This video covers the pathophysiology of TB infection, as well as important complications, signs and symptoms, tests and procedures, and treatment.
almost 4 years ago
Explanations of procedures and signs associated with various OSCE style stations relevant to first and second year MBBS, including pictures of relevant pathology and illustrative diagrams. Includes - resuscitatio - peripheral pulse - blood pressur - cardiovascular exam (including relevant aspects of the general examination - ECG lead placemen - Respiratory exam (including relevant aspects of the general examination - peak flo - vitalograp - abdominal examination (including relevant aspects of the general examination - PNS (motor function - Reflexes alon - cranial nerve exa - Thyroid exa - cervical and lymph node (diagrams only - Shoulder joint exa - Hip joint exam
over 8 years ago
My fellow medical students, interns, residents and attendings: I am not a medical student but an emeritus professor of Obstetrics and Gynecology at the University of Miami Miller School of Medicine, and also a voluntary faculty member at the Florida International University Herbert Wertheim College of Medicine. I have a great deal of contact with medical students and residents. During training (as student or resident), gaining confidence in one's own abilities is a very important part of becoming a practitioner. This aspect of training does not always receive the necessary attention and emphasis. Below I describe one of the events of confidence building that has had an important and lasting influence on my career as an academic physician. I graduated from medical school in Belgium many years ago. I came to the US to do my internship in a small hospital in up state NY. I was as green as any intern could be, as medical school in Belgium at that time had very little hands on practice, as opposed to the US medical graduates. I had a lot of "book knowledge" but very little practical confidence in myself. The US graduates were way ahead of me. My fellow interns, residents and attendings were really understanding and did their best to build my confidence and never made me feel inferior. One such confidence-building episodes I remember vividly. Sometime in the middle part of the one-year internship, I was on call in the emergency room and was called to see a woman who was obviously in active labor. She was in her thirties and had already delivered several babies before. The problem was that she had had no prenatal care at all and there was no record of her in the hospital. I began by asking her some standard questions, like when her last menstrual period had been and when she thought her due date was. I did not get far with my questioning as she had one contraction after another and she was not interested in answering. Soon the bag of waters broke and she said that she had to push. The only obvious action for me at that point was to get ready for a delivery in the emergency room. There was no time to transport the woman to the labor and delivery room. There was an emergency delivery “pack” in the ER, which the nurses opened for me while I quickly washed my hands and put on gloves. Soon after, a healthy, screaming, but rather small baby was delivered and handed to the pediatric resident who had been called. At that point it became obvious that there was one more baby inside the uterus. Realizing that I was dealing with a twin pregnancy, I panicked, as in my limited experience during my obstetrical rotation some months earlier I had never performed or even seen a twin delivery. I asked the nurses to summon the chief resident, who promptly arrived to my great relief. I immediately started peeling off my gloves to make room for the resident to take my place and deliver this twin baby. However, after verifying that this baby was also a "vertex" without any obvious problem, he calmly stood by, and over my objections, bluntly told me “you can do it”, even though I kept telling him that this was a first for me. I delivered this healthy, screaming twin baby in front of a large number of nurses and doctors crowding the room, only to realize that this was not the end of it and that indeed there was a third baby. Now I was really ready to step aside and let the chief resident take over. However he remained calm and again, stood by and assured me that I could handle this situation. I am not even sure how many triplets he had delivered himself as they are not too common. Baby number three appeared quickly and also was healthy and vigorous. What a boost to my self-confidence that was! I only delivered one other set of triplets later in my career and that was by C-Section. All three babies came head first. If one of them had been a breech the situation might have been quite different. What I will never forget is the implied lesson in confidence building the chief resident gave me. I have always remembered that. In fact I have put this approach in practice numerous times when the roles were reversed later in my career as teacher. Often in a somewhat difficult situation at the bedside or in the operating room, a student or more junior doctor would refer to me to take over and finish a procedure he or she did not feel qualified to do. Many times I would reassure and encourage that person to continue while I talked him or her through it. Many of these junior doctors have told me afterwards how they appreciated this confidence building. Of course one has to be careful to balance this approach with patient safety and I have never delegated responsibility in critical situations and have often taken over when a junior doctor was having trouble. Those interested, can read more about my experiences in the US and a number of other countries, in a free e book, entitled "Crosscultural Doctoring. On and Off the Beaten Path" can be downloaded at this link. Enjoy!
DR William LeMaire
over 5 years ago
This diagram was created to summarise my dissertation. It shows numerous methods of immune evasion methods of a cancer cell. I did a lot of research around this subject and never found a diagram that brought this number of methods together, so created one.
over 7 years ago
The ability to carry out a thorough and slick diabetic foot examination is something every medic needs to master. This video aims to give you an idea of what's required in the OSCE and you can then customise the examination to suit your own personal style. Make sure to head over to http://geekymedics.com/2010/10/10/diabetic-foot-examination/ to see the written guide alongside the video. Like us on Facebook http://www.facebook.com/geekymedics Follow us on Twitter at http://www.twitter.com/geekymedics You should always adhere to your medical schools / local hospital trusts guidelines when performing examinations or clinical procedures.
almost 6 years ago
As a junior doctor/medical student the ability to take an Arterial Blood Gas (ABG) is a key skill. In this video we will demonstrate a slick technique to help you get an arterial blood sample.
over 3 years ago
Get an overview of basic microbiology and the concepts involved, including the bacterial growth curve and classifying organisms based on morphologies. This lecture describes blood, urine and skin/soft tissue cultures, focusing on the types of media, sample collection processes, culture procedures, as well as speciation and susceptibility testing.
over 3 years ago
Written by Dr John L Gibbs, Consultant Paediatric Cardiologist, Yorkshire Heart Centre, Leeds General Infirmary. This presentation covers the many types of bradyarthymias, their ECG findings, investigation of them and finally some of the common treatment methods.
about 11 years ago
Some easy methods to remember: - the definition of 'Epidemiology' and 'Public Health'. - what are Primary, Secondary, and Tertiary disease prevention. - the Bradford-Hill criteria for disease causation.
about 8 years ago
Dr. Hamilton, a pediatrician in Santa Monica, CA shows how to calm a crying baby using "The Hold". SUBSCRIBE to channel for more baby content! This technique...
almost 4 years ago
Coronary angioplasty and stenting is done to open up blood vessels in the heart. You may need the procedure after a heart attack, or if your vessels are clog...
over 3 years ago
What is Problem Based Learning? During my time at medical school, I enjoyed (at times) a curriculum delivered through the traditional model. As the name suggests, this is an approach experienced by the majority of doctors to date. The traditional model was first implemented by the American Medical College Association and American Academy of Medicine in 1894 (Barr, 2010) and has been used by the majority of medical schools. It traditionally consists of didactic lectures in the initial years covering the basic sciences followed by clinical years, where students learn clinical medicine while attending hospital placements. Is It Better? A few years after my graduation I found myself teaching at a university which had fully adopted the use of problem based learning (PBL) in the delivery of their curriculum. PBL is a philosophy of teaching that has increasingly been used in medical education over the past 40 years. It has rapidly been replaced or supplemented in medical education as opposed to the traditional model. PBL seeks to promote a more integrated and active approach to learning right from the first year with less reliance on didactic lectures. Having been involved in these two different approaches to medical education, I was interested to explore what the evidence was for and against each. For the purposes of this blog, I have looked at four specific areas. These include student attitudes, academic achievement, the academic process of learning and clinical functioning and skills. Student Attitudes Student attitudes to PBL have been highly featured in studies and many show that there is a clear favourability towards this philosophy of teaching. Blumberg and Eckenfel (1988) found that students in a problem based preclinical curriculum rated this three times higher than those in the a traditional group in terms of what they expect to experience, what they would like, and what they actually experienced. Heale et al (1988) found physicians in the problem-solving sessions rated a Continuing Medical Education short course higher compared to others who attended traditional lectures and large-group sessions. Vernon and Black (1993) performed a Meta analysis on 12 studies that looked at attitudes and towards PBL and found PBL was favored in some way by all studies. PBL appears to be preferred by the majority of students at a range of academic levels. However, Trappler (2006) found that converting a conventional curriculum to a problem based learning model for part of a psychopathology course did not show complete favourability. Students preferred the conventional lectures given by experts, rather than PBL groups run by mentors and not experts. They did however show preference towards PBL small group sessions run by experts Academic Achievement Academic achievement is an important factor to assess. Vernon and Blake (1993) compared a number of studies and found that those, which could be compared, showed a significant trend favouring traditional teaching methods. However, it was felt this might not be reliable. When looking at the heterogeneity of the studies there was significant variation that could not be accounted for by chance alone. Interestingly, they found that there was significant geographical variation across the United States such that New Mexico showed consistently negative effects and Michigan State showed consistently positive. Other studies have shown that the traditional method may show a slightly better outcome when assessing academic achievement. Schmidt et al (1987) looked at the same progress test taken among students in six different Universities in the Netherlands and found that those taught by a traditional approach showed slightly better outcomes. Baca et al (1990) compared performances of medical students in two separate tracks, one PBL the other a traditional model. Baca et al found that PBL students scored slightly lower in the National Board of Medical Examiners (NBME) examinations. Dochy et al (2003) conducted a meta analysis comparing 43 studies and found that when considering the effect of PBL on the knowledge of students the combined effect size is slightly negative. The academic process of learning It is important in medical education to enable people to continue life long learning, to overcome problems and fill in knowledge gaps. Coles (1990) and Entwistle (1983) found that PBL students would place more emphasis on understanding and meaning compared to just rote learning, seen more in those taught by a traditional approach. Students on a PBL course also place more focus on using resources such as the library and online sources rather than those taught in a traditional approach (Rankin, 1992). Students taught by a traditional model place more emphasis on the resources supplied by the faculty itself. It has also been shown that students who learn through a process of problem solving, are more likely to use this spontaneously to solve new problems in the future compared with those taught in a traditional way (Bransford et al, 1989). Clinical functioning and skills Clinical competence is an important aspect in medical education and has been measured in studies comparing PBL and traditional methods. The traditional model focuses acquisition of clinical competence in the final years of a program with hospital placements. In a PBL course it may be more integrated early on. There are however, only a few studies that look at clinical competence gained in undergraduate PBL courses. Vernon and Blake (1993) compared some of these studies and found that students obtained better clinical functioning in a PBL setting compared to a traditional approach. This was statistically significant, however there was still significant heterogeneity amongst studies and for conclusive results to be made 110 studies would have to be compared, rather that the 16 samples they were able to use. They also found that in contrast to the NBME I giving better results in the traditional model, PBL students score slightly higher in NBME II and federation licensing examination which related more on clinical functioning than basic sciences. On reflection, this evidence has indicated to me that PBL is a very valuable approach and it has a number of benefits. The traditional model in which I was taught has provided a good level of academic education. However, it may not have supported me as well as a PBL course in other areas of medical education such as academic process, clinical functioning and satisfaction. On reflection and current recommendations are for a hybridisation of the PBL and traditional approach to be used (Albanese, 2010) and I would support this view in light of the evidence. References Baca, E., Mennin, S. P., Kaufman, A., and Moore-West, M. A Comparison between a Problem-Based, Community Orientated track and Traditional track Within One Medical school. In Innovation in Medical Education; An Evaluation of Its Present Status. New York: Springer publishing Barr D. (2010) Revolution or evolution? Putting the Flexner Report in context. Medical Education; 45: 17–22 Blumberg P, Eckenfels E. (1988) A comparison of student satisfaction with their preclinical environment in a traditional and a problem based curriculum. Research in Medical Education: Proceedings of the Twenty-Seventh Annual Conference, pp. 60- 65 Bransford, J. D., Franks, J. J., Vye, N. J., & Sherwood, R. D. (1989). New Approaches to Instruction: Because Wisdom Can't Be Told. In S. Vosiadou & A. Ortony (Eds.), Similarity and Analogical Reasoning (pp. 470 297). New York: Cambridge University Press. Coles CR. (1990) Evaluating the effects curricula have on student learning: toward a more competent theory for medical education. In: Innovation in medical education: an evaluation of its present status. New York: Springer publishing; 1990;76-93. Dochy F., Segersb M., Van den Bosscheb P., Gijbelsb D., (2003) Effects of problem-based learning: a meta-analysis. Learning and Instruction. 13:5, 533-568 Entwistle NJ, Ramsden P. Understanding student learning. London: Croom Helm; 1983 Heale J, Davis D, Norman G, Woodward C, Neufeld V, Dodd P. (1988) A randomized controlled trial assessing the impact of problem-based versus didactic teaching methods in CME. Research in Medical Education.;27:72-7. Trappler B., (2006) Integrated problem-based learning in the neuroscience curriculum - the SUNY Downstate experience. BMC Medical Education 6: 47. Rankin JA. Problem-based medical education: effect on library use. Bull Med Libr Assoc 1992;80:36-43. Schmidt, H G; Dauphinee, W D; Patel, V L (1987) Comparing the effects of problem-based and conventional curricula in an international sample Journal of Medical Education. 62(4): 305-15 Vernon D. T., Blake R. L., (1993) Does Problem-based learning work? A meta-analysis of evaluated research. Academic Medicine.
Dr Alastair Buick
almost 7 years ago
The Health Service Journal have announced this week that medical students could be given a license to practice medicine in the NHS as soon as they graduate. What do we know? The proposal comes from Health Education England. Students would qualify by taking an additional exam when applying for the Foundation Programme. The aim is to improve the standard of medics joining the NHS. Another driving force is to reduce the rising number of med students applying for the two-year Foundation Programme (currently the only way for junior doctors to achieve a full license to practice). Last year there were 297 more applicants than places. If approved the plan would require changes to the Medical Act. Statement from the BMA Dr Andrew Collier, Co-Chair of the BMA’s Junior Doctor Committee said: “We do not feel the case has yet been made for a wholesale change in foundation programme selection process, especially as the system was significantly overhauled and implemented only one year ago. There is little evidence that another new national exam over and above current medical school assessment methods will add any benefit either for graduating students or the NHS as a whole. It is also unlikely to solve the ongoing oversubscription to the foundation programme which will only be addressed by well thought out workforce planning.” Will it work? This proposal has certainly come as a surprise to me so soon after recent changes to the Foundation Programme selection process. I would love to know what you think about it. Do you agree with Dr Collier’s statement? If the plan goes ahead do you think it will be effective in achieving the desired outcomes? Please post your comments and thoughts. Nicole Read more: http://www.hsj.co.uk/news/exclusive-medical-students-face-new-nhs-entry-exam/5066640.article#.UrbyS2RdVaE
about 6 years ago
Venepuncture performed following official University Hospitals of Leicester (UHL) Guidelines Stage 1 - Consent 0:39 Stage 2 - Equipment 1:54 Stage 3 - Procedure; Treatment Room 2:48 Patient Area 5:35 Stage 4 - After Care 8:59 http://leicesterclinicalskills.weebly.com/
Leicester Clinical Skills
almost 6 years ago
Introduction This post describe the creation of a Stroke Summary video. The aim of this project was to assess the attitudes of medical students towards the use of video animation in medical education. An educational tutorial was produced outlining the basic principles of stroke. This aimed to provide a summary of different aspects relating to stroke, outlined in the Bristol University curriculum. This intended to be a short, concise animation covering stroke presentation, definition and recognition, with an overview of the blood supply to the brain and the classification of stroke presentation used in clinical practice. This was followed by some key facts and a summary of different management stages. After the video animation was produced an assessment of student’s attitudes using an online questionnaire was undertaken. This consisted of ten short questions and an open text feedback for additional comments. The video was then edited with reference to feedback given by students and the results analysed. This report will outline relevant research and project work that lead to this assignment being undertaken. A description of the method followed to generate the video animation and to collect feedback on students will be outlined followed by analysis of results. This will then be discussed in relation to previous work and research. Background There are a number of reasons this project has been undertaken. On a personal level, I have a long-standing interest in teaching and medical education. As part of a previous project I created a series of audio tutorials in cardiovascular medicine and assessed student attitudes to audio learning. The findings of this report showed that a large number of students found these audio tutorials useful and would like more of these available to supplement their learning. One of the questions given to students at this time assessed how useful they found different types of educational material. This project showed students reporting audio tutorials more useful than previously thought, while also reporting that they were not readily available. Although a video tutorial was not provided to them at this time, feedback questions assessed attitudes to video tutorials as a learning resource. Students reported low availability and felt they would be more useful than audio tutorials. Some results from this project are shown in figure 1. Figure 1. Results from previous research by Buick (2007), showing attitudes of students towards different learning tutorials. The majority of students report audio tutorials to be ‘quite useful’ or ‘very useful’. Video tutorials are thought by students to be more useful that audio tutorials, however there is a large proportion that do not have access to these learning resources. As a number of students reported an inability to access to video tutorials, it was thought that creating a video animation tutorial followed by assessing students attitudes would be a useful follow up project. If this is found to be a useful resource, other students may generate video tutorials in the future. Therefore student feedback also assessed attitudes towards authenticity, relating to who generates the tutorial and whether they find the ability to feedback a useful tool. Medical education is widely researched globally, although it is not often a consideration for those studying medicine. Those involved in teaching and educating future doctors have looked at different methods of passing on knowledge. A high quality medical education given to future healthcare professionals is important. It is widely accepted that a better knowledge results in better care for patients and education is at the centre of any healthcare system. This is reflected in the cost of educating medical students and training doctors in the UK. In the 1997 it was reported by the Department of Health that estimates of 200 million pounds would be spent per year for an increase in 1000 medical students being trained in the UK. This suggests that the cost of training a medical student is in the region of £200,0001. Medical education in the UK is split in two halves, with undergraduate and postgraduate training. The Department of Health has recently invested millions of pounds into the development of online tutorials for postgraduate training posts in a number of different specialities. Justification for is given by reducing the cost of training through the use of standardised online tutorials. This will be a more cost effective method than the standard in hospital teaching. This approach has not been undertaken for undergraduate medical education. Universities are seen as primarily responsible for undergraduate training. Many of these institutions have used the Internet to aid teaching and have produced video tutorials. However, as reflected in the previous project (Buick, 2007), resources are often limited and students do not feel they have ready access to these educational tutorials. The benefits of different types of learning resource have been researched. These include online audio downloads (Spickard et al, 2004), practice exam questions and interactive tutorials (Hudsen, 2004). Research showing the benefit of video was shown by Balslev et al (2005) comparing video and written text while teaching a patient case. Balsley et al (2005) found those who learnt using a video presentation rather than those given written text showed a significant increase in data exploration, theory evaluation and exploration. However, there is little research looking specifically at video animation for explaining conditions. Animation software is now available on personal computers and is also possible using Microsoft PowerPointTM, which is the most widely used presentation software. It is clear that recent trends show training can benefit from this type of learning resource. Generation of high quality video tutorials can help students learn while reducing the cost of training. It is for this reason that more material is likely to become available, either from funded production supported by external organisations or by the trainers and trainees themselves who have technology able to produce material such as this on their home computer. Ethical and Legal Issues During the development of this video some ethical and legal issues arose that had to be addressed before a final video could be made. When considering what imagery would be used in the video, I wanted to include pictures of clinical signs relevant to the audio narration. However, taking images from the Internet without prior consent was not thought to be ethical and therefore clinical signs were displayed graphically through drawings and diagrams. Plagiarism and copyright were some of the legal issues surrounding the presentation of medical information. Narrated information was generated using a number of information sources, none of which were exclusively quoted. Therefore an end reference list was generated showing all supporting information sources. Images used in the animation were either self generated or taken from sources such as Wikipedia.org. This resource supplies images under a free software license such as GNU general public license2. This allows anyone to freely use and edit images while referencing the original source. Skills Needed To Develop This Video Animation To generate the video a number I had to develop a number of new skills. Unlike previous work that had been undertaken this media was generated using animation software. To use this effectively I had to research the different functions that were available. To do this I combined reading books aimed to teach beginners such as Macromedia Flash 8 for Dummies (Ellen Finkelstein and Gurdy Leete, 2006) and online sources such as www.learnflash.com . To generate voice narration, another program was used that allowed editing and splicing of audio tracks. This was then split up into a number of narrated sections and added to the animation. Method Script To produce the tutorial the first stage was to construct a script for narration. This involved outlining the areas to be covered. The main headings used were: Stroke definition This gave a clinical definition and a lay person recognition mnemonic called FAST which is used to help members of the general public recognise stroke. Pathophysiology This covered blood supply to the brain. This combined diagrams of the circle of Willis, with images of the brain. Arterial blood supply were then displayed over the brain images while relating this to the arterial vessels leaving the circle of Willis Classification Students at Bristol university are asked to understand the Oxford / Bamford classification. This was covered in detail with explanations of clinical signs that may be seen and graphical representation of these. Prevalence This section covered prevalence, national impact and cost of stroke in the UK. Management In this section management was split up it to immediate management, medical management, in hospital care and some of the procedures considered for different cases. Risk factors for stroke and research into this was also written up and narrated. However at a later stage this was not included due to time constraints and video length. Narration An audio narration was generated using software called ‘Garage Band’ which allows audio tracks to be recorded and edited. The narration was exported in 45 sections so that this could then be added to the animation at relevant points. Animation The animation was made using Adobe Flash. This software is used for making websites and animations used for Internet adverts. It has the facility to export as a ‘flash video format’, which can then be played using a media player online. This software generates animation by allowing objects to be drawn on a stage and moved around using command lines and tools. This was used as it has the ability to animate objects and add audio narration. It also is designed for exporting animations to the Internet allowing the material to be accessed by a large number of people. Feedback A short questionnaire was generated which consisted of ten questions and placed online using a survey collection website (www.surveymonkey.com). Students were directed to the feedback questionnaire and allowed to submit this anonymously. Adapting the tutorial Some feedback constructively suggested changes that could be made. The video was updated after some concern about the speed of narration and that some of the narrative sections seemed to overlap. Analysis and Report The results of the feedback were then collected and displayed in a table. This was then added to the report and discussed with reference to research and previous project work. Results Students were allowed to access to the video animation through the Internet. After uploading the video an email was sent to students studying COMP2 at Bristol University. These students are required to know about aspects of stroke covered in this tutorial to pass this section of the course. The email notified them of the options to view the tutorial and how to give feedback. In total 30 students completed the feedback questionnaire and out of these 4 students provided optional written feedback. The results to the questions given were generally very positive. The majority of students showed a strong preference to video animations as a useful tool in medical education. The results are displayed in Table 1 below. TABLE 1 shows the ten question asked of the students and to what extent they agreed with each statement. Results are given in the percentage of students who chose the relevant category. Written Feedback Four written comments were made: "Really useful presentation!! Would be much better if someone proof read the whole thing as there are some spelling mistakes; also if the pauses between facts were longer it would be more easier to take in some facts. Overall, really nicely done!!" "Some of speech went too quickly, but good overall" "Very clearly written with excellent use of images to match the text and commentary!" "The Video was excellent." Discussion Student attitudes to this video tutorial were very positive. This was in contrast to the attitudes previously shown in the audio tutorial project (Buick, 2007) where video tutorials were not thought to be a useful resource. These results support recent developments in the generation of online video training for doctors by the Department of Health and previous research by Balsley et al (2005). Question one showed that the majority of students strongly agreed that the stroke video would be a useful resource. Questions two, three and four aimed to establish what aspects of a disease were best outlined using a video animation. Results showed that students agree or strongly agreed that defining the condition, pathophysiology and management were all well explained in this format. Interestingly, a large majority of students (70%) felt pathophysiology was best represented kinaesthetically. This may be due to the visual aspect that can be associated with pathophysiology. Disease processes are often represented using diagrams in textbooks with text explaining the disease process. Using computer technology it is possible to turn the text into audio narration and allow the user to view dynamic diagrams. In this way, students can better conceptualise the disease process, facilitating a more complete understanding of disease and its clinical manifestations. Question five aimed to highlight the benefit of visual stimulation as well as audio narration as a positive learning method. All students agreed or strongly agreed that the combination of these two aspects was beneficial. Question six showed a very strong response from students wanting access to more video tutorials, with 70% of students strongly agreeing to this statement. It is often the case that students take part in generating teaching material, and some students may be concerned that this material is inaccurate. However, many students do not think that this is a significant problem. This is reflected by the spread of student’s opinion seen in question 7, where there was no clear consensus of opinion. It may be that as students learn from a number of different resources, that any inaccuracies will be revealed and perhaps stimulate a better understanding through the process of verifying correct answers and practicing evidence based medicine. Question nine and ten show that most students value resources that allow sharing of educational material and feel they could help others learn. They would also value the option to feedback on this material. The written feedback showed positive responses from students. However there was feedback on some aspects of the video that they felt could be changed. The narration was delivered quickly with few gaps between statements to keep the tutorial short and concise, however this was thought to be distracting and made it less easy to follow. Following this feedback the narration was changed and placed back on the Internet for others to review. Further research and investigation could include the generation of a larger resource of video animations. My research has suggested that using animation to cover pathophysiology may be most beneficial. The software used to make this video also allows for the incorporation of interactive elements. The video produced in this project or other videos could have online menus, allowing users to select which part of the tutorial they wish to view rather than having to watch the whole animation, or they include interactive questions. Reflections Strength and weaknesses Strengths of this project include its unique approach to medical education. There have been few animated videos produced for undergraduate medical students that use this advanced software. This software is used by professional web developers but can be used effectively by students and doctors for educational purposes to produce video animation and interactive tutorials. For these reasons, I passionately believe that this technology could be used to revolutionise the way students learn medicine. If done effectively this could provide a more cost effective and engaging learning experience. This will ultimately benefit patients and doctors alike. This material can be place online allowing remote access. This is increasingly important for medical students studying on placements who are often learning away from the university setting. Weaknesses of this project include that of the work intensity of generating animated video. It is estimated that it takes around 6 to 9 hours to produce a minute of animated video. This does not include the research and recording of narration. The total sum of time to generate material and the additional skills needed to use the software makes generation of larger numbers of videos not possible by a small community of learners such as a university. Although it was done in this case, it is difficult to edit the material after it has been created. This may mean that material will become inaccurate when new advances occur. The feedback sample collected was opportunistic and the response rate was low. These factors may bias the results as only a subsection of opinions may have been obtained. These opinions may not be representative of the population studied or generalisable to them. It was difficult obtaining a professional medical opinion about the video in the time that I was allocated. However this has been organised for a later time. Knowledge and skills gained During this project I was able to learn about stroke its presentation, classification, management and risk factors. I read texts, which summarised stroke and research into risk factors and management of stroke. The challenge of usefully condensing a subject into a short educational tutorial was a challenging one. I feel I improved my skills of summarising information effectively. I gained knowledge of some of the challenges of undertaking a project such as this. One of the largest challenges included how long it took to produce the animation. In the future I will be aware of these difficulties and allow for time to gather information and generate the material. I also learnt the benefit of gaining feedback and allowing for adaption to this. It took more time to respond to feedback but this resulted in a better product that other students can use. I also reflected on the impact of stroke itself. Stroke has a major impact on patients, health care and carers. Much can be done in the recognition classification and management. A better understanding benefits all areas and I have gained a better knowledge and the importance of helping others gain a good understanding of stroke. I learned how to generate a video animation for the use of teaching in medicine and combine this with audio presentation. I learned how long it can take to generate material like this and the skill of organising my time effectively to manage a project. I can use this skill in the future to produce more educational material to help teach during my medical career. I also gained skills in learning how to place material on the Internet for others to access and will also use this in the future. Conclusions Previously evidence has shown the use of videos in medical education to be beneficial. It has normally been used to demonstrate clinical examination and procedures this study suggest there is a place for explanation of pathophysiology and disease summaries. However, there has been little research in to its use for graphically representing condition summaries. Computer technology now allows people to generate animation on their personal computer. It is possible that over time more students and doctors will start producing innovative visual and audio teaching material. This project indicates that this would be well received by students. References Planning the Medical Workforce: Medical Workforce Standing Advisory Committee: Third Report December. 1997 Page 40. The GNU project launched in 1984. Balslev T, de Grave W S, Muijtjens A M and Scherpbier A J (2005) Comparison of text and video cases in a postgraduate problem-based learning format Medical Education; 39: 1086–1092 Buick (2007) Year 3 External SSC. Bristol University Medical School. Spickard A, Smithers J, Cordray D, Gigante J, Wofford J L. (2004) A randomised trial of an online lecture with and without audio; Medical Education 38 (7), 787–790. Hudson J. N., (2004) Computer-aided learning in the real world of medical education: does the quality of interaction with the computer affect student learning? Medical Education 38 (8), 887–895. Ellen Finkelstein and Gurdy Leete, (2006) Macromedia Flash 8 for Dummies. Wiley publishing Inc. ISBN 0764596918
Dr Alastair Buick
about 10 years ago
I would like to say "well done, Mark Zuckerberg" as Facebook tops 1 billion active users! But all this is while 1 billion people in the world never see a health worker in their entire lives. The internet is the most powerful tool of our generation and there is no doubt that its influence will increase further in the future. I think we can all recognise the success of an enterprise such as Facebook and it is certainly a commendable feat to bring 1 billion people closer together on a regular basis. Well done Mark Zuckerberg! But does this not highlight some bigger questions? When will we see the internet making a real difference? I don't mean to belittle any enterprise such as Facebook which excites and energises a huge community, but when will we see a movement that has such an impact to save and improve billions of lives every month? The WHO Global Health Workforce Alliance estimates that there are a billion people alive today who will never see a health worker in their lives... Ever! We are not short of the tools to change this. So, how will this movement come about? Will it be a political push? Will it be an established company that walks in the 'right' direction? Or could it come from the grassroots? I believe this is one of the greatest challenges of our generation, and the most exciting challenge I can think of. As a doctor and co-founder of Meducation, we have started a movement in the right direction. Meducation aims to unite the medical community - yes all of it, but we know our limits. You can not make such an impact in one step. Most of the charitable solutions and philanthropic activity takes us huge leaps in the right direction and these are of significant importance, but will we ever see the sort of impact possible if we can't maintain the ability to push forwards with the attrition needed to effectively get this right. I would assume that most of those who have set up an innovative and successful solution to a problem would say that they could not achieve this with an element of freedom to experiment, try different methods and approaches before finding the formula that works. Is it not the same with this problem? The solution is going to grow from the grassroots and for us at Meducation, although we are starting with health workers in the UK, we certainly see the hopeful future where the health workers in the developing countries can gain access to the educational material and support they need from the rest of the community. With the global medical community working closely together, we will be better placed to help the 1 billion people who would have never see a health worker in their lives. So well done Mark.... but there are still bigger fish to fry.
Dr Alastair Buick
almost 7 years ago