Digital Operation Theater
Yarward’s Digital Operating Theatre (OT) solutions transform surgical environments with state-of-the-art technology, designed to enhance surgical precision, streamline workflow, and boost team collaboration. Our digital OT integrates seamlessly with medical devices, imaging systems, and data platforms, providing real-time monitoring and high-definition imaging capabilities to support informed decision-making. From advanced visualization to intuitive controls, Yarward’s digital OT systems empower surgical teams to perform at their best, ensuring safer and more efficient outcomes for patients. Tailored to meet the diverse needs of modern healthcare facilities, Yarward’s digital OTs stand as a benchmark of reliability and innovation in medical technology.
Panoramic Camera
C-Arm Machine
Surgical Field Display Screen
Da Vinci Surgical System
Main Surgical Video Display
Advanced Imaging Systems for Minimally Invasive Heart Surgeries
This technology supports minimally invasive techniques like catheter-based procedures, where surgeons navigate through arteries to perform heart interventions, reducing patient trauma and recovery time.
With Digital OT systems, cardiologists can access high-definition, 3D imaging that allows forbetter visualization of the heart’s structures.
Key Benefits
- Enhanced accuracy in guiding catheter placements or stent positioning.
- Ability to overlay imaging data with real- time video feeds during procedures.
- Minimizes the need for open surgery, reducing risk and recovery time.
- Integration with electrophysiology data for advance darrhythmia treatments.
Real-Time Data for Joint Replacements or Fracture Repairs
Digital OT systems provide surgeons with real-time imaging and tracking systems that monitor the alignment of bones, joints, and implants.
This ensures that procedures such as knee or hip replacements are performed with utmost accuracy, reducing the risk of complications like implant misalignment.
Key Benefits
- Real-time feedback on implant positioning and alignment during joint replacement surgeries.
- Precision tracking for fracture repair, ensuring optimal healing and alignment.
- Integration with robotic surgical systems for minimally invasive techniques.
- Enhanced post-operative monitoring with detailed imaging data.
Enhanced Workflow and Patient Safety
Digital OT systems streamline workflows by integrating imaging systems, patient data, and communication tools into a single interface. This allows for seamless coordination between the surgical team and immediate access to patient records, lab results, and imaging, reducing delays.
Features like intraoperative guidance and voice commands enhance precision, leading to better patient outcomes and quicker recovery times.
Key Benefits
- Integrated workflow reduces the time between steps, allowing surgeons to focus on the procedure.
- Intraoperative navigation tools for enhanced precision and reduced human error.
- Reduced chances of surgical site infections due to advanced sterilization and monitoring systems.
- Instant access to patient history, lab results, and imaging without switching between multiple devices.
Precision Control for Complex Brain Surgeries
Digital OT systems support these surgeries with advanced imaging modalities like MRI, CT scans, and neuronavigation systems, which provide real-time 3D mapping of the brain.
The system’s precision control helps minimize errors, especially in delicate procedures such as tumor removals or brain aneurysm surgeries.
Key Benefits
- Real-time 3D brain mapping for improved navigation and visualization.
- Integration of surgical robotics for enhanced accuracy.
- Remote consultation capabilities for multidisciplinary support during surgeries.
- Reduced risk of complications due to increased accuracy and visualization.