A systematic literature review on strategies to avoid look-alike errors of labels

Larmené-Beld, Karin; Alting, E.K. (Kim); Taxis, Katja

doi:10.1007/s00228-018-2471-z

Cited by 34 publications

(49 citation statements)

References 37 publications

(89 reference statements)

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“…Finally, more work needs to be done to address the clinical implications of contaminated medications. This is an important aspect of patient safety of parenteral products and it should be aligned with other initiatives such as good prescribing [56], safe labelling [57], and technologies to improve the administration of medications, for example, a bar-code administration system [58,59].…”

Section: Limitationsmentioning

confidence: 99%

A systematic review and meta-analysis of microbial contamination of parenteral medication prepared in a clinical versus pharmacy environment

Larmené-Beld

Frijlink

Taxis

2019

Eur J Clin Pharmacol

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Purpose Preparation of parenteral medication in hospitals is a complex process with a risk of microbial contamination of the product, especially when inappropriately prepared. Contaminated parenteral medications can cause severe complications to patients and increase morbidity in hospitals. The aim of this literature review is to systematically evaluate the contamination rate of parenteral medications in hospitals prepared in a pharmacy environment and a clinical environment. Methods A literature search of PubMed and EMBASE from 2000 to 2018 was performed. Two different environments where preparation may be carried out were defined. Point estimates and 95% confidence intervals for contamination rates were calculated for each environment of medication preparation. The meta-analysis was performed using a random effects model. Results The contamination rates in the clinical environment (n = 13 studies) varied between 1.09 and 20.70%. In the pharmacy environment (n = 5), all contamination rates were 0.00% except for one study (0.66%). The point estimates (random effect model) for the overall contamination rate of doses prepared in the clinical environment was 7.47% (5.16-9.79%), and 0.08% for doses prepared in the pharmacy environment. The point estimates (random effect model) for the overall contamination rate of doses prepared by nursing/ medical staff was 7.85% (5.18-10.53%), and 0.08% for doses prepared by pharmacy staff. Conclusions Significantly higher contamination rates were found for the preparation of parenteral medication in the clinical environment compared to pharmacy environment. In accordance with recent guidance, the almost 100-fold higher changes of contamination when reconstitution is performed in the clinical environment should urge hospitals to review their reconstitution process and apply risk-reducing measures to improve patient safety of parenteral therapy.

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Section: Limitationsmentioning

confidence: 99%

A systematic review and meta-analysis of microbial contamination of parenteral medication prepared in a clinical versus pharmacy environment

Larmené-Beld

Frijlink

Taxis

2019

Eur J Clin Pharmacol

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“…For example, Galanter and colleagues examined the use of indication alerts at the time of computerized physician order entry and found that some errors were averted . Manufacturers use “tall‐man” lettering to differentiate sections of a medication name on the medication's packaging, labeling, and bottle to decrease the confusion (eg, ARIPiprazole and RABEprazole ), though the effectiveness of this methodology has not been clearly demonstrated in real‐world settings …”

Section: Discussionmentioning

confidence: 99%

“…12 Manufacturers use "tall-man" lettering to differentiate sections of a medication name on the medication's packaging, labeling, and bottle to decrease the confusion (eg, ARIPiprazole and RABEprazole), 20 though the effectiveness of this methodology has not been clearly demonstrated in real-world settings. 21,22 The strengths of our analysis include the large size of the Sentinel System and the ability to deploy readily available analytic tools to facilitate efficient identification and review of potential LASA errors. There are important limitations to consider as well.…”

Section: Discussionmentioning

confidence: 99%

Identification of potential drug name confusion errors in the Sentinel System

Cocoros

Haynes

Her

et al. 2019

Pharmacoepidemiology and Drug

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Purpose In July 2015, the US Food and Drug Administration (FDA) published a drug safety communication regarding errors in prescribing and dispensing of the antidepressant Brintellix (vortioxetine) and the antiplatelet Brilinta (ticagrelor) that arose due to proprietary drug name confusion. Brintellix is indicated for major depressive disorder; Brilinta is indicated to reduce cardiovascular death, myocardial infarction, and stroke in patients with acute coronary syndrome or history of myocardial infarction. Brintellix was renamed to Trintellix in May 2016. Using Brilinta and Brintellix as a proof‐of‐concept feasibility use case, we assessed whether drug name confusion errors between the pair could be identified in electronic health care data via the combination of a claims‐based algorithm and limited manual claims data review. Methods Using data from the Sentinel System, we defined potential errors as Brintellix users without an on‐ or off‐label indication for Brintellix, without a dispensing for a drug with the same indications as Brintellix, and with an on‐ or off‐label indication for Brilinta between −365 and +30 days after index Brintellix dispensing; the reverse was done for Brilinta. We manually reviewed claims profiles of potential cases. Results We identified 27 (0.1%) potential errors among 21 208 Brintellix users; 16 appeared to be likely errors based on claims profile review. Fifty‐one (0.3%) of the 16 779 Brilinta users were identified as potential errors, and four appeared to be likely errors. Conclusions A claims‐based algorithm combined with manual review of claims profiles could identify potential drug name confusion errors, and narrow down likely errors that warrant further investigation.

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“…Most prevention strategies to identify LASA errors have been developed at hospital setting. Some of the strategies that have been proposed and tested to minimize risks include: 1) computer algorithms that detect potential LASA errors by analyzing names, medication orders and diagnostic claims data [18]; 2) changes in the appearance of labeling and packaging of LASA medicines, paying special attention to their differences (for example the use of uppercase-lowercase letters, boldface or coloured letters to highlight the differences between names; coloured labeling and contrasting background) [19,20]; 3) inclusion of stickers with security symbols or pictograms on the packaging [19,20]; 4) re-packaging [17]; 5) bar-code-assisted medication administration [5]; 6) legible manual prescription avoiding abbreviations [3]; 7) avoiding oral and vague prescription [19]; 8) changing order and separate storage of products with similar name, with special attention in case of medicines with narrow therapeutical margin [19]; 9) reminders and alerts for LASA products [19]; 10) correct verification before dispensing and/or administration [5,19]; 11) the joint use of the brand name and the generic name (in brackets) in prescriptions and drug labeling [19]; 12) review of new medications added in formularies and changes in packaging resulting from contract changes or drug shortages [19].…”

Section: What Now and What Nextmentioning

confidence: 99%

“…At present, the emerging strategies that could be implemented in short and mid-term are the following: 1) the configuration of computer selection screens and drop down menus in prescription systems to prevent LASA names from appearing adjacent to each other and thus avoid errors; 2) the design of an international system for the validation of names for new drugs/medicines which bears the issue of possible confusions in mind; 3) automated dispensing by means of electronic devices and serialization technology (DataMatrix code), which makes the healthcare supply chain safer as well as more efficient and accurate; 4) use of a closed-loop system with barcode technology to enhance the readability of look-alike labels [20]; 5) consideration of potential LASA errors when ordering stocks; 6) stringent feedback of LASA issues to FDA, EMA and pharmaceutical industry via pharmacists from hospitals and other health professionals; 7) developing strategies to involve patients and their caregivers in reducing risks through information (for example by means of apps that specify the indication for which the medicine has been prescribed and expected appearance, nonproprietary and brand names and potential medication side effects). Artificial intelligence and automated methods will be one of the most accurate tools in the next future to avoid LASA errors and ME in general by minimizing human factors risk.…”

Section: What Now and What Nextmentioning

confidence: 99%

Prevention strategies to identify LASA errors: building and sustaining a culture of patient safety

Lizano-Díez

Figueiredo-Escribá

Piñero-López

et al. 2020

BMC Health Serv Res

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Background: Potential look-alike, sound-alike (LASA) errors in outpatient and inpatient prescriptions have been widely described worldwide. However, most strategies of reducing drug name confusion have been only focused on the processes of prescribing and dispensing, often following local rules. Main text: An illustrative recent example about this topic is given: the antidepressant Brintellix® (vortioxetine) (Takeda Pharmaceuticals USA, Inc.) and the antiplatelet medication Brilinta® (ticagrelor) (AstraZeneca LP). Revision of the initiatives that are currently applied to prevent potential LASA errors in different countries around the world and debate about the emerging strategies that could be implemented in short and mid-term. At present, a common policy worldwide on the authorization of unique names for innovative medicines does not exist. The implication of authorities in topdown strategies and the importance of developing an international health policy on the authorization of unique names for innovative medicines are highlighted in the following piece of opinion. Conclusions: Building and sustaining a culture of patient safety should be considered as a global top-down strategy which involved all the elements in the system (regulatory bodies, manufacturers and suppliers). The precedent established by the FDA in prevention strategies to identify and avoid LASA errors has been extremely important and should lead to international discussion. Coordinated international efforts are urgently needed in this area for the sake of patients' safety.

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A systematic literature review on strategies to avoid look-alike errors of labels

Cited by 34 publications

References 37 publications

A systematic review and meta-analysis of microbial contamination of parenteral medication prepared in a clinical versus pharmacy environment

A systematic review and meta-analysis of microbial contamination of parenteral medication prepared in a clinical versus pharmacy environment

Identification of potential drug name confusion errors in the Sentinel System

Prevention strategies to identify LASA errors: building and sustaining a culture of patient safety

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