A fluid temperature control device for an extracorporeal blood treatment apparatus, comprises: a casing (26) delimiting a heating/cooling seat (20) configured to accommodate a fluid warming bag (17) connected or connectable to an extracorporeal blood treatment apparatus (1); heating elements (29, 30) operatively active in the heating seat (20) to heat the fluid warming bag (17); at least a presence detector (32, 33) operatively active in the heating seat (20) to detect the presence of the fluid warming bag (17). The presence detector (32, 33) comprises an electromagnetic transmitter (34) and an electromagnetic receiver (35). The electromagnetic receiver (35) is positioned with respect to the electromagnetic transmitter (34) either to receive an electromagnetic radiation emitted by the electromagnetic transmitter (34) and reflected by the fluid warming bag (17) only when the fluid warming bag (17) is properly accommodated in the heating seat (20) or only when the fluid warming bag (17) is not properly accommodated in the heating seat (20).

A thermal control system for controlling a temperature of a fluid delivered to a patient is provided. The system includes a thermal control unit having a fluid inlet and outlet, a circulation channel, a pump, a heat exchanger, a fluid temperature sensor and a controller that controls the heat exchanger in order to automatically bring a patients temperature to a target temperature. In some embodiments, the control unit includes a user interface adapted to receive a non-temperature patient parameter (e.g. BMI) that the controller uses, along with patient core temperature readings, to control the heat exchanger. The controller may also or alternatively control the heat exchanger based on both core and peripheral patient temperature readings. An auxiliary thermal therapy device for controlling a temperature of the patients blood, air breathed by the patient, and/or other fluid, may also be controlled by the thermal control unit.

Disclosed is a hollow molded article which has an opening portion communicating with a flow channel and which can be manufactured simply. The hollow molded article includes a panel and flow channels. The panel includes a first resin sheet and a second resin sheet partly welded with the first resin sheet. The flow channels are disposed between the first resin sheet and the second resin sheet, and include connection portions for external connection which are disposed on a peripheral edge of the panel. The connection portions are formed by the first resin sheet and the second resin sheet.

The present invention proposes a medical heat exchanger for heating with a light emitter. The heat exchanger disclosed here has at least one fluid chamber having at least one outside wall which forms the fluid chamber with a fluid-tight seal, such that the fluid chamber is configured for receiving and/or conducting the medical fluid and such that the fluid chamber has at least one component, which is configured as a light absorber and is arranged within the fluid chamber in at least some sections so that there is direct contact between the component configured as the light absorber and the medical fluid in at least some sections when receiving and/or conducting the medical fluid and wherein the outside wall of the fluid chamber has at least one light-transmitting section, so that the light emitted by the light emitter can heat the absorber without any local temperature peaks on the medical heat exchanger.

The present disclosure provides cell therapy production systems that can suitably be used in a patient bedside setting. Such systems allow for direct removal of a patient's blood, automated processing to produce a cell therapy, and then infusion back into the patient, without the need to remove the system from the patient's bedside. Also provided herein are systems for production of cell therapies in a bedside setting.

A blood purification device includes a device body and a cassette. The cassette includes: a casing that accommodates a removal water receptacle; and pump tube. The device body includes fingers, a driving unit, and a housing. The cassette can be attached to and removed from the housing of the device body so that the pump tubes are positioned between the plurality of fingers and the outer surfaces of the casing.

A microfluidic photoreactor for treating excess bilirubin in blood, having: a microfluidic channel module; an illumination module comprising one or more illumination sources disposed about the microfluidic channel module and configured to illuminate blood passing through at least one microfluidic channel of the microfluidic channel module; and a heat exchanger module coupled to the at least one microfluidic channel module, wherein the heat exchanger module is configured to extract heat from the at least one microfluidic channel. A system including a microfluidic photoreactor and a method of treating excess bilirubin in blood.

A fluid temperature control device for an extracorporeal blood treatment apparatus, comprises: a casing (26) delimiting a heating/cooling seat (20) configured to accommodate a fluid warming bag (17) connected or connectable to an extracorporeal blood treatment apparatus (1); heating elements (29, 30) operatively active in the heating seat (20) to heat the fluid warming bag (17); at least a presence detector (32, 33) operatively active in the heating seat (20) to detect the presence of the fluid warming bag (17). The presence detector (32, 33) comprises an electromagnetic transmitter (34) and an electromagnetic receiver (35). The electromagnetic receiver (35) is positioned with respect to the electromagnetic transmitter (34) either to receive an electromagnetic radiation emitted by the electromagnetic transmitter (34) and reflected by the fluid warming bag (17) only when the fluid warming bag (17) is properly accommodated in the heating seat (20) or only when the fluid warming bag (17) is not properly accommodated in the heating seat (20).

A system for perfusing a localized site within a body includes a catheter assembly having a venous access line that is adapted to deliver perfusate to the localized site, a venous or arterial drainage line adapted to drain perfusate from the localized site, and an occlusion device adapted to prevent some or substantially all physiological blood flow between the localized site and the systemic circulation of the body during and in the course of perfusing and draining perfusate to and from the localized site. The system may include a blood circuit associated with the catheter assembly to facilitate blood conditioning for use as the perfusate, in the course of a controlled perfusion and/or drainage of untreated, treated, or inactivated treated blood to and from the localized site. A delivery machine may control the blood circuit and catheter assembly in order to both deliver perfusate to, and drain some or all perfusate from, the localized site in a manner that provides perfusate to substantially only the localized site.

A system for perfusing a localized site within a body includes a catheter assembly having a venous access line that is adapted to deliver perfusate to the localized site, a venous or arterial drainage line adapted to drain perfusate from the localized site, and an occlusion device adapted to prevent some or substantially all physiological blood flow between the localized site and the systemic circulation of the body during and in the course of perfusing and draining perfusate to and from the localized site. The system may include a blood circuit associated with the catheter assembly to facilitate blood conditioning for use as the perfusate, in the course of a controlled perfusion and/or drainage of untreated, treated, or inactivated treated blood to and from the localized site. A delivery machine may control the blood circuit and catheter assembly in order to both deliver perfusate to, and drain some or all perfusate from, the localized site in a manner that provides perfusate to substantially only the localized site.