A suction device and system utilizing a moveable and/or portable dry vacuum accumulator for vacuum accumulation. The device has at least one accumulator or reservoir for storing a vacuum charge. The device is initially charged by a vacuum source, such as a vacuum from a wall vacuum source as is conventional in a hospital. The vacuum may be boosted using a vacuum boosting pump that may be pneumatic, hydraulic or even electric. The device can be charged to a second predetermined vacuum level which can be different from both atmospheric pressure as well as a first predetermined vacuum level supplied by the vacuum source. Apparatus is also provided for boosting vacuum or for increasing or decreasing a volume in the at least one accumulator or reservoir.

Devices, and methods for generating variable inhalable products (e.g., variable density, phase, and size products) are provided. Methods for treating or preventing a disorder in a subject using variable products generated by the devices are also provided herein. Additionally, inhalers and breathing systems comprising the devices are provided.

A pain-reducing injection apparatus to enhance the safety, efficacy, and efficiency of injection procedures which utilize topical pain-reducing measures. Apparatuses and methods of use provide pain reduction through thermal cooling of an injection region or vibrating the region or both, and optionally include safety shielding and lockout features.

Some embodiments have a pump assembly mounted to or supported by a dressing for reduced pressure wound therapy. The dressing can have visual pressure, saturation, and/or temperature sensors to provide a visual indication of the level of pressure, saturation, and/or temperature within the dressing. Additionally, the pump assembly can have a pressure sensor in communication with the flow pathway through the pump, and at least one switch or button supported by the housing, the at least one switch or button being accessible to a user and being in communication with the controller. The pump assembly can have a controller supported within or by the housing, the controller being configured to control an operation of the pump. The pump can be configured to be sterilized following the assembly of the pump such that all of the components of the pump have been sterilized.

An electronic cigarette (10), comprising an atomizing assembly (100) and a power source assembly (300) connected in a detachable mode; the atomizing assembly (100) comprises a housing (120) and an atomizer (140) located in the housing (120); the housing (120) is provided with a pressing portion (160) therein; the atomizer (140) comprises a liquid storage container (142) and an atomizing element connected to the liquid storage container (142); the power source assembly (300) comprises a first connecting portion (320) facing the atomizer (140); one end of the housing (120) facing the power source assembly (300) is provided with a second connecting portion (180) connected to the first connecting portion (320) in a detachable mode; one end of the atomizer (140) facing the power source assembly (300) is provided with a third connecting portion (144); and when the first connecting portion (320) is connected to and fixed with the second connecting portion (180), the pressing portion (160) presses the atomizer (140) to enable the third connecting portion (144) to press against the first connecting portion (320).

The present invention relates to an at least partly implantable system for injecting a substance into a patient's body. The system comprises at least one implantable infusion needle arranged in at least one first housing, the at least one implantable infusion needle having a tip end for injecting a substance into a penetration area of a patient, and at least one drive unit coupled to the at least one implantable infusion needle and arranged for moving the tip end of the at least one infusion needle for varying the penetration site, wherein the at least one drive unit is a drive unit arranged for moving the tip end of the at least one infusion needle using hydraulic force. The system is adapted to use infusion liquid to be injected into the patient's body as hydraulic fluid.

Disclosed is an auto injector and a method for administering a medicament. The auto injector comprising: a housing; a cartridge receiver; a drive module coupled to move a plunger rod configured to move a first stopper; a temperature sensor configured to provide a temperature signal indicative of the temperature of the medicament in the cartridge; a processing unit configured to: receive the temperature signal; control the drive module to move the plunger rod from a first plunger rod position to a mix plunger rod position wherein the movement from the first plunger rod position to the mix plunger rod position is based on the temperature signal.

A pharmaceutical product including a housing that defines a cavity, wherein the cavity stores a pharmaceutical material, and wherein the housing comprises a material configured to dissolve based on contact with a fluid, an ingestible device to encode information in a current signature, wherein the ingestible device is positioned within the housing, and a protective material that encompasses the ingestible device. The ingestible device may be attached to a flexible component, wherein the flexible component is configured to releasably secure the ingestible device within the housing.

The present disclosure provides a coupling system for coupling a medical accessory to an accessory support is provided. The present disclosure also provides a system for powering a medical accessory with an accessory support.

An apparatus includes an electrolytic cell having an electrolytic chamber to which subject raw water is introduced, at least one membrane that separates inside and outside of the electrolytic chamber, and at least one pair of electrode plates provided in the inside and the outside of the electrolytic chamber so as to sandwich the membrane, the electrode plate in the outside of the electrolytic chamber being provided to be in contact with the membrane; a direct-current power source that applies a direct-current voltage to the pair of electrode plates; and a diluent gas supplier for diluting hydrogen gas generated from the electrode plate that is to be a cathode, wherein the apparatus blows diluent gas supplied from the diluent gas supplier to the cathode thereby to constantly maintain a hydrogen gas concentration in the vicinity of the cathode during electrolysis at lower than 18.3 vol % so that mixed gas comprising the hydrogen gas and the diluent gas and having a hydrogen gas concentration of 0.1 to 18.3 vol % is supplied to a living organism.