Author(s)

Marie Guedon, Maëliss Laurent, Thibault Vallecillo, Catherine Mennesson, Mélanie Jennesson Lyver, Dominique Hettler, Céline Mongaret

Why was it done?

In March 2021, the “Agence Nationale de Sécurité du Médicament” initiated an experiment to evaluate the relevance and feasibility of the availability of MC as a narcotic drug, in France. In our hospital, we included children to treat drug-resistant epilepsy, and performed a dispensing process to secure the patient care pathway and strengthen collaboration between hospital pharmacists and primary care professional.

What was done?

The aim of this study is to secure the care pathway of patients included in a national experimentation of medical cannabis (MC) by developing pharmaceutical interviews. Thus, to optimize the continuity of patient care, a pharmaceutical report was developed, and addressed to the community pharmacists of the patient.

How was it done?

A working group was created including clinical pharmacists, a neuropediatrician and a coordination nurse. During medical consultations, pharmaceutical interviews were conducted and led to pharmaceutic reports, sent to the community pharmacies of the patients. In order to evaluate this report, a satisfaction survey was carried out.

What has been achieved?

During the first six months of the experimentation, three children were included. The clinical pharmacist team (two senior pharmacists and two pharmacy residents) performed ten dispensing processes. During the eight pharmaceutical interviews, four pharmaceutical interventions were performed. Firstly, the interaction between clobazam and MC (noticed in one patient) required a dosage adjustment. Then, the association between MC and hepatotoxic drugs (found in two patients) requires hepatic monitoring. A pharmacovigilance statement was also drafted to report side effects (digestive disorders). The satisfaction survey of community pharmacists showed that the transmitted information, mostly related to the medication review, was considered as useful for the community pharmacies of the patients. This data helped to guide the pharmaceutical interviews during their dispensing process.

What next?

Pharmaceutical interviews and their reports lead to secure the patient care pathway and improve the communication amongst health care professionals. Those measures provide an optimal case management and avoid therapeutic breakdown. Nevertheless, difficulties have been reported, mostly due to delay in the supply chain of the community pharmacies. Therefore, this system requires some adjustments before it can be applied on a larger scale. One of the suggestions is a provisional calendar of consultations and dispensations.

Author(s)

Cristina González Pérez, Laura Llorente Sanz, Ángel Liras Medina, Ana Andrea García Sacristán, María Molinero Muñoz, Lidia Ybañez García, José Alberto Peña Pedrosa, Henar González Luengo, María Luaces Méndez, José Manuel Martínez Sesmero

Why was it done?

Telepharmacy implementation in the context of SARS-CoV-2 pandemic conducted us through the management of a high volume of complex, real-time both clinical and economic data. A multidisciplinary working group (biomedical engineers from the Innovation Unit, clinicians, managers and hospital pharmacists) developed a software tool in April-May 2021.

What was done?

The design of an agile, customizable and dynamic dashboard for the visualization and analysis of Telepharmacy key performance indicators (KPI) through Business Intelligence (BI).

How was it done?

Phases:
1. Situation analysis. KPI definition. Ethics committee approval submission.
2. Extraction and processing of raw databases (Telepharmacy database, outpatient dispensing program, hospital admission database, drug catalog) through data mining.
3. Co-creation of the comprehensive dashboard in PowerBI®, by integrating database sources. Different panels have been designed where filters such as age, time frame, medical service, pathology, etc. can be applied.
• Description of general variables: patients, demography, shipments, time frame, medical department.
• Geolocation of the destinations of the patients’ home delivery.
• Pharmacological profile: top 10 drugs, distribution by active ingredient and drug classification group.
• Relative analysis of the beneficiary patients of Telepharmacy vs global outpatients
4. Pilot project by different types of users (administrative staff, clinicians and managers)
5. Structure design for automatic updating of the panels from the successive updates of the source databases
The quality of the raw databases can be a limitation. It has been necessary to define how to handle missing and duplicate data. Pre-processing, normalization and transformation data processes have been applied too.
Working within the hospital network ensures that there are no security gaps in terms of patient data protection.
For the external use of the dashboard, the granularity of the data is modulated to ensure enough clustering to avoid the identification of individual patients.

What has been achieved?

Processing the huge dataset (more than 2.4 million records) was possible by BI tools that synthesizes data, provides dynamic and engaging visualization (charts and graphs), allows the interactive reports customization for more effective communication of results and apply analysis based on Artificial Intelligence.

What next?

Applying new technologies will help us improve strategic decisions: interactions, behaviors and trends perceiving, weak points identifying, uncertainty reducing and over time monitoring.

Author(s)

Sonja Guntschnig, Aaron Courtenay, Ahmed Abuelhana, Michael Scott

Why was it done?

The service was established as part of the implementation of a new pharmacy into the hospital. The aim of this good practice initiative was to introduce multidisciplinary work on the wards and provide clinical pharmacy support for the ward personnel. Furthermore, it determined what types of clinical pharmacy interventions are needed at a rural 360-bed hospital in Austria, and assessed the physicians’ acceptance rate of the pharmacists’ suggestions.

What was done?

A new clinical pharmacy service (CPS) was introduced into Tauernklinikum Zell am See.

How was it done?

Data on 550 interventions made by one clinical pharmacist were collected by convenience sampling over a one-year period and rated on a six-point clinical significance scale. A subset of 26 interventions was rated for clinical significance by four independent physicians to determine inter-rater reliability (IRR). A two-way model inter-rater reliability analysis was performed for the four different physician assessments using SPSS to determine intra-class correlation (ICC).

What has been achieved?

Prompt acceptance rate by the physicians involved was 71.3% (392/550). In 26.9% (148/550) of all cases, the physician considered a change. The overall average score for all 550 clinical pharmaceutical interventions taken was 2.2. ICC significance scores were correlated with the pharmacist’s scores, ICC for consistency was 0.732 and 0.732 for absolute agreement, thus both can be considered as “good”. Potential for cost reduction associated with the recommended pharmaceutical changes, namely with medication being stopped or dose reduction was 32.7% (180/550) and 25.1% (138/550), respectively.

What next?

There is great potential and a definite need for the expansion of CPS in Austria. Only 15.8% of Austrian hospitals have a pharmacy department with even less offering CPS. Many countries have demonstrated the benefits of CPS in hospitals over the past 30 and more years. The need for increased pharmacist staffing in Austrian hospitals needs to be demonstrated to Austrian stakeholders.

Author(s)

PILAR RANZ ORTEGA, MARÍA ARRIETA LOITEGUI, DANIEL GONZALEZ ANDRES, ANA MARÍA AGUI CALLEJAS, MARIA TERESA POZAS DEL RIO

Why was it done?

– Optimize the workflow:Nursing staff are independent in final product quality control.Dissapear the manual register of compounding sterile preparations.Fewer mixtures are discarded.Also in Pharmacy Service only elaborate the sterile preparations with an economic and safety impact.

– Improve the safety of drug administration in pediatric patients: there are ready-to-use commercial parenteral presentations, which can lead to errors when dosing per kilo,fe: enoxaparin…

– Optimize economic savings:all excess vials are reused

What was done?

Previously,some parenteral drugs were compounded at Pharmacy Service.The rest of the vials were discarded daily,so the pharmacist had to anticipated some elaborations not to throw,so then some were suspended.
Also, the pharmacists done the final product quality control,it could be delayed the dispensing and specially when it´s necessary to repeat the mixture.

The changes were:

– Re-selection of the parenteral drugs compounded at Pharmacy Service by:
• Economic criterio:the cost of drug has to be >20 euros/vial
• Safety for the pediatric patient:redose individually parenteral drugs “readytouse”

– Review the storage conditions:physicochemical (technical data sheet drug,Stabilis web) and microbiological stability (Good practices for preparation drugs in hospital pharmacy services publised by Spain Goverment) of all parenteral drugs previously selected.Although the physicochemical stability is higher,the final stability will be limited by the microbiological stability and the risk level microbial contamination(USP 2004).

– Standard Operating Procedures with structured and updated information

– Reuse of partially used multi dose vials:we reviewed the physicochemical and microbiological stability of open vial

– Final product quality control by nursing staff

– Save time to pharmacist:daily scheduling instead of anticipated elaboration of sterile preparations

How was it done?

– A nurse involved in the circuit change giving her feedback on the changes

– Traceability of the rests of the vials:stickers are affixed to the opened vials indicating the reconstitution data and the expiration date

– Final product quality control should be done by a diferente nurse to elaborated to detect potencial errors

What has been achieved?

The total cost savings for this year is 295.778€. After the circuit´s change, the savings have increased by 55% for liposomal amphotericin b, 51% defibrotide, 24% micafungin.

What next?

Compounding sterile preparations individualized in Pharmacy Service to patients hospitalized at home, transplanted of hematopoietic progenitors and immunocompromised

Author(s)

Mariosa Kieran

Why was it done?

Review of the 2019 Health Information and Quality Authority (HIQA) Medication Safety Monitoring Programme, and in-house Emergency Department (ED) medication variances review identified that risk reduction strategies for specific high-risk drugs and high-risk situations were required.

What was done?

A multidisciplinary team reviewed and implemented initiatives to improve medication safety practices for procedural sedation, emergency tray drugs and ketamine use in emergency settings was undertaken.

How was it done?

• Multidisciplinary teams (MDT) of key stakeholders were formed to review each high-risk drug / practice requiring improvement.
• The MDT developed the required procedures and policies that were further reviewed and approved by the relevant hospital committees.
• The MDT supported roll out of the improvement initiatives through communication, staff education and process review.

What has been achieved?

• A hospital wide procedural sedation policy and patient information leaflet was developed. Competencies for staff that perform procedural sedation have been identified. A specific procedural sedation incident report form has been piloted. A poster detailing the process for sedation reversal is in development.
• Emergency tray drug preparation, storage and use has been standardised across all hospital settings, including the introduction of dedicated emergency drug bags. The bags enable prompt drug retrieval during emergencies and supports safe storage, documentation and disposal of used /unused emergency drugs.
• A protocol for ED use of ketamine was developed. The protocol supports safe use of ketamine for specific emergency indications for which there is little published information, e.g. procedural sedation, analgesia and agitation.
• The initiatives were implemented and included in ED simulation training.

What next?

The described medication safety initiatives have considered the practice challenges for high risk drug access and use in emergency settings. The initiatives have standardised processes for specific high-risk drugs, supporting safer use. MDT collaboration ensured early and ongoing staff engagement from applicable disciplines, facilitating implementation and practice changes. Evaluation of the initiatives in practice is currently under review. The initiatives and learnings are transferrable to other emergency clinical settings.

Author(s)

MOHAMMED ADNANE EL WARTITI, WAFAA ENNEFFAH, BOUCHRA MEDDAH, MUSTAPHA BOUATIA

Why was it done?

The GPG was developed in a concern of practices standardization to guarantee the safety and efficacy of parenteral antibiotics, especially those stored in vials which reuse in possible only if conditions of administration and stability are respected.

What was done?

We developed a Good Practice Guide (GPG) for the usage of major available parenteral antibiotics.

How was it done?

After we listed all parenteral antibiotics available at the hospital pharmacy, we selected the most used ones and we synthesized all manufacturers’ data to establish a GPG for their administration. We also used literature data to complete missing information in “Summaries of Product Characteristics” related to pediatric use of these drugs. Finally we determined the most antibiotics consuming units according to their defined daily doses, where GPG recommendations will be implemented, before their extension to all other units.

What has been achieved?

The GPG concerned the most used antibiotics, which mainly belong to the following classes: Beta-lactam, Glycopeptide and Imidazole antibiotics, Aminoglycosides and Quinolones. It specifies the galenical presentation, used solvents, volume and duration of administration, stability after reconstitution as well as incompatibilities and special measures relating to the use of these drugs. The most antibiotics consuming units are pediatric intensive care units, “IIB” pediatric unit and pediatric surgical emergency department.

What next?

The approach used in this work can be adopted in other similar structures in order to establish GPGs within the framework of a quality control policy aiming to raise the standard of care.

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Author(s)

Theodora Steindl-Schönhuber, Gittler G.

Why was it done?

Medication dispensing is a time-consuming, labour-intensive, error-prone process in the daily routine on the wards. The project was triggered by the tight personnel situation during the Coronavirus pandemic: In November 2020 three wards with COVID-19 patients (91 beds) were integrated into our Unit Dose blister service to assist the nursing staff. A multidisciplinary effort (management, IT-department, doctors, nursing staff, pharmacy holding a GMP-manufacturer´s certificate) and long-established electronic patient records including medication data enabled fast realisation.
After transformation back to a chirurgical, an internal and a geriatric ward the service was continued and extended to the neurological unit (49 beds) due to positive feed-back. We wanted to study the observed positive effects of Unit Dose supply in more detail.

What was done?

In our hospital medication distribution has been switched from manual dispensing by ward staff to automated Unit Dose blister packaging by the pharmacy. Our study investigates the impacts of this change on medication safety, staff satisfaction, time and drug resources.

How was it done?

The percentage of pharmacy-blistered drugs, time gain for nursing staff, employee satisfaction, medication consumption and erroneous blister fillings were investigated.

What has been achieved?

Unit Dose in hospitals is not standard for many countries and is so far unique in Austria. Therefore, we would like to share our experiences and findings with our colleagues: Solid, oral dosage forms could be supplied by 99% via Unit Dose. Time for manual drug dispensing was reduced by 75%. A survey showed high employee satisfaction with the supply process as well as the quality and correctness of the blisters. Consumption of blisterable drugs and stocks on the ward were reduced by 44% and 78%, respectively. Errors in blister fillings in our setting amount to 0,006%. When compared to literature references on error rates for manual medication dispensing (up to low double-digit rates), patients benefit from increased drug therapy safety. On the basis of these results our initiative was granted the Austrian Patient Safety Award 2021 in the field of medication safety.

What next?

We plan to extend Unit Dose to the remaining wards and to investigate patient satisfaction with the blisters, cost-efficiency and distribution of high-cost medications.

Author(s)

Françoise LONGTON, Olivia Polinard, Linda Mattar, Anna Pauels, Mireille Bourton, Michel Mattens

Why was it done?

A thorough medication history at admission reduces medication errors. The presence of a clinical pharmacist in the preoperative clinic increases the number of inpatients who receive a standardized medication history by a pharmacist.

On admission, the adaptation of home medications to the hospital formulary can also be a source of error or delay. The fact that the patient is seen by a pharmacist prior to hospitalization makes it possible to anticipate drug substitutions and possible orders for non-formulary drugs.

Moreover, surgeons do not always have the possibility to prescribe medications taken at home upon admission, which results in a delayed availability of the medication. Thanks to this multidisciplinary project the continuity of treatment is assured.

What was done?

During the preoperative consultation, a pharmacist takes a medication history and enters it into the computerized medical record, making it available for the anaesthetist.

Upon admission of the patient, the continuity of the medication is ensured by the pharmacy.

Indeed, during the admission, the nurse follows a procedure that informs the pharmacy of any medication changes since the preoperative consultation. Afterwards, the pharmacy encodes the treatment into the computerized intra-hospital prescription and delivers it to the department.

Before any drug administration, this treatment is signed by the doctor responsible for the patient.

How was it done?

Preoperative consultations had to be structured so that each patient was first seen by the pharmacist, second by a nurse and third by the anaesthetist.

Thus, the main obstacle was organizational and it was overcome through the centralized management of preoperative clinic appointments.

What has been achieved?

In 2020, 54% of patients admitted for surgery (elective or emergency surgeries) were seen in the preoperative clinic.

What next?

This is an example of good practice as it ensures a standardized medication history and admission management.

Author(s)

Noe Garin, Laia Lopez-Vinardell, Pau Riera, Adrian Plaza, Ivan Castellvi-Barranco, Jose Mateo-Arranz, M. Antonia Mangues

Why was it done?

APS is a rare disease with a high risk of thromboembolism. Recently, some data suggested an increased risk of thrombotic events with direct-acting anticoagulants (DOAC) compared with vitamin K antagonists in APS. Some agencies advise against the use of DOACs in these patients.

This methodology can be extrapolated to other risk situations, so this was a first step with AI to further detection of safety issues.

What was done?

We implemented an Artificial intelligence (AI) tool based on natural language processing (SAVANA®) to identify patients at risk of thromboembolism, defined as Antiphospholipid Syndrome (APS) diagnosis treated with direct-acting anticoagulants (DOAC). SAVANA® is an AI tool able to extract information contained in free-text from electronic clinical records.

A prior operation work was conducted, involving: direction, pharmacy, documentation, IT, SAVANA®, data protection. The work and previous meetings evaluated: feasibility, previous requirements, privacy issues, IT involvement and contract signings.

How was it done?

The implementation consisted of:
– Transference of medical record information to the SAVANA® cloud.
– Identification of the health problem (APS) and initial search.
– Search algorithm optimization in a multidisciplinary team.
– Evaluation of the search by SAVANA® by peer review in a sample of randomly selected cases (n=200).
– Precision and sensitivity analysis. Algorithm improvement.
– Obtaining the Gold Standard and validation.
– Definitive search for the detection of patients with APS in treatment with DOACs and performance of interventions.

What has been achieved?

The project implementation is at a very advanced stage. The algorithm has currently been evaluated and is being refined after precision and sensitivity analysis. Final validation and definitive identification of patients at risk is expected at the end of 2021. Patients detected during the implementation method have been evaluated with the haematology team.

What next?

This methodology can be implemented in any centre with computerized medical records. The use of AI is the only tool available for the identification of certain groups of patients when health problems are not coded. In other cases, its use regarding the extraction of lists allows a great capacity for analysis, absence of biases derived from human error, guarantee of reproducibility and complementary data obtention, mainly in samples of high size.

Author(s)

Lionel Tortolano, Quentin Misandeau, Muriel Paul, Valérie Archer

Why was it done?

The main objective was to make give more information to the patients and draw their attention on the implant and the signs of adverse events.

What was done?

In 2018, in order to respond to both the sanitary traceability regulatory and the iatrogenic prevention, we initiated a new education session for patients after their hip or knew surgery.

How was it done?

First, the educational tools were developed in collaboration with surgeons, nurses and physiotherapist.
Each patient is seen after his surgery for the educational interview. At the beginning, the pharmacist asks him questions grouped in 4 themes: the implant, adverse events, prohibited movements and medicines.
According to patient answers, the pharmacist gives him complementary information and documents: an implant card and a booklet, which summarized all essential keys about adverse events and the return home.
We measured the efficiency of our education sessions on the knowledge of 80 patients. After the education session, before the return home, the patient was asked a second time to respond to all questions previously asked. The difference of good answers was considered as an increase of awareness.

What has been achieved?

The results show significant impact of this education session on all items especially those regarding the implants and medicines.

What next?

Since this feasibility study, we perpetuate those education sessions. We initiate a randomized prospective study to measure the impact 6 month after surgery on patient knowledge and potential impact on adverse event incidence rate. The result of this second study are expected to spring 2022.