The present invention relates to an injectable aqueous viscous solution for treating varicose veins. It also relates to a catheter system with cannulas for vascular puncture with double or triple cut tip comprising, (i) an outer cannula (non-cutting element), a tube-like construction which is slightly flexible, (a) the tip zone being tapered to ease introduction, (b) the edges being optionally rounded to provide atraumatic advancement (c) optionally with a Luer-lock connector (ii) a hollow needle which is flexible and bendable (c) optionally with a transparent flashback chamber, wherein (d) the diameter of the needle is below the diameter of the catheter, wherein (iii) the needle and outer cannula are connected by a temporary lock to ensure the needle tip is fixed in adequate position outside the outer cannula outer cannula during skin puncture and introduction towards the target region.

The present invention generally relates to the field of pharmaceutical sciences. More specifically, the present invention includes apparatus and devices for the preparation of pharmaceutical formulations containing large diameter synthetic membrane vesicles, such as multivesicular liposomes, methods for preparing such formulations, and the use of specific formulations for therapeutic treatment of subjects in need thereof. Formation and use of the pharmaceutical formulations containing large diameter synthetic membrane vesicles produced by using the apparatus and devices for therapeutic treatment of subjects in need thereof is also contemplated.

The present invention generally relates to the field of pharmaceutical sciences. More specifically, the present invention includes apparatus and devices for the preparation of pharmaceutical formulations containing large diameter synthetic membrane vesicles, such as multivesicular liposomes, methods for preparing such formulations, and the use of specific formulations for therapeutic treatment of subjects in need thereof. Formation and use of the pharmaceutical formulations containing large diameter synthetic membrane vesicles produced by using the apparatus and devices for therapeutic treatment of subjects in need thereof is also contemplated.

The present disclosure provides polymeric particles and scaffolds comprising a matrix and an anesthetic agent. In one embodiment, the matrix comprises a bioerodible polymer. The disclosure further relates to the use of the polymeric particles and scaffolds for sustained local delivery of anesthetic agents, reduction of pain killer addiction and addiction risk. The disclosure also provides methods of fabricating and administering polymeric particles and scaffolds containing an anesthetic agent described herein.

The present disclosure provides polymeric particles and scaffolds comprising a matrix and an anesthetic agent. In one embodiment, the matrix comprises a bioerodible polymer. The disclosure further relates to the use of the polymeric particles and scaffolds for sustained local delivery of anesthetic agents, reduction of pain killer addiction and addiction risk. The disclosure also provides methods of fabricating and administering polymeric particles and scaffolds containing an anesthetic agent described herein.

Compositions for the transdermal delivery of methylphenidate in a flexible, finite form are described. The compositions comprise a polymer matrix that includes methylphenidate or a pharmaceutically acceptable salt and at least one acrylic polymer that is non-reactive with methylphenidate. Methods using the compositions to achieve transdermal delivery of methylphenidate or for treating Attention Deficit Disorder (ADD) and/or Attention Deficit/Hyperactivity Disorder (ADHD), postural orthostatic tachycardia syndrome, or narcolepsy also are described.

Compositions for the transdermal delivery of methylphenidate in a flexible, finite form are described. The compositions comprise a polymer matrix that includes methylphenidate or a pharmaceutically acceptable salt and at least one acrylic polymer that is non-reactive with methylphenidate. Methods using the compositions to achieve transdermal delivery of methylphenidate or for treating Attention Deficit Disorder (ADD) and/or Attention Deficit/Hyperactivity Disorder (ADHD), postural orthostatic tachycardia syndrome, or narcolepsy also are described.

An abuse deterrent and misuse deterrent transdermal patch comprising aversive agents incorporated in the backing layer of the patch. The aversive agents can exhibit biphasic or sustained kinetics of release with an immediate portion released rapidly and an extended portion released in a prolonged manner when exposed to a dissolution medium. The prolonged aversive agent release provides deterrence against extraction of drug from fresh and used patches and serves to prevent accidental misuse of used patches by children. The abuse deterrent and misuse deterrent patch systems can be used for transdermal delivery of therapeutically active agents and particularly those drugs that are highly prone to abuse such as opiate and opioid analgesics and stimulants.

An abuse deterrent and misuse deterrent transdermal patch comprising aversive agents incorporated in the backing layer of the patch. The aversive agents can exhibit biphasic or sustained kinetics of release with an immediate portion released rapidly and an extended portion released in a prolonged manner when exposed to a dissolution medium. The prolonged aversive agent release provides deterrence against extraction of drug from fresh and used patches and serves to prevent accidental misuse of used patches by children. The abuse deterrent and misuse deterrent patch systems can be used for transdermal delivery of therapeutically active agents and particularly those drugs that are highly prone to abuse such as opiate and opioid analgesics and stimulants.

The present invention relates to an in vitro method for evaluating the anti- or pro-arrhythmic potential, cardiotoxicity and/or modulation capacity of cardiomyocyte function of compound(s). The present invention also relates to compound(s) identified or evaluated in the method of the invention for use in the treatment of a heart disease. The present invention further relates to the use of the density change of cardiac Nav 1.5 sodium channels in intercalated discs of cardiomyocytes as marker and/or diagnostic for the anti- or pro-arrhythmic potential of a compound, the cardiotoxicity of a compound or modulation capacity of cardiomyocyte function by said compound, and/or in preclinical assessment for cardiac liability of compounds and cardio-safety assessment. The present invention further relates to a kit for evaluating the anti- or pro-arrhythmic potential, cardiotoxicity and/or modulation capacity of cardiomyocyte function of compound(s).