WHAT DOES A BIOMEDICAL ENGINEER DO?

The Biomedical Engineer is tasked with developing and implementing training plans for physicians, converting raw data into quantifiable figures, and managing large datasets for AI system training under supervision. This responsibility involves engaging in translating clinical knowledge into digital formats, coordinating with development teams to address clinical issues, conducting experiments, and troubleshooting data collection tools. Additionally, the engineer also presents findings and strategies, interacts with surgical teams, and supports project management across various departments.

A Review of Professional Skills and Functions for Biomedical Engineer

1. Biomedical Engineer Job Description

  • Record Keeping: Maintains customer records by updating the customer database.
  • Market Reporting: Reports weekly to supervisor for market activity, forecasting, quotations, and orders.
  • Customer Analysis: Recommends potential products or services to the customer by analyzing customer needs.
  • Customer Attraction: Attracts customers by answering product and service questions efficiently.
  • Sales Achievement: Achieves assigned product sales quota and supports initiatives that ensure product profitability.
  • Target Achievement: Achieves product growth targets in the assigned geography or account base.
  • Customer Satisfaction: Maintains high customer satisfaction ratings that meet company standards.
  • Management Reporting: Keeps management informed by submitting activity and results reports.
  • Competition Monitoring: Monitors competition by gathering current marketplace information on pricing, products, maintenance, etc.
  • Sales Records: Provides historical records by maintaining records on area and customer sales.
  • Knowledge Maintenance: Maintain professional knowledge by reviewing professional publications, establishing personal networks, studying company brochures and manuals.

2. Biomedical Engineer Overview

  • KPI Achievement: Achieve contract KPIs by working with and supporting the Biomedical Site Manager
  • Administrative Efficiency: Complete all associated administrative work in completing repairs and preventative maintenance
  • Supplier Management: Supporting customers and sourcing repair parts and suppliers ensuring adequate stock levels are maintained
  • Training Development: Train or arrange training for engineers and assist them in carrying out duties
  • Relationship Building: Build long-term customer relationships with subcontractors, and staff to ensure effective responsiveness and excellent customer service
  • Field Support: Occasional travel to customer sites to support the field service engineers
  • Preventative Maintenance: Perform scheduled preventative maintenance of medical equipment as per manufacturers' or company guidelines
  • Project Integration: Integrate engineering development efforts with other engineering disciplines on the project team.
  • Knowledge Application: Understand and apply knowledge of product lines and clinical applications to work activities.
  • Product Evaluation: Performs evaluations of returned products to identify compliance with specifications.

3. Biomedical Engineer Details and Accountabilities

  • Method Development: Complete sample preparation method development in the lab.
  • Sourcing and Procurement: Guide the sourcing, procurement, and implementation of the sample prep consumable.
  • Verification and Validation: Perform Verification and Validation testing for the sample prep consumable.
  • Process Management: Manage the development of the manufacturing process of the sample prep consumable.
  • Data Management: Manage, capture, and review critical data, accurately and consistently recording experimental methods, materials, and results.
  • Experimental Design: Conceive and conduct independent experimentation from project inception through product launch.
  • Data Analysis: Analyze data, form conclusions, and determine future experimental plans.
  • Strategic Planning: Recommend expansion or curtailment of activities based on the latest information.
  • BSL-2 Laboratory Work: Perform work in a BSL-2 laboratory including processing clinical specimens and bacterial culture propagation and maintenance.
  • Project Management: Assume responsibility for the timely completion of projects, consistent with the project's critical path.

4. Biomedical Engineer Additional Details

  • Experimental Design: Design and execute experiments, develop and optimize test scripts.
  • Performance Improvement: Responsible for improving the performance, diagnosing failure modes, and verifying the robustness of the instruments.
  • Troubleshooting: Proactively troubleshoot and debug fluidic, mechanical, and control system problems.
  • Failure Analysis: Assist development and manufacturing to determine root causes for product and system failures.
  • Debugging: Troubleshoot and debug assay, fluidic, mechanical, electrical, software, database, and/or system problems.
  • Prototype Assembly: Assemble Blood Pump, Cannula, and Oxygenator Prototypes.
  • Prototype Testing: Test pressure flow, efficiency, hemolysis, gas exchange, and thrombogenicity of pumps, cannula, and oxygenators.
  • Procurement Management: Procure engineering equipment, tools, parts, and other supplies.
  • Operational Support: Ensure minimal disruption to the operation of electro-med contracts.
  • Supporting: Support the development, execution, and review of integration and verification testing for consumable and instrument systems in support of development, verification/validation, manufacturing transfer, and commercialization.

5. Biomedical Engineer General Responsibilities

  • Training Development: Responsible for the development and delivery of physician training plans.
  • Data Conversion: Converting the raw data acquired from the Hospitals and Fields into quantifiable figures and values.
  • Data Handling: Handle a large amount of data during the training process of the Artificial Intelligence System under supervision.
  • Digital Translation: Translate clinical knowledge base into a digital knowledge base (Machine-understandable).
  • Clinical Coordination: Coordinate with the development team based on the observed clinical problem.
  • Research Assistance: Assisting the developers with the carried-out research.
  • Architecture Creation: Create the architecture and support in the definition of requirements following regulatory standards.
  • Clinical Trials: Conduct clinical trials and laboratory experiments as per the protocols.
  • Troubleshooting: Troubleshooting hardware and software used in data collection.
  • Presentation: Present the results, data, strategy, and forecasts monthly to the team.
  • Project Interaction: Interact with surgeons and other internal teams such as software and mechanical engineering for project management, product validation, and manufacturing support.