The invention relates to a pharmaceutical dosage form for oral administration comprising a pharmacologically active compound; wherein a portion of said pharmacologically active compound is contained in a multitude of immediate release particles providing immediate release of the pharmacologically active compound; wherein another portion of said pharmacologically active compound is contained in at least one controlled release particle providing controlled release of the pharmacologically active compound; and wherein the breaking strength of each of the immediate release particles and/or of the at least one controlled release particle is at least 300 N.

Therapeutic compositions and methods for treatment of attention deficit disorder (ADD) or attention deficit hyperactivity disorder (ADHD) include dosage forms that deliver a therapeutic amount of active drug in a delayed and controlled release formulation. The dosage form can be administered at night and drug release is delayed for from 5 to 7 hours or longer, followed by an ascending release rate. When administered at night the composition provides early morning improvement in symptoms of ADHD and sustained improvement over a period of at least 12 hours.

Extended release pyridostigmine dosage forms, suitable for maintaining stable plasma concentrations with reduced or minimized initial burst release/dose dumping of pyridostigmine, are provided. The dosage forms include matrix tablets, gastroretentive tablets, and pellets, the latter being suitable for dosing in capsules, tablets, and sachets, as well as for sprinkling on foodstuffs. The disclosure also provides methods for improving patient compliance by administering once-a-day extended release pyridostigmine bromide dosage forms that provide a superior controlled drug release.

The invention provides an oral solid formulation comprising (a) a controlled release component comprising a core comprising levodopa, wherein the core is coated with a layer of a muco-adhesive polymer and externally coated with a layer of an enteric polymer; and (b) an immediate release component comprising carbidopa and levodopa.

“PHARMACEUTICAL COMBINATION CONTAINING AN ANALGESIC AGENT AND AN ANTISPASMODIC AGENT”, whose analgesic agent is the Ketorolac Tromethamine, which is physically isolated from the antispasmodic agent and whose antispasmodic active ingredient, in combination with the analgesic agent Ketorolac Tromethamine, is Hyoscine, Pargeverine, Tolterodine, Mebeverine or Papaverine. Both the analgesic agent Ketorolac Tromethamine and the antispasmodic agent are combined in separate and immediate release form. The analgesic agent Ketorolac Tromethamine can also be found in the present combination in separate and immediate release form, while the combined antispasmodic agent is presented in equally separate, but programmed release form. The active ingredient Ketorolac Tromethamine is in a ratio between 2.5% and 20% by weight and the antispasmodic active ingredient is in a ratio between 2.5% and 20% by weight.

The disclosure provides bioactive agent-containing particulates that include bioactive agent, biocompatible polymer, negatively charged groups, and a cationic agent. The particulates can be associated with a medical device, such as a balloon catheter, which can be used to move the particulates to a treatment site. Transfer of the particulates from the device to tissue is facilitated by the arrangement of the cationic and bioactive agent-containing particulates.

The present invention is directed to pharmaceutical compositions that allow for once-daily or alternate day dosage forms of topiramate. The proposed delayed/extended release single dosage form is equivalent to the immediate-release multiple dose daily regimen, and upon administration, provides steady state blood levels of topiramate. Formulations with increased bioavailability and improved pharmacokinetics are disclosed. A once-a-day administration of topiramate is advantageous over the multiple dose regimen both in terms of patient compliance and reduced adverse events, thus providing better treatment of the conditions for which the topiramate is indicated.

Methods, structures, devices and systems are disclosed for fabricating and implementing nanoparticles with hollow core and sealable holes. In one aspect, a nanoparticle device can includes a shell structure including at least two layers including an internal layer and an external layer, the internal layer structured to enclose a hollow interior region and include one or more holes penetrating the internal layer, the external layer is of a porous material and formed around the internal layer and sealing the one or more holes, and a substance contained within the hollow interior region, the substance incapable of passing through the external layer.

Therapeutic compositions deliver a therapeutic amount of methylphenidate in a delayed and extended release formulation. The dosage form exhibits a lag time prior to release of from 6 to 8 hours or longer, followed by a sustained release period.

A reactor for forming fully coated particles having a solid core, the reactor comprises a reactor vessel which is configured to receive particles, and a gas phase coating mechanism that is configured to selectively introduce pulses of gas phase materials that form a coating on the particles. The reactor also includes a sieve (16) that is located within the reactor vessel, and a forcing means that is configured to force the particles through the sieve (16) in use. The sieve is configured to deagglomerate any particle aggregates formed in the reactor vessel upon forcing of the particles by the forcing means through the sieve.