Medication Barcode Scanning (MBS) has been considered as one of the significant ways of reducing medication error. It begins from when medication is ordered by the doctor, a pharmacist reviews the order prior to supplying the medication to the nurse who then administers the medication to the patient (Department Veterans Affairs, 2003)). Study stated that from about 450,000 drug adverse effect that occur yearly, about 25% would be avoided with the use of certain technologies like medication barcode scanning (Bates, Cullen & Laird et al, 1995). According to Seibert, Maddox, Flynn & Williams (2014), technologies like “automated dispensing cabinets, computerized prescriber order entry (CPOE), “smart” computerized I.V. infusion pumps, …show more content…
POC simply means scanning patient’s medication at bedside before administering medication. This enhances safe practice by making sure that the patients take the right medication observing the five rights of medication administration (Waxlax, 2015). It is also important to note that medication with dosage formulation such as insulin, medications in the form of ampules, ointments and creams, to mention but a few need to be paid attention to as this will improve the practice of POC scanning leading to error reduction during medication administration (Waxlax, 2015). For instance medication in the form of ampules are titrated in the medication room. As a result of not preparing the said medication at the patient’s bedside, the nurse cannot be able to scan the barcode because he/she does not have it at that time. To accomplish the practice of POC scanning, “butterfly flag labels” with the appropriate barcode, can be placed both to the ampule and the syringe so that when the ampule is opened, then the nurse can take the label from the ampule and the syringe to the patient’s bedside for scanning before administering the medication (Waxlax,
However, there are issues with this system as well because the computer is only as smart as we allow it to be. If pharmacy puts in the computer the wrong medication or dose, or information is incorrect, the computer will still allow you to administer. It goes back to communication, knowing your patient and how important it is to still ask questions and have conversation with your patient about the medication you are about to give them. Read their history and physical to get a better idea of everything going on with your patient so we can continue to provide safe quality care.
Improved patient safety is the most essential advantage of the BCMA system. “On average a hospital patient is subjected to at least one medication error per day (IOM, 2006)”(Foote). BCMA significantly reduces medication errors that cause a compromise in patient safety. The BCMA verifies the five rights of medication administration before a patient receives a medication by the software alerting the nurse if there is a contraindication between the medicine scanned and the patient’s orders. A pilot study conducted at a 300-bed community hospital found that the BCMA system reduced medication errors by 80% (Foote). Fowler et al states that “decrease in errors related to the wrong patient was a direct result of the bar code system (Fowler).”
CPOE systems have been proven to decrease medication errors and promote patient safety effectively. A study (Patent Safety Primer, 2014) suggested that 90% of medication errors occurred during the ordering or transcribing stages, and a systematic literature review shows that CPOE was able to reduce those errors by 48% compared to paper-based orders ( Radley, Wasserman & Bradshaw, et al. 2013). CPOE systems are effective in reducing medication errors by eliminating problems related to hand writing,
* Reduction of medication errors- Barcode medication administration safeguards against wrong pt/wrong med/wrong dose errors and alerts to potential medication interactions (Goth, 2006).
The stage 1 of the meaningful use includes thirteen core criteria and ten menu set objectives. The first core criteria is the computerized provider order entry (CPOE). CPOE entails the provider’s use of computer assistance to directly enter medication orders from a computer or mobile device. The use of CPOE and the electronic prescription process is a technology that has been found to be helpful in preventing medication prescribing errors in several ways (Mominah & Househ, 2013). Having an accurate electronic patient medication profile will help prescribers and pharmacists review the medication history easily and consequently alert the pharmacist to communicate with the prescriber in case any unexplained change in the prescribed medication to the patient and then conforming the change with the prescriber. Applying CPOE technology reduces medication errors.
The pharmacy, nursing, and informatics department were required to be involved in implementing the bar-code-assisted medication administration (BCMA) patient safety initiative. The involvement of the informatics department was required for planning and coordination of the electronic medication administration record and the scanning devices. The nurses were administering the medications so they were required to undergo training on BCMA methods and the importance of BCMA implementation. Pharmacists were needed to assist nurses in case if a scanning error occurred. Pharmacy, nursing, and informatics staff members were responsible for evaluation of the BCMA system upon implementation.
In the classroom, it is very important to have lab safety. In a hospital pharmacy, lab safety is essential to ensuring a safe dosage to each patient. Throughout my time interning as a pharmacist at the UVM Medical center, I was often observing how much pharmacists used DoseEdge software. DoseEdge automated system that assists the process of dose routing and preparation. This product of Baxter has allowed the tasks of pharmacy change. The focus of my project was “How does current and future technology affect efficiency and accuracy in pharmacy practice?”. Through my research of Baxter’s website, articles about their product, and reports of advancing technologies in pharmacy, I found that DoseEdge is very successful in productivity and safety in the workplace. Before DoseEdge, everything was required to be prepared by hand. This required a lot of responsibility for for pharmacists and technicians to make the correct dosage in the quickest manner. Medicine is very important to a hospital, so it is very important to have the most efficient way in preparing and distributing it. This allows pharmacist to have a better way of double-checking the preparation of drugs. In each IV hood, there is an overhead camera that takes pictures of what drug and how much of it the technician is using. Pharmacist can view multiple orders all by computer without the need of being physically next to the technician. There are also requirements to have two pharmacists check the same order for high risk drugs like chemotherapy. This
The nurse must verify the physician’s medication order, including the dose and time, and then the pharmacy is responsible for their own checks and balances via the BCMA system in order to complete the dispensing phase of the medication (Gooder, 2011). The nurse enters the BCMA system with a login and password and is able then to see a list of the virtual due list for a specific patient. The computer on wheels is then taken to that patient’s room and the five rights of medication administration begin. As nurses, we are taught to use the five rights of drug administration are (1) right patient (2) right medication (3) right dose (4) right route and (5) right time. By scanning the barcode on the patient’s hospital identification band, the nurse then asks for the patient to verbally state their name and date of birth, which can be verified by the nurse on the virtual due list and then choses the medication that are due for administration at that time. The medication is dispensed and the nurse is able to scan the barcode on the medication, the scanning triggers the automatic documentation of the medication given (Kelly, 2012).
Goal 3: Safe Medication Identification. Unlabeled syringes and medications are your biggest threats. Labeling all medications at dispensing areas ensures better identification. Knowing what your patients are taking directly impacts their treatment plan. Medication reconciliation decreases the possibility of drug interactions.
This is a journal study to investigate the perceptions and opinions of the professional community pharmacy staff about the causes of dispensing errors and strategies to prevent these errors. A survey was completed by pharmacists and pharmacy technicians in 49 community pharmacies and the response rate was 90.9% (Lopes, Joaquim, Matos & Pires, 2015). Handwritten prescriptions were the most single cause of medication errors 51.5% and drugs with similar packages 45.6% (Lopes et al., 2015). Checking prescriptions and confirmation of drugs through barcodes was 97% which were the most agreed prevention methods (Lopes et al., 2015). This article would not only be useful to pharmacy personnel but to other health practitioners or students performing research. In addition, a study similar to this could serve as an example (initiative) that may benefit management. Such initiative would be implemented to help improve medication
Encourage the use of computer-generated or electronic medication administration records. Plan for the implementation of computerized prescriber order entry systems. Consider the use of machine-readable code (i.e., bar coding) in the medication administration process. Use computerized drug profiling in the pharmacy. Be a demanding customer of pharmacy system software; encourage vendors to incorporate and assist in implementing an adequate standardized set of checks into computerized hospital pharmacy systems (e.g., screening for duplicate drug therapies, patient allergies, potential drug interactions, drug/lab interactions, dose ranges, etc.)”. (Association,
This communication is to inform our fellow team member and most especially the physician groups about the intention of the organization to implement the Computerized Physician Order Entry (CPOE) system. The CPOE application will enable our physician provider to enter order directly into the computer system, the CPOE system will replace the old method of order entry that include, written, verbal order/telephone order, and fax. The CPOE system will enable physician to enter specifications about order such as, laboratory, medication, radiology and special procedure orders. Additionally, CPOE offers some the features of the Clinical Decision Support (CDS) at the point of order entry by recommendation dosage calculations, interactions with other medications, and warning of allergic reaction notifications with alternate medication
After the interview with my nurse manager, I came up with the PICO question which states: “Does the computerized physician order entry (CPOE) system reduce the number of medication errors compared to the common paper system being used today?” This question is important and I selected it because the population that the Belvoir Community hospital serves includes army officers of all ages both active and retired including their spouses and children. This group includes two sub groups of highly vulnerable persons which include the very young and the very old, who have a high-risk effect for medication errors because the potential adverse drug event is three times greater than an adult hospitalized patient (Levine et al., 2001). CPOE is not a panacea, but it does represent an effective tool for bringing real-time, evidence-based decision support to physicians. Nurses are the last defense level of protection against medication errors, and are solely responsible for the dispensing, administering, and monitoring of medications. In healthcare, computers can be used to help facilitate clear and accurate communication between health care professionals. When using a CPOE system it allows physicians to type in prescriptions right into the device or computer which significantly lessens any mistakes that can occur when
What is bar-code medication administration? Quite simply, it is a system in which a hand-held barcode scanner ?reads? a barcode on a medication and a patient identification band and links it in an electronic medical records software. It facilitates the nurse?s
Not only does the electronic method of prescribing save time, it has also cut down on the number of accidents caused by the misinterpretation of handwriting. Although now almost obsolete, hand-written prescriptions have been the cause of many medical errors because certain sound-alike or look-alike drugs have, in the past, been incorrectly substituted for one another. A report given by the insurance company, Excellus BlueCross BlueShield disclosed that if all physicians were to begin using electronic-prescription systems, “more than two million adverse reactions or events – ranging from inconsequential to severe – could be avoided each year” (wgrz.com). According to pharmacist and associate director for the Food and Drug Administration’s Office of Drug Safety, Jerry Phillips, “Six-hundred sound-alike or look-alike drug pairs have been identified as possible sources of error since 1992” (nytimes.com). For example, Lamictal, a mood-stabilizing anticonvulsant, is quite similar in spelling to Lamisil, an antifungal drug. Because of these strong similarities, it is not difficult to understand how easy it could be for medical personnel to mistake certain medications. But with e-prescribing, because the prescription is sent directly from the prescriber to the pharmacy, the number of accidents caused by misinterpretation of handwriting has already been