Standard number 11 of the 2006 ACPE Standards and Guidelines for the Professional Program in Pharmacy Leading to the Doctor of Pharmacy Degree states that “the pharmacy school must use and integrate teaching and learning methods that produce graduates who become competent pharmacists by fostering the development and maturation of critical thinking and problem skills.” The Standards also go on to say that “the pharmacy school must enable students to transition from dependent to active, self-directed lifelong learners.” This lofty goal is easier said than done, and I am not entirely convinced that the majority of pharmacy school curriculums enable students to achieve these objectives upon graduation.
My school of pharmacy implemented early (i.e. pre-P4) experiential learning into its curriculum after the 2006 Standards were published. As such, I participated in both introductory and intermediate pharmacy practice experiences during the summers after my P1 and P2 years in addition to P4 advanced pharmacy practice rotations (APPEs). During the school year, most learning was passive via didactic lectures and, in some cases, active through laboratory experiences and discussions. Looking back, it seems as though I grew as a professional and as a learner at an exponential rate during my P4 APPEs, compared to the rather modest growth in the first few years of professional schooling. My capacity to learn and apply resembles a J-curve, with a significant upswing towards the end of my student years. However, now that I have the ability to look at pharmacy education from a bird’s eye view, I must say that I would have preferred my learning curve to resemble first-order kinetics during those years; with a steady, progressive increase that would have allowed me to build upon my prior knowledge and learn how to problem solve and critically think through problems early on, rather than just retaining factual knowledge and finally having a number of “a-ha!” moments at the end of my student career when everything suddenly fell into place.
So, the question is, how can first-order learning be promoted? First, we must identify the barriers. Passive learning techniques employed in the didactic portion of the Pharm.D. program provide limited opportunity for the development of problem solving and critical thinking skills. This obstacle is mainly due to the factual nature and the sheer volume of information that pharmacy students must learn in order to create a substantial knowledge base. A student can manage to pass via “cramming” and regurgitating the information on an exam, but this method of retention (because it is clearly not learning) benefits neither the learner nor his/her future patients. Additionally, factual information, especially in the field of pharmacy, changes from year to year. Taking this into account, treatment guidelines learned in the P1 year may not be applicable by the time the student reaches APPE rotations. Thus, honing the skills of critical thinking and problem solving is absolutely necessary to prepare the student pharmacist for independent practice and satisfactory patient care.
Active learning is a more effective learning method for long term retention. This method of learning includes discussion, practicing by doing, and teaching others. Experiential learning is employed in many healthcare professions to prepare the student for independent practice, pharmacy included. However, pharmacy experiential learning comes much later in the student pharmacist education as compared to other healthcare professions, and the experiential learning we do get early on is sparse and, in my experience, not fully maximized. Students of dentistry, optometry, medicine, and physical therapy all have active, hands-on learning placed very early on in their curricula. As such, by the time these students graduate, they have a strong fundamental, and, more importantly, applicable, knowledge base. Individuals in these professions are well-equipped upon graduation to walk into a real-life setting, given that they have been in the setting as an apprentice for years.
A potential solution for student pharmacists is to incorporate weekly practice experience starting in the first few days of the Pharm.D. curriculum. This integration would allow the student to apply facts learned in the classroom to a real situation, thus enabling him or her to critically think, problem solve, and retain the information in a different way than strictly classroom-based learning allows. Weekly practice experiences may not be feasible due to course load. Thus, another solution, which is employed at a number of pharmacy schools, is co-operative experiential learning, wherein the student pharmacist alternates classroom learning and experiential training from one semester to the next. The experiential training, of course, must be coordinated with the classroom learning of the student. My school’s current format that consists of IPPEs and APPEs could be maximized by ensuring that preceptors have a better understanding about their responsibility to the pharmacy student and to their profession.
It is clear that pharmacy education lags behind other professions in its active learning experiences. Pharmacists need to be exposed to real-life situations earlier in their careers in order to meet the ACPE Standard that encourages the development of critical thinking and problem solving capabilities in the Pharm.D. curriculum. Through active learning techniques, student pharmacists will be able to retain knowledge and create for themselves usable, applicable databases that will serve to improve their clinical abilities as practitioners and, additionally, encourage the pursuit of lifelong learning.
DiPiro JT. Making the most of pharmacy school. Am J Pharm Educ 2008; 72(1) Article 15.