Split plenum arrangement for an apparatus for coating tablets

Coating apparatus – Projection or spray type – Coating moving mass of solid particulate work

Reexamination Certificate

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Details

C118SDIG005

Reexamination Certificate

active

06692571

ABSTRACT:

BACKGROUND OF THE INVENTION
A. Field of the Invention
The present invention generally relates to coating machines and, in particular, to fluid-bed coating machines used for the coating of tablets.
B. Description of the Prior Art
Tablets are formed by pressing pharmaceutically active drugs, filler and binding agents together. Once formed, it may be necessary, or desirable to provide the tablet with a coating which will:
1. prevent any portion of the drug from being released, such as in the form of dust;
2. mask any unpleasant odor or taste of the active drug, or any filler or binder used;
3. facilitate swallowing by providing a smoother and less absorbent outer layer;
4. protect the contents of the tablet from pre-mature digestion by providing a coating which is resistant to gastric fluids;
5. control the rate of absorption of the drug by the small intestine; and
6. improve the appearance of the tablet and provide a printable surface.
The tablets are generally coated using machines which spray a coating material, such as hydroxypropylmethylcellulose onto the surfaces of the tablets while the tablets are in motion within a product container. Two common types of machines tumble tablets within a horizontally rotatable drum during the spraying process, while another type of tablet coating machine uses a vertical flow of air to circulate tablets past a vertically disposed spray nozzle. The prior art coating machines are described below:
1. Dragee Kettle
For most applications, the exact thickness of the coated layer is not critical and many different types of coating machines may be used to apply a crude, yet effective coating to the tablet. An older once popular type of coating machine is called a dragee kettle and examples of these machines are disclosed in U.S. Pat. Nos. 3,831,262 and 5,334,244. This machine includes a large drum-like vessel which is typically rotated about a horizontal axis. The vessel includes a coating chamber which is partially filled with tablets to be coated so that as the vessel rotates, the tablets roll and tumble along the inside wall of the coating chamber. During this tumbling motion, coating materials in the form of aqueous or organic suspensions of liquids are sprayed through nozzles and into contact with the rolling tablets within the coating chamber. During the coating process, a current of temperature-controlled air circulates in the coating chamber of the dragee kettle, which helps evaporate the suspension agent of the coating material so that the coating material effectively dries and adheres to the tablets.
One problem with the dragee kettle coating machine is that typically the tablets are not the only surfaces coated within the coating chamber. Even when a carefully controlled spraying schedule is followed (such as spraying at very short intervals while the dragee kettle rotates), much of the sprayed coating material still ends up on the inside wall of the coating chamber, as well as throughout the evaporation/venting ducting. This over-spraying creates numerous contamination and cleaning problems, and further increases the cost of the coating since much of the coating material is lost during the coating process.
The above-described dragee kettle type coating machine is limited to coating tablets which do not require much precision in the thickness of the coated layer because the thickness of the coating of the tablets will vary in the same batch. This process may be used to coat many different types of pharmaceuticals, vitamins, and even candy, as long as uniform coating distribution and thickness are not required.
2. The next generation of tablet coating machines after the dragee kettle is called a perforated pan tablet coating machine. This machine has improved the tablet coating process and is the most common type of tablet coating machine in use today. The perforated pan machine includes a rotatable perforated drum which rotates about a horizontal axis within a housing, and further includes a plurality of nozzles positioned within the drum. The nozzles create a spray of coating material within the drum so that any tablets located within the drum will tumble about into and out of the spray pattern and, over a period of time, will accumulate a coating on their surface. An important improvement of the perforated pan coating machine over the dragee kettle is that the perforated pan machine allows air directed through the housing (using appropriate ducting) to pass through the perorated drum and quickly reach the tablets tumbling therein. The perforations of the drum effectively expose the tumbling tablets to the current of air, resulting in more uniform distribution of drying air for each tablet. The drum further includes solid baffles which are used to enhance mixing of the tablet bed in an effort to improve the distribution of the material being sprayed onto the tablets.
3. Fluidized Bed Coating Machines
Another type of particle-coating apparatus is called a fluidized bed coating machine (also known as a Wurster machine, after inventor Dale Wurster). Several examples of the Wurster coating machine are disclosed in U.S. Pat. Nos. 3,196,827,3,110,626, 3,880,116, 4,330,502, 4,535,006 and 5,236,503.
The Wurster coating machine is typically used to layer, coat or encapsulate lightweight powders, particles, granules or pellets of solid materials, including pharmaceutical drugs. Often, coatings are applied to modify the release of the substrate (protective barrier, taste masking, enteric coating, delayed release or sustained release). A predetermined quantity of these coated particles are usually packaged within an edible gelatin capsule or compressed into a tablet. The distribution uniformity of the applied substance may not be critical because the capsule or tablet contains multiple units and the average coating thickness of all of the pellets within the capsule dictate the average release properties and performance of the overall dosage form.
As described below, the Wurster machine generates an upward stream of air or other gases such as nitrogen to circulate a substrate (particles, pellets, powders, etc.) through a vertical spray of coating liquid within a product container. As the substrate cycles through the spray, a minute amount of coating material is deposited on its surface. The number of cycles the substrate completes determines the thickness of the final coating layer.
The conventional Wurster machine works well when the particles are fine and lightweight (such as grains of powder). However, due to flow-related problems inherent in the design, the conventional Wurster machine fails to provide a uniform distribution of coating on heavier tablets because the heavier tablets do not uniformly cycle through the machine. The Wurster-coated tablets cannot be used for applications which require uniform, predictable and consistent distribution coatings on all tablets within a particular batch.
Certain types of pharmaceutical controlled-released tablets require high-precision coatings because the thickness of the coating governs the time of release and the release rate of the active ingredient of the tablet and thereby directly influences the effectiveness of the medication. The conventional Wurster machine is incapable of providing a high-precision coating on tablets, in part due to the following flow-related problems, each of which adversely effects the precision of the coating of each tablet or particle in the batch.
The conventional Wurster machine also creates undesirable turbulence and introduces high shear forces to the substrate as it cycles through the machine. The fine and lightweight substrates typically used with conventional Wurster machines are not adversely affected by the violent traumatic forces they must endure during each cycle. However, when a conventional Wurster machine is used to coat heavier tablets, the high shear forces generated during each coating cycle are capable of damaging the tablets and the resulting attrition rate of the tablets is unacceptable.
The heavier tablets are also more difficult to introduce into the

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