Veterinary Clinical Skills. Группа авторов
Читать онлайн книгу.only 70% felt prepared to enter practice (Schull et al., 2011). Feedback from faculty and staff may also be helpful to identify specific skills that require attention. For example, a University of Minnesota in‐house survey of technicians, interns, and residents identified student challenges with animal restraint and venipuncture (Malone, 2019).
Societal and Professional Needs
The needs of clients, as well as employers, should be considered when designing a clinical skills curriculum. For example, it was shown that the majority of veterinary clients viewed technical skills (such as prioritizing patients according to illness or injury, collecting blood samples, performing a preliminary examination of an animal on admission, assisting with physical therapy techniques and making radiographs) together with emotional intelligence and professional attributes, important in the clinical practice of veterinary technology graduates with whom they interacted in the veterinary practice setting (Clarke et al., 2015). Client interviews showed that clients attached importance to graduates demonstrating professional competence, and it was therefore concluded that data such as this is useful in the design of a professional and market‐driven veterinary technology curriculum (Clarke et al., 2015).
Veterinary students are licensed to practice unsupervised directly after graduation and therefore should be graduating with the knowledge and skills required to meet professional and societal demands (Greenfield et al., 2004). However, as described under student needs, many graduates do not have confidence in their own skills and abilities, which is also recognized by employers (Greenfield et al., 1997; Prescott et al., 2002; Lavictoire, 2003). In the review by Malone (2019), she described a collaboration between Banfield® Pet Hospitals and the University of Minnesota to identify challenges that were encountered among the 800 new small animal graduates hired each year. The survey identified surgery, dental skills, catheter placement, and venipuncture as being “critical barriers” to the success of the new graduates, leading to decreased confidence and productivity along with medical errors and increased stress to the entire team.
Lastly, Duijn et al. (2020) used entrustable professional activities (EPAs) to evaluate graduate readiness for practice. An EPA is defined as “an essential task of a discipline (profession, specialty or subspecialty) that an individual can be trusted to perform without direct supervision in a given health care context once sufficient competence has been demonstrated” (ten Cate, 2005). Duijn et al. (2020) identified five EPAs they believed were core educational objectives for veterinary curricula and surveyed new graduates regarding their readiness to perform these EPAs, including the degree of supervision they required. They found that, on average, it took graduates approximately six months until they felt ready to execute all five EPAs with distant supervision. Only after 10 months did participants feel fully competent to execute EPAs unsupervised. The authors noted that these results suggest the expectations of graduate performance may need to be nuanced but also the importance of adequate preparation of veterinarians during their education and the importance of guidance during early career to foster a successful transition from veterinary school to clinical practice. Clinical coaching of veterinary nursing students in practice is well established in certain parts of the world, but this could also be extended to veterinary nurses at the beginning of their careers to help navigating the new work environment and adapt to new situations (Kerrigan, 2018).
Accreditation Needs
There are a number of veterinary accrediting agencies worldwide, including the American Veterinary Medical Association's Council on Education (AVMA COE), the Royal College of Veterinary Surgeons (RCVS), European Association of Establishments for Veterinary Education (EAEVE), and the Australasian Veterinary Board Council (AVBC). There is significant harmonization of accreditation standards among these organizations, with each recognizing the importance of clinical skills development within the curriculum. More specifically, Standard 9 (Curriculum) of the AVMA COE requirements states the “Curriculum must provide… instruction in both the theory and practice of medicine and surgery applicable to a broad range of species. The instruction must include principles and hands‐on experiences in physical and laboratory diagnostic methods and interpretation (including diagnostic imaging, diagnostic pathology, and necropsy), disease prevention, biosecurity, therapeutic intervention (including surgery), and patient management and care (including intensive care, emergency medicine and isolation procedures) involving clinical diseases of individual animals and populations” (AVMA, 2017).
Additionally, Standard 11 (Outcomes Assessment) states “The college must have processes in place whereby students are observed and assessed formatively and summatively” on nine competencies, the majority of which include clinical skills requirements (e.g., comprehensive patient diagnosis, anesthesia, basic surgical skills, basic medicine skills, emergency and intensive care management, communication skills) (AVMA, 2017). The standard also requires colleges and schools to provide evidence of timely documentation to assure accuracy of the assessment for having attained these competencies.
Step 2: Determining and Prioritizing Content
Before a decision can be made regarding which clinical skills can, and should, be included in the curriculum, there must be a common understanding among the people involved in its implementation as to what constitutes a clinical skill in their context. For example, one study used a Delphi process and showed a marked variation between participants (British doctors involved in teaching) as to what this term meant, ranging from simple physical examination skills to include other diagnostic, communication, and practical skills (Michels et al., 2012). They concluded that acquiring clinical skills involved three components: learning how to perform certain movements (procedural knowledge), why one should do so (underlying basic and medical science knowledge or declarative knowledge), and what the findings might mean (clinical reasoning); and that these three components should be taken into account during instructional design.
Once a decision has been made as to what constitutes the range of clinical skills required for veterinary and/or veterinary nursing students to be taught in the program, the specific skills should be identified and prioritized. This may be easier said than done, as although clinical skill training is an integral part of all veterinary curricula, the specific skills that are required and how they are taught has been the subject of much debate (Malone, 2019). This is particularly the case when veterinary programs become overloaded as more and more content is added, requiring specific decisions to be made regarding the clinical skills content, as well as when and how they are taught (Malone, 2019).
Generation of a prioritized, Day‐One skills list will help focus both program and student efforts on core skills, with potential additional lists that may be taught to a smaller cohort of students for colleges or schools with a tracking curriculum. These lists could be adopted from those published in the literature, and potentially modified by local practitioner input to account for regional differences (Greenfield et al., 1997). Published skills lists for veterinary students exist for general Day‐One practice (Greenfield et al., 1997; Doucet and Vrins, 2009; Rush et al., 2011; Schull et al., 2011; Read and Hecker, 2013; Dilly et al., 2014; May, 2015; Kreisler et al., 2019; Malone, 2019), a variety of career paths, including those focused on small animals (Clark et al., 2002; Greenfield et al., 2004; Greenfield et al., 2005; O'Neil et al., 2014), horses (Hubbell et al., 2008; Christensen and Danielsen, 2016), and cattle (Morin et al., 2002a; Morin et al., 2002b; Miller et al., 2004; Luby et al., 2013), as well as lists focused on specific fields such as surgery (Johnson et al., 1993; Bowlt et al., 2011; Hill et al., 2012; Smeak et al., 2012; Schnabel et al., 2013; Carroll et al., 2016; Zeugschmidt et al., 2016; Cosford et al., 2019), dentistry (Thomson et al., 2019), or theriogenology (Root Kustritz et al., 2006). Additional resources may include those skills required by accrediting agencies (e.g. the AVMA COE's 9 clinical competencies), internal surveys of faculty, and Day‐One skills lists shared by other colleges (Morin et al., 2020). For veterinary nursing students, Day‐One competencies lists have been published by the Royal College of Veterinary Surgeons, the Veterinary Nursing Council of Australia, and the South African Veterinary Council (RCVS 2015; VNCA 2019; SAVC 2020).
Care must be taken to prioritize these lists, as they can quickly become exhaustive, and thereby both unattainable and confusing