1 / 21

Team Members: Joe Bothwell Communicator Kelly Toy Team Leader Jon Cappel BWIG Karim Mahamud BSAC

Team Members: Joe Bothwell Communicator Kelly Toy Team Leader Jon Cappel BWIG Karim Mahamud BSAC. Client: Jack Jiang, M.D., PhD Division of Otolaryngology UW Medical School Advisor: John Webster, Ph. D Biomedical Engineering. ABSTRACT.

jaden
Download Presentation

Team Members: Joe Bothwell Communicator Kelly Toy Team Leader Jon Cappel BWIG Karim Mahamud BSAC

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Team Members: Joe Bothwell Communicator Kelly Toy Team Leader Jon Cappel BWIG Karim Mahamud BSAC

  2. Client: Jack Jiang, M.D., PhD Division of Otolaryngology UW Medical School Advisor: John Webster, Ph. D Biomedical Engineering

  3. ABSTRACT A device to atomize medication (water) molecules to sizes ranging from 5 to 20 µm. This is most easily achieved by modifying existing jet nebulizers to create particle sizes to our specification.

  4. PROBLEM STATEMENT The goal of this project is to develop a device that can selectively produce liquid particles in the range of 5 to 20 µm. This device should safely and accurately produce the particles with precision of  10% to the desired mean.

  5. Background • There is a lot of research available on spray technology • Most medical atomization devices are designed to target the lower respiratory system. • Particle size affects the location of distribution, particles smaller than 5 µm tend to bypass the larynx.

  6. MOTIVATION Available devices tend to be quite complex, and expensive. It would be ideal to select a specific particle size to analyze the different effects it has on the larynx. Conduct research to determine which way to atomize particles is the best.

  7. Product Design Specification • Dispense liquid (water) particles of sizes ranging from 5-20 µm • Portable • Simple design, easy to use. • Reliable to ± 10% for 6 months or 400 uses • Adaptable as an inhaler to channel medication directly to patient. • Should be ergonomically pleasing to patients

  8. Variables effecting Particle Size • A larger orifice creates larger particle sizes. • Higher pressure creates smaller particle sizes. Large Orifice Small Orifice

  9. Design Alternatives • Modification of Salter Labs Nebulizer • Modification of Pari LC Plus Nebulizer • Pressurize liquid though restricted flow.

  10. Salter Labs 8900 Nebulizer • Nebulizes at 7 L/min in horizontal or vertical position • Large surface area provided by convex cone • Designed to maximize output • Residual volume 1.7 mL • Low cost of $2.99

  11. Pari LC Plus Nebulizer • 2 valves to deliver medication • Maximizes aerosol delivery, minimizes waste • Delivers 20 L/min in 6.5 to 8.5 minutes • Residual volume 1.4 mL • Cost $14.95 http://www.allergy4less.com

  12. Pressurize liquid through restricted flow. • Depends on mechanical force of pressure • Depends on size of orifice of spray valve • Effective differences require pressure gradients on the scale of several hundred PSI

  13. Malvern Particle Size Detector • Used to measure particle sizes of sprays, dry powders suspensions, and liquids • Can measure particles from 0.1µm to 1mm • Can take a reading once every .4 milliseconds

  14. Design Matrix

  15. Chosen Design: Pari LC Plus Nebulizer • Has a more simple design, most easily modified • Lower residual volume • Higher output

  16. Results

  17. Future work- Salter 8900 Nebulizer • Baffle shears liquid • File down baffle • Larger particles are able to pass Baffle structures www.mbsollc.com/inservice5.asp

  18. Future work- Pari LC Plus Nebulizer • Increase clearance • Increase size of orifice • Results in larger particle size http://www.allergy4less.com

  19. References • Dr. A Rawle, Basic principles of particle size measurement, Malvern Instruments limited • Hess D., Nebulizers: Principles and Performance. Respiratory Care. http://www.rcjournal.com/contents/06.00/06.00.0609.asp. 2 March 2004 • Dennis J., Hendrick D.  Design of drug nebulizers. J. Aerosol Sci.  2000;Sep:S787-s789. • American Academy of Asthma and Allergy Immunity http://www.aaaai.org/patients/allergic_conditions/metered_dose_inhalers.stm 2004 • Aerogen, 2004 http://www.aerogen.com/ • Dolovich M., Labiris N., Pulmonary drug delivery. Br. J. Clin. Pharmacol. www.blackwell-synergy.com/links/doi/10.1046/j.1365-2125.2003.01893.x/full 1 March 2004 • Prakash Prashanth RaviPrg. Ast-Grader/Reader, Engineering Experiment Station • Malvern Instruments www.malvern.co.uk/malvern/ondemand.nsf/frmondemandview

More Related