breaking down in the less

acidic environment of the intestine, time dependent, eroding by moisture over

time during gastrointestinal transit,

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enzyme dependent, deteriorating as a result of the hydrolysis-catalyzing action of intestinal enzymes.

Among the many agents used for enteric coating of tablets and capsules are fats, fatty acids, waxes, shellac, and cellulose acetate phthalate(邻苯二甲酸醋酸纤维素) .

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V. USP requirements and FDA guidance for modified-release dosage forms

1) Drug releaseThe USP test for drug release for extended-release and delayed-release articles is based on drug dissolution from the dosage unit against elapsed test time.Time (hr) Amount dissolved1.0 between 15% and 40%2.0 between 25% and 60%4.0 between 35% and 75%8.0 not less than 70%

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2) Uniformity of dosage unitsUniformity of dosage units may be demonstrated by either of two methods, weight variation or content uniformity.3) In vitro/in vivo correlations (IVIVCs) IVIVCs is critical to the development of oral extended-release products. Assessing IVIVCs is important throughout the periods of product development, clinical evaluation, submission of an application for FDA-approval for marketing, and during postapproval for any formulation or manufacturing changes which are proposed.

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Three categories of IVIVCs are included in the document

- Level AA predictive mathematical model for the relationship between the entire in vitro dissolution/release time course, e.g., the time course of plasma drug concentration or amount of drug absorbed.

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- Level BA predictive mathematical model of the relationship between summary parameters that characterize the in vitro and in vivo, time courses.

- Level CA predictive mathematical model of the relationship between the amount dissolved in vitro at a particular time (or T50%) and a summary parameter that characterizes the in vivo time course (e.g. Cmax or AUC).

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4) LabelingThe USP indicates labeling requirements for modified-release dosage form articles in addition to general labeling requirements.

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VI. Clinical considerations in the use of oral modified-release dosage forms

Patients should be advised of the dose and dosing frequency of modified drug release products and instructed to not use them interchangeably or concomitantly with immediate-release forms of the same drug.

Patients should be advised that modified-release tablets and capsules should not be crushed or chewed since such action would compromise their drug release features.

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Patients and caregivers should be advised that nonerodible plastic matrix shells and osmotic tablets remain intact throughout gastrointestinal transit and the empty shells or ‘ghosts’ from osmotic tablets may be seen in the stool.

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VII. Packaging and storing modified-release tablets and capsules

Modified-release tablets and capsules are packaged and stored in the same manner as conventional products.