Abstract: A needle-injection catheter includes a catheter body having a distal end, a proximal end, a stiff proximal portion, a flexible distal portion, and a delivery lumen extending therethrough. In a first embodiment, a straight injection needle extends coaxially from a distal tip of the flexible portion of the catheter body, and a plurality of penetration limiting elements positioned circumferentially about a base of the straight injection needle and configured to fold radially inwardly against a shaft of the needle when constrained in a tubular lumen and to extend radially outwardly when unconstrained. In a second embodiment, a helical needle extends from the distal tip of the flexible portion of the catheter body. The helical needle has at least one helical delivery lumen connected to receive an injectable substance from the delivery lumen of the catheter body.

Abstract: A needle-injection catheter includes a catheter body having a distal end, a proximal end, a stiff proximal portion, a flexible distal portion, and a delivery lumen extending therethrough. In a first embodiment, a straight injection needle extends coaxially from a distal tip of the flexible portion of the catheter body, and a plurality of penetration limiting elements positioned circumferentially about a base of the straight injection needle and configured to fold radially inwardly against a shaft of the needle when constrained in a tubular lumen and to extend radially outwardly when unconstrained. In a second embodiment, a helical needle extends from the distal tip of the flexible portion of the catheter body. The helical needle has at least one helical delivery lumen connected to receive an injectable substance from the delivery lumen of the catheter body.

Abstract: A sleeve for securing a cryogenic vial includes a cylindrical body sized to receive a vial, the body including a longitudinal axis, a first end, and a second end. A plurality of deformable members are disposed near the first end of the body and are arranged to deform from a first configuration to a second configuration. Each deformable member is displaced outwardly relative to the longitudinal axis of the body in the second configuration.

Abstract: A needle-injection catheter includes a catheter body having a distal end, a proximal end, a stiff proximal portion, a flexible distal portion, and a delivery lumen extending therethrough. In a first embodiment, a straight injection needle extends coaxially from a distal tip of the flexible portion of the catheter body, and a plurality of penetration limiting elements positioned circumferentially about a base of the straight injection needle and configured to fold radially inwardly against a shaft of the needle when constrained in a tubular lumen and to extend radially outwardly when unconstrained. In a second embodiment, a helical needle extends from the distal tip of the flexible portion of the catheter body. The helical needle has at least one helical delivery lumen connected to receive an injectable substance from the delivery lumen of the catheter body.

Abstract: A needle-injection catheter includes a catheter body having a distal end, a proximal end, a stiff proximal portion, a flexible distal portion, and a delivery lumen extending therethrough. In a first embodiment, a straight injection needle extends coaxially from a distal tip of the flexible portion of the catheter body, and a plurality of penetration limiting elements positioned circumferentially about a base of the straight injection needle and configured to fold radially inwardly against a shaft of the needle when constrained in a tubular lumen and to extend radially outwardly when unconstrained. In a second embodiment, a helical needle extends from the distal tip of the flexible portion of the catheter body. The helical needle has at least one helical delivery lumen connected to receive an injectable substance from the delivery lumen of the catheter body.

Abstract: The present disclosure is related to sample thawing. Features described herein may limit power requirements of the thawing device and may thereby increase the portability of the thawing device. The device may include a housing; a heater block housed within the housing and forming a vial receptacle; a thermally-conductive compliant material may line an inner surface of the receptacle; and a heating element may be coupled with the heater block. The thermally-conductive compliant material may be molded to a shape of a bottom portion of the vial so as to fittingly mate with the bottom portion of the vial. In some embodiments, the heater block does not have moveable components and may be a single non-segmented piece. An ejection pin may be provided configured to break contact between the vial and the thermally-conductive compliant material. Additionally, the receptacle may be localized to the vial region adjacent to the frozen sample.

Abstract: A sleeve for securing a cryogenic vial includes a cylindrical body sized to receive a vial, the body including a longitudinal axis, a first end, and a second end. A plurality of deformable members are disposed near the first end of the body and are arranged to deform from a first configuration to a second configuration. Each deformable member is displaced outwardly relative to the longitudinal axis of the body in the second configuration.

Abstract: The present invention discloses sample thawing devices, systems, and methods, that are configured to take bag-format sample vessels, referred to as “cryobags”, and to thaw the contents of such cryobags. The contents of such cryobags are samples with cells, and the thawing of such samples is based on the temperature, volume, and mass of the sample in order to evenly distribute heat and avoid ice crystallization damage to the cells during thawing. Paired heater plates form an assembly configured to support, clamp, and thaw individual cryobags. The heater plate pair has an articulated member that is repositioning to provide for ease in inserting and removing samples.

Abstract: The present disclosure is related to sample thawing. Features described herein may limit power requirements of the thawing device and may thereby increase the portability of the thawing device. The device may include a housing; a heater block housed within the housing and forming a vial receptacle; a thermally-conductive compliant material may line an inner surface of the receptacle; and a heating element may be coupled with the heater block. The thermally-conductive compliant material may be molded to a shape of a bottom portion of the vial so as to fittingly mate with the bottom portion of the vial. In some embodiments, the heater block does not have moveable components and may be a single non-segmented piece. An ejection pin may be provided configured to break contact between the vial and the thermally-conductive compliant material. Additionally, the receptacle may be localized to the vial region adjacent to the frozen sample.

Abstract: A needle-injection catheter includes a catheter body having a distal end, a proximal end, a stiff proximal portion, a flexible distal portion, and a delivery lumen extending therethrough. In a first embodiment, a straight injection needle extends coaxially from a distal tip of the flexible portion of the catheter body, and a plurality of penetration limiting elements positioned circumferentially about a base of the straight injection needle and configured to fold radially inwardly against a shaft of the needle when constrained in a tubular lumen and to extend radially outwardly when unconstrained. In a second embodiment, a helical needle extends from the distal tip of the flexible portion of the catheter body. The helical needle has at least one helical delivery lumen connected to receive an injectable substance from the delivery lumen of the catheter body.

Abstract: A needle-injection catheter includes a catheter body having a distal end, a proximal end, a stiff proximal portion, a flexible distal portion, and a delivery lumen extending therethrough. In a first embodiment, a straight injection needle extends coaxially from a distal tip of the flexible portion of the catheter body, and a plurality of penetration limiting elements positioned circumferentially about a base of the straight injection needle and configured to fold radially inwardly against a shaft of the needle when constrained in a tubular lumen and to extend radially outwardly when unconstrained. In a second embodiment, a helical needle extends from the distal tip of the flexible portion of the catheter body. The helical needle has at least one helical delivery lumen connected to receive an injectable substance from the delivery lumen of the catheter body.

Abstract: A needle-injection catheter includes a catheter body having a distal end, a proximal end, a stiff proximal portion, a flexible distal portion, and a delivery lumen extending therethrough. In a first embodiment, a straight injection needle extends coaxially from a distal tip of the flexible portion of the catheter body, and a plurality of penetration limiting elements positioned circumferentially about a base of the straight injection needle and configured to fold radially inwardly against a shaft of the needle when constrained in a tubular lumen and to extend radially outwardly when unconstrained. In a second embodiment, a helical needle extends from the distal tip of the flexible portion of the catheter body. The helical needle has at least one helical delivery lumen connected to receive an injectable substance from the delivery lumen of the catheter body.

Abstract: A phosphatizing system for phosphatizing an object including a closed-loop phosphatizing assembly is provided configured to pass a phosphatizing reagent solution over an object during a phosphatizing procedure. The phosphatizing assembly includes a collection compartment in fluid communication with a run-off portion of a subfloor assembly supporting the object for receipt of substantially all the reagent run-off fluids from the subfloor assembly. A storage assembly is configured to pass a rinsing solution over the object to wash the reagent solution therefrom during a finishing rinse procedure performed after the phosphatizing procedure. This storage assembly includes a storage compartment in fluid communication with the run-off portion for receipt of substantially all the rinsing/reagent run-off fluids from the subfloor assembly.