Angle of View | 0 Degree |
Type | Insufflators |
Usage/Application | Hospital |
Sterile/ Non Sterile | Sterile |
Disposable/ Reusable | Disposable |
Material | Stainless Steel |
Usage/ Application | Hospital |
Country of Origin | Made in India |
Model Name/Number | XPS 3000 |
Usage | Hospital |
Frequency | 47-63 Hz |
Voltage | 100-240 V |
Dimensions | 10X12X11 Inch |
Power Source | Electric |
Display Type | Digital |
Country of Origin | Made in India |
Model Name/Number | XPS 3000 |
Brand | MEDTRONIC |
Material | Plastic |
Usage/Application | Hospital |
Color | BLUE |
Material | Stainless Steel |
Usage/Application | Clinic |
Color | Silver |
Weight (Gram) | 30 gm |
Brand | Addler |
Operation Mode | Manual |
Surface Finish | Polished |
No of Piece | 12 Piece |
Packaging Type | Case |
Country of Origin | Made in India |
It seems like your message was cut off. However, in the context of orthopedic surgery, the term "Orthopedic Surgical Medical" likely refers to equipment, instruments, or procedures related to orthopedic surgery. Orthopedic surgery is a branch of surgery that focuses on the diagnosis, treatment, and rehabilitation of disorders of the musculoskeletal system, including bones, joints, ligaments, tendons, and muscles.
Here are some common elements that could be associated with "Orthopedic Surgical Medical":
Surgical Instruments: This includes a wide range of instruments used in orthopedic procedures, such as bone saws, drills, retractors, forceps, plates, screws, and implants.
Implants and Prosthetics: Orthopedic surgeries often involve the use of implants and prosthetic devices to replace or repair damaged or diseased joints, bones, or soft tissues. Examples include hip and knee implants, spinal implants, and shoulder prostheses.
Surgical Techniques: Orthopedic surgeons employ various surgical techniques to treat orthopedic conditions, including fracture fixation, joint replacement (arthroplasty), arthroscopy, soft tissue repair, osteotomy, and spinal fusion.
Orthopedic Equipment: This includes specialized equipment used in orthopedic surgeries and procedures, such as traction devices, arthroscopic equipment, fluoroscopy machines, and power tools.
Postoperative Care: Orthopedic surgical medical also encompasses postoperative care and rehabilitation, including physical therapy, occupational therapy, and assistive devices like braces, crutches, and orthoses.
Specialized Procedures: Orthopedic surgeons may perform specialized procedures within their field, such as sports medicine procedures (e.g., ligament reconstruction, tendon repair), pediatric orthopedic surgeries, or orthopedic oncology procedures (e.g., tumor resection and reconstruction).
Education and Training: Orthopedic surgical medical involves continuous education and training for orthopedic surgeons, residents, and other healthcare professionals involved in the care of orthopedic patients.
Overall, "Orthopedic Surgical Medical" encompasses a broad range of equipment, instruments, procedures, and practices related to orthopedic surgery, all aimed at diagnosing, treating, and rehabilitating musculoskeletal disorders to improve patients' quality of life and function.
Material | Stainless Steel |
Usage/Application | Clinic |
Color | Silver |
Weight (Gram) | Upto 20 gm |
Brand | Addler |
Operating Mode | Manual |
Surface Finish | Polished |
Packaging Type | Box |
Country of Origin | Made in India |
The term "Ophthalmics Phaco Chopper Sharp I" likely refers to a surgical instrument used in ophthalmic surgery, specifically in phacoemulsification procedures. Phacoemulsification is a modern cataract surgery technique that uses ultrasonic energy to break up and remove the cloudy lens from the eye.
Here's a breakdown of the key features of the "Phaco Chopper Sharp I":
Function: The Phaco Chopper is a specialized instrument used during phacoemulsification surgery to assist in the fragmentation and removal of the cataractous lens. It is designed to be inserted through a small incision in the eye and used to mechanically chop or divide the lens into smaller pieces, making it easier to emulsify and aspirate.
Design: The Phaco Chopper typically consists of a thin, elongated shaft with a sharp tip and a handle for manipulation by the surgeon. The sharp tip allows for precise and controlled penetration of the cataractous lens, while the elongated shaft provides reach and maneuverability within the eye.
Material: Surgical instruments like the Phaco Chopper are commonly made from high-quality stainless steel or titanium, which are durable, corrosion-resistant, and compatible with sterilization processes.
Size: The "Sharp I" designation may indicate a specific size or design variation of the Phaco Chopper. Surgical instruments often come in different sizes and configurations to accommodate variations in patient anatomy and surgical technique.
Sterilization: Like all surgical instruments, the Phaco Chopper must be sterilized before use to ensure it is free from pathogens and safe for surgical procedures. Sterilization methods commonly used for surgical instruments include steam autoclaving and ethylene oxide (EtO) gas sterilization.
Surgical Technique: During phacoemulsification surgery, the Phaco Chopper is used in conjunction with other instruments and equipment, such as the phacoemulsification handpiece and irrigation/aspiration probes, to safely and effectively remove the cataractous lens from the eye.
Overall, the Phaco Chopper Sharp I is a specialized surgical instrument used by ophthalmic surgeons during phacoemulsification procedures to assist in the precise and controlled fragmentation of the cataractous lens. Its design and functionality contribute to the success and safety of modern cataract surgery.
Material | Titanium |
Brand | Addler |
Weight (g) | Upto 30 gm |
Size | 5.5 inch |
Operating Mode | Manual |
Surface Finish | Polished |
Country of Origin | Made in India |
The term "5.5 inch Titanium Nero Surgery Straight & Curved" likely refers to a specific type of surgical instrument used in neurosurgery. Here's a breakdown of its key features:
Length: The "5.5 inch" measurement typically refers to the length of the instrument. In this case, it suggests that the instrument is 5.5 inches long.
Material: The instrument is made of titanium, which is a lightweight and strong metal commonly used in surgical instruments due to its biocompatibility and resistance to corrosion.
Nero Surgery: This likely refers to neurosurgery, which is the medical specialty concerned with the diagnosis and surgical treatment of disorders affecting the nervous system, including the brain, spinal cord, and nerves.
Straight & Curved: This indicates that the instrument comes in two variations: straight and curved. These variations allow surgeons to choose the most suitable instrument for different aspects of the surgical procedure, such as accessing different areas of the brain or spinal cord.
Function: The specific function of the instrument will depend on its design and intended use. Neurosurgical instruments are used for tasks such as tissue dissection, manipulation, and suturing during surgical procedures involving the nervous system.
Specialization: Instruments used in neurosurgery are specialized tools designed for the unique challenges and intricacies of operating on the brain and spinal cord. They often feature precise and delicate designs to minimize trauma to surrounding tissues and structures.
Sterilization: Like all surgical instruments, neurosurgical instruments must be sterilized before use to prevent infections. Instruments made of titanium are typically compatible with various sterilization methods, including steam autoclaving and ethylene oxide (EtO) gas sterilization.
In summary, the "5.5 inch Titanium Nero Surgery Straight & Curved" instrument is likely a specialized surgical tool used in neurosurgery for tasks such as tissue dissection, manipulation, and suturing. Its titanium construction, along with its straight and curved variations, makes it suitable for use in a variety of neurosurgical procedures.
Material | Stainless Steel |
Usage/Application | Clinic |
Color | Silver |
Size | 20 mm |
Weight (Gram) | 35 gm |
Brand | Addler |
Surface Finish | Polished |
Country of Origin | Made in India |
A 20mm angled eye ophthalmic instrument refers to a specific type of surgical instrument used in ophthalmic procedures. These instruments are designed for performing delicate maneuvers and procedures within the eye and surrounding structures. Here are some key features and considerations:
Size: The "20mm" typically refers to the length of the instrument or the size of a specific component, such as the tip or blade.
Angled Design: Ophthalmic instruments often have angled or curved designs to facilitate access to different areas of the eye and improve visibility during surgery. The angle of the instrument may vary depending on its intended use.
Material: Ophthalmic instruments are typically made from high-quality surgical-grade stainless steel or other biocompatible materials. This ensures durability, corrosion resistance, and compatibility with sterilization processes.
Function: The specific function of a 20mm angled eye ophthalmic instrument can vary depending on its design. It may be used for tasks such as tissue manipulation, dissection, grasping, or suturing within the eye.
Compatibility: Ophthalmic instruments are designed to be compatible with ophthalmic surgical techniques and procedures. They may be used in conjunction with other instruments or surgical systems, such as microscopes and phacoemulsification machines, depending on the surgical technique being performed.
Sterilization: Like all surgical instruments, ophthalmic instruments must be sterilized before use to prevent infections. They are typically sterilized using methods such as steam autoclaving or ethylene oxide (EtO) gas sterilization.
Specialization: Some ophthalmic instruments are specialized for particular procedures or techniques. For example, instruments used in cataract surgery may have different designs or features compared to those used in vitreoretinal surgery or glaucoma surgery.
Overall, 20mm angled eye ophthalmic instruments play a crucial role in ophthalmic surgery, allowing surgeons to perform intricate procedures with precision and accuracy while minimizing trauma to the delicate structures of the eye. These instruments are essential tools for ophthalmologists and eye surgeons and are designed to meet the specific needs and challenges of ophthalmic surgery.
Brand | Addler |
Usage/Application | Clinic |
Phase | Single Phase |
Screen | 15 Inch Screen |
Frequency | 50 Hz |
Horizon Resolution | 1080 lines |
Power | 35W |
Power Source | Electric |
Voltage | 210 V |
Country of Origin | Made in India |
Usability | Reusable |
Usage | Hospital, Clinic |
Material | Stainless Steel |
Brand | Addler |
Lengths | 7 inch |
Surface Finish | Polished |
Operating Mode | Manual |
Color | Silver |
Weight | Upto 50 gm |
Country of Origin | Made in India |
The Akahoshi Chopper with a cross-section round handle is a specialized ophthalmic surgical instrument used in procedures such as phacoemulsification, particularly during cataract surgery. The Akahoshi Chopper is designed to assist in the fragmentation and removal of the cataractous lens from the eye. Here are the key features of this instrument:
Chopper Design: The chopper has a blade at one end, which is used to facilitate the fragmentation of the cataractous lens into smaller pieces. This fragmentation process helps in the removal of the lens from the eye through a small incision.
Cross-Section Round Handle: The handle of the chopper is round in cross-section, providing ergonomic grip and ease of manipulation for the surgeon during the procedure. The cross-section design ensures stability and control during delicate maneuvers within the eye.
Material: The Akahoshi Chopper is typically made from high-quality stainless steel or titanium alloy. These materials provide durability, strength, and resistance to corrosion, ensuring the instrument's longevity and reliability in surgical procedures.
Size: The size of the chopper can vary, but it is designed to be compatible with the small incisions used in modern cataract surgery techniques, such as phacoemulsification.
Sterilization: Like all surgical instruments, the Akahoshi Chopper must undergo thorough sterilization before use to ensure it is free from pathogens and safe for surgical procedures. Sterilization methods commonly used for surgical instruments include steam autoclaving and ethylene oxide (EtO) gas sterilization.
Surgical Application: The Akahoshi Chopper is used in ophthalmic surgery, particularly during phacoemulsification procedures for cataract removal. It assists the surgeon in dividing and fragmenting the cataractous lens, allowing for its safe and efficient removal from the eye.
Training: Surgeons using the Akahoshi Chopper typically undergo training to become proficient in its use. Mastery of surgical techniques and familiarity with instrument handling are crucial for successful outcomes in cataract surgery.
Overall, the Akahoshi Chopper with a cross-section round handle is a valuable instrument in ophthalmic surgery, aiding surgeons in performing precise and controlled maneuvers during cataract surgery. Its ergonomic design and high-quality construction contribute to its effectiveness and reliability in the operating room.
Size | 14 mm |
Material | Stainless Steel |
Usage/Application | Clinic |
Color | Silver |
Weight (Gram) | Upto 30 gm |
Brand | Addler |
Operating Mode | Manual |
Country of Origin | Made in India |
A 14mm ophthalmic eye blade refers to a specific type of surgical blade used in ophthalmic procedures. Ophthalmic surgery requires precision instruments due to the delicate nature of the eye and surrounding structures. These blades are typically designed to be sharp, precise, and compatible with ophthalmic surgical handles.
Here are some key points about the 14mm ophthalmic eye blade:
Size: The "14mm" in the name refers to the size of the blade. This measurement typically represents the length of the cutting edge of the blade.
Design: Ophthalmic eye blades are often designed with a curved or angled shape to facilitate precise incisions and maneuvers in the small, confined spaces of the eye.
Material: These blades are usually made from high-quality surgical stainless steel or other biocompatible materials to ensure sharpness, durability, and resistance to corrosion.
Compatibility: Ophthalmic eye blades are designed to be compatible with specific ophthalmic surgical handles or instruments. The blades are often attached to the handle using a secure locking mechanism to prevent slippage during surgery.
Sterilization: Like all surgical instruments, ophthalmic eye blades must be sterilized before use to prevent infections. They are typically packaged in sterile containers or pouches and undergo sterilization processes such as steam autoclaving or ethylene oxide (EtO) gas sterilization.
Applications: Ophthalmic eye blades are used in various ophthalmic surgical procedures, including cataract surgery, corneal transplantation, glaucoma surgery, and retinal surgery. They may be used for making precise incisions, creating corneal flaps, or performing delicate tissue dissections within the eye.
Disposable vs. Reusable: Some ophthalmic eye blades are designed for single-use and are disposed of after a single procedure to reduce the risk of cross-contamination and ensure sharpness. Others may be designed for multiple uses and can be sterilized and reused according to established protocols.
Overall, the 14mm ophthalmic eye blade is an essential tool in ophthalmic surgery, allowing surgeons to perform intricate procedures with precision and minimal trauma to the delicate structures of the eye.
Usage | Hospital, Clinic |
Automation Grade | Manual |
Color | Silver |
Surface Finishing | Polished |
Brand | Addler |
Material | Stainless Steel |
Length | 7 inch |
Country of Origin | Made in India |
Size | 11 mm |
Material | Stainless Steel |
Brand | Addler |
Usage/Application | Clinic |
Usage | Clinic, Hospital |
Color | Silver |
Usage/Application | Clinical |
Color | Silver |
Brand | Addler |
Packaging Type | Box |
Surface Finish | Polished |
Material | Stainless Steel |
Operating Mode | Manual |
Weight | Upto 40 gm |
The "M1 Addler Dental Chair with Integrated LED Operating Light" is a comprehensive dental treatment unit that combines a dental chair with an integrated LED operating light, offering a complete solution for dental procedures. Here's an overview of its features and functionalities:
Dental Chair: The dental chair is the central component of the unit, providing a comfortable and adjustable seating arrangement for the patient during dental procedures. It typically features ergonomic design elements such as adjustable headrests, armrests, and footrests to ensure patient comfort and proper positioning during treatment.
Integrated LED Operating Light: The dental chair comes equipped with an integrated LED operating light, which provides illumination for the dental workspace during procedures. LED lights offer bright, white light with excellent color rendering properties, ensuring optimal visibility for the dentist and assisting in accurate diagnosis and treatment.
M1 Addler Brand: "M1 Addler" likely refers to the brand or model designation of the dental chair unit. Addler is a manufacturer known for producing dental equipment and devices, including dental chairs, treatment units, and accessories. The M1 model may offer specific features or design elements tailored to the needs of dental professionals.
Functionality and Controls: The dental chair unit may feature intuitive controls and ergonomic design elements to facilitate easy operation by the dental practitioner. Controls for chair positioning, operating light intensity, and other settings may be conveniently located within reach of the dentist for seamless workflow during procedures.
Instrumentation and Accessories: In addition to the dental chair and integrated operating light, the unit may include provisions for attaching dental instruments, accessories, and delivery systems such as dental handpieces, suction devices, and air-water syringes. These components allow the dentist to perform a wide range of dental procedures efficiently and effectively.
Patient Comfort Features: The dental chair may offer additional features aimed at enhancing patient comfort and relaxation during treatment, such as massage functions, memory foam upholstery, and ergonomic design elements. These features help create a positive and comfortable experience for the patient during dental visits.
Hygiene and Maintenance: The dental chair unit is designed with hygiene and maintenance considerations in mind, featuring easy-to-clean surfaces, removable upholstery, and integrated infection control measures to ensure a clean and safe treatment environment for patients and dental staff.
Overall, the M1 Addler Dental Chair with Integrated LED Operating Light provides a comprehensive solution for dental practitioners, combining ergonomic design, advanced illumination technology, and patient comfort features to support efficient and high-quality dental care delivery.
Usage/Application | Hospital |
Usage | Hospital, Clinic |
Size | 105 mm |
Surface Finish | Polished |
Brand | Addler |
Material | Stainless Steel |
Blade Size | 11 mm |
Operating Mode | Manual |
Country of Origin | Made in India |
Titanium micro corneal scissors are specialized surgical instruments used in ophthalmic procedures, particularly in delicate surgeries involving the cornea. Here's an overview of their features and functionalities:
Material: Titanium is a preferred material for surgical instruments due to its strength, durability, and biocompatibility. Titanium micro corneal scissors are lightweight yet strong, allowing for precise cutting without sacrificing durability. Additionally, titanium instruments are resistant to corrosion and rust, making them suitable for use in sterile surgical environments.
Design: Micro corneal scissors have a delicate and precise design optimized for performing intricate maneuvers on the cornea. They feature thin, sharp blades with fine tips that allow surgeons to make precise incisions and dissections with minimal trauma to the surrounding tissue. The scissors may have curved or straight blades, depending on the specific surgical technique and preference of the surgeon.
Size: Micro corneal scissors are designed to be small and lightweight, allowing for easy handling and maneuverability within the confined space of the eye. The size of the scissors is carefully optimized to provide the surgeon with maximum control and visibility during surgery while minimizing the risk of tissue damage.
Application: Micro corneal scissors are used in various ophthalmic procedures involving the cornea, such as corneal transplantation (keratoplasty), corneal incisions, and other anterior segment surgeries. They are particularly useful for delicate tasks such as cutting corneal tissue, dissecting fine membranes, or performing precise surgical maneuvers in the corneal region.
Sterilization: Like all surgical instruments, titanium micro corneal scissors must be sterilized before each use to prevent infection and ensure patient safety. They can be sterilized using methods such as steam autoclaving, ethylene oxide (EtO) sterilization, or chemical disinfection, depending on the manufacturer's recommendations.
Maintenance: Proper care and maintenance of titanium micro corneal scissors are essential to preserve their sharpness, functionality, and longevity. After each use, the scissors should be thoroughly cleaned, inspected for damage or signs of wear, and sterilized according to established protocols. Regular sharpening may also be necessary to maintain the cutting edge of the blades.
In summary, titanium micro corneal scissors are precision surgical instruments designed for use in ophthalmic procedures involving the cornea. Their lightweight yet durable construction, precise design, and biocompatibility make them essential tools for ophthalmic surgeons performing delicate surgeries on the cornea.
Material | Stainless Steel |
Usage/Application | Clinic |
Color | Silver |
Weight (Gram) | 30 gm |
Brand | Addler |
Operating Mode | Manual |
Surface Finish | Polished |
Country of Origin | Made in India |
Titanium micro corneal scissors are specialized surgical instruments used in ophthalmic procedures, particularly in delicate surgeries involving the cornea. Here's an overview of their features and functionalities:
Material: Titanium is a preferred material for surgical instruments due to its strength, durability, and biocompatibility. Titanium micro corneal scissors are lightweight yet strong, allowing for precise cutting without sacrificing durability. Additionally, titanium instruments are resistant to corrosion and rust, making them suitable for use in sterile surgical environments.
Design: Micro corneal scissors have a delicate and precise design optimized for performing intricate maneuvers on the cornea. They feature thin, sharp blades with fine tips that allow surgeons to make precise incisions and dissections with minimal trauma to the surrounding tissue. The scissors may have curved or straight blades, depending on the specific surgical technique and preference of the surgeon.
Size: Micro corneal scissors are designed to be small and lightweight, allowing for easy handling and maneuverability within the confined space of the eye. The size of the scissors is carefully optimized to provide the surgeon with maximum control and visibility during surgery while minimizing the risk of tissue damage.
Application: Micro corneal scissors are used in various ophthalmic procedures involving the cornea, such as corneal transplantation (keratoplasty), corneal incisions, and other anterior segment surgeries. They are particularly useful for delicate tasks such as cutting corneal tissue, dissecting fine membranes, or performing precise surgical maneuvers in the corneal region.
Sterilization: Like all surgical instruments, titanium micro corneal scissors must be sterilized before each use to prevent infection and ensure patient safety. They can be sterilized using methods such as steam autoclaving, ethylene oxide (EtO) sterilization, or chemical disinfection, depending on the manufacturer's recommendations.
Maintenance: Proper care and maintenance of titanium micro corneal scissors are essential to preserve their sharpness, functionality, and longevity. After each use, the scissors should be thoroughly cleaned, inspected for damage or signs of wear, and sterilized according to established protocols. Regular sharpening may also be necessary to maintain the cutting edge of the blades.
In summary, titanium micro corneal scissors are precision surgical instruments designed for use in ophthalmic procedures involving the cornea. Their lightweight yet durable construction, precise design, and biocompatibility make them essential tools for ophthalmic surgeons performing delicate surgeries on the cornea.
Brand | Addler |
Gauge | 24-27 |
Usage/Application | Clinical |
Material | Stainless Steel |
Color | Silver |
Needle Length (mm) | 40 mm |
Operating Mode | Manual |
Surface Finish | Polished |
Country of Origin | Made in India |
Material | Stainless Steel |
Usage/Application | Clinical |
Color | Silver |
Brand | Addler |
Packaging Type | Box |
Operating Mode | Manual |
Finish | Polished |
Country of Origin | Made in India |
Brand | Addler |
Usage | Clinic |
Material | Stainless Steel |
Weight | 20 gm |
Packaging Type | Box |
Color | Silver |
Operating Mode | Manual |
Country of Origin | Made in India |
Size/Dimension | 20 mm |
Usage/Application | Clinical |
Packaging Type | Box |
Brand | Addler |
Material | Stainless Steel |
Operating Mode | Manual |
Surface Finish | Polished |
Size | 20 mm |
Accuracy | 0.1 mm |
Usage/Application | Clinical |
Brand | Addler |
Material | Stainless Steel |
Usage/Application | Clinic |
Color | Silver |
Weight (Gram) | 21 g |
Is It Sterilized | Sterilized |
Brand | Addler |
Operating Mode | Manual |
Length | 1 meter |
Country of Origin | Made in India |
Usage/Application | Hospital |
Brand | Addler |
Material | Stainless Steel |
Size | 4.5 inch |
Surface Finishing | Polished |
Weight | 40 gm |
Operating Mode | Manual |
Power Voltage | any |
Color Temperature | any |
Light Source Type | LED |
Country of Origin | Made in India |
The Stryker AIM (Advanced Imaging Modalities) Laparoscope is an advanced laparoscopic camera system designed for high-quality imaging and visualization during minimally invasive surgery. Here are the key features of the Stryker AIM Laparoscope:
High-Definition Imaging: The AIM Laparoscope provides high-definition (HD) imaging capabilities, offering surgeons clear and detailed visualization of the surgical field. High-definition imaging enhances precision and accuracy during laparoscopic procedures.
Wide Field of View: The laparoscope offers a wide field of view, allowing surgeons to see more of the surgical area without having to reposition the camera frequently. A wide field of view is essential for efficient navigation and manipulation of instruments during surgery.
Integrated Light Source: The AIM Laparoscope typically features an integrated light source that provides consistent and uniform illumination of the surgical site. Adequate lighting is crucial for optimal visualization and accurate identification of anatomical structures.
Autoclavable Design: The laparoscope is designed to be autoclavable, allowing for easy sterilization between uses. Autoclavability ensures that the laparoscope meets the highest standards of infection control and patient safety.
Adaptive Imaging Technology: Some versions of the AIM Laparoscope may feature adaptive imaging technology, which automatically adjusts image settings to optimize image quality based on the specific lighting conditions and surgical environment.
Ergonomic Design: The laparoscope is designed with ergonomic considerations to provide comfort and ease of use for the surgical team. Ergonomic features may include lightweight construction, comfortable grips, and intuitive controls.
Compatibility: The AIM Laparoscope is compatible with a range of laparoscopic camera systems and video processing units, allowing for seamless integration into existing surgical setups. Compatibility ensures flexibility and versatility in surgical procedures.
Image Enhancement Features: The laparoscope may offer additional image enhancement features such as digital zoom, image freeze, and image rotation, allowing surgeons to optimize visualization during surgery.
Support for Advanced Imaging Modalities: As part of Stryker's AIM platform, the laparoscope may support advanced imaging modalities such as fluorescence imaging or near-infrared imaging, providing surgeons with enhanced visualization of critical structures or tissues during surgery.
Overall, the Stryker AIM Laparoscope is a state-of-the-art laparoscopic camera system that offers high-definition imaging, wide field of view, integrated lighting, and advanced imaging capabilities to support safe, efficient, and precise minimally invasive surgery.