An anti-fogging facemask for preventing fogging of the wearer's glasses or goggles may be described herein. The anti-fogging facemask include an outer facemask and an inner facemask. The inner facemask is attached to the outer facemask. The inner facemask provides a barrier to prevent exhaled air from traveling through the upper end of the facemask. The inner facemask directs exhaled air downwards. The outer facemask forms a seal at an upper portion of the wearer's nose.

A garment system comprises a garment substrate formed from one or more textile-based sheets, a distributed array of a plurality of resistive pressure sensors coupled to the garment substrate at a set of first specified locations. Each of the plurality of resistive sensors comprises a pair of first textile-based outer layers each having an electrical resistance of no more than 100 ohms and a textile-based inner layer sandwiched between the pair of first textile-based outer layers having an electrical resistance of at least 1 mega-ohm. The system also includes electronics configured to process signals from the distributed array of resistive pressure sensors to determine one or more physiological properties of a wearer of the garment substrate.

A garment system comprises a garment substrate formed from one or more textile-based sheets, a distributed array of a plurality of resistive pressure sensors coupled to the garment substrate at a set of first specified locations. Each of the plurality of resistive sensors comprises a pair of first textile-based outer layers each having an electrical resistance of no more than 100 ohms and a textile-based inner layer sandwiched between the pair of first textile-based outer layers having an electrical resistance of at least 1 mega-ohm. The system also includes electronics configured to process signals from the distributed array of resistive pressure sensors to determine one or more physiological properties of a wearer of the garment substrate.

A garment portion made primarily from a material with low-stretch characteristics, having defined stretch zones with greater flexibility is provided herein. The stretch zones have slits through the garment portion. An interior layer having higher stretch characteristics than the garment body portion is affixed to the internal surface of the garment body portion in the area of the stretch zone. The result is a garment portion that is primarily constructed with a low-stretch material that has stretch zones allowing greater flexibility.

A garment portion made primarily from a material with low-stretch characteristics, having defined stretch zones with greater flexibility is provided herein. The stretch zones have slits through the garment portion. An interior layer having higher stretch characteristics than the garment body portion is affixed to the internal surface of the garment body portion in the area of the stretch zone. The result is a garment portion that is primarily constructed with a low-stretch material that has stretch zones allowing greater flexibility.

In order to create a leg garment, comprising at least one leg part that comprises a knitted region, which is nearly invisible in the worn state, but which conceals small flaws in the skin of the wearer of the leg garment and thus creates a desired appearance of the leg of the wearer of the leg garment, it is proposed that the quotient Q.sub.tt of the weighted normal-normal light transmittance T.sub.V, nn of the knitted region and the weighted normal-diffuse light transmittance T.sub.V, ndiff of the knitted region is at least 4.0.

In order to create a leg garment, comprising at least one leg part that comprises a knitted region, which is nearly invisible in the worn state, but which conceals small flaws in the skin of the wearer of the leg garment and thus creates a desired appearance of the leg of the wearer of the leg garment, it is proposed that the quotient Q.sub.tt of the weighted normal-normal light transmittance T.sub.V, nn of the knitted region and the weighted normal-diffuse light transmittance T.sub.V, ndiff of the knitted region is at least 4.0.

A garment system comprises a garment substrate formed from one or more textile-based sheets, a distributed array of a plurality of resistive pressure sensors coupled to the garment substrate at a set of first specified locations. Each of the plurality of resistive sensors comprises a pair of first textile-based outer layers each having an electrical resistance of no more than 100 ohms and a textile-based inner layer sandwiched between the pair of first textile-based outer layers having an electrical resistance of at least 1 mega-ohm. The system also includes electronics configured to process signals from the distributed array of resistive pressure sensors to determine one or more physiological properties of a wearer of the garment substrate.

A garment system comprises a garment substrate formed from one or more textile-based sheets, a distributed array of a plurality of resistive pressure sensors coupled to the garment substrate at a set of first specified locations. Each of the plurality of resistive sensors comprises a pair of first textile-based outer layers each having an electrical resistance of no more than 100 ohms and a textile-based inner layer sandwiched between the pair of first textile-based outer layers having an electrical resistance of at least 1 mega-ohm. The system also includes electronics configured to process signals from the distributed array of resistive pressure sensors to determine one or more physiological properties of a wearer of the garment substrate.

A wearable cardiac therapeutic device includes a plurality of ECG sensing electrodes configured to sense ECG signals regarding a cardiac function of a patient; a plurality of therapy electrodes configured to deliver transcutaneous defibrillation shocks or transcutaneous pacing pulses to the patient's heart; and a support garment configured to support and hold the plurality of ECG sensing electrodes and the plurality of therapy electrodes against the patient's body. The support garment includes one or more features for improving and enhancing the patient's experience in wearing the support garment with respect to wearability, comfort, aesthetics, and assembly and usage of the device.