Welcoem to posts!!
in the future - u will be able to do some more stuff here,,,!! like pat catgirl- i mean um yeah... for now u can only see others's posts :c
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Hi friends respected Biomedical engineers by used my experienced life in different hospitals and companies *I prepared the topics 500 contents* one by one I will provide especially which is very effective to survive the career in biomedical engineering👨🔧 field
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Troubleshooting ventilators involves identifying and resolving issues that may affect their performance. Here are some common problems and solutions:
1. _Alarms_:
- Check alarm settings and parameters.
- Ensure proper sensor placement and calibration.
- Verify airway patency and patient connection.
2. _Low Pressure_:
- Check for leaks in the circuit or patient interface.
- Ensure proper gas supply pressure.
- Verify ventilator settings and adjust as needed.
3. _High Pressure_:
- Check for airway obstruction or kinking.
- Ensure proper patient-ventilator synchrony.
- Verify ventilator settings and adjust as needed.
4. _Inadequate Ventilation_:
- Check patient-ventilator interface and adjust as needed.
- Verify ventilator settings and adjust as needed.
- Ensure proper respiratory mechanics assessment.
5. _Oxygenation Issues_:
- Verify FiO2 settings and adjust as needed.
- Check for issues with oxygen supply or delivery.
- Ensure proper patient positioning and recruitment maneuvers.
6. _Ventilator Malfunction_:
- Check power source and connections.
- Verify software updates and calibration.
- Perform routine maintenance and troubleshooting procedures.
7. _Patient-Ventilator Asynchrony_:
- Verify patient-ventilator interface and adjust as needed.
- Ensure proper respiratory mechanics assessment.
- Adjust ventilator settings to improve synchrony.
8. _Leaks_:
- Check patient-ventilator interface and circuit for leaks.
- Verify proper connection and sealing.
9. _Sensor Issues_:
- Verify proper sensor placement and calibration.
- Check for sensor damage or malfunction.
10. _Battery Life_:
- Verify battery charge and maintenance.
- Check for power-saving features and adjust settings.
Remember to consult the ventilator's user manual and manufacturer's guidelines for specific troubleshooting procedures. If issues persist, contact the manufacturer's support team or a qualified biomedical engineer for assistance.
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To become a biomedical engineer, follow these steps:
1. *Earn a Bachelor's degree*: Typically in Biomedical Engineering, Biological Engineering, or a related field like Electrical, Mechanical, or Chemical Engineering.
2. *Take relevant courses*: Focus on classes like biomaterials, biomechanics, biomedical imaging, and medical device design.
3. *Gain practical experience*: Internships, research projects, or volunteer work in hospitals, research labs, or medical device companies.
4. *Consider a graduate degree*: A Master's or Ph.D. in Biomedical Engineering can provide advanced knowledge and qualify you for senior roles or research positions.
5. *Obtain certifications*: Certifications like the Certified Clinical Engineer (CCE) or Certified Biomedical Equipment Technician (CBET) demonstrate expertise.
6. *Stay updated*: Participate in conferences, workshops, and online courses to stay current with industry developments and advancements.
7. *Network*: Join professional organizations like the Biomedical Engineering Society (BMES) or the International Society for Medical Imaging Technologies (ISMIT).
8. *Pursue licensure*: In some countries, biomedical engineers need to be licensed to work in certain roles or industries.
9. *Develop soft skills*: Communication, teamwork, and problem-solving skills are essential for success in biomedical engineering.
10. *Specialize*: Focus on a specific area like neuroengineering, cardiovascular engineering, or medical imaging to advance your career.
Remember, becoming a biomedical engineer requires dedication, hard work, and a passion for improving human health through technology.
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Here are some technical words commonly used in Biomedical Engineering:
1. _Biocompatibility_: The ability of a material to be compatible with living tissue.
2. _Biomaterial_: A material used in medical devices or implants.
3. _Biomechanics_: The application of mechanical principles to living organisms.
4. _Biomedical Imaging_: Techniques like MRI, CT scans, and PET scans to visualize the body.
5. _Biosensor_: A device that detects biological signals or molecules.
6. _Cardiovascular Engineering_: Applying engineering principles to understand and treat cardiovascular diseases.
7. _Electrophysiology_: The study of electrical properties of living tissues.
8. _Genomics_: The study of genes and their functions.
9. _Hemodynamics_: The study of blood flow and circulation.
10. _Imaging Biomarkers_: Quantifiable characteristics extracted from medical images.
11. _Medical Informatics_: The application of information technology in healthcare.
12. _Microfluidics_: The manipulation of fluids at the microscale.
13. _Nanomedicine_: The application of nanotechnology in medicine.
14. _Neuroengineering_: The application of engineering principles to understand and interact with the nervous system.
15. _Prosthetics_: Artificial devices replacing or supporting body parts.
16. _Rehabilitation Engineering_: Developing technologies to aid rehabilitation.
17. _Regenerative Medicine_: Therapies to repair or replace damaged tissues and organs.
18. _Telemedicine_: Remote healthcare delivery through technology.
19. _Tissue Engineering_: Creating artificial tissues and organs.
20. _Wearable Technology_: Devices worn on the body to monitor health.
These technical words are fundamental to understanding the concepts and innovations in Biomedical Engineering.
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Biomedical engineering is a multidisciplinary field that combines engineering principles with medical and biological sciences to develop innovative solutions for healthcare. Some of the scopes of biomedical engineering include:
1. _Medical Device Development_: Designing and developing medical devices, such as prosthetics, implants, and diagnostic equipment.
2. _Tissue Engineering_: Creating artificial tissues and organs for transplantation and regenerative medicine.
3. _Biomedical Imaging_: Developing imaging technologies, such as MRI and CT scans, to visualize and diagnose diseases.
4. _Pharmaceutical Engineering_: Applying engineering principles to develop new drugs and delivery systems.
5. _Clinical Engineering_: Applying engineering principles to medical devices and equipment in clinical settings.
6. _Rehabilitation Engineering_: Developing assistive technologies to improve the quality of life for individuals with disabilities.
7. _Biomaterials_: Developing materials for medical applications, such as implants, sutures, and wound dressings.
8. _Medical Informatics_: Developing software and algorithms for medical data analysis and healthcare management.
9. _Neuroengineering_: Developing technologies to interface with the nervous system, such as brain-computer interfaces and neuroprosthetics.
10. _Biomechanics_: Applying mechanical principles to understand and analyze the movement and function of living organisms.
11. _Regenerative Medicine_: Developing therapies to repair or replace damaged tissues and organs.
12. _Synthetic Biology_: Designing and constructing new biological systems to produce specific functions.
13. _Point-of-Care Diagnostics_: Developing portable and affordable diagnostic devices for healthcare.
14. _Telemedicine_: Developing technologies for remote healthcare and monitoring.
15. _Biomedical Research_: Applying engineering principles to advance medical research and discovery.
These scopes are constantly evolving as technology advances, and new areas of application emerge.
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BIOMEDICAL ENGINEERING WORLD
My name is Mr. Pondara Ganesh Behera born in Maharashtra, growth in Andhrapradesh &Telangana,Northeastern Biomedical engineering services,my native place Odisha. Now I worked in six organizations as a biomedical technician,as a biomedical engineer, as a senior biomedical engineer, as a hod of biomedical engineering departments.I got good experiences 13 years in(Apollo hospitals, ABC hospitals, Maxcure hospitals, Mycure hospitals,Medicover hospitals, I am very interested in Biomedical engineering field want to do so many things till now done success still I have aim in my life.I am interested in R&Dand also interested to gain knowledge, share knowledge, I always ready to acquire new skills and new experiences
Note -01: My channel helps you like a handy book to every new engineers or experienced engineers.
Note-02: Respected Engineers especially my intension every one should be a piece of more knowledge about Biomedical EngineeringThanks to all.
Jai hind