EAHP represents over 30,000 hospital pharmacists across 37 member countries. EAHP represents and develops the hospital pharmacy profession within Europe in order to ensure the continuous improvement of care and outcomes for patients in the hospital setting. This is achieved through science, research, education, practice, as well as sharing best-practice and responsibility with other healthcare professional
The EAHP Board, elected for three-year terms, oversees the association’s activities. Comprising directors responsible for core functions, it meets regularly to implement strategic goals. Supported by EAHP staff, the Board controls finances, coordinates congress organization, and ensures compliance with statutes and codes of conduct.
The EAHP staff supports the Board in executing EAHP’s mission. The Staff assists in financial management, events organisations, policy activities and all EAHP projects. The EAHP staff works closely with EAHP’s members and ensures the effective communication all relevant stakeholders.
The first member countries were Belgium, Britain, Denmark, France, the Federal Republic, Germany, Italy and The Netherlands in 1972. EAHP has now 36 EAHP members and 2 Associate Members. EAHP is open to countries members of the Council of Europe and since 2022 to organisations representing the interests of hospital pharmacists from outside the Council of Europe (Associate Membership)
EAHP’s structure is also composed by different standing committes: EAHP Scientific Committee, EAHP Education Executive Committee and the EAHP CTF Steering Committee.
At EAHP, we are committed to transparency in our governance, ethical standards, and funding practices. This section provides open access to our foundational documents, including the EAHP Statutes, Code of Conduct, and Funding Sources. By sharing these resources, we aim to uphold accountability and foster trust with our members, partners, and the public.
Keep up with all EAHP’s events and webinars. Contact the team at info@eahp.eu should you have any questions about upcoming events or activities.
Here you can find all upcoming events organised by EAHP and by all its members and associate members. Do not hesitate to contact the events team at events@eahp.eu should you have any questions about the organisation of these events.
Hospital pharmacists conduct a critical role in the care of patients in hospitals. Learn more about what they do here and in all the pages under Hospital Pharmacy practice and Policy.
Self-Assessment
SILCC
Closed SIGs
EAHP brings together experts from many areas of hospital pharmacy practice providing and highlighting good local sustainable practices as that can be up-scaled and shared with other countries. The EAHP Working Group on Sustainability has the aim of reducing the environmental burden of the hospital pharmacy services.
The European Association of Hospital Pharmacists (EAHP), and its 36 member country platforms are creating a Common Training Framework for the hospital pharmacy education in Europe. The goal of this project is to allow the free movement of hospital pharmacists within the European Union.
The European Association of Hospital Pharmacists (EAHP) and the European Society of Clinical Pharmacy (ESCP) have collaboratively developed the Oath to Society. The Oath to Society is all encompassing and acts as a contract for excellence in providing compassionate patient care, working as part of the healthcare team and advancing the pharmacy profession, and showcasing how clinical and hospital pharmacists work every day
A day created to highlight the importance and to celebrate the work done by hospital pharmacies. This day celebrates all hospital pharmacy teams.
Catch up with EAHP’s press releases
Find all EAHP relevant publication like the EAHP Surveys, annual reports and the history books.
The European Journal of Hospital Pharmacy (EJHP) is the only official journal of the European Association of Hospital Pharmacists (EAHP) and is committed to advancing the science, practice and profession of hospital pharmacy. As the premier communication platform for hospital pharmacists worldwide, EJHP is a major source for continuing education as well as updates on advances in the practice and standard of pharmaceutical care for patients.
When EAHP and Hospital pharmacists appear in the news.
EAHP publishes a monthly EU monitor with updates about the latest EAHP initiatives and information relevant for the hospital pharmacy profession.
Sponsor Channel
The Sponsor Channel is designed to maximise visibility and engagement, allowing sponsors to connect with the hospital pharmacy community and partners in a dynamic and interactive environment. From product demonstrations to networking sessions, the Sponsor Channel offers a range of opportunities for sponsors to showcase their offerings and generate leads in the new EAHP Website.
Introductory Statements and Governance
ARDIZONE BEATRIZ, MARTA HERNÁNDEZ SEGURADO, MARÍA FORTE PÉREZ-MINAYO, LAURA GARCÍA JIMÉNEZ, ELENA TORTAJADA ESTEBAN, ANA CORDERO GUIJARRO, NATALIA BARRERAS RUIZ, LAURA JIMÉNEZ NAVARRO, JAVIER BÉCARES MARTÍNEZ
First, we had a high number of patient inquiries by phone and by email. Furthermore, patient queries related with their treatment and their resolution were not recorded in the electronic clinical history. Finally, we needed a communication platform that would guarantee personal data privacy.
In collaboration with the IT department, we developed a software tool called “Web Dialogue” within the e-health portal of our institution. This tool allows the patients to communicate with the pharmacist using a chat box where they can write queries about drug interactions, adverse effects and any questions about the hospital dispensing treatments, as well as other medications and herbal products. A pharmacist answers the queries within 24 hours, from Monday to Friday.
We asked the IT department to activate this tool for all active patients to whom we dispensed medication in our service (a total of 8000 patients). The development lasted 2 years (2017-2019), but it was not until March 2020, with the start of the COVID-19 pandemic, that the “Web Dialogue” began to be used by our patients more widely. We also made an informative video that was posted on the e-health portal in order to achieve a wider knowledge of this tool among patients. See link: https://www.youtube.com/watch?v=_Z9pd93sNY8
The median number of messages per month in 2020-2021 was 202 (IQR= 100,5; 468). At the beginning of the state of alarm in Spain there was a peak in the use of the “Web Dialogue”, mainly to query about how to access the medication (94% of the queries). Over the following months, the proportion of these consultations decreased and consultations regarding doubts about treatment, adverse effects and drug interactions increased. Furthermore, the Net Promoter Score (NPS), an indicator that allows us to measure the satisfaction of patients, shows that in the last year we have achieved, for the first time, a score over 60, which is considered excellent.
Some of our ideas for the future are: the possibility of selecting the type of inquiry and the interlocutor by the patient, creating algorithms for the automatic response of certain questions and carrying out Big Data research studies.
Production and Compounding
Mathilde Roche, Annabelle Angapin, Vincent Blazy, Alexandre Hyvert, Loretta Moriconi, Matteo Federici, Bintou Diawara, Cindy Monnel, Lison Ferreol, Assia Mitha, Hail Aboudagga, Romain Desmaris
Initially, robot’s operations required prescription re-transcription and chemotherapy relabelling by technicians, leading to manual data entry risks. Robots are known for high-standardised procedures, great repeatability and limited human intervention: adding bidirectional interface enabled improvement of patient safety. Moreover, it shows significant benefits during the compounding process, streamlining pharmacy workflows and ensuring full and paperless traceability.
In 2018, our chemotherapy production unit implemented an automated anticancer drugs compounding platform, embedding two APOTECAchemo robots. This aims to meet the increasing patient-specific chemotherapy demands (78,000 preparations/year). In order to minimise human risk and optimise work efficiency, implementation of a bidirectional interface between the robots and the hospital’s Electronic Prescribing Software (EPS) was considered as mandatory, to allow exchange and clinical information retrieval.
In 2020, pharmacists and the IT team defined the interface specifications. Bidirectional information flow was implemented using Health Level Seven (HL7) standards. Interface between EPS and APOTECAmanager was developed and a comparative robot performance analysis was undertaken by evaluating processed drug products, compounded preparation numbers and actual average usage time per day. The staff (i.e. two technicians) remained identical. Data were retrieved from robot’s embedded statistical tool over three months, before (March-May 2020) and after interface implementation (July-September 2020).
During these six months, 13,746 preparations were compounded, with 95% infusion bags and 5% elastomeric pumps. Most of these preparations were produced in advance (administration on day+2 or day+3). After interface implementation, the average production raised by 40.5% (from 1,905 to 2,676/month). Interface implementation increased also the average robot operating hours from 3.6 hours/day/robot to 5.8 hours/day/robot (+61.1%). In total, 19 different molecules were compounded, including conventional anticancer drugs and monoclonal antibodies with the number of reconstituted drug vials increasing by 38.1% (from 625 to 863).
Interface between robots and the EPS was successfully implemented, thereby enabling improved safety and efficiency. Today, syringes and paediatric preparations are still made manually. They require visual and analytical controls to verify their conformity. Mid 2021, a third robot customized for syringes and paediatric preparations will be installed in the compounding unit, to secure these preparations in a more efficient way.
Clinical Pharmacy Services
MARINA CORRALES PAZ, CLAUDIA RODRIGUEZ MORETA, INMACULADA LOMARES MANZANO, ANA GANFORNINA ANDRADES
Due to the health crisis caused by the SARS-COV-2 virus, many hospitals have seen
the necessity to implement a safe dispensing system (telepharmacy) to provide medication to
high risk patients and those infected with Covid-19 in order to prevent interrupting their
treatments.
To implement a system that guarantees a sure and effective supply of medical treatments to those vulnerable patients, those at increased risk or with difficult access to the hospital during the coronavirus pandemic.
A database was created with those patients attending our hospital’s outpatient service(OS)to pick up their medication within the next 7 days, verifying through pharmaceutical software and the patient’s medical history records (MHR)their next dispensing date. After checking if the patient had a medical appointmentthat could coincide with the dispensing date, a phone interview was conducted with the patient to schedule the pick-up of the medication through theOS or by telepharmacy(patients’ consent was requiredto use their personal information and we asked how the treatment was going). In our case the patients could pick-up their medication in the referral hospital (RH), a newly created OS in an affiliate hospital or by telepharmacy toprevent the collapse of the hospitals. We registered: number of patients attended in RH, new OS or by telepharmacy and number of dispensations. Patients were grouped in areas based on their city and delivery date for telepharmacy and in the case of patients picking up their own medication they were made an appointment.
During the months the state of emergency was in place in Spain (March 14th– June 21st)3385 patients were attended in total and 9316 medicationswere dispensed. 2245(66.3%) patients were attended in the RH (5794 dispensations), 583(17.2%) patients were attended through the new OS (1436 dispensations) and the rest 557(16.5%) had their medication sent to their address (2086 dispensations).
A safe and effective dispensing system was achieved to outpatients during the Covid-19 pandemic through the implementation of a new telepharmacymethod and the establishment of a new OSthat allows convenient dispensation of medication while minimising the risk of virus spread.
Clinical Pharmacy Services
Pauline Barreau, Joséphine Courouble, Pierre Pilven, David Vandecapelle, Thibault Stala, Geoffrey Strobbe, Guillaume Marliot, Frédéric Feutry
Two prescription assistance software are using in the hospital: DXCare®, for global drug management, and Chimio®, specific to the prescription and preparation of injectable chemotherapies. Clinical pharmacists (DXCare®) and pharmacists in charge of preparation (Chimio®) carry out the pharmaceutical analysis independently and they may not detect potential pharmacokinetics/pharmacodynamics drugs interactions or pathophysiological contraindications, slowing down the pharmaceutical analysis. Pharmaclass® can improve that by crossing all data flows between DXCare® and Chimio® and alerting the pharmacist. The objective were to select and code priority alerts and evaluate the detectability of drugs interactions and pathophysiological contraindications by the software Pharmaclass®.
Pharmaclass® is a software based on rules created by the pharmacist, from pharmaceutical algorithms. This rules engine crosses in real time all data flows of several software and sends alerts that must be analyzed by a pharmacist. It was applied in oncology for injectable chemotherapies.
An interface was set up between DXCare®/Chimio® and Pharmaclass® to allow the creation of requests. An analysis of drug consumptions and drugs at risk of interactions helped to select seven molecules (Methotrexate, Bevacizumab, Fluorouracil, Ifosfamide, Irinotecan, Cisplatin, Pemetrexed). A study of the summaries of the product characteristics and the drug interaction thesaurus and a bibliography was conducted and the rules were coded. These were checked by creating test patients with false prescriptions.
Eleven rules were created and, after some tests and coding readjustments, all was detected. Nine rules are about drugs interactions: three contraindications (Methotrexate/Trimethoprim, Methotrexate/Acetylsalicylic acid, Bevacizumab/Naloxegol), three associations not recommended (Methotrexate/Amoxicillin, Methotrexate/Ciprofloxacin, Fluorouracil/Antivitamin K), one precaution of use (Ifosfamide/Aprepitant) and two other rules concern enzymatic induction and inhibition of the metabolism of Irinotecan. The last two rules link the glomerular filtration rate with Cisplatin and Pemetrexed.
Following these creations, Pharmaclass® has allowed to detect drug interactions and pathophysiological contraindications that were not previously detectable. Thereafter, objective will be to establish an organization for the management of alerts and evaluate the number and the relevance of these alerts. New rules will be created for all injectable chemotherapies used in the hospital. Other center of Unicancer will be able to use these rules.
Patient Safety and Quality Assurance
Xando Díaz-Villamarín, Ana Pozo-Agundo, Paloma García-Navas, Alba Antúnez-Rodríguez, Celia Castaño-Amores, Cristina Lucía Dávila-Fajardo
Nowadays, it is known that at least 33% of patients show variable response to drugs. Of those, genetic polymorphisms explain around 15-30% of these cases, single nucleotide polymorphisms (SNP) being the genetic markers most clinically relevant. In 2013, 40 million SNPs were identified in humans and some have been observed to determine drug response. These observations lead to the incorporation of genotyping some of these SNPs as a recommendation in many drug labels before treatment initiation.
Since patient´s drug response may be determined by certain SNPs in different genes it is necessary to develop CDSS based on pharmacogenetic (PGx) information that makes feasible its application in clinical routine, translating genotypes into phenotypes and dosing recommendations.
We have developed a local Clinical Decision Support Systems (CDSS) that informs the physician on the availability of a PGx test in our hospital for certain prescribing drugs. This system will also be able to translate the genetic information into dosing recommendations.
We selected all the SNPs affecting drug response for which there is already a PGx test available in our hospital. All of them have been previously validated, and, only genes/SNPs related to drug response with the highest level of evidence, available in the Dutch Pharmacogenomics Working Group (DPWG) and Clinical Pharmacogenetics Implementation Consortium (CPIC) dosing guidelines with a minor allele frequency higher than 0,1% in our population have been included. We have considered all the different genotypes according to the SNPs included and linked them to a phenotype and dossing recommendation according to CPIC/DPWG guidelines.
Our CDSS connects different drugs with available PGx test in our unit, showing which gene should be genotyped before prescription. It translates genotypes into phenotypes and also provides dosing recommendations once PGx results are received, according to the CPIC and/or DPWG guidelines. Nowadays, this system facilitates the workflow for the implementation of pharmacogenetic tests in our hospital.
We have developed a CDSS that manages PGx information facilitating the implementation of pharmacogenetics in daily clinical routine. It will also allow us to expand our services to other medical departments within our hospital.
Clinical Pharmacy Services
MAR GOMIS-PASTOR, ANNA DE DIOS LÓPEZ, MARIA ANTONIA MANGUES, MIRIAM ORS, MERITXELL CUCALA, CATERINA SANPOL, VICTOR ROBERT, XAVIER BORRAS, GEMMA CRAYWINCKEL
HTP are therapeutically complex patients who may benefit from an intensive telematic follow-up. Moreover, human relations among patients and health providers may be enhanced to improve patients’ empowerment with their health care. Additionally, interdisciplinary eHealth projects lead to increased interaction among health providers, expanding advanced patient-centered care in healthcare systems.
An eHealth program directed to heart transplant patients (HTP) was implemented. The software developed was called mHeart and consists on a mobile phone application complemented by a website(https://n9.cl/ajut). A pilot study to validate the software and a clinical trial were conducted. This tool is now extended into clinical practice.
This project and its potential scalability has achieved the creation of a well-established framework involving among relevant others the Legal Department, the Information Systems Department, the patient data protection supervisor, and the Innovation Research Institute.
The success and the scalability of these innovative projects in our centre depended on health providers’ engagement with eHealth, new interoperability solutions, adequate institutional support, and government reimbursement models.
The clinical trial conducted in 134HTP has demonstrated to improve recipients’ adherence to immunosuppressants (85% mHeart follow-up vs 46% conventional follow-up)[OR=6.7 (2.9;15.8),P-value=.000], to improve patients’ experience of therapeutic regimens and to reduce in-clinic facilities because the mHeart follow-up. (65% mHeart follow-up vs 35% conventional follow-up)[OR=3.4 (1.7;6.9),P-value=.001].
This eHealth experience has allowed continuing creating evidence on the use of the eHealth in other populations: an onco-hematological platform, EMMA(Ehealth Medical self-Management Aid), has been designed including diverse profiles depending on the clinical specifications (e.g. multiple myeloma or bone marrow transplant conditions); MyPlan has been adapted to perform an interdisciplinary follow-up of any multimorbid population with polypharmacy. Thus, the system can be used in any multimorbid patients by activating or omitting certain modules that define the target patients’ specific comorbidities (e.g. glycemia module or blood pressure module).
The new EMMA and MyPlan will be clinically tested in diverse trials in 2020 including several health care interdisciplinary teams, including the emergency setting, onco-hematology, migraine, dyslipidemia and cardiovascular risk, among relevant others. In addition, other Spanish centers are implementing the eHealth model and the software in their Institutions assisted by the experience gathered.
Patient Safety and Quality Assurance
Karina Doherty
VTE is a collective term for blood clots usually in the legs or lungs. In Europe, there are 544,000 VTE-related deaths every year. VTE is responsible for more deaths than AIDS, breast cancer, prostate cancer and motor vehicle accidents combined. SVPH Pharmacy Department has been conducting annual Clinical Audits on VTE prophylaxis using a paper based system. However, the process was time consuming and limited the frequency of audit and the opportunities for identifying opportunities for improvement in compliance. SVPH has a high number of patients with high risk of VTE including Medical Oncology patients and Surgical patients. Compliance rates over preceding years were running at 75%; however, it is hoped to achieve a target of 90% compliance by 2020.
An App was developed to collect data on venous thromboembolism (VTE) prophylaxis compliance across St Vincent’s Private Hospital (SVPH)
Different technologies were explored and an App developer was selected. Funding was sourced. Stakeholders were invited to get involved in the development team; this part was challenging and a lot of negotiations were had as to how the format of the App would be developed and carried forward. The next step when all the details had been finalised was launching the App.
Every month seven patients are randomly selected for audit and an auditor (in SVPH a pharmacist) inputs the data on the App which the lead auditor analysis. At SVPH compliance has increased from 75% prior to the app, to post implementation of the App where monthly VTE audits were conducted on all inpatient wards. The results are 92% compliance with VTE prophylaxis for 2018, and for 2019 up to Sept 2019 96% compliance.
It is hoped that this App will be a useful tool that will help SVPH and other hospitals to achieve a higher compliance with VTE prophylaxis guidelines and help prevent clots in patients. This App can be customised to individual hospital requirements. Technology has been shown to assist with clinical audit and will be used in various projects to make auditing easier and faster and therefore help healthcare workers to provide a better service to patients.
Introductory Statements and Governance
Eleni Rinaki, Marinos Petrongonas, Maria Fragiadaki, Leonidas Tzimis
MSs are a frequent problem in our hospital. In a study carried out in 2018, we investigated reported shortages during one year and found that 56% of cases of unsatisfied wards’ requests were due to failure of pharmacy’s procedures to restore availability. In 70% of these cases, time to re-stock was more than 4 days and strong involvement of HPs in following up and taking measures was required. The purpose of this tool is to bring together all relevant information of shortages, aiming to improve hospital pharmacy’s response as well as following-up MSs for further investigation or research.
A new software module in Hospital Information System (HIS) for monitoring medicines’ shortages (MSs) was conceived by hospital pharmacists (HPs), and it was designed, developed and integrated to the ICT system. This module helps HPs easily track which medicines were totally or partially substituted due to insufficient quantities and gives additional information (such as residual quantity of a medicine on prescription date, on inspection date, pending orders, known shortage) needed for managing MSs. In this tool, MSs and relevant information, such as causes, measures to re-stock and shortage’s impact, can be entered, centrally managed and regularly reported.
Implementation of the module in ICT system was made at zero cost by the ICT service provider, following technical specifications designed by HPs. The final product was multi-checked by HPs during development and all technical problems have been resolved accordingly.
• Quick intervention of HPs to restore medicines availability is feasible. • We can now have precise and easier follow up, with less human resources required. • MSs are collected, registered and easily utilised to draw conclusions. • HPs’ interventions to deal with MSs are easier to evaluate
ICT tools’ development is very important in facilitating hospital pharmacy’s practice, especially when human recourses are restricted. These software modules can be easily incorporated in every HIS. Pharmacists are competent and should have a central role in designing such tools. We are planning to evaluate our new MSs management procedure; in the long run, incorporating in this tool a risk assessment algorithm will be an asset.
Patient Safety and Quality Assurance
Anthony Hackett, Alice Oborne, Emma Ritchie, Caroline Broadbent, Rebecca Chanda, Karen Breen
Anticoagulants such as UFH are recognised as high risk drugs. UFH requires frequent monitoring of the activated partial thromboplastic time ratio (APTTr), ensuring therapeutic anticoagulation and minimising adverse effects. UFH infusions and the APTTr were recorded using a paper based system. Incident reporting identified by the paper system resulted in inappropriate monitoring and management of UFH infusions, and dose omissions which could have resulted in harm.
A Trust-wide electronic prescribing and medicines administration (EPMA) system was implemented in 2015. Complex infusions, e.g. unfractionated heparin (UFH) infusions, remained on paper due to EPMA functionality limitations. The complex infusion function was added into later EPMA upgrades. A multidisciplinary team (MDT) involving nursing, medical and pharmacy staff working within anticoagulation, EPMA and medication safety sought to design UFH infusions in EPMA.
Baseline audit (Paper-March 2016): Patients prescribed UFH infusions (n=14) were identified using SharePoint (e-reporting) by searching for the UFH infusion placeholder. Performance was measured against eight audit standards.
Re-audit (EPMA-March 2019): Patients prescribed UFH infusions (n=26) were identified using SharePoint by searching for those prescribed a UFH infusion on EPMA. Performance was measured against the same eight audit standards.
Chi square applied to results to test for statistical significance.
Incident rate per prescription: The Datix system was searched to identify heparin incidents reported during the data collection periods.
Audit standard 2016 audit v 2019 audit
1-Baseline APTTr checked before starting infusion 93% v 100%, p=0.1
2-Received correct loading dose of heparin based on APTTr 79% v 96%, p=0.07
3-APTTr checked 6 hours after infusion started 72% v 100%, p<0.05
4-APTTr checked 6 hours after infusion titrations 86% v 96%, p=0.2
5-APTTr in target range within 24 hours 50% v 70%, p=0.2
6-APTTr checked 24 hourly after 2 consecutive APTTr’s in range 100% v 100%=no change
7-Patient receives a medical review 24 hrly 65% v 100%, p<0.05
8-Heparin syringe and giving set changed 24 hrly 65% v 100%, p<0.05
UFH related incidents reduced from one incident per 1.6 infusions, to one incident per 6.5 infusions following the implementation of an EPMA system.
UFH incidents as a proportion of all anticoagulant incidents reduced from 43% (March-2016) to 20% (March-2019).
Electronic solution’s for high-risk, complex infusions such as heparin prescribing and monitoring improved care, quality and safety. Further high-risk infusions such as insulin are being developed
Clinical Pharmacy Services
Stine Ulsø, Hilde Omestad, Susanne Weng Rømer, Sisse Emilie Mejsner, Mads Nielsen, Jesper Heltoft-Christensen
The existing solution, established in 2001, was running on an insecure platform, the system was expensive to maintain and changes difficult and slow to implement. The need for an update led to a change of supplier, hosting and platform.
A new database was developed for documentation and quality assurance of drug related queries received by hospital pharmacies in Denmark. The information in the database is shared across all hospital pharmacies in Denmark and is an important tool for the Medicines Information Centers located there. Existing queries were transferred from the old to the new database.
A working group was established consisting of three pharmacists and superusers from three different hospital pharmacies, one project manager employed by the sponsor (Amgros) and two developers employed by the new supplier (Progressive). The project was structured using monthly physical meetings and ad hoc video conference meetings. The work tasks in the development process were divided and carried out in two-week sprints by the developers and subsequently tested and validated by the pharmacists. All participants agreed to a periodic heavy workload and showed great flexibility. The close and frequent collaboration between all members affected the teamwork in a positive way, hence the group was motivated and managed to agree on common solutions and compromises despite different database usage and different locations.
A new, stable and more intuitive database was developed in only 5 months due to the structured and flexible way of working and a close motivated teamwork. The database was taken into use from one day to another and quickly adapted. Since the development several hospital pharmacies have increased their use of the database. The amount of information shared nationally has improved.
The initiative resulted in a useful tool implemented within a short time. The way of working intensively and focused with physical meetings and video conferences made a good basis to succeed. Especially the sprint cycles can be used in different healthcare settings involving different projects.
