Abstract: A flow-through assay for detecting the quantity of an analyte residing in a test sample is provided. The flow-through assay contains a porous membrane that is in fluid communication with probe conjugates that contain a specific binding member and a detectable probe. The porous membrane also defines a detection zone and a calibration zone. The calibration zone contains a polyelectrolyte substantially non-diffusively immobilized on the porous membrane. The polyelectrolyte is capable of generating a detectable calibration signal that can be readily compared (visually, quantitatively, and the like) to a detection signal to determine the amount of analyte in the test sample.

Abstract: A self warming mask is disclosed. The self warming mask includes a facing layer configured to cover at least a portion of a person's face. Attached to the facing layer is at least one thermal delivery pad. The thermal delivery pad contains an exothermic composition. Once the mask is removed from a sealed package, air contacts the thermal delivery pad causing the mask to elevate in temperature . The thermal delivery pad can be constructed so that the rise of temperature and the length of time the mask remains heated is carefully controlled. The mask product can be used in combination with a fragrance or vapor delivery device for also releasing a fragrance, a vapor, or both as the mask is heated. In one embodiment, the fragrance or vapor delivery device can be attached and removed to the mask as a user desires.

Abstract: A flow-through assay for detecting the quantity of an analyte residing in a test sample is provided. The flow-through assay contains a porous membrane that is in fluid communication with probe conjugates that contain a specific binding member and a detectable probe. The porous membrane also defines a detection zone and a calibration zone. The calibration zone contains a polyelectrolyte substantially non-diffusively immobilized on the porous membrane. The polyelectrolyte is capable of generating a detectable calibration signal that can be readily compared (visually, quantitatively, and the like) to a detection signal to determine the amount of analyte in the test sample.

Abstract: A self warming mask is disclosed. The self warming mask includes a facing layer configured to cover at least a portion of a person's face. Attached to the facing layer is at least one thermal delivery pad. The thermal delivery pad contains an exothermic composition. Once the mask is removed from a sealed package, air contacts the thermal delivery pad causing the mask to elevate in temperature. The thermal delivery pad can be constructed so that the rise of temperature and the length of time the mask remains heated is carefully controlled. The mask product can be used in combination with a fragrance or vapor delivery device for also releasing a fragrance, a vapor, or both as the mask is heated. In one embodiment, the fragrance or vapor delivery device can be attached and removed to the mask as a user desires.

Abstract: Absorbent articles are disclosed containing an odor control agent. The odor control agent, for instance, may be incorporated into an absorbent core present in the absorbent article. The absorbent article may be, for instance, a diaper, a feminine hygiene product, an adult incontinence product, a training pant, and the like. In accordance with the present disclosure, the odor control agent comprises a chemical compound having a positive charge. For instance, in one embodiment, the chemical compound comprises aluminum chlorohydrate. The odor control agent is capable of immobilizing bacteria that cause odors. By immobilizing the bacteria, the bacteria are not capable of multiplying and are therefore not capable of producing odor producing substances.

Abstract: Nonwoven webs, such as coform webs, treated with a bacteriostatic composition are generally disclosed. The treated webs can attract and/or trap negatively charged matter, such as bacteria and other pathogens. The bacteriostatic composition can comprise a cationic polymer, a cationic oligomer, or particles coated with a cationic material. The bacteriostatic composition can be bonded to the fibers of the nonwoven web in a manner such that the bacteriostatic composition is not substantially transferable to the web's surrounding environment.