Design | Self Tapping |
Shape | Straight |
Brand | Stryker |
No of Piece | 8 Piece |
Body Material | Stainless Steel |
Surface Finish | Polished |
Operating Mode | Manual |
Packaging Type | Box |
Country of Origin | Made in India |
Design | Self Tapping |
Shape | Straight |
Brand | DDDLER |
Packaging Type | Box |
Operating Mode | Manual |
Surface Finish | Polished |
Body Material | Stainless Stee |
Size | 300 mm x 150 mm x 250 mm |
Weight | 5.5 Kg |
Usage/Application | Clinic |
Brand | Shalya |
Country of Origin | Made in India |
A vessel sealing system is a medical device used in surgical procedures to seal blood vessels and other tubular structures (such as lymphatics) to prevent bleeding or fluid leakage. It's a critical tool in various surgical specialties, including general surgery, gynecology, urology, and others, where precise vessel sealing is required.
Here's how a typical vessel sealing system works:
Principles of Energy: These systems typically use a combination of energy modalities such as radiofrequency (RF) or ultrasonic energy to achieve vessel sealing. RF energy works by applying heat to the tissue, causing proteins in the vessel walls to denature and fuse together, effectively sealing the vessel.
Jaw Design: The vessel sealing system usually consists of a handheld instrument with two opposing jaws. These jaws grasp the vessel or tissue to be sealed.
Activation: When activated, the energy is delivered to the tissue through the jaws of the instrument.
Sealing Process: The energy heats the tissue in the jaws, creating a seal along the length of the vessel. This seal effectively prevents blood flow through the vessel, reducing the risk of bleeding during and after surgery.
Feedback Mechanisms: Many modern vessel sealing systems incorporate feedback mechanisms to monitor tissue impedance or changes in tissue characteristics during sealing. This helps ensure proper sealing and minimize the risk of tissue damage.
Versatility: Some vessel sealing systems also allow for cutting of the sealed vessel or tissue, providing a multifunctional tool for surgeons.
Vessel sealing systems offer several advantages over traditional methods of vessel ligation (tying off vessels with sutures or using clips), including reduced operative time, less blood loss, and potentially improved patient outcomes. They have become an integral part of modern surgical practice.
Brand | VATECH |
Usage/Application | CLINICAL |
Material | Plastic |
Model Name/Number | Ez Sensor Classic 1.5 |
Manufacturer | VATECH |
ther Detail:-
Feature:-
Usage/Application | Hospital |
Brand | yes |
Material | yes |
Type | Surgical Equipments |
Color | White |
Model Name/Number | yes |
Country of Origin | Made in India |
An Aluminum OT (Operating Theater) Surgical Single Arm Pendant is a medical equipment fixture commonly found in operating rooms, particularly in surgical suites and intensive care units. It is designed to provide support and organization for medical devices, gas supplies, electrical outlets, and other essential equipment needed during surgical procedures. Here's an overview of its features and functions:
Single Arm Design: The pendant typically consists of a single arm, often made of lightweight yet sturdy aluminum, that is mounted to the ceiling or wall of the operating room. This arm extends horizontally from the mounting point and may be adjustable in height, length, or rotation to accommodate different surgical setups and preferences.
Equipment Mounting: The pendant arm is equipped with various attachment points, rails, shelves, or trays where medical devices and equipment can be securely mounted or hung. This may include surgical lights, monitors, infusion pumps, anesthesia machines, ventilators, and other essential devices needed during surgery.
Gas Outlets: The pendant arm may feature gas outlets or ports for the delivery of medical gases such as oxygen, nitrous oxide, and compressed air. These outlets are typically equipped with gas-specific quick-connect fittings or adapters for easy connection to anesthesia machines, ventilators, and other gas-powered devices.
Electrical Outlets: Electrical outlets are often integrated into the pendant arm to provide power for electrical devices and equipment used in the operating room. These outlets may include standard power sockets as well as specialized outlets for medical equipment requiring isolated power sources or specific voltage requirements.
Cable Management: The pendant arm may include cable management systems such as channels, clips, or trays to organize and route electrical cables, data cables, and medical gas hoses safely along the arm. This helps prevent tripping hazards, minimize clutter, and maintain a clean and organized surgical environment.
Swivel and Articulation: Some pendant arms feature swivel or articulating joints that allow for flexible positioning and movement of attached equipment. This enables surgical staff to adjust the orientation and angle of devices for optimal visibility and accessibility during procedures.
Controls and Accessories: Depending on the specific design and configuration, the pendant arm may include controls, touch panels, or accessory mounts for operating room management systems, communication devices, medical gas flow meters, or other specialized equipment used in surgical settings.
Hygiene and Cleaning: Aluminum pendant arms are often designed with smooth surfaces and rounded edges to facilitate cleaning and disinfection. They may also incorporate antimicrobial coatings or materials to help prevent the spread of infections and maintain sterile conditions in the operating room.
Overall, an aluminum OT surgical single arm pendant provides a versatile and ergonomic solution for organizing and supporting medical equipment in the operating room, enhancing workflow efficiency, and optimizing patient care during surgical procedures.
Minimum Order Quantity | 1 Piece |
Usage/Application | Hospital |
Usability | Reusable |
Grade | SS 316 |
Brand | Addler |
Packaging Type | Box |
Material | SS and ABS |
Operating Mode | Manual |
Country of Origin | Made in India |
Usage/Application | Hospital |
Disposable/ Reusable | Disposable |
Material | Stainless Steel |
Brand | Golden Nimbus |
Features | any |
Country of Origin | Made in India |
A suction and irrigation system is a medical device used in various surgical procedures to remove fluids, blood, debris, or smoke from the surgical field and to provide irrigation for cleaning or visual enhancement. Here are the key components and functions of a suction and irrigation system:
Suction Function: The suction function involves the removal of fluids, blood, or other materials from the surgical site using negative pressure. This helps maintain a clear and dry field of view for the surgeon, allowing for better visualization and precision during the procedure.
Irrigation Function: The irrigation function involves the delivery of sterile saline solution or other irrigation fluids to the surgical site. Irrigation helps clean the area, remove debris, and improve visualization by washing away blood or tissue fragments. It can also help cool tissues during procedures such as electrocautery to prevent damage from heat.
Handpieces and Tubing: The suction and irrigation system typically includes handpieces or suction/irrigation probes connected to tubing. These handpieces are used by surgical assistants or the surgeon to manipulate the suction and irrigation functions during the procedure.
Pump or Vacuum Source: The system is powered by a pump or vacuum source that generates the negative pressure needed for suction. This can be an electrically powered pump or a manual suction device, depending on the specific system.
Irrigation Fluid Reservoir: The system includes a reservoir or container for holding irrigation fluid. This reservoir may be pressurized to facilitate fluid delivery or have a gravity feed system.
Control Mechanism: The system typically includes controls or foot pedals that allow the surgical team to adjust the suction and irrigation settings during the procedure. These controls may vary depending on the specific system and manufacturer.
Filters and Collection Canisters: Suction systems often include filters or collection canisters to capture and separate aspirated fluids, blood, or debris from the air. This helps maintain a clean and sterile environment in the operating room and prevents contamination of the suction system.
Disposable Components: Some parts of the suction and irrigation system, such as tubing, handpieces, and collection canisters, may be disposable and intended for single-use to minimize the risk of cross-contamination between patients.
Overall, a suction and irrigation system is an essential component of many surgical procedures, including laparoscopic surgery, open surgery, and endoscopic procedures. It helps maintain a clear surgical field, enhances visualization, and improves the safety and efficiency of the surgical procedure.
Type | Insufflators |
Usage/Application | Hospital |
Disposable/ Reusable | Disposable |
Material | Stainless Steel |
Brand | Karl Storz |
Features | any |
Sterile/ Non Sterile | Sterile |
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.
Cable Length | 3 m |
Model Name/Number | yes |
Usage/Application | Clinical |
Frequency | yes |
Output Frequency | yes |
Country of Origin | Made in India |
A cautery pencil with a long tip is a medical device commonly used in surgical procedures. It is essentially a handheld tool that delivers heat to tissues, typically to achieve hemostasis (stopping bleeding) or to cut through tissue. The long tip design allows for more precise control and access, particularly in deep or hard-to-reach areas during surgery.
Here's how it generally works:
Activation: The cautery pencil is usually activated by pressing a button or switch on the device.
Heat Generation: Upon activation, an electric current passes through the tip of the pencil, causing it to heat up rapidly.
Application: The surgeon or healthcare provider then applies the heated tip to the target tissue. The heat effectively seals off small blood vessels, reducing bleeding, or it can be used to cut through tissue with minimal bleeding.
Disposal or Sterilization: After use, cautery pencils are either disposed of or sterilized depending on the type and material.
Cautery pencils are versatile tools found in various surgical specialties, including general surgery, orthopedics, plastic surgery, and more. They come in different sizes and configurations to suit different surgical needs.
Type | Intraoral |
Model Name/Number | EZ RAY AIR |
Generator Ma | 2.5 |
Generator Power | 22.2V |
Generator KVp | 60 |
Exposure Time Range | 0.05-0.5 SEC |
Vatech EZRay Air Plus portable x-ray Machine
World’s first dental application of Carbon Nano Technology makes EzRay Air Plus the Lightest Weight 1.8kg Portable X-ray Unit for easy handling & stable positioning for optimal image quality.
Size | 45 x 30 x 5 cm |
Model Name/Number | yes |
Brand | yes |
Product Type | yes |
Lamp | yes |
Usage/Application | Hospital |
Country of Origin | Made in India |
The term "Bilipod LED Phototherapy" likely refers to a medical device used for the treatment of neonatal jaundice, a condition caused by elevated levels of bilirubin in the blood. Phototherapy is a common treatment for neonatal jaundice, and LED-based phototherapy devices have become increasingly popular due to their effectiveness and energy efficiency. Here's an overview of Bilipod LED Phototherapy:
LED Technology: LED (Light Emitting Diode) phototherapy devices use blue or green light to break down bilirubin molecules in the blood, making it easier for the body to eliminate them. LEDs are preferred for phototherapy due to their narrow wavelength range, which targets bilirubin without exposing infants to unnecessary light radiation.
Bilipod Design: The term "Bilipod" may refer to the design of the phototherapy device. It likely consists of a stand or support structure with adjustable height and angle, allowing healthcare providers to position the light source directly above the neonate's crib or incubator.
Adjustable Intensity: Bilipod LED phototherapy devices typically feature adjustable light intensity settings, allowing healthcare providers to customize the treatment based on the severity of the neonate's jaundice. This ensures effective treatment while minimizing the risk of potential side effects such as skin damage or dehydration.
Compact and Portable: Bilipod LED phototherapy devices are often designed to be compact and portable, making them suitable for use in various clinical settings, including neonatal intensive care units (NICUs), pediatric wards, and maternity hospitals. Their lightweight construction and maneuverability enhance convenience for healthcare providers.
Effective Treatment: LED phototherapy has been shown to be highly effective in reducing bilirubin levels and treating neonatal jaundice. The narrow wavelength range of LED light targets bilirubin specifically, leading to faster and more efficient clearance from the bloodstream.
Safety Features: Bilipod LED phototherapy devices incorporate safety features to protect neonates during treatment. This may include shields or filters to prevent exposure to harmful UV radiation, as well as built-in timers and alarms to monitor treatment duration and ensure compliance with recommended guidelines.
Energy Efficiency: LED-based phototherapy devices are energy-efficient compared to traditional light sources such as fluorescent bulbs. They consume less power and generate less heat, creating a more comfortable environment for neonates and reducing energy costs for healthcare facilities.
Overall, Bilipod LED phototherapy devices provide safe, effective, and efficient treatment for neonatal jaundice, helping to prevent complications and improve outcomes for newborns. Their compact design, adjustable settings, and advanced LED technology make them valuable tools in the management of neonatal jaundice in healthcare settings worldwide.
Material | Aluminum |
Arm Rotating Angle | yes |
An Aluminum OT (Operating Theater) Surgical Single Arm Pendant is a medical equipment fixture commonly found in operating rooms, particularly in surgical suites and intensive care units. It is designed to provide support and organization for medical devices, gas supplies, electrical outlets, and other essential equipment needed during surgical procedures. Here's an overview of its features and functions:
Single Arm Design: The pendant typically consists of a single arm, often made of lightweight yet sturdy aluminum, that is mounted to the ceiling or wall of the operating room. This arm extends horizontally from the mounting point and may be adjustable in height, length, or rotation to accommodate different surgical setups and preferences.
Equipment Mounting: The pendant arm is equipped with various attachment points, rails, shelves, or trays where medical devices and equipment can be securely mounted or hung. This may include surgical lights, monitors, infusion pumps, anesthesia machines, ventilators, and other essential devices needed during surgery.
Gas Outlets: The pendant arm may feature gas outlets or ports for the delivery of medical gases such as oxygen, nitrous oxide, and compressed air. These outlets are typically equipped with gas-specific quick-connect fittings or adapters for easy connection to anesthesia machines, ventilators, and other gas-powered devices.
Electrical Outlets: Electrical outlets are often integrated into the pendant arm to provide power for electrical devices and equipment used in the operating room. These outlets may include standard power sockets as well as specialized outlets for medical equipment requiring isolated power sources or specific voltage requirements.
Cable Management: The pendant arm may include cable management systems such as channels, clips, or trays to organize and route electrical cables, data cables, and medical gas hoses safely along the arm. This helps prevent tripping hazards, minimize clutter, and maintain a clean and organized surgical environment.
Swivel and Articulation: Some pendant arms feature swivel or articulating joints that allow for flexible positioning and movement of attached equipment. This enables surgical staff to adjust the orientation and angle of devices for optimal visibility and accessibility during procedures.
Controls and Accessories: Depending on the specific design and configuration, the pendant arm may include controls, touch panels, or accessory mounts for operating room management systems, communication devices, medical gas flow meters, or other specialized equipment used in surgical settings.
Hygiene and Cleaning: Aluminum pendant arms are often designed with smooth surfaces and rounded edges to facilitate cleaning and disinfection. They may also incorporate antimicrobial coatings or materials to help prevent the spread of infections and maintain sterile conditions in the operating room.
Overall, an aluminum OT surgical single arm pendant provides a versatile and ergonomic solution for organizing and supporting medical equipment in the operating room, enhancing workflow efficiency, and optimizing patient care during surgical procedures.
Type of Surgery | Orthopedic |
Operating Tables (OT Tables), also known as surgical tables or operating room tables, are essential pieces of equipment in surgical suites. They provide a stable and adjustable platform for patients during surgical procedures, allowing surgeons and medical staff to position the patient optimally for safe and effective surgery. Here's an overview of OT tables and their key features:
Adjustability: OT tables are designed to be highly adjustable, allowing for precise positioning of patients during surgery. They typically offer multiple degrees of freedom, including height adjustment, Trendelenburg and reverse Trendelenburg tilt, lateral tilt, and backrest adjustment. These adjustments enable surgeons to access the surgical site comfortably and perform procedures with optimal ergonomics.
Compatibility with Surgical Procedures: OT tables are designed to accommodate a wide range of surgical procedures, including general surgery, orthopedic surgery, neurosurgery, cardiovascular surgery, and more. They may feature interchangeable table tops, specialized accessories, and modular designs to support various surgical specialties and procedures.
Radiolucent Tabletops: Many OT tables are equipped with radiolucent tabletops, which allow X-ray, fluoroscopy, or C-arm imaging during minimally invasive procedures. Radiolucent materials such as carbon fiber or composite materials minimize interference with imaging equipment, providing clear visualization of the surgical site without obstructing the X-ray beam.
Weight Capacity and Stability: OT tables are designed to support the weight of patients safely and securely during surgery. They typically have high weight capacities to accommodate patients of different sizes and body types. The tables are constructed with sturdy materials and robust support systems to ensure stability and prevent movement or shifting during procedures.
Hygiene and Infection Control: OT tables are designed with features that facilitate cleaning, disinfection, and maintenance of hygiene standards in the operating room. Smooth surfaces, seamless construction, and removable components make it easy to clean and sterilize the table between procedures. Some models may also include antimicrobial coatings or materials to reduce the risk of cross-contamination.
Mobility and Maneuverability: Many OT tables are equipped with casters or wheels, allowing for easy mobility and positioning within the operating room. Locking mechanisms ensure stability when the table is in use, while swivel casters enable precise maneuverability during transportation and positioning.
Integrated Accessories: OT tables may come with a variety of integrated accessories and attachments to enhance functionality and support specific surgical procedures. These may include surgical arm boards, anesthesia screens, leg supports, traction devices, and more. Some tables feature modular designs that allow accessories to be easily attached or removed as needed.
Compatibility with Operating Room Equipment: OT tables are often designed to be compatible with other equipment and technology commonly used in the operating room, such as surgical lights, anesthesia machines, imaging devices, and surgical navigation systems. Integration capabilities ensure seamless workflow and coordination during surgical procedures.
Overall, OT tables play a critical role in facilitating safe, efficient, and successful surgical procedures. Their advanced features, adjustability, and compatibility with surgical equipment make them indispensable tools in modern operating rooms for providing optimal patient care.
Minimum Order Quantity | 1 Piece |
Number Of Channels | 12 Channels |
Model Name/Number | Contec Ecg Machine 1200g Channel |
Machine Type | Digital |
Digital Display | Yes |
Accessories | User Manual And Warranty Card, Power Cord, Patient Cable |
The Contec ECG Machine 1200G is a 12-channel electrocardiogram (ECG or EKG) machine manufactured by Contec Medical Systems. It is designed for recording and analyzing ECG signals, providing a comprehensive assessment of cardiac activity. Here's an overview of its key features:
12-Channel ECG Recording: The Contec 1200G ECG machine is capable of recording ECG signals from 12 different leads simultaneously. This allows for a detailed assessment of cardiac electrical activity, including the detection of arrhythmias, ischemia, and conduction abnormalities.
Digital Signal Processing: The ECG machine features digital signal processing technology to enhance the quality and accuracy of ECG recordings. This helps to reduce noise interference and artifacts, resulting in clearer and more reliable ECG tracings.
Large LCD Display: The device is equipped with a large, high-resolution LCD display screen that allows users to view real-time ECG waveforms during recording. The display provides clear visualization of ECG data, including waveforms, heart rate, and lead placement.
Data Storage and Review: The Contec 1200G ECG machine has internal memory or storage capabilities for storing ECG recordings. This enables users to review, analyze, and print ECG reports for documentation and further interpretation. Some models may also support external storage devices such as USB flash drives.
Automatic Measurements and Interpretation: The ECG machine may feature automatic measurements and interpretation algorithms to assist healthcare providers in analyzing ECG data. This includes measurements of ECG intervals (e.g., PR interval, QRS duration) and calculation of parameters such as heart rate and rhythm classification.
Built-in Thermal Printer: The device includes a built-in thermal printer for printing ECG reports directly onto thermal paper. This provides a convenient method for generating hard copies of ECG recordings for patient records and documentation.
User-Friendly Interface: The Contec 1200G ECG machine features a user-friendly interface with intuitive controls and menu navigation. This makes it easy for healthcare professionals to operate the device and perform ECG recordings efficiently.
Portable and Compact Design: The device is designed to be portable and compact, making it suitable for use in various clinical settings, including hospitals, clinics, and ambulatory care settings. Its lightweight construction and ergonomic design enhance portability and usability.
Overall, the Contec ECG Machine 1200G is a versatile and reliable tool for recording and analyzing ECG signals. Its advanced features, digital technology, and user-friendly design make it well-suited for routine ECG monitoring and diagnostic applications in healthcare facilities.