During our antibiotics teaching at medical school we were told that a recent survey of junior doctors had revealed that a significant proportion didn't realise that augmentin, tazocin, and carbopenems were penicillins and as such should not be given to those with known allergies. I devised a "mind-map" summarising the main antibiotics in use using information from the BNF and my own lecture notes. For me, seeing the information laid out in this manner, pinned above my desk as I work, helps me remember the major classes, their relationships with one another, and their major side-effects.
A complete guide to the diagnosis and managment of thyroid cancer and how to clinically differentiate lumps in the neck. This resource is aimed at medical students in clinical years and foundation doctors.
This poster offers a basic level of understanding of ABGs for medical students. I have also made an ID-card-sized version which can be easily used on the ward. Students can work around the table, looking at pH, then CO2 and then HCO3- and find the answer in the correct box.
The “Arterial Schematic” represents the intricate three-dimensional human arterial system in a highly simplified two-dimensional design reminiscent of the London Underground Map. Each “line” represents an artery within the body; a black circle marks a major vessel, whilst “stubs” stemming from the main lines represent the distal vasculature. The coloured “zones” represent the main divisions of the human body, for example; the yellow zone indicates the neck.
The schematic was inspired by Henry Beck’s work on the first diagrammatic London Underground Map. His aim was to represent complex geographical distribution in a simple and accessible form. He achieved this aim by omitting swathes of information that had plagued previous designers’ versions. Beck’s approach was succinct yet produced a design that was immediately successful in clearly portraying to commuters how to traverse London most efficiently. The “Arterial Schematic” hopes to culminate this idea of communicating complex concepts in a concise manner, mirroring what is expected of medical professionals on a daily basis.
The schematic is a prototype design intended to be part of a series of images that will diagrammatically represent the various systems of the human body. The prototype was inspired by a desire to teach anatomy via a fresh and engaging visual medium. Recent years have seen significant debate over reduced undergraduate anatomy teaching and its later consequences. The hope is that the “Arterial Schematic” and its sister diagrams will inspire students to learn anatomy and encourage them to further their knowledge via other sources.
PLEASE NOTE: This image is available for purchase in print, please contact firstname.lastname@example.org if interested. Please follow LFarmery on Twitter and considering sharing the Arterial Schematic on Facebook etc. Many Thanks.
When originally learning about the immune system I struggled to understand how the different components developed individually and worked together. I realised that a flowchart would be an excellent way to demonstrate this and was surprised to find that there wasn’t anything suitable on the internet that linked both the innate and adaptive systems.
I developed this flowchart based on information from lectures and several textbooks and disseminated it amongst students in multiple years. The diagram proved to be an excellent tool for revision and in developing a foundational understanding of the immune system.
This is a teaching resource that aids the student in memorisation of the Cranial Nerves, their anatomical path and function.
Additionally, it stimulates a clinical approach to the functions of the Cranial Nerves, with some 'not to be missed' signs.
The skull has numerous holes (foramina) through which various cranial nerves, arteries, veins and other structures pass. To aid learning of these important foramina, I have created this visual mnemonic.
Knowing the anatomy of the meninges and how cerebral haematomas occur is vital in an acute setting, and this visual mnemonic hopes to conceptually explain the pathophysiology behind these potentially fatal conditions.