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.
Patient Safety and Quality Assurance
Easter Mark
Medicines storage was low tech in a new high tech Private Finance Initiative (PFI) hospital and security was operationally heavy on nursing teams. The trust was on a journey to Electronic Patient Records (EPR). What was needed was a solution that bought both challenges together – how we implement improved medicines storage that fully leverage the power of a hospital EPR system.
Trust-wide implementation of Automated Dispensing Systems, initially to drive safer and legislative compliance with storage. Since implementation, we have improved management of medicines during shortages, taken waste out of operational delivery around supply of medicines, informed teams around medicines safety during heat waves, and we are on a journey to closed loop medicines administration.
A business case recognising the reputational impact of poor Care Quality Commission (CQC) assessment of security, nurse led audit work recognising the impact of medicines handling on Time to Care and recruiting enthusiasts to support the programme.
All wards and departments have automated dispensing systems for medication storage – 72 units, including two in pharmacy for controlled drugs and after-hours support.
Medication Safety officer (MSO) used live view to track high risk medicines throughout Covid-19 and beyond. Never missed a dose of high risk medicines by utilising this technology over the Covid period.
Temperature monitoring gives an overview of real time temperature of all stock areas to support informed decision-making during hot and warm weather. Digital ordering by automated dispensing systems has reduced nurse time handling medicines by using pharmacy team time saved from ordering medicines redeployed to fill cabinets instead of nurses.
Increasing breadth of stock holding as top up thrice or more weekly rather than just weekly across Trust.
Planning benefits of integrating a robot dispensing system and hospital information system next spring. Robotic storage supporting real-time medicines management from stock to temperature all with enhanced security and removes process waste from process especially when combined with other digital initiatives. Trust Go-Live with Cerner in spring 2023 and use of cabinets to support closed loop administration.
Clinical Pharmacy Services
Cathrine Noergaard Peulicke, Michelle Lyndgaard Nielsen
The process of building a new hospital has led to development and rethinking the drug concept. At the hospital we always have “the patient first” in mind. This is our codex. That is why we are changing the concept for delivery, dispensing and administration of medication. We wanted to ensure that the concept functioned from a patient safety perspective, patient flow perspective, patient involvement perspective, professional development perspective and perspective of a healthy operation. The vision is the right medication, from the right hand at the right time.
At the new hospital, the medication logistics will undergo major changes. There will only be medication for acute use at the wards, the rest will be delivered ready-to-use from the main pharmacy or from a decentralised unit, called Pharmaservice. Here IV-solutions with short expiration are being reconstituted and oral solutions are dosed according to the prescription. Tablets and capsules are dispensed in the multi-dose robot at the main pharmacy. The multi-dose medication is equipped with a bar code which is scanned at administration and full electronic documentation is obtained. The majority of the medication will be dispensed daily for 24 hours and delivered in boxes for each patient to the wards.
In order to ease the transformation, we have built a mock up of a Pharmaservice unit where this set-up is enrolled to all inpatient wards in the hospital on the geriatric ward, children’s ward and gynaecology and obstetrics ward.
A steering group was founded and membered by managers from the involved wards including the hospital Pharmacy. Frequent meetings with the involved wards has been necessary to ensure competences and communication. Post-implementation we are closely evaluating the initiative.
Patient safety is in focus and with the multi-dose dispensing robot we have achieved full electronic documentation from the prescription, dispensing and administration process, and thereby have reached closed loop medication.
Having implemented the initiative on three wards, we are now working on enrolling this to the entire new hospital when it is ready in 2024. At the new hospital, we will have five Pharmaservice units servicing all inpatient wards.
Selection, Procurement and Distribution
Ariadna Martin Torrente , Itziar Palacios Zabalza, María Olatz Ibarra Barrueta, Maialen Palacios Filardo, Garazi Miron Elorriaga
To optimise the functioning and the management of the procedures and an accessible and effective communication system in the PS. Moreover, the quality of the shipment is guaranteed all the time. The development of a circuit has allowed being faster and more efficient during its preparation than before.
Establishing the circuit of execution, preparation, distribution, and delivery of medicine to Non-Governmental Organisations (NGO) from the Pharmaceutical Service (PS) of a tertiary hospital in the Basque Country (Spain). The circuit has been designed taking into account the criteria in a context of humanitarian donations, published and updated by the Spanish Agency of Drugs and Sanitary Products (AEMPS) on 16 March 2022
Since it has been included in the daily activity of the service it has cause and increase its amount of work, hence, daily routine tasks have been slowed down, given the increase of petitions the hospital has had during last year. However, its creation has allowed being faster and more efficient during its preparation.
The circuit begins with the request of NGO, which has to be authorised by the hospital’s directory. Then, in the procedure participate pharmacists; pharmacy technicians and office clerks who prepare the donation rely on the personalised list that the donation has created. Once, the necessary documents are filled out and they are sent to the AEMPS.
From November 2021 to September 2022, 7 donations have been carried out; these contained 100 active ingredients, concretely 15.198 units. We could find most of them in the WHO model lists of essential medicines. The NGO’s destinations have been Guatemala, Romania, Ukraine and Senegal. The medications sent most according to the ATC classification were 21% anti-infective medicines, 17% cardiovascular, 13% nervous system, 12% systemic hormonal preparations and 3% alimentary tract and metabolism.
The project is easily enforceable in any Spanish PS that is willing to process a donation at any given occasion. Some of our ideas for the future are the creation of a standard list including common medications, avoiding personalised lists, in addition to connect it to our internal programme to be faster when preparing the donation.
Clinical Pharmacy Services
Due to the COVID-19 lockdown, many patients could not attend to hospital pharmacy for medication supply. To ensure treatment effectiveness, tolerance and therapeutic adherence, we developed this new model of medication dispensing as well as additional routes of patient follow-up, such as the use of mobile Health (mHealth).
In 2024/03 we started to approach hospital medication (mainly onco-haematology oral treatments, subcutaneous monoclonal antibodies and clotting factors) to the patient’s home. We developed an alternative model of medication supply through the collaboration with community pharmacies (CPs) and a logistics partner.
The collaboration with CPs was coordinated by the Barcelona College of Pharmacists, who developed a new digital platform to manage and track delivery orders. A pharmaceutical wholesaler delivered these medications to CPs in 48–72 hours. In case of requiring a faster dispensation, we used a logistics operator which guaranteed a delivery time to the patient’s home of 24 hours.
Considering that our hospital pharmacy attends more than 8,000 patients, we prioritised this service to those with a complex socio-functional situation or who lived far from the hospital.
Pharmacy technicians were the key managers in this process. Through a telephone interview, they detected possible medication related problems (adverse effects, administration errors, inadequate dose/route of administration/duration of therapy and lack of treatment adherence). They also checked for in-person medical appointments that could justify dispensing direct to the patient. If any incident was detected, the technician referred the case to the pharmacist for further assessment and resolution.
Additionally, for some health conditions (heart transplant, colorectal and breast cancer, haematopoietic stem cell transplant, chronic migraine or HIV infection), we developed a mHealth programme in which patients were empowered by using a smartphone and tablet app to promote self-care management and contact with their healthcare professionals.
In 2020, 4,793 shipments were made to 1,814 patients. This meant 12.4% of the total hospital pharmacy dispensations (N=38,527). Of these shipments, 61.0% went to CPs and 39.0% to patients at home. In 2021, there were 4,171 shipments to 1,248 patients, 90.0% of which were sent to CF, which implies a decrease of the shipments of 12.9% compared to the previous year.
In our setting, mean time of virtual dispensing was 10 minutes versus 3 minutes of in-person dispensing. This additional time was due to the preparation of drug shipments and tracked delivery orders. The assessment of this model was positive for both patients and pharmacy staff. However, it was not exempt from some incidents, such as delivery delays or errors in package identification.
As for telepharmacy follow-up, 257 patients are using mHealth applications. In 2021, they performed 4,387 consultations with the pharmaceutical team.
The COVID-19 pandemic forced us to rethink the care model for outpatient care in hospital pharmacy services. Our assessment is positive and we believe that this model should continue in the future for a selected group of patients.
Selection, Procurement and Distribution
Marinos Petrongonas, Maria Fragiadaki, Eleni Rinaki, Leonidas Tzimis
HPs were facing challenges related to:
• Stuff shortages in a high risk environment with increasing uncertainty
• Implementation of Directive 2001/83/EC on Falsified Medicines; deadline for Greece is 2025
• Medicines’ shortages for which optimal inventory management procedures are needed • Patient safety and quality of pharmaceutical services: quality assurance processes, medicines’ traceability, monitoring expiration dates and respond-time to ward’s requests
During the last 2 years, hospital pharmacists (HPs) actively participated in the supply, installation and functional integration of the first Automated (Robotic) Dispensing System (ADS) in Greece, in Chania General Hospital (CGH). It is a centralised distribution system installed in the pharmacy department which receives, stores and distributes packages of medicines.
It has a storage capacity of approximately 20,000 packages, including one robotic arm, three distribution exits, two loading ways (semi- and fully-automated), with software comprised. Speeds range from 200 to 900 for loading and 350 to 760 packages/hour for unloading. Under HPs’ direction, medicine management procedures were modified to ensure ADS’ functionality.
Since Pharmacy department of CGH was the first to install an ADS, a new route had to be inaugurated, concerning how HPs:
• Developed the proposal
• Documented and justified such a supply to be prioritised in funding
• Performed market research in Europe, as no such national market existed
• Drafted technical specifications, to assure the best system supplied
• Participated in an international tendering procedure (budget 130,000 euros)
• Planned and supervised installation and functional integration of the system
• Managed interoperability between ADS’ software and the pharmacy’s Information System
• Faced issues related to different barcodes on medicines’ packages
After 3 months of use:
• 50% of medicines’ codes and 35% of total packages are dispensed with ADS monthly
• 1.4 full-time pharmacy assistants equivalent is saved
• Response time to requests decreased
• Traceability and quality are better assured
• Falsified medicines’ check can run automatically
• Storage space is saved
HPs are ready to share nationally and internationally their experience in developing and installing an ADS with colleagues interested in adopting similar solutions. Hospitals from the same region have already shown their interest.
Patient Safety and Quality Assurance
Hind Bouami, Dorine Castillo
The human-machine system designer has to make decisions to secure and improve the automation process, and handle organization’s complexity. Documenting human agent’s situation awareness is crucial to support human-machine designers’ decision-making. Knowledge about risks, critical parameters and factors that can impact and threaten automation system’s performance and security are valuable for human agents, and should be collected using preventive and retrospective approaches.The evaluation of Macon hospital center’s automation performance enables to identify critical parameters to control in order to secure the human-machine system.
An automation evaluation approach has been conducted in Macon hospital center, a hospital equipped with automated drug dispensing solutions for more than 5 years. The analysis of Macon hospital center automation’s feedback provides relevant information to enhance the perception and the comprehension of the system’s complexity fully, environmental factors that interact with the system, and to identify critical parameters in the automation process. Therefore, agents can design a projection of a secure and performant automated organization. This information will enable hospitals to make effective decisions to improve their automation project performance.
We deployed an anthropocentric approach for automated system evaluation in Macon hospital center.
Our approach integrates six steps that are run in automated hospital pharmacies to analyze their feedback [6]:
1) The identification of pharmacy’s automation needs and objectives, and the analysis of operational environment and existing equipment,
2) The analysis of automated equipment functional specifications formalized by the pharmacy,
3) The evaluation of automation deployment results and related gains,
4) The evaluation of specific actions implemented by the pharmacy during automation process,
5) The analysis of the parameters to control for automated equipment integration security and performance,
6) The analysis of factors influencing human-machine interaction.
The analysis of Macon hospital center pharmacy’s automation specifications revealed that 66.22% of automation requirements are technical, 29.73% concern human-machine interaction, and 4.05% relate to human aspects.
80.95% of automation specification related to the chosen Sinteco’s automated solution are met. The performance of the chosen automated solution is involved in 28.38% of automation specifications performance in Macon hospital center. The remaining systemic parameters involved in automation specifications performance need to be controlled.
Critical systemic parameters involved in automated solutions specifications and performance that have been identified through Macon hospital’s automation feedback are: the specificities of the chosen automated solution, hospital’s strategic decisions and budgetary constraints, the complexity of the hospital’s organization, the complexity of hospital’s information system, the constraints related to the packaging of drugs by pharmaceutical firms, users training, the complexity of the automated system, and users’ requirements and constraints.
The five parameters influencing human-machine interaction that should be managed to secure automated systems are: understanding the system’s complexity, defining relevant levels of automation, determining human and automated agents’ authority, determining human and automated agents’ autonomy, and understanding the human complexity.
Handling life-critical systems complexity such as medication delivery activity requires to be equipped with appropriate technology, and to control automation risks. The integration of human-machine principles is crucial to secure automation in hospitals, and to maintain a good balance between automation and human skills.
Selection, Procurement and Distribution
The aim of the study is to assess the crisis impact on the consumption of pharmaceutical products in the intensive care unit in order to estimate, rationalize the need and prevent supply problems.
Due to Covid-19 pandemic and its major economic impact, we carried out a comparative study of the consumption of pharmaceutical products in the intensive care unit before and during the crisis.
A list of pharmaceutical products to be evaluated has been established beforehand. The choice was made for the products most used in intensive care units in accordance with the recommendations of COVID management. The list includes drugs and medical devices.
In order to compare the consumption of these products in terms of quantity and cost, data collection was carried out over two periods, each of 6 months, before and during the crisis in Tunisia. The first from January 1st, 2019 to June 30th, 2019, the second from January 1st, 2021 to June 30th, 2021.
As a result of this assessment, it was possible to quantify the increase in several drugs and medical devices. It led us to:
-modulate our supply of these products
-take rationalization measures in cooperation with doctors
-develop management protocols according to the recommendations and available products
– close monitoring of prescriptions and compliance with protocols in order to optimize consumption, avoid any abuse and limit breaks as much as possible.
Tab. Variation of consumption and cost
Product Consumption2019 Consumption2021 Variation factor of the consumption Variation factor of the cost
Hypnotic curares 25 170 6.8 8.1
Antithrombotics 647 2286 3.5 8.1
Antibiotics 932 4060 4.4 11.2
Fluconazole 240 378 1.6 1.9
Dexamethasone 845 1268 1.5 2.0
Isolation gown 740 6925 9.4 7.8
Masks 6100 13300 2.2 2.2
hydroalcoholic products 123 217 1.8 1.8
A generalization of the drafting and updating of the protocols concerning the management and the dispensing is programmed for all the other departments which will be validated by the therapeutic committee and the antibiotics committee.
Clinical Pharmacy Services
QUERALT LOPEZ NOGUERA, ÀNGELA CASTELLÓ NÒRIA, CRISTINA DIEZ VALLEJO, LAURA VIÑAS SAGUÉ, MARTA COMA PUNSET, SILVIA CABARROCAS DURAN, MIREIA VILA CURRIUS, ANNA DORDÀ BENITO, EDUARDO TEJEDOR TEJADA, CRISTINA TORO BLANCH, ROSA NURIA ALEIXANDRE CERAROLS, ROSA SACREST GÜELL
The declaration of the state of emergency by SARS-CoV-2 pandemic on March of 2020 had an impact on hospital PC.
During that period, it was advised by Healthcare Authorisations to minimize the risk of infection or spread of SARS-CoV-2 in order to protect vulnerable groups. For that reason, it was not recommended to assist in the hospital if it was not necessary. This fact caused some organizational changes in OPC to adapt to the current situation.
Our hospital Pharmacy Department created a telepharmacy service in outpatient’s pharmaceutical consultation (OPC) after state of emergency declaration by SARS-CoV-2. We created a standard operating procedure working together with communitarian pharmacists and the Region Pharmacist’s College. The main aim was to ensure pharmaceutical care (PC) quality in vulnerable patients and the correct medication distribution and conservation. Pharmaceutical care was developed by telephone call and medication was send to communitarian pharmacy.
A comprehensive analysis was made to concern the impact on drugs delivery selecting certified distribution company which ensured drug traceability, custody and conservation.
In 2020, approximately 60 patients per day used to attend in OPC. According to the large number of patients, we defined which patients could take advantage of this programme. The selection criteria were adherent patients with pulmonary pathologies (cystic fibrosis, asthma, bronchiectasis, etc.), multiple sclerosis, amyotrophic lateral sclerosis, reduced mobility or patients over 65 years old who lived in more than 30km closed to the hospital or without any family member that could come.
In order to ensure the process traceability, an informatics tool has been created by Region Pharmacist’s College. Pharmacy Department, community pharmacy and the distribution company assumed all expenses.
369 of 2.346 patients were included in our telepharmacy service during the state of emergency. There was high level of acceptance by all patients. Only low-risk patients or patients who had an on-site doctor visit were attends in OPC. Nowadays, 196 patients still benefit from the initiative.
Telepharmacy program avoids patient’s displacements that are particularly susceptible to COVID-19 negatives effects. Moreover, it guarantees PC quality, patient’s adherence, process traceability and correct medication conservation from hospital to patient’s home.
Clinical Pharmacy Services
Miguel Angel Carvajal-Sanchez, Josefa Leon-Villar, Pilar Pacheco-Lopez, Javier Ibañez-Caturla, Paula Torrano-Belmonte, Lydia Fructuoso-Gonzalez, Juan Antonio Gutierrez-Sanchez, Maria Hernandez-Sanchez
In recent years, we have witnessed a significant increase in the number of thermolabile pharmaceutical specialities, which makes it necessary to keep strict control of the storage temperature from manufacture to administration.
In this context, patient education is a fundamental step in ensuring that these medicines are administered effectively and safely.
A study was carried out to determine the quality of the information provided by Hospital Pharmacy Service (HPS) professionals to patients regarding the storage of thermolabile medicines (TM) at home.
After analysing the variability of the results, we established in a protocolised manner the necessary and sufficient information items to be included in the pharmaceutical advice to patients regarding the storage of this type of medicines.
A random selection of 28 HPS professionals (13 nurses, 10 specialist pharmacists and 5 resident pharmacists) was made. Each participant, in isolation and individually, made a selection of criteria to be contained in the patient information regarding the transport and storage of TM.
The results obtained were:
General information:
o Informing that it is a TM: 89.28%.
o Telephone number for incidents: 10.71%.
o Keep out of the reach of children: 3.57%.
o Return if discontinuation of treatment: 3.57%.
Storage:
o Specify location in refrigerator: door/indoor distinction 28.57%; Avoid contact with walls: 28.57%; specific place in refrigerator 3.57%.
o Do not store next to food: 17.85%.
o Refrigerator/freezer distinction: 10.71%.
Transport:
o Recommendations for correct transport: 50%.
o Time elapsed from dispensing to refrigerator storage: 39.29%.
Administration:
o Tempering prior to administration (when necessary): 39.28%.
o Visual inspection: 7.14%.
o Check expiry date: 7.14%.
o Frecuency of administration: 3.57%.
Completion, standardisation and systematisation of the provision of information to patients on TM.
Training sessions will be given to all HPS professionals involved, including new recruits and pharmacy assistants. This is an initiative applicable to all HPS.
Selection, Procurement and Distribution
Louise Refsgaard, Linda Skovsted, Nina Bøggild
The medical supply vending machines were implemented during 2021 as a way of direct-to-patient distribution of medicine with more flexibility. The aim was to offer 24-hour access to collect medicine at a location that suits the patient, e.g. close to the patient’s home.
Medical supply vending machines were implemented in the Capital Region of Denmark. The vending machines allow patients to collect their medicine whenever and wherever it suits them. It is the patient’s healthcare professional that controls and orders the medicine. The hospital pharmacy staff consults the prescription and labels, dispenses and records the medicine and places it in the vending machine for collection.
Patient and staff satisfaction was surveyed.
The implementation of this new direct-to-patient distribution method was carried out by the Capital Region Hospital Pharmacy in close collaboration with the region’s hospitals and outpatient departments. Installing the machines was fast but a full implementation requires that the clinical staff rethink their practice and accept that dispensing is no longer their responsibility. This has been the biggest obstacle along with creating patient safe procedures.
7 medical supply vending machines were installed centrally in hospitals in the Capital Region of Denmark. The machines are now used to distribute medicine to some of the region’s outpatients.
The patient satisfaction survey showed that the patients are very satisfied with the vending machines: 100 % are either ‘highly satisfied’ (86 %) or ‘satisfied’ (14 %) with the new service, and 97 % would like to use it again. The staff was also satisfied with the new service.
Additionally, the quality of medicine dispensing is increased due to hospital pharmacy staff dispensing the medicine rather than nurses.
In order to offer flexibility to patients and increase the quality of dispensing of medicine, we aim to increase the number of patients that collect their medicine from the vending machines by using the current machines in their full capacity and installing more machines. We also aim to collaborate with Denmark’s other 4 regions, so that patients, who are treated outside their home region, can collect their medicine in a vending machine closer to their home.
