The perceived importance of anatomy and neuroanatomy in the practice of speech-language pathology

A Know-Brainer: The Power of Cadaver-Based Instruction to Teach Clinical Neuroanatomy

PURPOSE

Learning experiences that incorporate cadaver prosection or dissection of the brain have shown to enhance the acquisition and retention of neuroanatomy and improve standardized examination scores when included within medical curriculum. However, the role of cadaver-based instruction within allied health fields, and particularly in the field of communication sciences and disorders (CSD), remains limited and less understood.

METHOD

The effectiveness of a cadaver-based lab compared to lecture to teach neuroanatomy within an undergraduate/postbaccalaureate clinical neuroscience course for CSD majors was explored within a crossover design. Fifty-four participants were stratified by class rank between two initial training sessions: lab-first versus lecture-first. Neuroanatomical knowledge was tested via labeling tasks at baseline, after the first allocated training, and at 1-week follow-up after crossover training had been completed.

RESULTS

Both cohorts demonstrated significant gains in neuroanatomical knowledge following training, yet after the initial training session, students that received cadaver-based instruction produced a significantly greater number (p < .001) and more accurate (p < .001) anatomical labels than students that received lecture. After completion of the crossover design, students receiving cadaver-based instruction prior to lecture continued to demonstrate superior labeling accuracy at follow-up testing (p = .022).

CONCLUSIONS

Cadaver-based instruction was more effective in improving students' ability to identify neuroanatomy compared to lecture for CSD students. Interestingly, cadaver-based demonstrations were also most effective in bolstering students' retention of structural knowledge when conducted before, instead of after, a lecture. Clinical training programs, specifically student learning outcomes, benefit from cadaver-based instruction that provides both three-dimensional orientation and a deep appreciation of the human elements of clinical anatomy. Furthermore, both the acquisition and retention of anatomical concepts may be enhanced through strategic instructional design, particularly in regard to the order of lecture and lab experiences.

Can drawing instruction help students with low visuospatial ability in learning anatomy?

Visuospatial skills are considered important attributes when learning anatomy and there is evidence suggesting that this ability can be improved with training techniques including drawing. The Mental Rotations Test (MRT) has been routinely used to assess visuospatial ability. This study aimed to introduce students to drawing as a learning strategy for anatomy. Undergraduate speech science anatomy students took part in a drawing tutorial (n = 92), completed an MRT test, pre- and post-tutorial tests, and surveys regarding their use and attitudes toward drawing as a study tool. The impact on their examination performance was then assessed. Regardless of MRT score or attitude to drawing, students who participated in the drawing tutorial demonstrated immediate improvement in post-tutorial test scores. Students in the drawing group performed better in most anatomy components of the examination, but the result did not reach statistical significance. There was only a positive correlation between MRT score and one type of anatomy question (non-image-based) and speech physics questions (r = 0.315, p = 0.002). The unexpected finding may relate to the MRT which assesses spatial rather than object visualization skills. Students who liked drawing also performed significantly better in word-based and speech physics questions. It is likely that the style of identification question did not require the mental manipulation ability assessed in the MRT. This study demonstrated that students with lower MRT scores are not outperformed in all aspects of anatomy assessment. The study highlights the importance of a more nuanced understanding of visuospatial skills required in anatomy.

Analysis of a multifaceted interactive pedagogy program in an upper limb anatomy course: A time series study

Many new methods have contributed to the learning of anatomy, including several interactive methods, increasing the effectiveness of educational programs. The effectiveness of an educational program involving several interactive learning methods such as problem-based learning and reciprocal peer teaching was researched in this study. A quasi-experimental before-after study on three consecutive groups of second-year students at the Grenoble School of Medicine was conducted. The lectures were replaced by an educational program based on the problem-based learning method and reciprocal peer teaching. The first session was dedicated to reading clinical cases illustrating the medical concept, so that the learning objectives for the second session could be set. Then, after viewing digital courses, the second session was dedicated to a synthetic presentation by the students themselves, followed by an interactive summary with the teacher. The analysis of 630 students showed a significant increase in the theory test results for those who took part in the intervention: 9.71 versus 9.19 (β = 0.57, P = 0.036). Moreover, satisfaction was high after the intervention (mean = 4.5/5), and when comparing the two pedagogical approaches the students showed a clear preference for the program implemented with the concepts highlighted such as interactivity, in-depth work, group work, and autonomy. A multifaceted interactive pedagogy program could have a significant impact on the results of the theoretical concepts presented and on satisfaction as well as increased investment by students in learning anatomy.

NOWinBRAIN: a Large, Systematic, and Extendable Repository of 3D Reconstructed Images of a Living Human Brain Cum Head and Neck

Despite the tremendous development of various brain-related resources, a large, systematic, comprehensive, extendable, and beautiful repository of 3D reconstructed images of a living human brain expanded to the head and neck is not yet available. I have created such a novel repository and populated it with images derived from a 3D atlas constructed from 3/7 Tesla MRI and high-resolution CT scans. This web-based repository contains 6 galleries hierarchically organized in 444 albums and sub-albums with 5,156 images. Its original features include a systematic design in terms of multiple standard views, modes of presentation, and spatially co-registered image sequences; multi-tissue class galleries constructed from 26 primary tissue classes and 199 sub-classes; and a unique image naming syntax enabling image searching based solely on the image name. Anatomic structures are displayed in 6 standard views (anterior, left, posterior, right, superior, inferior), all views having the same brain size, and optionally with additional arbitrary views. In each view, the images are shown as sequences in three standard modes of presentation, non-parcellated unlabeled, parcellated unlabeled, and parcellated labeled. There are two types of spatially co-registered image sequences (imitating image layers and enabling animation creation), the appearance image sequence (for standard views) and the context image sequence (with a growing number of tissue classes). Color-coded neuroanatomic content makes the brain beautiful and facilitates its learning and understanding. This unique repository is freely available and easily accessible online at www.nowinbrain.org for a wide spectrum of users in medicine and beyond. Its future extensions are in progress.

Motivation and learning methods of anatomy: Associations with mental well-being

Appropriate anatomy education for speech and language therapists is a crucial part of preparation for clinical practice. While much research has been conducted regarding the anatomical education of medical students, there is a paucity of evidence for speech and language therapy students. This study assessed the methods employed by a cohort of first-year speech and language therapy students to learn anatomy, their perceptions of the clinical importance of anatomy and motivation to learn anatomy (using a modified version of the motivation strategies for learning questionnaire) and how this related to potential barriers to motivation such as mental well-being (using the Warwick-Edinburgh Mental Well-Being Scale [WEMWBS]). Analysis revealed that 92% of students agreed or strongly agreed that a sound knowledge of anatomy is important for clinical practice, 74% agreed or strongly agreed that listening at lectures was how they primarily learned anatomy, and 91% of students agreed or strongly agreed that they worried a great deal about tests. The latter statement was negatively correlated with a number of statements on the WEMWBS. Overall, the data revealed that first-year speech and language therapy students place importance on anatomy and its role in their future clinical practice, that they have different preferences for learning anatomy compared to medical students, and also have significant anxiety surrounding anatomy examinations. Multiple significant correlations between responses to the motivation and mental well-being questionnaires suggest that there is a significant relationship between first-year student motivation to learn anatomy and well-being.

Enhancing Student Learning by Integrating Anatomy in Pathology Teaching

BACKGROUND

Vertically integrating anatomy into pathology curricula is beneficial for student-centered learning. This study investigates the effectiveness of this approach on student learning outcomes.

ACTIVITY

Learners received a vertically integrated pathology curriculum; their pre- and post-course test data were collected.

RESULTS AND DISCUSSION

Two-hundred thirty-two learners participated in the activity. Upon completing the activity, their average post-course performance was significantly better than that of a control group (P < 0.05), with significantly higher scores on solving pathology case problems (P < 0.05), as well as on retaining anatomy concepts (P < 0.05). Vertically integrating anatomy in pathology instruction is an effective educational approach.

eNEUROANAT-CF: a Conceptual Instructional Design Framework for Neuroanatomy e-Learning Tools

In an era which is witnessing a significant rise in incidence of neurological diseases, there is also a rise in neurophobia: the diminished confidence of clinical practitioners and students to manage patients with neurological conditions. In this context, the perceived nexus between neuroanatomy-phobia (the challenges and fear associated with learning neuroanatomy) and neurophobia highlighted the need to revisit the neuroanatomy pedagogies and their instructional designs. e-Learning can be effectively employed to enhance students' learning of neuroanatomy. This perspective describes a conceptual framework for online neuroanatomy learning (e-neuroanatomy learning conceptual framework (eNEUROANAT-CF)), which provides a theoretical grounding to newly developed neuroanatomy e-learning resources, by offering a set of instructional design principles. The framework is rooted in the theories of adult learning, cognitive load, and Mayer's theory of multimedia learning. eNEUROANAT-CF was validated by imparting user opinion regarding the best perceived instructional design features for learning neuroanatomy. Furthermore, it was effectively employed to inform the pedagogical construct of an e-tool to help students learn the spinal pathways. The perspective highlights the theoretical underpinnings of the eNEUROANAT-CF under seven categories, namely "avoidance of cognitive overload," "learning style preferences," "contextualization," "motivation," "social learning," "feedback/reflection," and "active learning." In addition, elaborative examples are provided, which explains how eNEUROANAT-CF informed the instructional design features of the abovementioned e-tool. The authors propose that any novel, interactive neuroanatomy e-learning resource rooted in the instructional design principles outlined by the eNEUROANAT-CF will improve users' learning and understanding of neuroanatomy. The research shows promise to help break the perceived nexus between neuroanatomy-phobia and neurophobia.

Evaluation of Neuroanatomy Web Resources for Undergraduate Education: Educators' and Students' Perspectives

Despite the development of novel teaching strategies and the abundance of adjunct teaching web resources, students and early career physicians have continuously reported difficulties in learning and clinically applying neuroanatomy. Differences in instructional design of these resources, the lack of assessment of their capacity to meet intended educational goals, and a poor understanding of the user's perspective may have hindered their success in increasing understanding and retention of neuroanatomical knowledge. To decipher the limitations of existing web resources, an online search for neuroanatomy web resources was performed and distilled through a strict filtration rubric. A selection of resources were analyzed by a panel of educators and rated using Likert scales, focusing on the identification of features influencing their usefulness in learning the anatomy of the spinal pathways. The top three ranked web resources were subsequently evaluated by a panel of medical and neuroscience students to assess how specific features aided in their learning of the subject. This detailed analysis has identified features of neuroanatomy web resources that are valued by both educators and users with regard to instructional design. One resource was rated highest by end users and educators on a series of Likert scale questions in terms of clarity of explanation, step-wise teaching design, summarization of information, control of instructional-pace, integration with neurophysiology, neuroradiology and clinical correlates, deployment of a wide array of pedagogical tools, and factors for visualizing neuroanatomical inter-relationships. These results have provided a novel user perspective on the influence of specific elements of neuroanatomy web resources to improve instructional design and enhance learner performance.

Anatomy education in occupational therapy curricula: Perspectives of practitioners in the United States

The study of human anatomy is an integral component in the education of future occupational therapists, yet there is a paucity of research that explores the anatomy needs of students and new practitioners. As a follow up from a pilot study that surveyed a small cohort of practicing therapists, this article aimed to determine occupational therapy (OT) practitioners' views on anatomy course structure and content deemed important to include in OT curricula, entry level practitioners' anatomy knowledge, and application of anatomy in current practice. A Likert scale and free text questionnaire was distributed to practicing occupational therapists across the United States. Fifty-four percent of the participants in this cohort favored a standalone course, as compared to 94% in the pilot study group. Anatomy course content areas were comparable across groups. Systems identified as essential to cover in an OT anatomy course included skeletal, muscular, and nervous. Regions included the upper limb, thorax/trunk, head and neck, and lower limb. Seventy percent of participants in both groups felt that entry-level practitioners had adequate anatomy knowledge; 30% did not. Practice areas requiring anatomy knowledge included assessment of joint movement, muscle strength, pain, and functional mobility. Qualitative analysis of free text response data revealed the importance of anatomy knowledge in OT assessment and intervention strategies, determining the impact of injury or disease on occupational performance, client safety, and communication with other health care professionals and families. Anat Sci Educ 11: 243-253. © 2017 American Association of Anatomists.

Learning from human cadaveric prosections: Examining anxiety in speech therapy students

Human anatomy education often utilizes the essential practices of cadaver dissection and examination of prosected specimens. However, these exposures to human cadavers and confronting death can be stressful and anxiety-inducing for students. This study aims to understand the attitudes, reactions, fears, and states of anxiety that speech therapy students experience in the dissection room. To that end, a before-and-after cross-sectional analysis was conducted with speech therapy students undertaking a dissection course for the first time. An anonymous questionnaire was administered before and after the exercise to understand students' feelings and emotions. State-Trait Anxiety Inventory questionnaires (STAI-S and STAI-T) were used to evaluate anxiety levels. The results of the study revealed that baseline anxiety levels measured using the STAI-T remained stable and unchanged during the dissection room experience (P > 0.05). Levels of emotional anxiety measured using the STAI-S decreased, from 15.3 to 11.1 points (P < 0.05). In the initial phase of the study, before any contact with the dissection room environment, 17% of students experienced anxiety, and this rate remained unchanged by end of the session (P > 0.05). A total of 63.4% of students described having thoughts about life and death. After the session, 100% of students recommended the dissection exercise, giving it a mean score of 9.1/10 points. Anatomy is an important subject for students in the health sciences, and dissection and prosection exercises frequently involve a series of uncomfortable and stressful experiences. Experiences in the dissection room may challenge some students' emotional equilibria. However, students consider the exercise to be very useful in their education and recommend it. Anat Sci Educ 10: 487-494. © 2017 American Association of Anatomists.

Effective methods of teaching and learning in anatomy as a basic science: A BEME systematic review: BEME guide no. 44

BACKGROUND

Anatomy is a subject essential to medical practice, yet time committed to teaching is on the decline, and resources required to teach anatomy is costly, particularly dissection. Advances in technology are a potential solution to the problem, while maintaining the quality of teaching required for eventual clinical application.

AIM

To identify methods used to teach anatomy, including those demonstrated to enhance knowledge acquisition and retention.

METHODS

PubMed, CINAHL, ERIC, Academic OneFile, ProQuest, SAGE journals and Scopus were search from the earliest entry of each database to 31 August 2015. All included articles were assessed for methodological quality and low quality articles were excluded from the study. Studies were evaluated by assessment scores, qualitative outcomes where included as well as a modified Kirkpatrick model.

RESULTS

A total of 17,820 articles were initially identified, with 29 included in the review. The review found a wide variety of teaching interventions represented in the range of studies, with CAI/CAL studies predominating in terms of teaching interventions, followed by simulation. In addition to this, CAI/CAL and simulation studies demonstrated better results overall compared to traditional teaching methods and there is evidence to support CAI/CAL as a partial replacement for dissection or a valuable tool in conjunction with dissection.

CONCLUSIONS

This review provides evidence in support of the use of alternatives to traditional teaching methods in anatomy, in particular, the use of CAI/CAL with a number of high quality, low risk of bias studies supporting this.