‘Sequence graphics’ for gross anatomy diagrams and their objective evaluation

Introduction

Drawing diagram is an integral part of learning anatomy. Often the marks scored by an undergraduate in both summative and formative assessments depends on the student’s ability to convey the concepts schematically with a diagram. Of course, the objective of educational program in a medical school is not to make a learner good artist.^[1] However, certainly a doctor who can explain complex medical concepts with a simplified diagrams and flow charts is well appreciated among patients and professional circles.^[2] In the process of learning drawing skills, a fresh entrant may follow many unscientific and unsound methods.

Many clinicians learnt the art of drawing from their teachers. Teachers of bygone era were brilliant in their black board drawing. However, with the modern methods of teaching learning the art of drawing is dwindling.^[3] With the advent of presentation software, projector throws most information on the screen. Teaching anatomy goes with no exception. Students have to draw the diagram from the image shown on the screen.^[4] Often learner will be in huge confusion as to where to start and how to proceed a complex diagram.^[5] This leads to poor quality diagrams depiction in the classroom. For most students, classroom learning forms a first impression of the concept. Even the modern teaching learning methodology can fail to impart the intended skill of drawing diagrams.

Many a times, the student will be in downward spiral encompassing poor concepts, improper diagrams and poor assessment scores.^[6], ^[7] There have been many attempts in the past to imbibe drawing skills among anatomy trainees. However, the existing technology is luring with easier ways of teaching learning.^[8], ^[9]

Drawing diagrams forms the crux of learning anatomy. Without simple and conceptualized two-dimensional representations of the complex structures, the learning of gross anatomy is incomplete. This also preludes the inclusion of diagram skill assessment in many of the university summative exams. Not all students are equally competent in deciphering the skill of drawing. In spite of too many differences in the innate ability of the students to draw the diagrams and too little formal training for the students in the drawing skills, anatomy summative assessments continue to revolve around drawing meaningful, simple yet effective diagrams. With the advent of newer print technology and imaging methods, medical illustrations in the textbooks are hardly reproducible on the paper.^[10] These diagrams are good for overall understanding for the 3D structural relations. However, these illustrations definitely elicit initial interest, but fails to transform into long lasting retentive memory.^[11]

Drawing diagrams is not limited to medical field. It is an essential skill among all students of science streams.^[12], ^[13] Researchers have tried to inculcate drawing skills through several ways. Muliani Joewono et al have shown that drawing diagrams improves the comprehension of musculoskeletal anatomy among medical students.^[14]

There are attempts to compare drawing skills and dental skills among junior dental doctors.^[15] Mark Backhouse et al, have advocated an artistic process comprising of observe- reflect - draw - edit - repeat (ORDER) technique to enhance the student learning. Such techniques involving continuous inputs shall bring about active learner engagement.^[16] Stephen Reid et al, have experimented haptico-visual observatory drawing method, where five voluntary students using haptic senses coupled with drawing reported enhanced appreciation of the 3D structural orientation.^[17] Sarah Greene has reported computerized screencasts of drawing based on the principles of progressive drawing has brought in improved diagram depiction.^[18] Satish B Nayak et al, have tried progressive drawing technique to impart interest during the interactive lectures. This technique hovers around the concept of progressive revealing the anatomical structures on the blackboard and making the learners to predict and label the structures.^[19]

With increasing use of PowerPoint presentations, use of black board for drawing diagrams is declining.^[4], ^[8], ^[20] In this study, it will be attempted to improve diagram drawing skills using PowerPoint for moderately complex anatomy diagram.

Objectives of the Study

To evaluate sequence graphics to impart drawing skills among medical undergraduates.

To design and evaluate an objective method of assessment of clinically relevant moderately complex gross anatomy diagrams.

Methodology

Diagram selection and defining key components

Clinically relevant moderately complex diagram selected for the study was coronal section of the male pelvis. The selection of the diagram was based on consensus of the faculty in the department about the relatively difficult diagrams. As sequence graphics and objective evaluation of the diagrams was conducted without prior validated methods, much easier and too difficult diagrams were not considered. The prototype diagram was taken from the text book - clinical anatomy by regions by Richard S Snell.^[21] The perineal membrane was the key component. Prostate gland (with urethra), deep transverse perineal muscle (with bulbourethral glands) and Colle’s fascia were accessory components. The perineal membrane forms the division between the superficial and deep perineal spaces, also many important structures pierce this structure, was considered as key component. The students need to know the difference between position and drainage of bulbourethral glands in males and Bartholin’s glands in females. ([Figure 1]) 

Results

Out of 100 students, who have participated, diagrams of six students were not included as they have failed to write at least one diagram. Two other students were excluded as they have drawn the diagrams on a non-A4 size paper. Out of 92 students who participated by drawing both the diagrams, the mean scores of static image tracing and sequence graphics were 4.72 (± 2.18) and 6.04 (± 2.03) respectively. The difference was statistically significant (p<0.001).

The improvement was particularly in terms of symmetry, representation of key and accessory components, labelling and use of appropriate colors ([Figure 2] B). Sequence graphics resulted in drawings with predefined components with labelling. There was less of hesitancy and ease of progression ([Figure 2] A).

[Table 2] tabulates the five-item student feedback. Most students felt drawing diagrams with sequence graphics was easy. Students also expressed the key components of the diagram should be routinely revealed and emphasized during all classes.

Discussion

Drawing the key components in a moderately complex illustration along with a good concept delivery in an interactive lecture can elicit student thinking.^[14], ^[22] Strategies concentrating on the improved causal explanations, progressive transformation from known to unknown shall lead to effective cognition and more retention.^[23] In a classroom setting, use of animations, 3D models to explain the complex spatial orientation of the anatomy structures brings in more clarity.^[24] The learner need to represent these concepts at least schematically on a paper by drawing the concepts internalized. Quite often, students tend to copy the diagrams without sound scientific basis. Sequence graphics brings about the meaningful and retentive basis of drawing diagrams.

On the similar principles as that of sequence graphics, Satheesha Nayak et al have described a novel method of progressive drawing. They have used this drawing technique either at the beginning of the class ‘lid-opener’ or during the middle of a lecture ‘monotony-breaker’. In this method, the students contribute to the diagram by drawing one structure at a time in turns. This is an activity based interactive session. Students expressed that this method is an excellent way to recall.^[19] In the same way, Carmichael and Pawlina have described a method of animated PowerPoint as a tool to teach anatomy. The scanned pen and ink images, manipulated with image processing program are used as teaching aid. These images undergo enhancement to delineate the key components. These images will be imported into the PowerPoint and undergo progressive animation. During the lecture, students sequentially labels the components on the lecture handout.^[25] Such lecture handouts were not used in our scenario, as one of our objective was to impart diagram-drawing skills.

Recent medical curricula across the globe has undergone significant changes. Now, a medical student need to be competent in set of defined competencies.^[26] Drawing diagrams is not the defined competency a medical student needs to achieve. However, both formative and summative written evaluation in anatomy still lingers fundamentally around the students’ ability to draw the diagrams on the paper.^[27] The student needs to draw a neat-labeled diagram in a stipulated time. The complaint of the students over the years is that they did not get enough time to draw the diagrams in the theory exams. In spite of all these efforts from the students’ side, there are miniscule guidelines for objective evaluation of the diagrams. The diagrams that follow the basic principles of anatomy illustrations including use of defined colors scores more. The evaluator appreciates the centrally placed, large, labelled, symmetrical and simple schematic diagrams better. Attempts to represent complex 3D pictures with shades and shadows often have dismal outcomes.

In the present study, we have attempted to define the criteria for objective evaluation of the diagrams. During the objective evaluation, key components of the diagram commands more weightage. Defining key components and accessory components in every diagram and communicating the same to the students, stressing on these components leads to unanimous representation in the written diagrams. Awareness of key components makes the students to draw them with more accurately. For example, in a transverse section at C6 vertebra, the fascial disposition over the thyroid gland and big vessels of the neck forms key components. In the brachial plexus diagram, the three cords with proper schematic representation of median, ulnar and radial nerves are the key components. In the transverse section at T4 level of thorax, the course of arch of aorta and superior vena cava are the key elements. In the anterior relations of the kidney diagram, the relation of pancreas and duodenum with the peritoneal relations are the key components. The representation of internal carotid artery branches and thin posterior communicating artery are the key elements in circle of Willis diagram. Consideration of the key components during evaluation brings more objectivity during evaluation. We recommend key components be defined for all moderately difficult clinically relevant diagrams.

Sequence graphics is an engaging and cost effective method that can be easily implemented in every lecture class. There are no additional tools required to create the sequence graphics. With white board animations, sequential drawing is possible.^[28], ^[29] Use of Cascading Style Sheets (CSS) and Scalable Vector Graphics (SVG) animation coding shall bring about similar outcomes.^[30] However, to do such animations, one needs to be good at coding. Sequence graphics is based on progressive drawing. During sequencing, the teacher is free to move in the classroom. So, monitoring of the students drawing becomes easy, which hitherto not possible while drawing the diagrams on the blackboard. The sequence graphics also goes away with the visibility and color contrast problems of blackboard drawing. We are successfully using sequence graphics in most of the routine interactive lectures. During these lectures, students get information about the key components of each diagram. The principles defined above for the objective evaluation of the diagram are followed during all our formative written assessments in anatomy.

Conclusion

Defining key component and accessory components for moderately difficult diagrams shall result in objective evaluation. Sequence graphics principles aids better drawing skills.

Source of Funding

Nil.

Conflict of Interest

Authors declare no conflict of interest

Notes on Contributors

S VIVEKA, MD, DNB (Anatomy) is a professor of Anatomy in Department of anatomy, at Azeezia Institute of Medical Sciences and Research, Kollam, Kerala, India. He teaches human anatomy to medical and dental undergraduates. His areas of interest are teaching and education research with content development for online learning.

M J SUDHA, MD, DNB (Pharmacology), MBA, is the professor of Pharmacology in Department of Pharmacology at Azeezia Institute of Medical Sciences and Research, Kollam, Kerala, India. She teaches pharmacology to medical and dental undergraduates. Her areas of interest are teaching, education research and ethics committee accreditation.

Acknowledgement

Authors thank the first year medical undergraduates who have participated in the study. Also, thank the graphic designers at healiosmed.com who assisted in preparing the sequence graphics for the not just this study but also many moderately difficult diagrams.

Additional Resources

PowerPoint slide used in the study (coronal section of male pelvis - https://drive.google.com/open?id=18EAYZazeDziihbQIenJr6uo-ePo-fKLW

The video made from this PowerPoint - access it here - https://www.youtube.com/watch?v=PKvjmxiwd2s

PowerPoint slide of the coronal section of female pelvis - https://drive.google.com/open?id=14tMQeJESn5S8t1eje-OBf4X2MGhgUxTx

The video of female pelvis coronal section

Compilation of scores of diagram assessment and feedback https://drive.google.com/open?id=1BEvr9wAo-Y5o1Y6j7kv6R9h19U18i4Na