The invention provides a die suitable for producing a multi-chamber softgel capsule. The die comprises a die pocket defined by a die pocket wall and a bottom surface. The die comprises one or more partitioning walls dividing the die pocket into two or more chambers The top of the land of the partitioning walls have a lowest point that is lower than the plane formed by the top of the land along the perimeter of the die pocket wall by a gap. A die roll comprising a plurality of the dies is also provided, as well as rotary-die encapsulation machine comprising the die roll.

The present disclosure relates to aqueous composition comprising hydroxypropyl methyl cellulose acetate succinate (HPMCAS) polymer dispersed in water, wherein the dispersed polymer is partially neutralized with at least one alkaline material. The instant disclosure also relates to compositions for use in methods of making capsule shells endowed with bulk enteric properties. The present disclosure also relates to capsules made according with the compositions and methods of the present disclosure.

Provided is a gelatin supply device for a softgel encapsulation machine, the device having multiple spreader boxes provided on a guide having adjustment holes arranged in an arc shape to form multiple gelatin sheets, the device being further provided with a printing unit between the provided spreader boxes to print an information mark on an upper surface of a gelatin sheet while forming the gelatin sheet, the device forming a shell of a capsule by covering the information mark with another gelatin sheet.

A capsule shell contains 40 to 99% by weight of a core-shell polymer and 1 to 60% by weight of a cellulose. The core-shell polymer contains 50 to 90% by weight of a core, containing polymerized units of 65 to 75% by weight of ethyl acrylate and 25 to 35% by weight of methyl methacrylate; and 10 to 50% by weight of a shell, containing polymerized units of 45 to 55% by weight of ethyl acrylate and 45 to 55% by weight of methacrylic acid.

Capsule forming machines that form a dual dosage capsule have superimposed upper and lower plates that are each rotatable about an axis of rotation. Each of the upper and lower plates define a plurality of voids for receiving a shell body or a capsule member of a capsule that are positioned to define a plurality of stations. A first distribution device is operatively positioned at one of the plurality of stations of each of the upper and lower plates and an actuator is operatively connected to either of the upper or lower plates. The actuator lifts and lowers the upper plate or the lower plate relative to the other plate and/or pivots the upper plate or the lower plate relative to the other plate transverse to the rotational axis to move a capsule assembly station thereof toward to the other plate and then away from the other plate at predetermined times.

A laser capsule marking system and method may comprise at least two indexing wheels, a feeding mechanism, a laser marker, a first inspection system, a rejection subsystem, a reject verification sensor, and a collection device. The wheels are coaxial and have respective circumferential peripheries with multiple open pockets distributed thereabout. Each pocket is configured to releasably receive a pharmaceutical capsule doped with pigment particles reactive to laser light. The indexing wheels are configured to be incrementally rotated in alternating indexing fashion for transporting discrete arrays of respective pockets through a loading zone, an inspection zone, a marking zone, a reject zone, and an unloading zone. An actuatable reject block may be provided to simultaneously blow a rejected capsule from its pocket, and draw it in for transport to a rejection bin. Each circumferential periphery may be comprised of multiple arcuate shoes removably and replaceably secured to their respective indexing wheel.

The present disclosure relates to aqueous composition comprising hydroxypropyl methyl cellulose acetate succinate (HPMCAS) polymer dispersed in water, wherein the dispersed polymer is partially neutralized with at least one alkaline material. The instant disclosure also relates to compositions for use in methods of making capsule shells endowed with bulk enteric properties. The present disclosure also relates to capsules made according with the compositions and methods of the present disclosure.

Capsule forming machines that form a dual dosage capsule have superimposed upper and lower plates that are each rotatable about an axis of rotation. Each of the upper and lower plates define a plurality of voids for receiving a shell body or a capsule member of a capsule that are positioned to define a plurality of stations. A first distribution device is operatively positioned at one of the plurality of stations of each of the upper and lower plates and an actuator is operatively connected to either of the upper or lower plates. The actuator lifts and lowers the upper plate or the lower plate relative to the other plate and/or pivots the upper plate or the lower plate relative to the other plate transverse to the rotational axis to move a capsule assembly station thereof toward to the other plate and then away from the other plate at predetermined times.

Provided is a dual dosage form capsule, methods for producing and systems for making the same, which can provide dual release of the two dosages. The dual dosage form capsule has a first capsule member containing a first fill material and a second capsule member containing a second fill material. A band couples the first capsule member to the second capsule member and forms a third chamber defined by an inner surface of the band and each cap of the capsule members. An aperture allows fluid into the third chamber causing the band to at least partially dissolve so that the caps of the capsule members are exposed. The caps of the capsule members can dissolve at the same or different rates to control the timing of the release of the first and second fill materials and hence an active ingredient included within the fill material.

The invention provides a process for manufacturing softgel capsules incorporating within said capsule one or more flat round tablets, said process comprising: (i) loading said flat round tablets into a tablet hopper; (ii) feeding said flat round tablets in a vertical orientation into guide channels; (iii) allowing said flat round tablets to move in the vertical orientation along the guide channels by the effect of gravity; (iv) allowing said flat round tablets to pass through a system incorporating a first retention piston and a second delivery piston; (v) allowing said flat round tablets to enter a distributor plate and wedge segment system through the top feed holes in said distributor plate; and (vi) incorporating said flat round tablets into the interior of the softgel capsule.