A vaporization device includes biometric recognition systems. A vaporizer device is provided. The vaporizer device includes a vaporizer body comprising a cartridge receptacle, a heating element, a power source, and a sensor. The vaporizer device further includes a vaporizer cartridge that is selectively coupled to the vaporizer body, the vaporizer cartridge comprising one or more translucent surfaces and a passageway between the sensor and the one or more translucent surfaces. The vaporizer device further includes a controller configured to determine, based on data from the sensor, whether a user is authorized to use the vaporizer device. The controller further configured to provide power to the heating element to generate an aerosol responsive to determining the authorization of the user. Related methods and articles of manufacture are also described.

A device, system, and method for vaporizing substances in a pod, utilized for inhalation by a user. The device includes components to measure the content and dosage pods containing substances, among other features. The device includes a graphical user interface that may be integrated with the device or implemented through a mobile device, which allows the user to transmit user data to a remote database and/or healthcare provider for personal and clinical data collection. The user data can be used for enhancing personal treatment or clinical research.

A steam room for sanitizing people's external body parts and clothes, but also their breathing airways and respiratory tract, to reduce viral load and thereby mitigate the likelihood of spreading or contracting Viral contamination. Steam room has precise temperature and relative humidity control of a heater and mist generator, in which the mist water molecules contain an accurate concentration of a Chlorine or Ethanol based disinfectant, so that the water vapor or combined air/water mixture in the room that comes in contact with the sanitized person reaches but does not surpass the globally permitted concentration of free Chlorine for swimming pools, dressing rooms and spas. The room has thermally isolated quick doors allowing rapid entry and exit, and the signaling to guide the person when to enter, stay and breath, and exit, in the most suitable timing profile for the application.

A method of making and using a medical delivery device includes forming a first compartment to contain at least a portion of an activator, where forming the first compartment includes forming a first wall with a first ferrous material such that the first wall disintegrates in response to first electromagnetic radiation received by the first ferrous material. Upon contact, the activator activates one or more molecular nanomachines. The method also includes forming a second compartment adjacent to the first wall of the first compartment to contain the one or more molecular nanomachines. The second compartment includes a second wall that includes a second ferrous material. The second wall is configured to disintegrate and release one or more activated molecular nanomachines into a patient in response to second electromagnetic radiation received by the second ferrous material.

There is provided a susceptor assembly configured to inductively heat an aerosol-forming substrate under influence of an alternating magnetic field, the susceptor assembly including a first susceptor including a first susceptor material and a second susceptor including a second susceptor material, the first and the second susceptor materials being chosen such that during pre-heating of the susceptor assembly starting at room temperature a resistance-over-temperature profile of the susceptor assembly has a minimum value of resistance in a temperature range of ±5 degree Celsius around a Curie temperature of the second susceptor material. There is also provided an inductive heating assembly, an aerosol-generating device, and an aerosol-generating system including the susceptor assembly.

There is provided in accordance with an exemplary embodiment of the invention, a device and a method for controlled extraction of at least one active substance from at least one type of plant matter by application of heat, the device comprising: a heating element adapted to apply heat to an area of the plant matter to extract the substance; and a mechanism adapted for moving the plant matter relative to the heating element. Optionally, the active substance is a restricted substance. There is also provided in accordance with an exemplary embodiment of the invention, a method of monitoring and controlling inhalation of a restricted substance. There is provided in accordance with an exemplary embodiment of the invention, a method of manufacturing a tape of plant matter comprising an active substance.

A method for controlling a vaporizer device may include determining a first temperature, vaporizing an inhalable substance at the first temperature, raising the first temperature by a temperature quantity, wherein a second temperature is a sum of the temperature quantity and the first temperature; and vaporizing the inhalable substance at the second temperature, wherein the temperature quantity is less than 3° C.

The method includes defining a cavity within a housing of a vapor-generating article, the vapor-generating article having a first end, a second end and a middle section, first inserting at least one portion of a retention medium within the housing between the first end and the middle section, and second inserting a first frangible capsule to be near or at least partially within the retention medium, the first frangible capsule including a first volatile substrate.

There is provided an inductive heating assembly configured to inductively heat an aerosol-forming substrate to a pre-determined operating temperature, the heating assembly including an induction source configured to generate an alternating electromagnetic field; and a susceptor assembly configured to inductively heat the aerosol-forming substrate under influence of the alternating magnetic field generated by the induction source, the susceptor assembly including a first susceptor comprising a first susceptor material and a second susceptor including a second susceptor material having a Curie temperature at least 50 degrees Celsius below an operating temperature of the heating assembly. There is also provided an aerosol-generating device and an aerosol-generating system including the inductive heating assembly.

The present invention relates to a micro-needle (7; 8; 9) for the transdermal administration of active molecules and/or for the sampling of biological fluids. The micro-needle (7; 8; 9) is made of polymeric material through photolithography. A cavity is defined in the micro-needle (7; 8; 9).

The present invention further relates to a method for obtaining through photolithography at least one micro-needle (7; 8; 9) for the transdermal administration of active molecules and/or for the sampling of biological fluids. A photo-cross linking polymer is exposed in liquid phase to an energy radiation causing the hardening thereof. A photolithographic mask (1; 2) is interposed between the source of the energy radiation and the photo-cross linking polymer. The photolithographic mask (1; 2) is configured in a manner such to generate in the photo-cross linking polymer a peripheral shadow area, a central shadow area and a lighting area confined between the peripheral shadow area and the central shadow area.

The method according to this invention is aimed at obtaining a micro-needle (7; 8; 9) for the transdermal administration of active molecules and/or for the sampling of biological fluids which shows the peculiar characteristic of being hollow and which is manufactured by means of a single photolithography operation, thus avoiding the use of additional processing.