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Technology & Automation In Pharmacy – Part 2

Technology & Automation In Pharmacy – Part 2. Outline. Automated dispensing devices (ADD) ADD requirements Examples of ADDs Bar code enabled medication administration Becoming a pharmacy informaticist Role of the pharmacy informaticist. Automated Dispensing Devices (ADDs).

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Technology & Automation In Pharmacy – Part 2

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  1. Technology & Automation In Pharmacy – Part 2

  2. Outline Automated dispensing devices (ADD) ADD requirements Examples of ADDs Bar code enabled medication administration Becoming a pharmacy informaticist Role of the pharmacy informaticist
  3. Automated Dispensing Devices (ADDs) ADDs are drug storage devices or cabinets that electronically dispense medications in a controlled fashion and track medication use ADDs are located in hospital patient care units, surgical suites, emergency rooms, long-term-care facilities, physicians’ offices, and other settings
  4. ADDs These automated dispensing systems can be stocked by centralized or decentralized pharmacies Centralized pharmacies prepare and distribute medications from a central location within the hospital Decentralized pharmacies reside on nursing units or wards, with a single decentralized pharmacy often serving several units or wards These decentralized pharmacies usually receive their medication stock and supplies from the hospital’ s central pharmacy
  5. ADDs Requirements Medications are contained in, and administered from, single-unit or unit-dose packages Medications are dispensed in ready-to-administer form to the extent possible Medications are available for administration to the patient only at the time at which they are to be administered, according to the institution’s policy ASHP. Am J Health-Syst Pharm.2010; 67:483-90
  6. ADDs Requirements - Cont’d An electronic patient medication profile is concurrently maintained in the pharmacy for each patient and made easily accessible to the pharmacist Medications are accessible to different categories of health care professionals with the ability to limit access based on policy or law ASHP. Am J Health-Syst Pharm.2010; 67:483-90
  7. ADDs Examples Small systems: Pyxismedstation Baxter ATC Script-pro 200 Large systems: Baker cells Baxter international
  8. The PyxisMedstation, Medstation Rx, and Medstation Rx 1000 Are automated dispensing devices kept on the nursing unit These machines are often compared to automatic teller machines (ATMs)
  9. The PyxisMedstation, Medstation Rx, and Medstation Rx 1000 The Medstation interfaces with the pharmacy computer Physicians’ orders are entered into the pharmacy computer and then transferred to the Medstation where patient profiles are displayed to the nurse who accesses the medications for verified orders Each nurse is provided with a password that must be used to access the Medstation
  10. The PyxisMedstation, Medstation Rx, and Medstation Rx 1000 Many PyxisMedStations are configured with a medication profile for each patient When selecting a patient, only active medication orders that have been reviewed by the pharmacy can be accessed at the MedStation
  11. The PyxisMedstation, Medstation Rx, and Medstation Rx 1000 Certain MedStationsdo not have patient profiles available: Medications are removed by selecting the necessary medication Non-profile units include the Emergency Department, Radiology, and Surgery
  12. The PyxisMedstation, Medstation Rx, and Medstation Rx 1000 Pharmacists or technicians keep these units loaded with medication. Charges are made automatically for drugs dispensed by the unit Earlier models had sufficient memory to contain data for about one week, and newer models can store data for longer periods
  13. Advantages of the Pyxis® System Nursing staff are guided to the correct drawer and pocket to access required medicine. Medicines which sound similar or have multiple strengths are loaded indifferent drawers of the machine Access is restricted to only one drawer/door at a time Ward stock levels are monitored by the pharmacy computer and stocks topped up before drugs run out, reducing delay to patients and staff frustration Management of controlled medication
  14. Advantages of the Pyxis® System Possible to add additional safety features for individual high risk drugs. For example, must be authorized by two staff members soft lock outs to prevent duplicate administrations (reduces risk of multiple administrations when staff forget to sign for medications) Advice given or required information recorded at time of dose removal
  15. Advantages of the Pyxis® System Use of profile mode enables constant monitoring by pharmacist of drug dosages/interactions. It also reduces the amount of interpretation required by nursing staff at time of dose removal Real time data collection for drug usage which can be advantageous for audit and other quality improvement processes
  16. Disadvantages of the Pyxis® System May be frustrating to get drugs in an emergency Requires additional staff training and technical help Downtime, system failure and inflexibility Cost and space issues
  17. The Baxter ATC-212 Dispensing System Uses a microcomputer to pack unit- dose tablets and capsules for oral administration It is usually installed at the pharmacy
  18. The Baxter ATC-212 Dispensing System Medications are stored in calibrated canisters that are designed specifically for each medication Canisters are assigned a numbered location, which is thought to reduce mix-up errors upon dispensing. When an order is sent to the microcomputer, a tablet is dispensed from a particular canister The drug is ejected into a strip-packing device where it is labeled and sealed
  19. ScriptPro 200 Installed in the pharmacy Contains 200 universal dispensing cells and three vial dispensers Fills vials directly from dispensing cells Prints prescription and auxiliary labels
  20. Baker cells Installed in the pharmacy Counts a 30-count vial in 3-5 seconds When a prescription is dispensed, information is sent to the Baker Cell. The Baker Cell counts the correct number of units of the medication
  21. Bar Code Enabled Medication Administration Technology (BCMA) Are inventory control systems that uses barcodes to prevent human errors in the distribution of prescription medications at hospitals The goal of BCMA is to make sure that patients are receiving the correct medications at the correct time by electronically validating and documenting medications
  22. Bar Code Enabled Medication Administration Technology (BCMA) It ensures adherence to the “5 Rights” of medication administration Right Patient, Right Route, Right Dose, Right Time, Right Medication It visually alerts staff when the proper parameters are not met
  23. When Should BCMA Be Used? Stocking of inventory both in pharmacy & in other locations from which medications may be dispensed (e.g. automated dispensing device) Manual packaging of oral solid and liquid medications Compounding, repackaging, and labeling processes (e.g., scanning of source ingredients)
  24. When Should BCMA Be Used? Retrieving medications from automated dispensing devices Dispensing from the pharmacy to any location
  25. BCMA A. Patient name B. Medication name and strengths C. Time of administration D. Bar code for bedside scanning
  26. BCMA at Bedside
  27. Disadvantages of BCMA Bar codes mismatch with drug, dose and patient at times Bar code sometimes function erroneously Unable to scan bar codes properly at times Unreadable bar codes Time consuming
  28. Pharmacy Informaticist The typical pharmacy informaticist is a pharmacist who has knowledge of: computer systems medication-use processes safety issues clinical management of medications drug distribution, and administration AND Has developed extensive expertise in using technology to support these activities. ASHP. Am J Health-Syst Pharm. 2007;64:200–3.
  29. Becoming A Pharmacy Informaticist Three options are available: Take specific courses or obtain a degree in computer science, information systems or business information technology Complete an advanced residency Volunteer to assume an informatics role at one’s current place of employment by: Volunteering to take responsibility in aspects of informatics Obtaining as much on-the-job experience as possible Attending courses, conferences & learning form colleagues
  30. Role of the Pharmacy Informaticist Work closely with information systems and pharmacy staff to develop system programming requirements Develop and oversee databases related to medication management systems Identify, suggest solutions to, and resolve system or application problems
  31. Role of the Pharmacy Informaticist Assess medication-use systems for vulnerabilities to medication errors and implement medication-error prevention strategies Assist in mining, aggregating, analyzing, and interpreting data from clinical information systems to improve patient outcomes Collaborate with other health care technology and clinical leaders to ensure that medication-related systems support safe and effective medication use
  32. Role of the Pharmacy Informaticist Training pharmacy staff in the use of medication- related computer systems Performing research to expand informatics knowledge and its use in supporting patient care
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