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Built at 1 × 2.25mm, this single microvascular clamp occludes slightly larger vessels during dissection and anastomosis. The matte finish reduces glare under the operative microscope, and the compact frame keeps the clamp profile low against the working field.
Features & Benefits
This Parsonnet epicardial self-retaining retractor is sized for selective exposure during cardiac surgery, with a 3 × 3 tooth pattern for stable pericardial and epicardial tissue apposition. The sharp working edge grips tissue reliably without slipping, while the compact 38mm length supports precise positioning in the pericardial sac. Gold coating enhances visibility and minimizes light reflection during microsurgical cardiac work.
Potts‑Smith scissors deliver precise cutting control during vascular anastomosis and aortic dissection in cardiac operations. The 25 degrees angled configuration with slightly blunt tips allows safe access to vessel intima and pericardial tissue without perforation of adjacent structures. Two‑tone finish reduces intraoperative glare, and the ring handle supports stable grip during prolonged microsurgical work.
The Potts‑Smith scissors combine a 45‑degree angled geometry with slightly blunt tips for controlled vascular cutting in cardiac and thoracic procedures. The two‑tone finish reduces glare during long operations, while the 191mm length with ring handles provides balanced reach and tactile control. Stainless‑steel construction ensures durability for repeated vessel manipulation and resection.
These Potts‑Smith scissors deliver controlled dissection of delicate vascular tissue during cardiac surgery. The ring handle and 190mm working length support precise maneuverability when dividing coronary arteries, aortic branches, or pericardial adhesions. The curved blade profile enhances visibility and cutting efficiency along anatomical contours.
The Potts‑Smith scissors unite a reverse‑curved 130-degree blade geometry with a stabilizing bar and integrated calibration markings for reproducible anastomosis opening. The 13mm blade span and 178mm length enable precise side‑biter work along coronary and systemic vessels. Calibrated 5mm increments guide consistent vessel window sizing.
This short Potts‑Smith scissor with 45‑degree blade angle provides controlled access to coronary vessels and aortic branches in confined left thoracic spaces. The compact 133mm length and 12.7mm blade support precise dissection without rotating the hand uncomfortably. Angled geometry delivers vertical cutting without torquing the wrist.
These Potts‑Smith super‑cut scissors feature a 25‑degree angled blade geometry with bottom blade serration optimized for vessel anastomosis and vascular tissue cutting in coronary and peripheral procedures. The angled approach supports intuitive hand positioning during deep cardiac fields, while the two‑tone finish with black ring handles enhances ergonomic grip and visual distinction. Overall length of 191mm provides reach and control.
Potts‑Smith vascular scissors angled 60 degrees with Super Cut serrated lower blade at 191mm deliver clean cuts through vascular tissue where a sharp angle is wanted. The two‑tone finish identifies the cutting edge, and the black ring handles preserve grip across sustained cardiac and vascular work.
This straight Presbyterian Hospital tubing forceps is designed to clamp, isolate, and manipulate vessels and tubing during cardiac procedures. The 181mm length provides adequate reach into the anterior mediastinum while maintaining tactile feedback. The serrated grasp pattern prevents slippage on wet silk tubing and vessel walls.
The Resano vascular dissecting forceps at 320mm reach the deepest vascular structures of the chest and abdomen, supporting controlled dissection along vessel planes during cardiothoracic and major vascular cases. The long straight body keeps the operator's hand well clear of the wound.
The Resano vascular dissecting forceps at 180mm carry the straight profile of the Resano family in a moderate working length, sized for vascular plane dissection in cardiothoracic and peripheral vascular cases where the longer 320mm variant is unneeded. The straight shaft supports a direct approach.
Resano vascular dissecting forceps provide controlled tissue separation along vascular planes during IMA harvest, vessel mobilization, or coronary vessel dissection. The extended 230mm length allows the surgeon to work within deep mediastinal spaces while maintaining clear visibility. Fine straight tips support gentle dissection of delicate adventitia without crushing vessel walls.
Rochester-Carmalt artery forceps measuring 6-1/4" deliver reliable vascular control. Serrated jaw surfaces ensure vessel positioning without slippage or tissue trauma. Stainless‑steel construction supports reliable durability across many surgical cases.
Curved Rochester‑Carmalt artery forceps at 159mm carry longitudinal jaw serrations that crush vessels along their length, securing control on larger arteries and pedicles. The standard curve helps the working tips engage vessels beneath overlying tissue. A robust frame holds positioning during ligature passage.
Rochester‑Carmalt artery forceps provide fine vessel control via longitudinal serrations that grip without slipping. The curved jaw enhances visibility and ergonomics during artery isolation and clamping. Extended 203mm reach supports access into deeper vascular fields.
The Rochester‑Carmalt artery forceps feature longitudinal serrated jaws and a straight 8" (203mm) configuration for reliable procedural grasping during general and vascular surgery. The serration pattern distributes compressive force across vessel walls without cutting. Stainless steel construction supports robust reprocessing.
The Rumel stylet in child size is engineered to guide rubber tubing identi‑loops for selective vessel occlusion during pediatric cardiac procedures. Its straight 178mm shaft accommodates smaller mediastinal anatomy while the stylet tip allows controlled advancement through tubing loops without kinking or displacement. Reusable stainless‑steel construction ensures reliable performance in pediatric bypass circuits.
The Rumel thoracic forceps is a specialized grasper designed for delicate vessel and pericardial manipulation during cardiac procedures. Its curved geometry allows secure control of coronary arteries and attendant tissues during sternotomy exposure and anastomosis preparation. Reusable stainless‑steel construction withstands repeated sterilization cycles, supporting reliable performance across multiple cases.
The Satinsky cross‑action bulldog clamp combines an S‑curve with cross‑serrated jaws to provide secure atraumatic positioning of ascending aorta and coronary ostia during cardiopulmonary bypass and valve procedures. Its 254mm length allows placement and manipulation from lateral sternal exposure without excessive stretch on clamped vessels. The serrated jaw pattern distributes clamping force evenly across vessel wall.
These strongly curved Satinsky vascular scissors feature blunt tips to prevent inadvertent penetration during aortic or atrial wall dissection. The 254mm length and heavy curve accommodate deep thoracic access, while the ring handle and wide, blunt blade geometry protect underlying pericardium and myocardium. Ideal for careful separation of vessels before anastomosis.
The Spencer needle holder in tungsten carbide (TC) combines delicate fine-tip geometry with superior edge retention for microsurgical coronary and valve suturing. Its smooth 180mm straight shaft and lock mechanism enable precise needle control during intricate anastomosis and valve repair sequences. Tungsten carbide construction maintains a razor edge through repeated sharpening and sterilization cycles.
Stille rib shears provide clean, controlled dissection through calcified or osteoporotic rib during sternotomy extension and periosteal access. The sturdy 210mm straight design distributes cutting force evenly, preventing rib fracture splinter propagation. Stainless steel construction withstands repeated high‑force closure across multiple cardiac cases.
Titanium microsurgical spring‑handled scissors combine the weight reduction of titanium construction with fine sharp blades, optimizing delicate vessel and tissue dissection during coronary artery bypass grafting or vascular anastomosis. The 9mm blades provide visibility while the spring tension distributes closure force evenly across the working edge. Round diamond knurled handle supports secure grip in wet gloved conditions.
This tubing introducer forceps incorporates a flat 9mm handle and accommodates 0.5‑1mm diameter tubing across a 110mm length for controlled insertion.
This retrograde valvulotome is engineered for precise valve leaflet separation and mobilization during cardiac repair procedures. The straight 241mm shaft provides direct access to stenotic valve tissue during aortic or mitral interventions. Its narrow blade geometry allows controlled scoring and opening of fused commissures without unintended damage to adjacent structures.
This Vanderbilt University deep vessel clamp features serrated jaws for secure positioning of deeper vascular structures during cardiac and thoracic procedures. The straight geometry and 216mm extended length provide reach to posterior mediastinal and deep thoracic planes. Serrated grip prevents slippage on wet tissue surfaces during prolonged clamping.
This compact curved vascular clamp with a 14mm working jaw is designed for fine vessel positioning in restricted operative spaces during coronary artery disease and peripheral vascular repairs. The curved geometry conforms to vessel anatomy, while the small working length minimizes tissue trauma in tight fields. Its reusable stainless‑steel body supports durable performance across high-volume vascular cases.
These fully curved vascular forceps with serrated jaw offer secure grasp on vessel walls during IMA harvest, graft preparation, and arterial manipulation in bypass grafting. The 159mm length supports reach into deep mediastinal fields, while serrated jaws distribute grip force across tissue without crushing fragile endothelium. Reusable stainless‑steel construction withstands the sterilization intensity of high-volume cardiac programs.