At least some aspects of the present disclosure feature a convective system including an inflatable convective device and a manifold. The inflatable convective device has a pneumatic structure and two openings into the pneumatic structure. The hose manifold includes a hose connector configured to connect to a hose, two outlet connectors configured to connect to the two openings respectively, where the hose connector and the two output connectors are in fluid connection.

A thermal device includes an inflatable non-perforated blanket, a conduit structure, and a recirculating assembly. The inflatable non-perforated blanket is configured to transport warm air internally. The conduit structure is configured to provide conduit to transport the warm air externally to the inflatable non-perforated blanket. The recirculating assembly is configured to inflate the inflatable non-perforated blanket with the warm air and: (1) to cause the warm air to flow from the first port to the second port in a first direction, and (2) to recirculate the warm air through the conduit structure to flow from the second port to the first port in the first direction. The inflatable non-perforated blanket includes first and second sheets. The first sheet faces ambient air and has a first thermal conductivity. The second sheet faces the subject body and has a second thermal conductivity higher than the first thermal conductivity.

Ectoparasite treatment devices utilizing heated air and related treatment methods. In some embodiments, the device may comprise a heating assembly positioned within a housing that is configured to generate heated air and a blower, such as a fan, for moving the heated air. The device may further comprise an air diffuser configured to receive heated air from the blower and to mix the heated air to increase uniformity of temperature of the heated air. A tip comprising a plurality of tines with ports may be removably coupled with the housing. The tip may be fluidly coupled with the diffuser. A temperature sensor and temperature control electronics may be configured to use temperature data and adjust the heating assembly such that the heated air delivered through the tip is maintained between a minimum temperature of about 54 degrees Celsius and a maximum temperature of about 62 degrees Celsius.

Disclosed herein is a patient interface for wound treatment and/or management, comprising: an interface body configurable to substantially or at least partially surround a wound, the interface body comprising a gas inlet and defining a first gas flow path having a first flow resistance, and a second gas flow path having a second flow resistance. The first gas flow path is arranged in fluid communication with the gas inlet and the second gas flow path. The interface body comprises or is configurable to provide a gas outlet at or adjacent to the wound site.

Examples of a module for housing unrelated electronic and electromechanical equipment for use during surgery. The module can include a lower section and a tower-like upper section. The lower section can house unrelated electronic and electromechanical equipment. The tower-like upper section can be located on top of the lower section. A water-resistant cowling can enclose at least a portion of the lower section and the tower-like upper section. A cartridge containing one or more ultraviolet-C producing lights can be protectively housed within the tower-like upper section. The cartridge containing one or more ultraviolet-C producing lights can be configured to emerge upward from a top of the tower-like upper section to substantially seat itself on the top of the tower-like upper section when activated allowing the ultraviolet-C light to disinfect the patient and staff-contacting upper surfaces of the equipment in the operating room.

A thermal pad for controlling a patient's temperature includes first and second chambers defined between interior and exterior layers. The first chamber circulates a temperature controlled fluid from a first inlet to a first outlet. The second chamber is in fluid communication with a port and a plurality of holes defined in the interior layer. Pressurized gas supplied to the second chamber is vented onto the patient to control the microclimate between the patient's skin and the thermal pad. An additional third chamber is provided in some embodiments that urges the thermal pad into contact with the patient when subjected to negative gauge pressure. In other embodiments, a negative gauge pressure chamber is allowed to partially inflate in order to urge the thermal pad into contact with the patient.

An inflatable medical article that includes: a polyester-containing layer including a fabric layer that includes at least one nonwoven web of fibers including an aliphatic polyester, wherein at least a portion of the aliphatic polyester is exposed at the surface of the fibers; a polyolefin-containing layer including a polyolefin film, a nonwoven web including polyolefin fibers, or a combination thereof; a tie layer bonding the polyester-containing layer to the polyolefin-containing layer; an optional sheet; and at least one inflatable chamber formed between the polyolefin-containing layer and the tie layer, or between the polyester-containing layer and the tie layer, or between the polyolefin-containing layer and the optional sheet (when the sheet is present).

The present invention provides improved devices for removing energy and fluid from body fluid containing spaces and surfaces of a mammal, the devices including isolated air and water delivery systems configured to simultaneously deliver streams of dry air and liquid water to the nostrils of a patient, without allowing the streams to come into contact with one-another until it enters the patient's nostrils.

An air blower has an inlet muffler and an outlet muffler to reduce the noise of the air blower during operation. Each of the mufflers may have two sections. One section is configured to attenuate high frequency noise and the other section is configured to attenuate lower frequency noise. A tubular internal wall in each of the mufflers defines the through passage for each of the mufflers. A noise absorbent material may be fitted about the tubular wall within each muffler. A plurality of holes are formed along the tubular wall of each through passage to expose the through passage to the noise absorbent material. A heater plenum may be interposed between the blower plenum and the outlet muffler to heat the air from the blower plenum. A filter at the input muffler filters the air sucked into the air blower.

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.