Biomedical Engineering is a field which specifically deals with the application of engineering principles and design concepts to the research and development of healthcare related products and systems. It is a collaboration of all the different sub-disciplines of engineering such as electrical, mechanical, computer, chemical and material science engineering, aimed towards improving healthcare delivery. A biomedical engineer can design and develop medical devices that can help diagnose, monitor, and treat medical conditions, develop materials for medical use, manufacture medical imaging systems like magnetic resonance imaging (MRI) scanners, create artificial organs and robotic interfaces, develop treatement plans for patients based on their individual case, improve clinical practice processes and systems management, etc.
Our team of biomedical engineers have done some ground breaking projects that have revolutionized healthcare.
Here’s some projects that our expert biomedical engineers made real:
- Invention of medical devices that helps scale activities in minimally invasive medical procedures
- Creation of effective drug testing methods
- Designing surgical instruments to facilitate operations
- Utilisation of custom hardware designs with software code to make innovative medical applications
- Configuring skin care related products to service clinics
At Freelancer.com, these experts in Biomedical Engineering are available to help your needs when it comes to creating innovative healthcare solutions. If you’re looking for a reliable partner who will bring your ideas to life in the discipline of biomedical engineering, post your project on Freelancer.com today! Our expert biomedical engineers will be able to aid you in your project with the highest level of expertise.Müşterilerimiz, Biomedical Engineers freelancerlarımızı 4,654 değerlendirme içinden 5 üzerinden 4.85 ile derecelendirdi.
Biomedical Engineers İşe Alın
I'm in need of an experienced tutor that can help me progress in my Biomedical Science courses at the University of Queensland including assignment help. Course Details: - BIOC3000 Structural & Synthetic Biology: Course Description: The understanding of molecular structure & function is of central importance to students undertaking a major in the biological or chemical fields. This course focuses on concepts of DNA/RNA, protein, lipid & carbohydrate relating structure to function. Some content and assignments are based on current literature describing recent DNA & protein structures & how structure can inform about function. Laboratory work will emphasize the techniques required to analyse biomolecules in the context of a student-driven synthetic biology...
Project Description: This project involves designing, developing, and theoretically optimising Bioresorbable Vascular Scaffolds (BVS) for treating Coronary Artery Disease (CAD). It requires using SolidWorks for 3D modeling and simulation, alongside Finite Element Analysis (FEA) for a theoretical assessment of mechanical performance under simulated physiological conditions. Objectives and Scope: The objective is to create theoretically sound designs based on current biomedical engineering principles. The project does not require the production of a physically working model but should be grounded in realistic assumptions that could potentially be applied in real-world scenarios. Specific Requirements: Designs: Two conceptual designs focusing on different structural patterns (helical and la...
Targeted Genome Editor Delivery (TARGETED) Challenge - Phase 2 Revolutionizing technology development of delivery systems for in vivo genome editing. A $6,000,000 competition to improve in vivo delivery technologies for genome editors in two Target Areas: 1. Programmable delivery systems, and 2. Non-viral delivery across the blood-brain barrier. You need to fill out the Registration Form and be registered on the Freelancer.com platform before submitting the solution. Subject of the Challenge Recent advancements in the genome editing technology field have enabled scientists to manipulate genomic sequences rapidly and efficiently. Despite revolutionary progress in this area, several challenges remain. Existing gene editing technologies like CRISP...