This article describes an innovative medical device developed by students, likely in Egypt, aimed at improving patient transportation within hospitals. Here’s a breakdown of the key information:
The Problem:
Patient Fractures: Current transportation methods can lead to fractures during the process.
Scarcity adn high Cost: Similar devices are scarce in the local market, and imported electrical systems are prohibitively expensive (over 125,000 Egyptian Pounds). Handcrafted alternatives are also costly (over 75,000 Egyptian Pounds).
Burden on Staff: Existing methods place physical strain on nursing staff.
The Solution: The Innovative Device
Purpose: To safely and efficiently transport patients, reducing the risk of fractures and easing the burden on medical staff.
Cost-Effectiveness: The locally manufactured model costs approximately 33,000 Egyptian Pounds, making it an economically viable solution for Egyptian medical institutions. Technical Details:
Hydraulic and Electrical System: Operates using an integrated hydraulic and electrical circuit.
Power: Powered by a 220-volt electric motor.
Control: an electrical circuit manages the pump and motor.
Functionality: The hydraulic circuit provides the force for smooth and safe patient lifting and movement.
Materials: Constructed with medically suitable materials.
Weight Capacity: Can lift weights up to 120 kg.
Design: Easy to operate, flexible, safe, and suitable for narrow hospital spaces. features: Equipped with a protected electrical control unit, rotating wheels for maneuverability, and high-quality pressure hoses for stability.
Local Manufacturing: The entire development process, from design to manufacturing, was carried out using local capabilities and industrial workshops.
Goals and Future Development:
Support Local Manufacturing: The project is a step towards reducing reliance on imports in the medical field.
Future Improvements: Planned enhancements include adding mobile rules to adjust the angle for increased efficiency and reduced size, facilitating easier assembly.
Humanitarian Aspect:
Patient Comfort and dignity: The device aims to provide a safe and respectful means of transport,ensuring patient comfort.
Staff Support: It reduces the physical strain on nursing staff.
Bright and Effective solution: It’s presented as a smart and efficient solution for the Egyptian medical sector.Recognition:
Faculty members praised the project for its innovation, effort, and practical submission potential in hospitals.
It’s considered an crucial innovation considering global technological advancements.
* The device can also be used in accident scenarios to protect both the injured and the medical team.
In essence, the article highlights a student-lead project that addresses a critical need in the Egyptian healthcare system by developing a cost-effective, locally manufactured medical device that enhances patient safety and improves the working habitat for medical staff.
