The present invention provides for a method for the treatment of a respiratory disease, disorder or condition, or a viral infection or viral disease, disorder or condition in a subject, the method comprising the step of administering to said subject a medically active liquid in nebulized form by inhalation, wherein the medically active liquid comprises niclosamide or a pharmaceutically acceptable salt thereof and wherein the medically active liquid is administered in nebulized form using an inhalation device.

A fitment for a container that includes a chamber fillable with contents from a container is disclosed.

An apparatus and means of repeatedly dispensing controlled doses of liquid contained in a resiliently squeezable container, wherein the dose size can be adjusted.

A two-piece measured-dose dispensing closure includes a cup-shaped measuring chamber and a rotatable dispensing control lid. In use, the dispensing control lid is axially moved relative to the measuring chamber by rotation between a first closed position, a second intermediate dispensing position, and a third drain position.

A dispensing closure for dispensing a flowable product from a squeeze-type product container includes a closure body having an upper deck, an exit orifice, and a skirt configured to attach to the product container. A measuring reservoir is received in engagement with a lower surface of the upper deck. The measuring reservoir is filled with a measured dose of flowable product through flow ports when the container is inverted. A piston valve is slidably movable within the measuring reservoir between an open position and a closed position. The piston valve is movable from the open position to the closed position to dispense the measured dose of product responsive to pressure within the container induced by squeezing.

A dosing cap for dispensing a measured dose of material includes a housing, a sealing member and a biasing member. The housing has an inlet end residing within a container and receives the material. An outlet end dispenses the material. A dosage region is interposed between the inlet end and outlet end. The sealing member is received within the housing. The sealing member includes a first seal proximate the inlet end to selectively open or close the inlet end and a second seal proximate the outlet end to selectively open or close the outlet end. When the biasing member is unbiased, the inlet end is open, the outlet orifice is closed and the dosage region is charged with material. When the biasing member is compressed, the sealing member is biased so that the inlet end is closed and the outlet orifice is open whereby the material is dispensed.

A fitment for a container that includes a chamber fillable with contents from a container is disclosed.

A dispensing closure for dispensing flowable product from a squeeze container includes a closure body having an upper deck and a dispensing orifice within the upper deck. A timing piston extends downwardly from the upper deck and is located adjacent to the dispensing orifice. The timing piston is movable between an open position wherein a flared piston neck is spaced from the dispensing orifice, and a closed position wherein the flared piston neck closes off the dispensing orifice. A timing vent within the upper deck is in communication with a piston chamber to allow air to escape the piston chamber. An air intake orifice within the upper deck allows air to enter the piston chamber, and a ball valve structure adjacent the bottom surface of the upper deck cooperates with the air intake orifice to control the flow of air through the air intake orifice.

A dispensing closure for dispensing a flowable product from a squeeze-type product container includes a closure body having an upper deck, an exit orifice, and a skirt configured to attach to the product container. A measuring reservoir is received in engagement with a lower surface of the upper deck. The measuring reservoir is filled with a measured dose of flowable product through flow ports when the container is inverted. A piston valve is slidably movable within the measuring reservoir between an open position and a closed position. The piston valve is movable from the open position to the closed position to dispense the measured dose of product responsive to pressure within the container induced by squeezing.

An apparatus and means of repeatedly dispensing controlled doses of liquid comprising a resiliently squeezable container for containing a liquid detergent composition; a cap operably connected to said container, the cap comprising a nozzle for expelling the liquid out of the container; a dosing chamber operably connected to the cap, wherein the dosing chamber comprises a base having a discharge opening therein, sidewalls extending upwardly along the perimeter of said base and at least one inlet opening located proximal the sidewalls; at least one timer aperture located proximal to the discharge opening; a plunger, provided in the dosing chamber and moveable relative to the chamber so as to advance upon squeezing of the container, up to a blocking position; a valve retaining means located below the base; a valve provided in the valve retaining mean wherein the valve is movable from an open position, allowing liquid flow through the discharge opening, and a closed position, where the valve blocks the discharge opening; wherein the liquid is a shear thinning liquid and the shear thinning liquid has a viscosity of greater than 150 mPa.Math.s measured at 10s.sup.1 at 20 C.