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The large insulated Graves speculum with smoke evacuation tube delivers broad visualization and safe electrosurgical hemostasis during vaginal hysterectomy or extensive cervical procedures. The 39mm blade width and 114mm length provide sustained panoramic exposure. Integrated smoke evacuation clears plume from the surgical field.
Features & Benefits
Built for electrosurgical gynecologic work, this insulated medium Graves speculum opens the vagina and exposes the cervix while an integrated smoke evacuation tube captures plume from LEEP and laser procedures. The 1-1/4 inch (31.7/32mm) blade width and 4-inch (102mm) length suit the average adult patient, and the insulating coating reduces stray‑current risk against energized loops or fibers. Stainless‑steel construction holds blade geometry across repeat reprocessing.
This small Graves speculum is designed for compact vaginal access in patients with anatomic variation or increased sensitivity. The 22mm blade width delivers adequate cervical exposure while minimizing tissue trauma. The straight geometry and 76mm length facilitate easy insertion and withdrawal.
This insulated Graves speculum with integrated smoke evacuation tube supports safe electrosurgical procedures in the vaginal cavity by directing plume away from the operative field. The 22mm blade width and 76mm length provide compact access for small vaginal lesions or cervical ablation. Insulation protects surrounding tissue from inadvertent current.
The Graves vaginal speculum is a compact instrument with a 35mm blade width and 102mm overall length, designed for examination and visualization of the lower vagina, cervix, and introitus. Its moderate blade dimensions suit routine gynecologic assessment without excessive tissue stretch, while the short length enables stable handling and easy positioning. Stainless steel construction delivers reliable performance.
The large insulated Graves vaginal speculum with smoke evacuation tube delivers panoramic cervical and upper vaginal exposure during extensive electrosurgical procedures such as vaginal hysterectomy or broad field ablation. The 35mm blade width and 114mm length provide sustained visualization. Full insulation and integrated evacuation support safe hemostasis.
The medium insulated Graves vaginal speculum with smoke evacuation provides balanced exposure and safe electrosurgical hemostasis in the mid‑vagina and cervical region. The 32mm blade width and 102mm length support sustained visualization during laser or radiofrequency procedures. Integrated smoke evacuation and full insulation enhance safety.
This small insulated Graves vaginal speculum with smoke evacuation tube supports safe electrosurgical procedures in compact vaginal spaces or pediatric anatomy. The 22mm blade width and 76mm length facilitate atraumatic visualization. Integrated smoke evacuation and full insulation enable precise, plume‑free ablation.
This straight Graves vaginal speculum offers a 35mm blade width and 102mm total length for reliable, full-spectrum examination of the cervix and vaginal cuff during colposcopy and gynecologic procedures. The wide blade supports clear visualization of the transformation zone and endocervical tissue. Stainless-steel construction ensures repeatable reprocessing and durability across high-volume clinical settings.
The Graves vaginal speculum features a 32mm laser-coated blade for controlled cervical visualization during gynecologic examination and minor procedures. Laser coating reduces thermal transfer and improves visibility in electrosurgical applications. This medium-sized instrument provides balanced exposure of the vaginal cuff and cervix while maintaining a restrained light profile.
Sized for the smaller vaginal canal, this Graves speculum opens the vaginal walls to expose the cervix during examination and minor procedures. The 3/4-inch (19mm) blade width and compact 3-inch (76mm) overall length suit pediatric, adolescent, and small‑caliber adult cases. Stainless‑steel construction holds the polished blade surfaces through repeat autoclave reprocessing.
The Hank uterine dilator is sized at 15‑16 French gauge for initial cervical dilation during D&C, hysterectomy, and uterine procedures. Its tapered profile reduces trauma to the cervical canal while establishing predictable dilation incrementally. Reusable stainless steel construction provides reliable performance across multiple cases.
This Hank uterine dilator is calibrated to 17‑18 French gauge for progressive cervical dilation in hysterectomy and curettage procedures. The graduated taper facilitates safe passage through the cervical canal without perforation, while supporting optimal access to the endometrium. Stainless steel durability enables reliable reprocessing.
The Hank uterine dilator reaches 19‑20 French gauge for final cervical dilation in hysterectomy, IUD insertion, and therapeutic curettage. Its smoothly tapered profile accommodates the larger final size while minimizing risk of cervical trauma and perforation. Stainless steel ensures longevity in routine surgical service.
The Hank dilator in 11/12Fr (3.7/4mm equivalent) size continues mid‑stage cervical dilation before advancing to larger Hank increments. The double‑ended format and straight geometry support methodical cervical progression, while the stainless steel construction endures repeated sterilization. The 280mm total length provides surgeon control.
The Hank dilator in 13/14Fr (4.3/4.6mm equivalent) represents the next progressive stage in cervical dilation, suitable for later‑stage access during IUD insertion and hysteroscopy. The double‑ended pairing and straight shaft enable methodical advancement, while stainless steel durability supports repeated case use. The 280mm length aids controlled positioning.
The Hank dilator in 15/16Fr (5/5.3mm equivalent) accommodates later‑stage cervical dilation when preparing for larger hysteroscopic instruments or substantial intrauterine manipulation. The double‑ended configuration and straight geometry enable continued methodical advancement, while stainless steel sustains rigorous sterilization. The 280mm total length supports operator control.
The Hank dilator in 17/18Fr (5.6/6mm equivalent) completes the later‑stage progression when substantial cervical dilation is required for major hysteroscopic procedures or high‑volume intrauterine access. The double‑ended pairing streamlines instrument selection, while the straight shaft ensures continued methodical advancement. The 280mm length provides secure surgeon control.
The Hank uterine dilator in double‑ended configuration provides graduated sizing from 19 French to 20 French (6.3mm to 6.6mm diameter) for sequential cervical dilation during D&C and hysteroscopic procedures. The straight geometry allows controlled axial advancement through the cervical canal, reaching the lower uterine segment at 279mm overall length.
The Hank uterine dilator in 9/10Fr size accommodates mid‑range cervical dilation during hysteroscopic and IUD insertion procedures. The double‑ended configuration supplies two graduated sizes in a single instrument, reducing case setup time. The 280mm overall length and straight geometry enable progressive, controlled cervical advancement.
The Hank‑Bradley dilator in 11‑12Fr size continues mid‑stage cervical dilation with the hybrid Hank‑Bradley geometry. This mid‑range pairing supports continued progressive dilation for hysteroscopic access and IUD insertion, while stainless steel endures repeated sterilization. The graduated design ensures smooth tissue advancement.
The Hank‑Bradley dilator in 13‑14Fr size progresses mid‑to‑late cervical dilation stages with the established Hank‑Bradley hybrid geometry. The graduated design enables methodical advancement during complex hysteroscopic procedures, while stainless steel supports reliable sterilization across many cases.
The Hank‑Bradley dilator in 15‑16Fr size continues the late‑stage cervical dilation sequence with Hank‑Bradley hybrid geometry. The graduated diameter and smooth contours enable continued methodical advancement, while stainless steel construction withstands demanding procedural use and repeated sterilization.
The Hank‑Bradley dilator in 17‑18Fr size completes the late‑stage dilation progression with Hank‑Bradley hybrid geometry for maximum cervical opening. The graduated diameter and smooth contours enable final‑stage advancement when substantial endometrial access is required, while stainless steel sustains rigorous sterilization cycles.
The Hank‑Bradley uterine dilator in 9‑10Fr size combines the Hank graduated design with Bradley‑pattern geometry for initial‑to‑mid cervical dilation during IUD insertion and diagnostic procedures. The eponymous design supports smooth cervical progression while maintaining tissue safety. Stainless steel construction withstands routine sterilization.
The Heaney curette is a versatile endometrial instrument engineered without a specimen basket, enabling focused curettage during D&C, hysterectomy, and diagnostic evacuation. Its straight geometry and 241mm length provide direct intraoperative control and visualization, while the robust stainless steel construction maintains edge sharpness across many procedures. The open design simplifies specimen collection into separate containers.
The Heaney hysterectomy forceps features a curved blade profile that naturally aligns with uterine and parametrial anatomy during abdominal hysterectomy. Despite the source data notation, the 8-1/4 inch (210mm) length provides comfortable reach to deep pelvic structures. Reliable spring action supports sustained grasping during lengthy procedures.
The Heaney uterine biopsy curette features a serrated loop optimized for endometrial tissue sampling during diagnostic procedures. The 6 × 10mm serrated loop design grips tissue firmly without full-thickness tearing, supporting intact specimen collection for histologic analysis. The malleable shaft accommodates varied uterine contours.
The Heaney-Ballentine hysterectomy forceps combine a standard curve with longitudinal grooves and a single V-tooth tip to secure uterine ligaments and tissue bundles during abdominal hysterectomy. The grooved jaws increase surface area for secure grasp on fascial and ligamentous tissue without crushing. The V-tooth geometry provides precise point contact for vessel ligation and broad ligament manipulation.
The Heaney‑Simon hysterectomy retractor is engineered for controlled tissue displacement during abdominal hysterectomy, providing surgeon access to the uterus, broad ligament, and adnexa. Its 25 × 114mm straight blade seats securely in the lower abdomen for sustained retraction without manual assistance. Stainless steel construction supports reliable reprocessing across repeated cases.