Abstract: An intraluminal imaging device is provided that includes a flexible elongate member configured for positioning within a vessel of a patient, a support member coupled to the flexible elongate member; and an imaging assembly coupled to the support member. The support member can include a proximal section with a first cross-sectional profile configured to interface with a distal portion of the flexible elongate member and a distal section with a second cross-sectional profile configured to interface with a proximal portion of the imaging assembly, wherein the first cross-sectional profile is different than the second cross-sectional profile. Associated devices, systems, and methods are also provided.

Abstract: An intraluminal device is provided. In on embodiment, an intraluminal device includes a flexible elongate member including a proximal portion and a distal portion; an imaging component coupled to the distal portion of the flexible elongate member; and a plurality of radiopaque markers positioned at the distal portion of the flexible elongate member, wherein the plurality of radiopaque markers are separated from each other, wherein the plurality of radiopaque markers are arranged on the flexible elongate member at two different orientations with respect to the imaging component, and wherein at least a first radiopaque marker of the plurality of radiopaque markers includes an arc-shaped portion and an extended portion extending from the arc-shaped portion.

Abstract: The invention generally relates to devices and methods for imaging and aspirating biological material from inside a vessel. In certain embodiments, the invention provides devices that include a body configured to fit within a lumen of a vessel. The body includes an opening. Devices of the invention also include an aspiration channel within the body. The aspiration channel includes a distal end that is connected to the opening. Devices of the invention also include an imaging assembly coupled to the body.

Abstract: A medical device including both an intraluminal imaging apparatus and dual guidewire lumens is provided, allowing more accurate and stable catheter navigation and treatment delivery. The dual lumen catheter may also include members for increased torsional rigidity, distally located functional measurement sensors, and patterned radioopaque markers for orientation of the dual lumen exits.

Abstract: An intravascular imaging device is provided. In one embodiment, the intravascular imaging device includes a flexible elongate member sized and shaped for insertion into a vessel of a patient, the flexible elongate member having a proximal portion and a distal portion; a conductor extending between the proximal and distal portions of the flexible elongate member; an imaging assembly disposed at the distal portion of the flexible elongate member, the imaging assembly including: a flex circuit including a body and a tab extending therefrom, the tab having a conductive portion coupled to the conductor; and a support member around which the flex circuit is disposed, the support member including a shelf on which tab is positioned.

Abstract: An intravascular imaging device is provided. In one embodiment, the intravascular imaging device includes a flexible elongate member sized and shaped for insertion into a vessel of a patient, the flexible elongate member having a proximal portion and a distal portion; an imaging assembly disposed at the distal portion of the flexible elongate member, the imaging assembly including: a flex circuit; a conductor extending along the flexible elongate member and in electrical communication with the flex circuit; and a support member around which the flex circuit is positioned, the support member including a conductive portion electrically coupled to the support member.

Abstract: An intravascular imaging device (102) is provided. In some embodiments, the intravascular imaging device includes a flexible elongate member sized and shaped for insertion into a vessel of a patient, the flexible elongate member having a proximal portion and a distal portion; and an imaging assembly (110) disposed at the distal portion of the flexible elongate member, the imaging assembly including a flex circuit (214) positioned directly around the flexible elongate member. In some embodiments, a method of assembling an intravascular imaging device includes obtaining a flex circuit including a first layer having a plurality of transducers and a second layer having an acoustic backing material; and positioning the flex circuit directly around a distal portion of a flexible elongate member.

Abstract: A method of assembling an intravascular imaging device (102) is provided. In one embodiment, the method includes obtaining a support member having a body portion including a plurality of recesses longitudinally spaced from one another (405); positioning a flex circuit around the support member such that the flex circuit is radially spaced from the body portion of the support member (410); and filling a space between the flex circuit and the support member with a backing material through the plurality of recesses of the body portion (420). In one embodiment, an intravascular imaging device includes a flexible elongate member; an imaging assembly including: a flex circuit; and a support member (330) around which the flex circuit is disposed, the support member having a body portion including plurality of recesses (339), wherein the support member defines lumen in fluid communication with a space between the flex circuit and the support member via the plurality of recesses.

Abstract: An intraluminal imaging device is provided. The device includes a flexible elongate member configured to be inserted into a lumen of a patient, the flexible elongate member comprising a proximal portion and a distal portion. The device includes an ultrasound imaging assembly disposed at the distal portion and configured to obtain ultrasound imaging data while positioned within the lumen of the patient. The device includes a tip member disposed at the distal portion of the flexible elongate member, the tip member comprising a cavity adjacent to the ultrasound imaging assembly and configured to be filled with an adhesive to couple the tip member and the ultrasound imaging assembly. The tip member can include first material and a second material. The tip member can include linear outer diameter and varying wall thickness, and/or a varying outer diameter and a constant wall thickness.

Abstract: An imaging device for imaging a portion of a patient's vasculature with an imaging element may include a proximal portion having a relatively higher stiffness that provides rigidity for pushing the imaging device through a patient's vasculature, and may include a distal portion having a relatively lower stiffness that enables threading through a curved vasculature of the patient. The imaging device also may include a transition region disposed between the proximal portion and the distal portion.

Abstract: The present invention generally relates to a rapid exchange configuration that reduces the profile of a catheter riding on a guidewire and minimizes guidewire resistance. According to certain embodiments, a body of the catheter includes a distal portion and a proximal portion. The distal portion defines a guidewire lumen and includes a guidewire exit port being open in an proximal direction and leading to the guidewire lumen. A proximal section of the guidewire lumen is straight.

Abstract: An intraluminal imaging device is provided that includes a flexible elongate member (115) configured for positioning within a body lumen of a patient, a support member (300) coupled to the flexible elongate member, and an imaging assembly (110) coupled to the support member. The support member can include a proximal section (310) configured to interface with a distal portion of the flexible elongate member and a distal section (320) configured to interface with a proximal end of the imaging assembly, wherein the proximal section has a first diameter and the distal section has a second diameter less than the first diameter.

Abstract: The present invention generally relates to a rapid exchange configuration that reduces the profile of a catheter riding on a guidewire and minimizes guidewire resistance. According to certain embodiments, a body of the catheter includes a distal portion and a proximal portion. The distal portion defines a guidewire lumen and includes a guidewire exit port being open in a proximal direction and leading to the guidewire lumen. A proximal section of the guidewire lumen is straight.

Abstract: Improved intraluminal imaging devices and methods of manufacturing the devices are provided. In one embodiment, an intraluminal imaging device includes a flexible elongate member configured to be positioned within a body lumen of a patient, the flexible elongate member comprising a proximal portion and a distal portion, an imaging assembly coupled to the distal portion of the flexible elongate member, the imaging assembly surrounding a lumen, and a tip member coupled to the imaging assembly, the tip member comprising a molded body including a guiding portion and an extended portion. The guiding portion extends distally of the imaging assembly, and the extended portion extends proximally of the guiding portion through the lumen within the imaging assembly. The tip member comprises a guidewire lumen extending through the guiding portion and the extended portion.

Abstract: An intraluminal imaging device includes a flexible elongate member configured to be inserted into a lumen within a body of a patient, the flexible elongate member comprising a longitudinal axis; an imaging assembly coupled to the flexible elongate member, the imaging assembly comprising: a plurality of ultrasound transducer elements disposed around the longitudinal axis of the flexible elongate member; a plurality of controllers configured to control the plurality of ultrasound transducer elements to obtain imaging data associated with the lumen; and a plurality of electrical wires extending between the plurality of the ultrasound transducer elements and the plurality of controllers and configured to facilitate communication between the plurality of the ultrasound transducer elements and the plurality of controllers.

Abstract: An imaging catheter assembly is provided. In one embodiment, the imaging catheter assembly includes a flexible elongate member including a distal portion and a proximal portion; a crown element coupled to the distal portion, wherein the crown element includes an annular ring, a first post and, a second post, and wherein the first post and the second post extend from the annular ring; a first pullwire anchored to the annular ring at the first post and extending along the flexible elongate member from the crown element to the proximal portion of the flexible elongate member; a second pullwire anchored to the annular ring at the first post and extending along the flexible elongate member from the crown element to the proximal portion of the flexible elongate member; and an imaging component coupled to the distal portion.

Abstract: An imaging catheter assembly is provided. In one embodiment, the imaging catheter assembly includes a flexible elongate member comprising a distal portion and a proximal portion; a tip member coupled to a distal end of the distal portion of the flexible elongate member, wherein the tip member includes a tubular body comprising a closed distal end, an opened proximal end, and a proximal curved top outer wall extending from the proximal opened end and tapering into a distal flat top outer wall towards the closed distal end; and an imaging component mounted within the tip member. In one embodiment, the imaging catheter assembly includes a flexible elongate member; a tip member coupled to a distal end of the flexible elongate member, wherein the tip member includes a cylindrical body and a uniform outer diameter; and an imaging component mounted within the tip member.

Abstract: An intravascular imaging device is provided. In one embodiment, the intravascular device includes a flexible elongate member sized and shaped for insertion into a vessel of a patient, the flexible elongate member having a distal portion and a proximal portion; and a physiologic sensor assembly disposed at the distal portion, wherein the distal portion of the flexible elongate member comprises a distal inner member coupled to the physiologic sensor assembly, the distal inner member including a first groove extending longitudinally along the distal inner member, and wherein one of a stiffening wire extending longitudinally within the flexible elongate member or an electrical cable coupled to the physiologic sensor assembly is positioned within the first groove of the distal inner member.

Abstract: An imaging device for imaging a portion of a patient's vasculature with an imaging element may include a proximal portion having a relatively higher stiffness that provides rigidity for pushing the imaging device through a patient's vasculature, and may include a distal portion having a relatively lower stiffness that enables threading through a curved vasculature of the patient. The imaging device also may include a transition region disposed between the proximal portion and the distal portion.

Abstract: A method for fabricating an intravascular imaging assembly is provided. In one embodiment, the method includes forming a stacked structure (415) having a plurality of sacrificial material layers disposed between a plurality of ultrasound material layers in an alternating pattern; dicing the stacked structure (420) to form a plurality of elongated strips, each comprising an array of ultrasound elements defined by the plurality of ultrasound material layers and spacers defined by the plurality of sacrificial material layers; coupling a first elongated strip (430) of the plurality of elongated strips to a flexible circuit substrate; and removing the spacers (435) of the first elongated strip from the flexible circuit substrate.