Orthopedic Electric Power Tools

Orthopedic electric power tools are specialized instruments used by orthopedic surgeons to perform various procedures related to bone and joint surgery. These tools are designed to provide precision, efficiency, and ease of use during orthopedic surgeries. Some common orthopedic electric power tools include: Orthopedic Drills: These drills are used for creating holes in bones during procedures such as fracture fixation or joint replacement surgeries. They come in various sizes and configurations to suit different surgical needs. Orthopedic Saws: Orthopedic saws are designed to cut through bone during procedures like osteotomies or limb amputations. These saws are often oscillating or reciprocating, and they come with different blade types for specific applications. Orthopedic Reamers: Reamers are used to enlarge or shape bone cavities, such as in the preparation of bone canals for the placement of implants during joint replacement surgeries. Orthopedic Shavers: Shavers are used to remove soft tissue and bone during procedures like arthroscopy. They can be useful for removing damaged cartilage or smoothing bone surfaces. Orthopedic Burrs: Burrs are rotary cutting tools that are used for precise shaping and removal of bone during surgery. They are often used in procedures like spinal surgeries or joint reconstructions. Orthopedic Screwdrivers: These tools are designed for the insertion and removal of screws used in orthopedic implants for fracture fixation or joint replacements. Orthopedic Staplers: Staplers are used in orthopedic procedures to secure tissues or ligaments together. They are often used in soft tissue repair surgeries. Orthopedic Rechargeable Battery Systems: Many orthopedic power tools are cordless and powered by rechargeable batteries, providing flexibility and maneuverability during surgery.

PRODUCT RANGE

JE.1 Electric Drill, Saw & Reamers Set

JE01.001 Driving Unit Includes Motor, Stand, Foot Control, Flexible Shaft, Tool Kit, And Oil Bottle & Special Container.

JE01.002 Cannulated Drill Hand Piece Max. Speed 1200Rpm & With Fixed S.S. Chuck (0-1/4”)

JE01.003 Oscallating Saw Hand Piece

JE01.004 Reaming Handpiece With Max. Speed 400 Rpm Cannulated & Ao Type Quick Coupling

JE01.005 Sagital Saw Hand Piece

JE01.006 Flexible Reamer Set (8, 9, 10, 11, 12mm)

Extra Saw Baldes

JESB.001 100mm X 1.2 X 25mm

JESB.002 70mm X 1.2 X 20mm

JESB.003 70mm X 1.2 X 15mm

JESB.004 65mm X 0.7 X 10mm

JESB.005 65mm X 0.7 X 7mm

Electric Plater Cutter

JE.12 Electric Plaster Cutter - Regular

JE.13 Electric Plaster Cutter Hevy Duty with 2 Blades + 1 Allen Key + Box

13.4500 Extra Blade 45mm

13.6300 Extra Blade 63mm

JE.123 Electric Plaster 2000

Neuro Surgery Set

JE.14 Driving Unit Including Motor, Stand, Foot Control, Flexible Shaft, Tool Kit & Special Container

JE.15 Craniotome Handpiece

JE.16 Perforator Handpiece

JE.17 Flexible Shaft For Driving Unit (Extra)

JE.18 Craniotome Blades

JE.19 Perforator Cutter

Warranty: 6 months

JTQ01 Digital Tourniquet Machine.

1. Fully Automatic Microcontroller based control.

2. Pressure range : 50 to 400 mmhg.

3. Auto calibration on start up.

4. Upto 7 hrs battery backup.

5. AutoClavable Silicon Cuff (100 °C ).

6. Light Weight : 1.3 kgs.

7. Time range: 1 min to 5 hrs.

8. Alarm for time out and cuff error.

9. Pressure can be changed while in use. (Online Mode)

10.Battery Level indication.

11. Cuff error indication.

12. Single button press deflate.

13. Large user friendly display.

14. Pressure locked upon power off.

15. Input Power: 220v  hz (for charging)

JEM.001 Cranial Manual Drill Set (7pc set)

PRODUCT INFORMATION

An orthopedic electric drill, saw, and reamers set is a specialized medical device used in orthopedic surgeries to perform procedures related to bone surgery. These instruments are designed to cut, shape, and prepare bone for various orthopedic interventions. Here is a brief overview of each component: Orthopedic Electric Drill: Function: The electric drill is used for drilling holes into bones. It is commonly employed to create holes for the placement of screws, pins, or other fixation devices. Features: Orthopedic drills are often powered by electricity and may have variable speed settings. They typically come with a range of drill bit sizes to accommodate different surgical needs. Orthopedic Saw: Function: Orthopedic saws are used for cutting bones during surgical procedures. They come in various designs, including oscillating saws and reciprocating saws. Features: These saws are powered by electricity and are equipped with specialized blades designed to cut through bone while minimizing soft tissue damage. They are essential in procedures such as osteotomies and bone resections. Reamers: Function: Reamers are used to enlarge or shape bone cavities, such as the medullary canal during joint replacement surgeries. Features: Reamers are available in different sizes and designs to suit specific surgical requirements. They may be used manually or be part of a powered system for more precise and controlled bone preparation. These instruments are crucial in orthopedic surgeries such as joint replacements, fracture fixations, and bone reconstructions. The use of electric-powered instruments enhances precision, reduces surgical time, and minimizes trauma to surrounding tissues. Additionally, the design of these instruments often allows for compatibility with various attachments and accessories to cater to the specific needs of different surgical procedures.

An electric plaster cutter is a medical tool used by healthcare professionals, particularly in orthopedics, to cut through plaster casts. Plaster casts are commonly used to immobilize and protect broken or injured bones during the healing process. When it's time to remove the cast, a plaster cutter becomes essential to safely and efficiently cut through the hard material without harming the patient. Here are some key features and considerations regarding electric plaster cutters: Electric Power: These cutters are powered by electricity, typically using a motor to drive the cutting mechanism. The electric power allows for more consistent and controlled cutting compared to manual methods. Rotary Blade: Electric plaster cutters often have a rotary blade that oscillates or rotates to cut through the plaster. The blade is designed to be efficient in cutting through the hard plaster material while minimizing the risk of injury to the patient's skin. Dust Collection: Plaster cutting generates dust, which can be a concern for both the healthcare professional and the patient. Some electric plaster cutters come equipped with dust collection systems to minimize the spread of plaster dust. Variable Speed: Adjustable cutting speed is a useful feature, allowing healthcare professionals to tailor the cutting speed based on the thickness and type of plaster. Safety Features: Safety features such as blade guards and depth guides help prevent accidental injuries to the patient's skin. Portability:Some models are designed to be portable, facilitating ease of use in different settings within a medical facility. Maintenance: Regular maintenance is important to ensure the cutter remains in good working condition. This may include cleaning the blade, checking for any wear, and lubricating moving parts.

Neurosurgery involves the surgical treatment of conditions affecting the nervous system, including the brain and spinal cord. An "electric set" might refer to a set of surgical instruments that utilize electrical or electronic components for specific neurosurgical procedures. Here are some common tools and instruments used in neurosurgery that may involve electrical components: Electrocautery Devices: These are used for cutting or coagulating tissues using electrical current. They help control bleeding during surgery. Neurostimulation Devices: These devices are used to electrically stimulate nerves or the brain for therapeutic purposes. For example, deep brain stimulation (DBS) is a neurosurgical procedure that uses a neurostimulator to deliver electrical signals to specific areas in the brain for treating movement disorders. Ultrasonic Aspiration Devices: These devices use ultrasonic vibrations to break down and remove tissues during surgery, particularly in procedures involving the brain or spinal cord. Electroencephalography (EEG) Equipment: While not a surgical tool, EEG is used in neurosurgery to monitor brain activity during certain procedures. Neuromonitoring Systems: These systems involve the use of electrical signals to monitor the function of the nervous system during surgery. They help surgeons avoid damage to critical structures.

A digital tourniquet machine is a medical device used to temporarily restrict blood flow to a limb during surgical or medical procedures. Tourniquets are commonly employed to create a bloodless field, allowing healthcare professionals to perform surgeries, administer treatments, or manage traumatic injuries more effectively. Here are some key features and functions of a digital tourniquet machine: Digital Control: Unlike traditional tourniquets that may use manual inflation, digital tourniquet machines are equipped with electronic controls. This digital interface allows for precise pressure regulation and monitoring. Pressure Settings: Digital tourniquet machines enable healthcare providers to set and control the amount of pressure applied to the limb accurately. This is crucial to maintain blood flow at a level that is sufficient to prevent tissue damage while still achieving the desired bloodlessness for the procedure. Safety Features: Many digital tourniquet machines incorporate safety features to prevent excessive pressure or prolonged use, minimizing the risk of complications such as ischemic injuries. These safety mechanisms often include alarms and automatic pressure release functions. Monitoring Capabilities: Some advanced digital tourniquet systems provide continuous monitoring of pressure levels and can alert medical professionals if there are any deviations from the preset parameters. This real-time monitoring enhances patient safety during the procedure. Portability and Ergonomics: Depending on the design, digital tourniquet machines may be portable and have ergonomic features to facilitate ease of use for healthcare providers. Portable versions are especially useful in emergency situations or when procedures are performed in different locations. Battery Operation: To ensure continuous functionality even in the absence of a power source, some digital tourniquet machines are designed to operate on batteries. Single or Dual Chamber Systems: Some digital tourniquet machines have dual-chamber systems, allowing for independent control of pressure in two separate cuffs. This can be advantageous in procedures involving multiple limbs.

A cranial manual drill set is a medical tool used in neurosurgery to perform cranial procedures. These drills are designed for precision and controlled drilling in the skull during various neurosurgical interventions. The set typically includes a range of drill bits of different sizes and shapes to accommodate the specific requirements of the surgery. Here are some key features and considerations related to cranial manual drill sets: Material: The drill bits are often made of high-quality surgical stainless steel or other biocompatible materials to ensure safety and minimize the risk of infection. Versatility: The set may include different types of drill bits, such as twist drills, skull perforators, and trephines. This allows the surgeon to choose the appropriate tool for the specific procedure. Handle Design: The handles of these drills are designed for ergonomic grip, providing the surgeon with precise control over the drilling process. Some handles may be manually operated, while others might be compatible with power tools for more efficient drilling. Sterilization: Given that these tools are used in surgical procedures, they need to be sterilized before each use. Most cranial manual drill sets are designed to be autoclavable, allowing them to be safely sterilized without compromising their integrity. Safety Features: Some drill sets may come with safety features to prevent over-penetration and ensure controlled drilling. Depth stops and depth markings on the drill bits are examples of such safety features. Compatibility: These drill sets are designed to be compatible with standard neurosurgical instruments and operating room equipment.