The Blowfish Transbronchial Micro-Infusion Catheter is a bronchoscope-guided dev
The Blowfish Transbronchial Micro-Infusion Catheter is a bronchoscope-guided device that contains a perpendicular stainless steel micro-needle port. This port is sheathed by and contained within a semi-rigid polymer actuator, which is connected to the flexible shaft. At the proximal end of the catheter shaft is the hub assembly.
The Blowfish Transbronchial Micro-Infusion Catheter is a bronchoscope-guided dev
The Blowfish Transbronchial Micro-Infusion Catheter is a bronchoscope-guided device that contains a perpendicular stainless steel micro-needle port. This port is sheathed by and contained within a semi-rigid polymer actuator, which is connected to the flexible shaft. At the proximal end of the catheter shaft is the hub assembly.
The Mercator MedSystems Bullfrog Micro-Infusion Device is a wire-guided, endovas
The Mercator MedSystems Bullfrog Micro-Infusion Device is a wire-guided, endovascular catheter that consists of a perpendicular microneedle, which is sheathed by and contained within a semi-rigid polymer actuator. The device is designed to be advanced to target vasculature and hydraulically actuated to move the microneedle through the external elastic lamina to deliver substances to adventitial and perivascular tissues. A compliant stabilizing balloon inflates with the actuator to provide a force opposite the needle tip for proper seating of the needle. The needle is retracted within the sheathing structure by vacuuming the hydraulic actuator.
The Mercator MedSystems® Bullfrog® Micro-Infusion Device is a wire-guided, endov
The Mercator MedSystems® Bullfrog® Micro-Infusion Device is a wire-guided, endovascular catheter that consists of a perpendicular microneedle, which is sheathed by and contained within a semi-rigid polymer actuator. The device is designed to be advanced to target vasculature and hydraulically actuated to move the microneedle tip through the external elastic lamina to deliver substances to adventitial and perivascular tissues. A compliant stabilizing balloon inflates with the actuator to provide a force opposite the needle tip for proper seating of the needle. The needle is retracted within the sheathing structure by vacuuming the hydraulic actuator.
The Mercator MedSystems Bullfrog Micro-Infusion Device is a wire-guided, endovas
The Mercator MedSystems Bullfrog Micro-Infusion Device is a wire-guided, endovascular catheter that consists of a perpendicular microneedle, which is sheathed by and contained within a semi-rigid polymer actuator. The device is designed to be advanced to target vasculature and hydraulically actuated to move the microneedle through the external elastic lamina to deliver substances to adventitial and perivascular tissues. A compliant stabilizing balloon inflates with the actuator to provide a force opposite the needle tip for proper seating of the needle. The needle is retracted within the sheathing structure by vacuuming the hydraulic actuator.
The Mercator MedSystems Bullfrog Micro-Infusion Device is a wire-guided, endovas
The Mercator MedSystems Bullfrog Micro-Infusion Device is a wire-guided, endovascular catheter that consists of a perpendicular microneedle, which is sheathed by and contained within a semi-rigid polymer actuator. The device is designed to be advanced to target vasculature and hydraulically actuated to move the microneedle through the external elastic lamina to deliver substances to adventitial and perivascular tissues. A compliant stabilizing balloon inflates with the actuator to provide a force opposite the needle tip for proper seating of the needle. The needle is retracted within the sheathing structure by vacuuming the hydraulic actuator.
The Mercator MedSystems Bullfrog Micro-Infusion Device is a wire-guided, endovas
The Mercator MedSystems Bullfrog Micro-Infusion Device is a wire-guided, endovascular catheter that consists of a perpendicular microneedle, which is sheathed by and contained within a semi-rigid polymer actuator. The device is designed to be advanced to target vasculature and hydraulically actuated to move the microneedle through the external elastic lamina to deliver substances to adventitial and perivascular tissues. A compliant stabilizing balloon inflates with the actuator to provide a force opposite the needle tip for proper seating of the needle. The needle is retracted within the sheathing structure by vacuuming the hydraulic actuator.
The Mercator MedSystems Bullfrog Micro-Infusion Device is a wire-guided, endovas
The Mercator MedSystems Bullfrog Micro-Infusion Device is a wire-guided, endovascular catheter that consists of a perpendicular microneedle, which is sheathed by and contained within a semi-rigid polymer actuator. The device is designed to be advanced to target vasculature and hydraulically actuated to move the microneedle through the external elastic lamina to deliver substances to adventitial and perivascular tissues. A compliant stabilizing balloon inflates with the actuator to provide a force opposite the needle tip for proper seating of the needle. The needle is retracted within the sheathing structure by vacuuming the hydraulic actuator.
The Mercator MedSystems Bullfrog Micro-Infusion Device is a wire-guided, endovas
The Mercator MedSystems Bullfrog Micro-Infusion Device is a wire-guided, endovascular catheter that consists of a perpendicular microneedle, which is sheathed by and contained within a semi-rigid polymer actuator. The device is designed to be advanced to target vasculature and hydraulically actuated to move the microneedle through the external elastic lamina to deliver substances to adventitial and perivascular tissues. A compliant stabilizing balloon inflates with the actuator to provide a force opposite the needle tip for proper seating of the needle. The needle is retracted within the sheathing structure by vacuuming the hydraulic actuator.