A quick-release garment includes a front piece having a first attachment portion, and a back piece having a second attachment portion configured to detachably connect with the first attachment portion. The front piece and the back piece are configured to form an enclosure that is attachable and detachable directly from a torso portion of a living body. The quick-release garment can include one or more of fasteners, magnets, buttons and/or a zipper to provide the detachable connection of the first attachment portion and the second attachment portion.

Medical apparatuses for securing, protecting, retaining, and/or concealing various medical devices such as catheters or electrical leads are disclosed herein. The medical apparatus can be a garment which for use by a patient having a central venous catheter in place. Medical garments as disclosed herein can be used for a wide variety of medical devices attached to a patient, by implantation or otherwise, for varying lengths of time. Medical garments described herein may be used with any of a variety of medical devices which include or comprise one or more conduits used for medical treatment or diagnosis, including conduits which comprise catheters as well as electrical conduits such as electrical leads.

The wearable article 200 comprises an electronics module 100. An electronics module holder 203 holds the electronics module 100. A visual marker 205 is located on an outside surface of the wearable article 200 at a position corresponding to the electronics module holder 203. The module 100 comprises a housing, and a processor 101 and electronics component 111 disposed within the housing. The electronics component 111 detects an object being brought into proximity with the electronics module 100. The visual marker 205 indicates the location of the electronics component 111 in the electronics module holder 203. The electronics component 111 generates a signal in response to the object being brought into the vicinity of the visual marker 205. The processor 101 is arranged to receive the signal generated by the electronics component 111 and is arranged to perform an action in response to receiving the signal.

A biosensing garment (100). The biosensing garment (100) comprises a garment (101). The biosensing garment (100) comprises an inner biosensing textile (200) disposed within the garment (101). The inner biosensing textile (200) comprises a textile panel (201). The inner biosensing textile comprises a biosensing unit (215) positioned on the textile panel (201) for measuring a biosignal of the wearer. A first region of the textile panel (201) is attached to the garment (101) such that the first region is unable to move relative to the garment (101). A second region of the textile panel (201) is able to move relative to the garment (101).

An object of the present invention is to provide a biological information measuring garment for cattle that allows easy measurement of biological information. The biological information measuring garment for cattle includes a clothing fabric; and an electrode provided on a skin-side surface of the clothing fabric, the clothing fabric including a first band portion on one end and a second band portion on another end in a body peripheral direction of the clothing fabric, and the clothing fabric having a larger area in a front-side region ahead of a region from the first band portion to the second band portion of the clothing fabric than an area in a back-side region behind the region from the first band portion to the second band portion.

Bilateral vestibular loss is a chronic condition of which the causes can be ototoxic, infectious, traumatic, autoimmune or congenital. An object of the invention is to improve the effectiveness of a vibrotactile feedback arrangement. The current invention provides a vibrotactile feedback arrangement for use arranged to a human body, comprising: a sensor arranged for sensing a current attitude of the human body relative to the environment; tactile actuators arranged for allowing the human body to perceive an attitude deviation; an elongated carrier for holding the tactile actuators and the sensor in tactile communication with the human body and for holding the tactile actuators and the sensor substantially fixed relative to the human body; and a processing unit configured for: receiving the current attitude from the sensor; determining the attitude deviation based on comparing a desired attitude of the human body with the current attitude; and transmitting an actuation signal to one or more of the tactile actuators based on the attitude deviation; wherein the tactile actuators are arranged to the carrier such that, when the carrier is used, the tactile actuators are arranged substantially in a reference plane; wherein the reference plane is functionally perpendicular to a central axis of a torso of the human body and the reference plane intersects the torso to define a circumference, wherein the tactile actuators are arranged to the circumference; and wherein the carrier comprises stretchable material such that the relative distance between the tactile actuators and/or between the tactile actuators and the sensor is maintained independent of the length of the circumference.

Embodiments of the disclosure provide systems and methods for wearable dry electrodes for collecting biometric information. According to one embodiment, a dry electrode bio-sensor can comprise one or more conductive pads comprising electrodes of the dry electrode bio-sensor and one or more connectivity traces coupled with each of the one or more conductive pads. The connectivity traces can provide electrical connections for one or more of power to the one or more conductive pads or signals comprising biometric information from the one or more conductive pads. A backing can be coupled with and can retain the one or more conductive pads and the one or more connectivity traces. The dry electrode bio-sensor can comprise an electrocardiography (ECG) sensor, a respiration sensor, a PhotoPlethysmoGram (PPG) sensor, a temperature sensor, an electromyography (EMG) sensor, or another biometric sensor.

A garment for measuring biological information equipped with an electrode and wiring, with which noise can be prevented from being mixed in to the biological electric signals to be read, and with which a wearer feels less discomfort, even under dry condition while the garment is worn. Static electrical charge generated while the garment is worn is suppressed to decrease the noise in the biological electric signals to be read by selecting a combination of electrically insulating materials constituting the garment that have smaller gap of frictional electrostatic voltage, as well as using the electrode and wiring that are stretchy and have high conductivity even when being stretched to reduce discomfort while the garment is worn.

A garment for measuring biological information, wherein the garment is configured such that when a wearer wears the garment, a conductive member is easily disposed at a desired position on the wearer, and even when the wearer moves his/her arm or raises his/her arm, the conductive member is less likely to be displaced from the desired position on the wearer. The garment has a torso portion and a stretchable conductive member being formed on the garment with an adhesive layer interposed therebetween.

The present disclosure generally relates to intelligent garments that provide thermal regulation in a variety of environments. The garments may include different layers such as a hydrophobic layer in direct contact with a wearer's skin surface and saturated with an aqueous mixture, a spacer layer, a reflective layer, and an outer hydrophobic layer. The layers of the garment may work together to reduce the metabolic expenditure of the wearer in extreme environmental conditions or during demanding physical activity. A variety of sensors may be displaced throughout the garments so as to enable the collection of data associated with wearers as well as environmental conditions. Wearers may control the thermal balance and other properties of the garments as desired.