Automated Metered Dose Inhaler Presented By Group 11: The “MDI Auto-Maniacs” Maria del Carmen Carrillo Jennifer B. Struble Loyrirk Temiyakarn
Background What is a Metered Dose Inhaler? What is a Metered Dose Inhaler? pocket-sized handheld inhaler delivers standardized dose of medication for bronchodilation Who Uses Them? Who Uses Them? Patients with asthma or chronic obstructive pulmonary disease (COPD) Setting? Setting? Critical patients in hospitals Critical patients in hospitals Prescriptions for outpatient or in-home use Prescriptions for outpatient or in-home use
Problem Definition Automatic Metered Dose Inhalant (MDI) delivery device: Automatic Metered Dose Inhalant (MDI) delivery device: Electromechanical, in-hospital inhalant drug delivery system Electromechanical, in-hospital inhalant drug delivery system Patients are mechanically ventilated and sedated Patients are mechanically ventilated and sedated Medication delivered automatically as prescribed electronically Medication delivered automatically as prescribed electronically Medication must be well shaken (homogenized with propellant) Medication must be well shaken (homogenized with propellant)
Design Factors Integration with existing endotracheal tubing Integration with existing endotracheal tubing Homogenization with propellant Homogenization with propellant Delivery of medication into ventilation system Delivery of medication into ventilation system Tubing length Tubing length Synchronization of delivery with breathing Synchronization of delivery with breathing Software/Automation Software/Automation User interface User interface Prescription error checking Prescription error checking
Project Status Preliminary Research Complete Standard MDI Completed Research Endotracheal Tubing Connectors Ventilators Types of Medication Continuing Research Homogenizer
Working Design: Using Prefabricated Canisters Integrated with existing tubing Integrated with existing tubing T connector T connector Homogenize Homogenize Vortexer Vortexer Phone Vibrator Phone Vibrator Spring-Loaded Agitator Spring-Loaded Agitator Laptop-based prescription entry Laptop-based prescription entry Similar to error reduction system, Guardrails® Safety Software, in Alaris “Smart” IV Pump Similar to error reduction system, Guardrails® Safety Software, in Alaris “Smart” IV Pump
Working Design: For Liquid Medication Integrate with existing tubing AnaConDa™ Hudson RCI Homogenize Not Needed Need evaporator and filters Automated Genie Syringe Pump Kent Scientific
Timeline Completed Work Completed Work Preliminary research Preliminary research Clearly defined design factors Clearly defined design factors Through Innovation Workbench Through Innovation Workbench Current Work Current Work Order more components to start building prototype Order more components to start building prototype Tubing, Vibrator, AnaConDa™ Tubing, Vibrator, AnaConDa™ Testing distance were adequate dose is still administered through tubing Testing distance were adequate dose is still administered through tubing Building Model A Building Model A Projected Timeline Meeting with local contact (Anna Ambrose) next week Testing ~ First week of February Implement corrections Model B ~ Second week of March Software included Testing ~ End of March Final prototype ~ April
References bkgd.shtml bkgd.shtml bkgd.shtml bkgd.shtml ry/anesthesia_glossary-05.htm ry/anesthesia_glossary-05.htm ry/anesthesia_glossary-05.htm ry/anesthesia_glossary-05.htm ent.asp?page=5 ent.asp?page=5 ent.asp?page=5 ent.asp?page=5 Hudson RCI. AnaConDa™ Principles of Operation Hudson RCI. AnaConDa™ Principles of Operation. 2003