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Updated: Human Osteology Postgraduate Courses in the United Kingdom

14 Aug

Note: I originally wrote this post a few years ago in order to outline the available human osteology/bioarchaeology postgraduate courses in the United Kingdom as a guideline for the degree fees and topic availability.  However since then a number of substantial national and international changes have occurred.  These include, but are not limited to, the increase of undergraduate tuition fees to £9000.00 per academic year; the general increase of the price of Masters degrees; the new availability of student loans for Masters students; changes to Disabled Students Allowance from the 16/17 academic year onward; the transfer of some Student Finance grants to loans; the Government White paper released in May 2016 outlining challenges and changes needed in higher education, etc.

One of the more important changes was the outcome of the referendum in the United Kingdom whether it to remain or not a part of the European Union, this resulted in a very tight result in which the majority voted to leave the European Union.  This process will take many years, but the Government of the United Kingdom recently stated that it would guarantee European Union funding for projects signed before the Autumn Statement until 2020.  Doug, of Doug’s Archaeology, has an interesting and somewhat depressing post on what Brexit could mean for archaeology as a sector more generally

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Whilst I was doing some light research for another article I made a quick list of every course in the United Kingdom that offers human osteology as a taught masters (either as an MA, Masters of Arts, or as an MSc, Masters of Science) or offer a distinctive human osteology module or component within a taught masters degree.  Human osteology is the study of human skeletal material from archaeological sites.  Human osteologists study bones to identify age, biological sex, pathology and pre- and post-mortem trauma alongside other avenues of research in human behaviour and activity, such as investigating diet and mobility of post populations.  The subject is generally only taught as a Masters level within the United Kingdom.

Within the list England as a whole is well represented within the universities highlighted, Scotland only comes in with two entries whilst Wales and Northern Ireland, as far as I know, offer no distinctive osteological courses at the Masters level.  Further to this the reader should be aware that some universities, such as the University of Leicester, offer commercial or research centers for human and animal osteology yet run no postgraduate courses that provide the training in the methods of osteoarchaeology.  Thus they are excluded from this list.

This information is correct as of September 2016, but please expect at least some of the information to change, especially in relation to course fees for United kingdom, European Union, and international students.  It should be noted here that the education system in the United Kingdom is internationally well-regarded and the educational institutions are often in the top 10% in world league tables; however it can be very expensive to study here, especially so in the consideration of prospective international students.  Please also take note of the cost of renting (especially in London and the south of the country generally) and the high cost of daily living compared to some countries.  The list is not an exhaustive attempt and I am happy to add any further information or to correct any entries.

Other Sources & Prospective Student Advice

As well as the list below, the British Association for Biological Anthropology and Osteoarchaeology also have links to human osteology and bioarchaeology courses in the United Kingdom.  You check the list out here.  The British Archaeological Jobs and Resources (BAJR) site, ran by David Connolly, also has a plethora of useful resources to check as well as an active Facebook group which is a great place to ask for advice.  I’ve also wrote a second post to compliment this one which entails what you, the prospective student, should keep in mind when looking at degree courses to pursue. You can check out that post by clicking the title here: Questions to remember when considering a postgraduate course in human osteology.

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An example of an archaeological skull. Image credit: source.

Courses in the United Kingdom, please note that the fees stated are for full time students.  For part time students the price is normally halved and the course carried out over two years instead of the usual one year that is common for Masters within the United Kingdom.

MA/MSC Degrees in England

Bournemouth University:

  • MSc Forensic Osteology (UK/EU £5500 and International £13,500, from 17/18 UK/EU £5750 and International £14,000).
  • MSc Biological Anthropology (UK/EU £5750 and International £14,000, from 17/18 UK/EU £6000 and International £14,500).

University of Bradford:

University of Cambridge:

  • MPhil Human Evolution (amazingly there are 18,000 skeletons in the Duckworth Collection!).

Cranfield University:

UCLAN:

University College London:

University of Durham:

University of Exeter:

  • MSc Bioarchaeology (Offers choice of one of three core pathway topics, including human osteology, zooarchaeology and, new for the 16/17 academic year, Forensic Anthropology) (UK/EU £6900 and International £15,950).

Universities of Hull and York Medical School:

  • MSc Human Evolution (A very interesting course, combining dissection and evolutionary anatomy) (UK/EU £6650 and International £15,680).

University of Liverpool:

Liverpool John Moores University:

University of Manchester:

  • MSc Biomedical and Forensic Studies in Egyptology (course under review).

University of Oxford:

University of Sheffield:

University of Southampton:

University of York:

MA/MSc Degrees in Scotland

University of Dundee:

University of Edinburgh:

The following universities offer short courses in human osteology, osteology, forensics or zooarchaeology

Short Courses in England

Cranfield University:

University of Bradford:

  • On occasion run a palaeopathology course, please check the university website for details.

University of Sheffield:

Note: I am still genuinely surprised there are not more short courses, if you find any in the United Kingdom please feel free to drop a comment below.

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A University of Hull and Sheffield joint excavation at Brodsworth carried out in 2008 helped to uncover and define a Medieval cemetery. Image credit: University of Hull.

A Few Pieces of Advice

A piece of advice that I would give to prospective students is that I would strongly advise researching your degree by visiting the universities own webpages, finding out about the course specifics and the module content.  If possible I’d also visit the department and tour the facilities available and seek advice from the course leader with regards to potential research interests.  I would also always advise to try to contact a past student and to gain their views on the course they have attended previously.  They will often offer frank advice and information, something that can be hard to find on a university webpage or from a course leader.  Also please do be aware of the high cost of the United Kingdom tertiary education as prices have been raised considerably in the past few years and are likely to rise again, especially so in comparison to cheaper courses on the European continent.

Finally, if you know of any other human osteology or bioarchaeology Masters or short courses in the United Kingdom please do comment below or send me an email and I will add it to the list here.

Dactyl & Skelly Pad: Apps for Digital Bone Identification and Inventorying

10 Mar

Updates have been somewhat sparse on this site as of late due to varying workloads, both archaeological and osteological in nature, that have thus far maintained the focus of my free time.  So this is just a quick post highlighting new digital applications that have recently been released that have a specific focus and use for bioarchaeologists, palaeopathologists and forensic anthropologists, and that may be of interest amongst other related disciplines.

The first of these is the Dactyl application that has been produced by forensic anthropologists at the University of Teesside, spearheaded by Professor Tim Thompson (with a bit of help from my friend and doctoral researcher David Errickson) through the Anthronomics business.  Dactyl is a 3D viewer with photo-realistic models of actual scanned human skeletal elements that aids in the identification, siding and pathological analysis of osteological material from archaeological sites or forensic contexts.  Further to this the app also provides information on the anatomical landmarks present on individuals bones, indicating both the origins and the growth of the bone under study.  The models themselves can be zoomed in and out off, markers can be placed on the bone, and the models are full view-able from a number of directions and viewpoints (including lighting aspect).  This makes the app particularly handy for the field bioarchaeologist, or osteologist, in the identifying of skeletal material on-site or in the site hut.

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A screen shot of the Dactyl application as it currently stands. In this view a right Os Coxa (i.e. the hip, consisting of the fused ilium, pubis and ischium skeletal elements) can be viewed and explored. Notice the blue and red pins identifying landmark features and their uses. Image credit: Apple iTunes store and Dactyl App (2015).

The basic app costs £16.99 from the Apple iTunes store, and there are currently three additional add-on packs available.  These are available for a further £1.99 and consist of a) basic trauma, b) basic pathologies, and the c) non-adult pack.  It should be noted here that each of these only include two skeletal models, with the basic trauma containing four individual bone models, rather than a full range of skeletal elements.  Further updates will include more examples, but I am currently unsure whether the app will be available on more than just the Apple range of devices.  Atkin (2015) has written a fairly comprehensive review which is a useful and interesting read on the benefits and limitations of the Dactyl app itself.  The app is currently under review of a second version of the program as an improvement on the first version, but this promises to be an extremely useful application for iPad wielding archaeologists regardless of further improvements on the current model (which, of course, will surely happen).

The second is the Skelly Pad application for tablets, initially a free to use app designed to aid in the digital inventory of human skeletal and dental elements in archaeological or forensic contexts (a professional version of the app may lead to a charge to download it).  The importance of maintaining a proper inventory of skeletal remains cannot be over estimated, as this is the basic task that first allows for identification and analysis of the remains under observation.  Although it is at the early stage of design and production, the Skelly Pad application is now available to download and use on tablets.  It works across a wide variety of different operating systems and devices, including iPads, Kindle Fire and Samsung Galaxy tablets.

The product is the outcome of Gill Hunt’s BSc project at the University of Reading, in an attempt to digitise and streamline the recording of skeletal remains rather than rely on a paper record.  Currently Skelly Pad is only able to inventory the remains of adult individuals in the latest version of the application, although this includes all of the normal inventory sections (including completeness, age-at-death, biological sex, stature, pathology, etc).  The full range of current features that the Skelly Pad incorporates can be found here, and it certainly looks useful for the bioarchaeologist or forensic archaeologist, particularly in a setting where paper recording may be unsatisfactory for rapid recording of a skeletal inventory.  The Skelly Pad is now available through the App store, Google Play and Amazon.

By highlighting the two above applications, I think it becomes clear that as technology advances and powerful computers are now available in the palm of your hand, that innovation in the archaeological world also continues to make use of it, helping to overcome the limitations of access to skeletal collections, dreary weather and taking the weight off your shoulders (literally, if you have ever tried to carry around an anatomical textbook or a collection of osteological reference manuals).  Together with online resources such as Digitised Diseases (where 3D models of the effects of disease and trauma on human skeletal material are available to view for free), we are really seeing barriers being broken down to the access of both knowledge and collections.

An interesting side feature of this is the ethical edge of digitising and replicating the skeletal remains of individuals.  As we model their remains, replicate them on hundreds, if not thousands of machines, or create isolated 3D models of isolated elements, do we dis-embody and de-individualise the person themselves that they (the skeletal elements) once belonged to?  Does the educational need to correctly identify, record, and ultimately protect uncovered remains trump the loss of physical context of the bones that are used for digitisation as we transport them into the digital realm?  Are we distancing the feel and handling of bone itself, by relegating it to a flat screen?  These are broad-based questions with no straight forward answers.

It is clear, I hope, that I heartily approve of the magnificent steps forward that digital technology is allowing researchers to make in the understanding and recording of human remains using innovative techniques, particularly so given the fragile nature of the material (see Errickson et al. 2015 for good practice guidelines regarding scanning of osteological material).  The above are only two such examples of what I am sure is a thriving, independent and growing market.  A balance is always needed between access to physical reference collections, 3D models and osteological manuals, when assessing and analyzing assemblages from archaeological or forensic contexts.  One method cannot replace another.

As satisfying as having a handbook of osteology on your phone or tablet may be, nothing beats the heavy thud of a good reference textbook going into a rucksack or the boot of a car, ready for a days work.

Further Information

  • The Dactyl application for Apple products can be found either on the Apple app website or on Google Play.  The company behind the product, Anthronomics, can be found here.  It is an interesting company started by Professor Thompson himself which aims to invent useful programs, applications or devices to help aid in the recording, identifying and analysing of human skeletal material.  One to watch!
  • The Skelly Pad application for tablets (for use with Android, Amazon and Apple devices) can be found here and is available at each of the device makers stores to download for free.  The Skelly Pad blog can be found here also, which details the current version, and will host regular blog updates as the app as it proceeds to include further sections.
  • Digitised Diseases, a project spearheaded by the University of Bradford with a range of partners, depicts a number of 3D models of scanned human skeletal elements from archaeological sites with evidence of trauma or disease processes.  The models have been recorded and scanned using radiography, CT scanning and laser scanning techniques to produce highly accurate models showing the effects of disease or trauma on human skeletal elements.  These models can be viewed on the website itself or can be downloaded onto a computer, tablet or smart phone for future offline use.  I have previously discussed the open access site here.  You can also have a look to see how useful the site is for bloggers, as I helped illuminate one of my previous arm fractures with an example from the site, see here.

Bibliography

Atkin, A. 2015. Review of Dactyl: An Interactive 3D Osteology App [iPad]Internet Archaeology. 38. DOI: http://dx.doi.org/10.11141/ia.38.5. (Open Access).

Errickson, D. Thompson, T. & Rankin, B. 2015. An Optimum Guide for the Reduction of Noise using a Surface Scanner for Digitising Human Osteological Remains. Archaeology Data Service. Guides to Good Practice. (Open Access).

A Brief Photo Essay: The Lithic Lab at the University of Bradford

4 Dec

As you can probably tell from a previous post I recently spent a day in Bradford catching up my good friend Natalie Atkinson, a doctoral candidate in the Department of Archaeological Sciences at the University of Bradford.  Natalie is currently researching microwear on lithics, investigating new ways in which to quantify and record data as a part of the Fragmented Heritage project (more on that below).  Whilst I was there I managed to take a few brief photographs of the lithic lab with my trusted Pentax s1a camera loaded with black and white 35mm film, which will be the focus of this entry with Natalie kindly modelling.  Although this post won’t be focused on bioarchaeology, it is pertinent to briefly mention it here as Bradford has, and continues, to play a vital role in the research and teaching of bioarchaelogy in the UK.

Initially there was a course that ran every 2 years at UCL during the 1980s that covered the study of archaeological human remains, taught by Don Brothwell, and a course at the University of Sheffield, run by Dr Judson Chesterman (the former is now the MSc in Skeletal and Dental Bioarchaeology run by Professors Simon Hillson and Tony Waldron).  In 1990 the universities of Bradford and Sheffield started to run a joint course (MSc Osteology, Palaeopathology and Funerary Archaeology).  This was initiated and taught by Professor Keith Manchester, alongside Professor Charlotte Roberts, the latter now at Durham University and running an MSc in Palaeopathology.  The course ran from 1990-1999, with Bradford now running the MSc in Osteology and Palaeopathology, and Sheffield running a course in Osteology and Funerary Archaeology.  The joint course has formed the basis for the development of many UK university masters courses on archaeological human remains.

I should perhaps also admit to a twinge of osteology envy here as the technical facilities and osteological reference collections at Bradford is perhaps one of the best in the UK, ranging, as they do, from the ability to analyse stable light isotopes on-site in a dedicated lab, 3D scan using a FARO laser, stock an extensive traditional and digital radiography equipment and x-ray library, and have the facilities for the carrying out of microscopy research, histological sampling and analysis.  Alongside this the department also hosts a human skeletal reference collection spanning from the 19th century to the Neolithic period.  (For further information on the history of bioarchaeology in the UK see Roberts 2006 & Roberts 2012 below).

But I digress!  This post is not about bones, it is about stones, about the physical artefacts produced and crafted by Homo sapiens and our ancestral hominins over hundreds of thousands of years, indeed millions of years.  It is also about a department of archaeology that specialises in the scientific study of the archaeological record.  Indeed it was this department that first introduced me to the joys of archaeology as a post-college but pre-university archaeology student-to-be.  It was here on the many itinerant trips to visit friends from home that I became aware of the great breadth and depth of the archaeological world.  Returning to it again reminded me of the sheer size of the department and of the many specialisms, and specialists, within archaeological science that the department is home to.

But this is a brief introduction of the lithics laboratory at the university rather than the department or of lithics themselves (although see some of the core texts such as Andrefsky 2005 & Keeley 1980 for detailed introductions to studying lithics).  It is pertinent to point out here that physical objects can also be considered to have lifespans, where, with the increased age of an object, comes the increased possibility of a extrinsic mishap and intrinsic fragility, i.e. accidents and/or breakages due to the deteriotation of the material used to construct the object.  As Crews (2003) mentions in his book on human senescence objects do not age biologically as plants or animals do, but they do age with use and wear.  This is highlighted when Crews (2003: 34) discusses this in reference to the lifespan of glass test tubes as researched in Medawar’s 1946 wear-and-tear theory, where it is possible to understand likely lifespans of objects based on observation and material studies.  This is an important point as artefacts in the archaeological record likely had a finite life, much as objects do today, such as T.V’s which can become quickly out of date or obsolete as digital technology changes and improves.

Lithics, or stone chipped tools, are often produced using flint or chert material and are knapped from source material (such as naturally occuring flint nodules or mines) to produce a wide variety of tools.  Perhaps some of the most immediate visual tools that are recognisible include the mighty handaxes seen in the Upper and Lower Paloaelithic periods down to the specialised microlithics of the Mesolithic and beyond.  These can of course have a range of different applications depending on the context of their use.  Lithics can also be retouched and reused as necessary, can be the product of mass produce or can be singular one-off productions (Andrefsky Jr 2005).  Use-wear analysis is a major academic and commercial focus today in understanding the role that lithics have played over their lifespans, from original use to final deposition within the archaeological record.  As such this mini photo essay presents the lithic lab at Bradford, home to this literal cutting edge technology.

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Remains of the day. Archaeologists can largely be found at one of three places: excavating in the field, typing in front of a computer or analysing in the laboratory. This is the lithics laboratory at the Department of Archaeological Science at the University of Bradford. It is a place where time spans hundreds of thousands of years as Neolithic flints mix with Palaeolithic handaxes, where the debitage of modern reconstructions lay in buckets beneath the technical knapping manuals.  Lithic analysis involves being able to recognise, re-piece and understand the production of lithic flakes from flint or chert nodules. The material produced can be as varied as projectile points, scrapers, burins or handaxes, depending on the aim of the original knapper. Lithics, as in the above photograph, are often stored securely and safely in archives accessible to specialists , museums and researchers, sometimes heading out for public display. Lithics survive particularly well in the archaeological and palaeontological record due to the robust material and natural composition.

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Analysing the physical artefacts of the past. Natalie takes a look at the fracture patterns and use  wear on one of the many lithics that the lab at Bradford holds in its store. It is important that, as well as the original lithics spanning many different period sites, that the researchers can carry out experimental work by knapping their own flint examples to replicate the methods that our ancestors used.  As a researcher on the Fragmented Heritage project Natalie will be investigating the tool use, production and object manipulation using imaging and analysing techniques.  This will involve the use of  the latest technology such as Scanning Electron Microscopy (SEM), laser scanning, CT scanning and 3D microscopy to help quantify use-wear analysis amongst other aims.  The doctoral project is partly experimental, but will also possibly use existing lithic assemblages from Spain, England, Kenya and Jordan from the Palaeolithic periods to investigate new methodologies in identifying and quantifying use wear.

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Projecting the past.  Natalie’s part in the Fragmented Heritage project is just one facet in this international research project. A second doctoral position will be looking at the post-depositional movement of archaeological remains, helping to implement new and existing methodologies in understanding the lithic microwear involved in identifying post-depositional signatures.  The Fragmented Heritage project is looking to improve the recording the scale and nature of fragmented remains in archaeological contexts, involving the use of new landscape survey technology to help highlight new hominid sites.  The partners of the project also include the Home Office (for forensic applications), Citizen Science Alliance , the National Physical Laboratory (measurement and materials science laboratory), Science Museum Group, and Historic Scotland.  The core project staff, from the University of Bradford, are Dr Randolph Donahue (lithic microwear), Dr Adrian Evans (quantification in lithic functional studies), and Dr Andrew Wilson (digitisation technology).

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An important part of any scientific research is the ability to document, describe and understand the implications of your research.  However you also have to be able to defend your research and accept or challenge new interpretations as necessary.  Archaeology may be stuck in the past but revolutions, both in the methods and use of new technology, and in the actual archaeological, or palaeoanthropological, records are coming thick and fast.  Researchers will come and go, but the artefacts and contextual information will, if stored correctly and safely, always be available to analyse and interpret using innovative methods to maximize the information  that archaeological sites artefacts hold.

This has been a brief foray into the world of lithic research at the University of Bradford but it has been eye-opening journey for me.  As an osteoarchaeologist I admit that I can sometimes become too biased towards the skeletal remains found in the archaeologically record, that I wonder what that person saw, felt and did in their lifetimes, that I can forget we have such a vast catalogue of physical artefacts stored at universities, institutions, museums and units across the world.

It is these artefacts that document the technology of previous populations – of how the individuals and populations adapted, responded and lived in their environments during their lifetime.  The study of these artefacts clearly benefit from new technological approaches, but they also benefit from holistic approaches and multidisciplinary influenced projects.  Perhaps most of all they benefit from researchers coming and going, sitting silently in their storage boxes waiting for their chance to tell their story of their lives, both during active use and deposition into the archaeological record.

Acknowledgements

Thanks to Dr Adrian Evans for the permission to post the photographs here that are of the Lithic Lab at the Department of Archaeological Sciences at the University of Bradford.  Thanks also to Professor Charlotte Roberts for clarification on the history of bioarchaelogy in the UK.

Further Information

  • Further information on the Department for Archaeological Sciences, a part of the Faculty of Life Sciences, at the University of Bradford can be found here.  More detailed information on the two main core research strands (social and biological identities and archaeological sciences) can be found here.
  • Head over to lithic specialist Spencer Carter’s Blog at Microburin to learn about the identification and use of microlithics in the Mesolithic period (particularly in northern England).  Spencer has dedicated a few entries on the blog discussing his amalgamated methodology for processing lithics from archaeological sites and his set up for the photography of lithics to archaeological publication standard, which are very handy.
  • Check out Hazelnut Relations, a blog ran by archaeological researcher Marcel Cornelissen, to learn about studying lithics and use-wear analysis in a laboratory setting, and also to read about the author’s research into the European Mesolithic-Neolithic transition.  Marcel is also particularly keen on fieldwork so the blog entries are particularly interesting as they combine the joy of the field and the lab together.

Bibliography

Andrefsky Jr, W. 2005. Lithics: Macroscopic Approaches to Analysis. 2nd ed. Cambridge: Cambridge University Press.

Crews, D. E. 2003. Human Senescence: Evolutionary and Biocultural Perspectives. Cambridge: Cambridge University Press.

Keeley, L. H. 1980. Experimental Determination of Stone Tool Uses: A Microwear Analysis. Chicago: University of Chicago Press.

Roberts, C.A. 2006. A View from Afar: Bioarchaeology in Britain. In: Buikstra, J. & Beck, L. A. (eds) Bioarchaeology: Contextual Analysis of Human Remains.  London: Elsevier. pp. 417-439. (Open Access).

Roberts, C. 2012. History of the Development of Palaeopathology in the United Kingdom (UK). In: Buikstra, J. & Roberts, C. (eds.) The Global History of Palaeopathology: Pioneers and Prospects. Oxford: Oxford University Press. pp. 568-579. (Open Access).

Becoming Human: Archaeological Perspectives on Humanity, University of Bradford, 22nd November 2014

11 Nov

The University of Bradford is holding a free archaeology open day on the 22nd of November 2014 from 10am to 3pm as a part of the UK nation wide Becoming Human festival.  The University of Bradford’s day long event will feature a myriad of archaeologically-themed interactive showcases.   This will include stalls focusing on broad topics such as human evolution, past and present attitudes towards death, the role and function of pottery in prehistoric societies, and will also include a look at the fascinating Digitised Diseases project which highlights the value of 3D printing and digital visualisation in archaeology, among many other topics.  The event is free to attend, family friendly and does not need to be booked in advance.

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Poster for the open day. Image credit: Bradford University.

But what is the Becoming Human festival about?

Boiled down to its basic parts the festival hopes to challenge and inspire members of the public to think about just what it means to be considered human and what that means for us as a species today, how we interact with each other and why we do the things that we do.  The festival is all about the public engagement on a national-wide scale of current research in humanities that is being conducted in the country.  Throughout November 2014 (15th to the 23rd) there will be more than 150 individual events at a range of geographic locations helping to promote the value and wealth of humanities topics.  Poets and writers such as Will Self and Simon Armitage will be taking part as will the comedian Al Murray, in an effort to engage both your intellect and your imagination.  The other aims of the festival are to foster knowledge that is vital and accessible for all (something we bloggers can fully agree with!), and to help us understand ourselves and recognize the challenges that we face today.

In partnership with the Arts and Humanities Research Council (AHRC) and the British Academy, the Becoming Human festival is led by the School of Advanced Study at the University of London.  The aim of the 2014 festival is to gauge the appetite for an annual nation-wide festival celebrating the humanities subjects in all of their diversity.  As such archaeology will play a small but determined part within the 2014 festival, and the event at the University of Bradford highlights just why archaeology is so fundamentally important in understanding what it means to be human, both where have come from and understanding the implications for where we could be heading as a species.

I recently had the chance to visit the archaeology department at the University of Bradford to see my good friend Natalie Atkinson, a doctoral candidate who is focusing on quantifying use wear in lithic tool assemblages as a part of the Fragmented Heritage project.  As well as highlighting the great breadth and depth of ongoing research at the department she also informed me about Bradford’s participation in the nation wide Becoming Human humanities festival.  Natalie had this to say about the upcoming Bradford showcase:

“The interactive stalls will be headed by prominent researchers such as Professor Ian Armit and Dr. Lindsey Buster, showcasing their work on Scupltor’s Cave.  Also contributing is the Jisc supported project Digitised Diseases, led by Dr. Andrew Wilson; a digital database for the viewing of fragile human skeletal remains with diagnostic attributes.  Dr. Adrian Evans will be demonstrating the key technologies and ideas that make up the multi million pound Fragmented Heritage Project, along with Dr Randolph Donahue who will be showing off the evolutionary family tree and Dr. Karina Croucher, who will be discussing attitudes towards life and death.  PhD researchers Rebecca Nicholls, Mike Copper and Emily Fioccoprile have also kindly contributed activities based on their PhD projects”.

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The program for Becoming Human at the department of archaeological sciences, Bradford. Image credit: Bradford University.

So if you are around in Yorkshire or near Bradford on the 22nd of November pop over to the archaeology department and learn about the human past in a fun and interactive environment!

Further Information

  • Learn more about the enticing Becoming Human festival here and browse the events by date and geographic location here.
  • Learn more about the University of Bradford archaeology themed Becoming Human day here.  Visited the open day and keen to learn more about the department of archaeology at Bradford?  Visit here!
  • Keep up to date with the rich variety of archaeological projects at Bradford via Dr. Karina Croucher’s twitter feed or visit her awesome blog focusing on both gender & identity and death & dying in the past and present.

Humerus Triptych: Fracturing & Fixing

22 Aug

I just can’t seem to help myself.  No sooner do I find out that I’d previously (and unknowingly) fractured a number of my ribs over a period of years, do I go and fracture my right humerus in the early evening sun of a peaceful July night.  It was, of course, shortly accompanied by the familiar wash of painkillers that helped numb the pain somewhat.  I’ve mentioned the humerus fracture a number of times in recent blog entries but I have not, until now, managed to obtain copies of the X-rays to highlight the break itself, and the subsequent surgical procedure that I underwent to fixate it.  With thanks to modern technology, I present to you below my right humerus in post-accident pre-surgery and post-accident post-surgery poses, if you will.  As White and Folkens (2005: 312) highlight fractures normally occur ‘as a result of abnormal forces of tension, compression, torsion, bending, or shear applied to the bone’, and they are often described by the features of the break itself (i.e. transverse, oblique, spiral etc).

I have long feared fracturing any of my bones in either upper arms (brachium), forearms (antebrachium) or hands (manus), even though I’ve had a somewhat turbulent history of pathologically fractured bones in my lower limbs.  Alongside this I have also undergone a fairly extensive list of elective surgery to fixate the femora and right tibia due to the effects of McCune Albright Syndrome (including improving the angle of the so-called shepherd’s crook deformity of the femoral neck).  Thus where a natural fracture or planned surgical procedure on the lower limbs may mean I cannot use my crutches for a few months, I can still use the wheelchair to maintain physical independence.  This is not so with a fractured upper limb, where healing will take many months.

To return to the common name usage, I rely on my arms not just for holding or grasping objects but for the locomotion of my manual wheelchair.  As such they are my legs for daily mobility.  I use them also to partially bear my weight when I use my crutches to walk, so a fractured upper limb bone would mean walking is out of the question as well.  I have fractured a humerus only once before, aged 13 at school.  An ill-advised arm wrestle resulted in my friend looking at my pale and quickly draining face in horror as I cradled my snapped right humerus in shock.  It is safe to say that my friend won that match, and I’ve been wary of competing in arm wrestles ever since!  The result of that match was a lengthy spell in plaster (or some variation thereof as, after few months, plaster gave way to support splint, and splint gave way to a laughable plastic guard).

right humerus fracture 2014 july

X-ray of my brachium (upper arm) with the transverse (possibly oblique) fracture of the right distal humerus in a cast before surgery (far left), the post-surgery fixation with a titanium plate and screws (centre), and finally a view of the brachium that highlights the plate and the depth of the screws (right), which help to keep the fixation and fracture site stable by equally distributing stress.  The tell-tale signs of the ‘ground glass’ appearance of polyostotic fibrous dysplasia (as a part of the McCune Albright Syndrome that I have) can also be seen in the X-rays, as can the evidence of a previous fracture and natural bowed shape of the humerus.

In truth the recent humeral fracture was the result of my impatience, gained as a result of quickly bouncing off a curb to catch a waiting taxi, and coming off worse for wear as the wheelchair tipped and I instinctively shot out my right arm to stop myself.  The pain from a fracture comes not from the bone breaking but from the damage to the soft tissues that surround the bone.  The periosteum, a tough connective tissue that nourishes and covers all outer external surfaces of the bones barring articular surfaces of the long bones, is home to nerves that the bones themselves are not (White & Folkens 2005: 42).  A fracture of the bone often damages the periosteum tissues (which causes pain) and leads to swelling of local tissues.  The periosteum, and associated endosteum membrane (located on the inner surface of bones), are also one of the origins where the precursor bone cells develop into chondroblasts and osteoblasts, which are essential for helping the bone fracture heal successfully (White & Folkens 2005: 43).

A small but significant benefit of having polyostotic Fibrous Dysplasia is the fact that the pathological fracture patterns tend to be transverse breaks due to the weak structure of the bone architecture, which tends to limit injury to both the nerves and the soft tissues surrounding the fracture area (Marsland & Kapoor 2008: 121).  However, due to the pathological bone porosity and the often high bone cell turnover rate as a part of the overall syndrome, there is the prospect of extensive bleeding during surgical procedures.  This can lead to extensive blood loss during major operations (such as during osteotomy procedures and/or internal and external fixations to help improve the bowing of a limb or to correct pathological fractures).  As such the patient’s blood is often cross matched beforehand with suitable blood groups, for infusion during major surgical procedures to combat excessive blood loss.

In the immediate aftermath of the fracture I was given heavy painkillers and taken to hospital where, after a light sleep overnight, my arm was put into a cast before I underwent surgery later in the week in a hospital nearer my hometown.  The decision was taken not to reduce the bone before the surgery and just to rest it.  On weight bearing bones (such as the tibia or femur) or load bearing bones (such as the mandible in adults), it is important that the bone is reduced quickly and properly to minimise complications and induce good healing (Marsland & Kapoor 2008: 120).  The humeral fracture was openly reduced and fixated under general anesthetic with a titanium locking plate, as can be seen in the above X-ray, and the surgeon achieved a good fix and stability of the distal humerus with the plate.

Curiously, even though the fracture was trauma induced, it was less painful than the fracture that had occurred when I was 13.  The arm still feels heavy and slightly cumbersome, but there is no doubt that the internal fixation is preferable to the months in the plaster cast.  It will still take many months for the bone to heal properly as it is still in the early stages of the primary bony callus, a process where woven bone bridges the initial fibrous connective tissue callus that responds to a fracture in the first few days.  This woven bone is, after a few months, later converted to lamellar bone and the fracture site will be further remodelled.  Eventually, if a fracture site is initially kept stable by immobilization or by fixation as in my case, the bone can remodel so completely as to eliminate any trace of the original fracture (White & Folkens 2005: 48).

Traumatic fractures are found in all periods of human and hominin history, and it is likely that you yourself have suffered a fractured bone of some description, perhaps even unknowingly (Marsland & Kapoor 2008: 121).  They can be devastating, requiring many years of surgery or physiotherapy to gain and improve movement as the sociologist Ann Oakley highlights in her 2007 book Fracture: Adventures of  Broken Body, a personal account detailing the social and professional impact of a fractured right humerus accident which had impinged on nerves, leading to reduced function and feeling.  Fracture treatment has been practiced for thousands of years and it has long been known that, with the reduction of the break and stabilization of the limb, good results can be achieved (Marsland & Kapoor 2008).  The study of fractures in populations can also highlight trends in the attention received as Meyers (2012) has highlighted in an entry on the differences of fracture treatment between Iron Age and Romano-British populations in Britain.

fractured right tibia digistied diseases 0365

The right tibia of an adult, courtesy of the free online resource Digitised Diseases. Notice the well healed mid-shaft oblique fracture in the (a) anterior view, (b) is the posterior view and (c) is the close up posterior view, where right is proximal and left distal. The callus is fully remodelled with smooth bone over the fracture site, where the end is displaced laterally and proximally. Image credit: Digitised Diseases 2014 (Master Record Number 0365).

Still this entry’s approach is focused on the personal, not at the population level.  Another part of my body has broken and it is once again held together by titanium, likely to be a permanent addition to my skeleton.  The movement at the glenohumeral joint (otherwise known as the shoulder) is normal while movement at the elbow joint (comprised of the humeroulnar, humeroradial and superior radioulnar joints) is almost back to normal.  There is still a lack of full extension of the joint, with noticed tension in the biceps brachii muscle as it acts as the antagonist to the triceps brachii muscle during forearm extension, although daily physiotherapy should help to regain full movement.  I am no stranger to the strength of the metal in my body and I remain impressed by its capability in the use of orthopaedic fixation.  The use of metallic implants to fixate fractures is nothing new as Lane (1895) and Uhthoff et al. (2006) attest.  Whilst the use of casts to set fractures continues, it is the increase in the use and versatility of technology and materials to give nature a helping hand that remains the next big step in treating bone fractures (Bali et al. 2013).

Metal plates have been in use for over a hundred years where early pioneers such as Lane (1895), Lambotte (1909) and Sherman (1912) first introduced plates to help stabilize fracture sites and help mobilize patients faster than plaster casts could allow (Uhthoff et al. 2006: 118).  Although these early plates suffered from corrosion problems it soon became apparent that internal plate fixation could provide a safe and efficient way for patients to heal, whilst also regaining some form of movement.  Various plate designs improved on earlier designs, allowing for micromotion at the fracture site and compensation for bone resorption during the healing process.

Uhthoff et al. (2006: 124) contend that there are still problems in the form of internal plates, where compression and stress shielding can still lead to bone necrosis and cortical porosis.  In their conclusion they argue that there still needs to be a fine balance attained between a plate design that managed to reduce stress shielding and allows adequate micromotion at the site of a fracture, both which they concur would help mimic biological healing.  There also drawbacks that can include plate palpability, risk of infection, temperature sensitivity and possible growth restriction with metallic implants (Bali et al. 2013: 167).   Ultimately however the body still has to heal the fracture itself over a matter of weeks and months (White & Folkens 2005: 48).

It is interesting to note that Sir William Lane himself, writing in the late 19th century and primarily focusing on lower limb fractures, indicates the marked differences between upper and lower limb fracture treatment.  He states that although the upper limb does not take the weight of the body:

… in the arm very considerable alterations may occasionally develop, and are more marked and depreciating to the value of the individual as a machine in proportion as changes have already taken place in the particular joint or joints from the prolonged pursuit of a laborious occupation.” (Lane 1895: 861).

Deciding that fractures of upper limb need not be set directly in their original anatomical form, whereas lower limb bones should be set as close to as originally constituted due to their weight-bearing nature.  Furthering this view, in the same letter to the British Medical Journal in 1895, he highlights that:

One cannot but feel that the perpetuation of methods of treatment which have been in use up to the present time must depend on the fact that surgeons have not taken such trouble to inquire into the subsequent life-history of these patients as they have done in other departments of surgery.” (Lane 1895: 863).

There have been some distinct advances in using biodegradable plates in non-weight bearing locations, such as in the maxillofacial region, a position where many would like to avoid the intrusive nature of a temporary or permanent metal plate.  A study by Bali et al. (2013: 167) has highlighted the value of using biodegradable material to help fixate trauma-induced facial fractures, reporting that each individual in the small study cohort (N=10) of varying ages, reported good reduction of fracture and evidence for the total biodegradation of the plate after two years.

They also reported that no further surgical procedures were needed on their test cohort, a significant finding as metallic implants often either need removing if they are temporary or debriding if they become infected, both quite serious surgical procedures (Bali et al. 2013: 170).  Unfortunately the study highlights that biodegradable implants are unlikely to be currently safe to use in weight-bearing or load bearing bones.  Bali et al. (2013:171) conclude by stating that further studies are needed but biodegradable plates and screws can provide satisfactory, if expensive, stabilization as internal fixations for mid-face fractures.

Medical science and engineering has certainly come a long way since Lane first introduced the internal fixation plate, yet humans are as prone as ever to fracturing their bones.  As a person with McCune Albright Syndrome I may know the pain of breaking a bone, but I can be thankful that I live at a time and in a place where fractures can be confidently treated.

Further Information

  • I’ve written in more detail on polyostotic Fibrous Dysplasia and McCune Albright Syndrome here, which details the way in the which the disease has affected my skeleton.  Also, on that particular post, are a host of medical, palaeopathology and osteology related articles to do with McCune Albright Syndrome and Fibrous Dysplasia in general.  Alternatively search the blog for the keywords and numerous posts in which I’ve highlighted the syndrome and the bone disease will appear.
  • A previous post on 3D printing in orthopaedic surgery can be found here, and an entry giving a quick overview of some of the problems and approaches used in studying physical impairment and disability in archaeological contexts can be found here.

Bibliography

Bali, R. K., Sharma, P., Jindal, S. & Gaba, S. 2013. To Evaluate the Efficacy of Biodegradable Plating System for Fixation of Maxillofacial Fractures: A Prospective Study. National Journal of Maxillofacial Surgery4 (2): 167-172. (Open Access).

Digitised Diseases. 2014. Master Record Number 0365. Accessed 18/08/14. http://www.digitiseddiseases.org/viewer/viewer_overlay.php?MRN=0365#.

Lane, W. A. 1895.  Some Remarks on the Treatment of Fractures. British Medical Journal1 (1790): 861–863. (Open Access).

Marsland, D. & Kapoor, S. 2008. Rheumatology and Orthopaedics: Crash Course 2nd Edition. London: Mosby Elsevier.

Meyers, K. 2012. Break a Leg! Fracture Treatment in Iron Age and Roman Britain. Bones Don’t Lie. Accessed 11th August 2014. (Open Access).

Oakley, A. 2007. Fracture: Adventures Of A Broken Body. Bristol: Policy Press.

Uhthoff, H. K., Poitras, P. & Backmann, D. S. 2006. Internal Plate Fixation of Fractures: Short History and Recent Developments. Journal of Orthopaedic Science. 11 (2): 118-126.  (Open Access).

White, T. D. & Folkens, P. 2005. The Human Bone Manual. London: Elsevier Academic Press.

A Stone to Throw II: Upcoming Archaeology Conferences

7 Apr

A few dates for the diary as this year sees some pretty exciting archaeology and bioarchaeology themed conferences rolling towards us in the next four months of 2014 or so.  Conferences are fantastic places to learn about new techniques or research approaches in archaeology.  It can also be a thrill watching famed archaeologists and professors speak in the flesh about topics which they are passionate about.  Conferences, depending on their target audience, can sometimes be open to the public and members of academia alike, but they can also vary widely in cost depending on their location, size and prestige.

mixxxxxxx

Without further ado here are a few conferences that have peaked my interest and some that I hope to attend myself (although Istanbul may have to be missed due to an unfortunate clash with BABAO):

Dearne Valley Archaeology Day 2014, Wath-Upon-Dearne

The community focused Elmet Archaeology group, who were recently mentioned here as a part of an interview with their osteoarchaeologist Lauren McIntyre, are hosting their annual Dearne Valley Archaeology Day in Wath-Upon-Dearne, South Yorkshire, on Saturday the 31st of May.  Open to the members of the public and archaeologists alike, the day long conference costs £18 (£14 unwaged) to attend and boasts a host of speakers on a variety of topics.  The full list of speakers has yet to be announced but so far includes British archaeological stalwarts such as David Connolly of BAJR fame, Prof Joan Fletcher of the University of York and a range of speakers from archaeological units across the country.  There will also be a number of stalls on the day, including information booths on how to illustrate archaeology style by Kate Adelade, Dearne Valley Archaeology Group and a stall with Jenny Crangle detailing the medieval Rothwell Charnel Chapel Project (which has been previously discussed on this blog).   

Exploring Changing Human Beliefs About Death, Mortality and the Human Body, Invisible Dead Project Conference, Durham

The University of Durham is playing host to the Invisible Dead Project conference from Friday 6th of to the Sunday the 8th of June.  The conference has two lectures on the Friday and Saturday nights which are open to the public and two full days of talks for students and academics during the Saturday and Sunday daytime.  The conference is, quite wonderfully, completely free to attend.  The ongoing Invisible Dead Project is a large-scale international collaboration aimed at studying the prehistoric and historic attitudes to death and burial of Britain and the Levant areas.  Information and details of sites under study can be found here at the University of Durham webpage.

The conference welcomes anthropologists, archaeologists and members of the public interested in death and  human remains in prehistory and up contemporary society to attend.  The first public speaker is Prof. Peter Pfälzner, from the University of Tübingen, explaining work carried out on long-term royal funerary processes at Qatna, Syria, on Friday night (6.30pm), whilst Prof Mike Parker Pearson discusses problems and perspectives in funerary archaeology on the Saturday night (6.30pm).  If you are interested in attending the conference forms should be completed before the 30th of April.

British association of Biological Anthropologists and Osteoarchaeologists, Durham

The British Association of Biological Anthropology and Osteoarchaeology are holding their annual conference at the University of Durham in September, from Friday 12th to the Sunday 14th.  The three-day conference will feature a broad range of presentations, talks and posters on the great range and wealth of  osteoarchaeology in Britain and beyond.  The call for papers has just been announced and is open until the 9th of June.  Last year’s conference program can be found here.  Although details have not been released just yet of the costs of attending the conference, it is likely that it will upwards of £140 to attend (based on 2013 BABAO member rates).  The information concerning the 4 sessions has just been released and are based around the following clusters:

1) The body and society: past perspectives on the present

2) Biological anthropology and infectious disease: new developments in understanding from bioarchaeology, palaeoanthropology, primatology, and archaeozoology

3) New developments in biomolecular methods

4) Open session

Details on the key-note speakers for each session can be found here, as can further information on conference guidelines for following abstract guidelines and submission dates.  The BABAO conference is the foundation stone of conferences in the UK osteology calendar as it really does represent the best in current research in the UK and beyond.  Although I have yet to attend one (due to costs), I have high hopes of attending this year’s event in the lovely historic (and local to me) city of Durham.

European Association of Archaeologists, Istanbul

The European Association for Archaeologists host their conference in September, from the Wednesday the 10th to the Sunday the 14th, in Istanbul, Turkey.  The call for papers and posters has now closed, but they did receive a very healthy 2400 submissions in total.  The broad topics of discussion for the 2014 session are categorised into 6 different focus areas including:

1) Connecting seas: across the borders

2) Managing archaeological heritage: past and present

3) Ancient technologies in social context

4) Environment and subsistence: the geosphere, ecosphere and human interaction

5) Times of change: collapse and transformative impulses

6) Retrieving and interpreting the archaeology record

The fees for attending the EAA conference ranges in price from €40 to €180 dependent on category of the applicant (see here for the full extensive list, you are enrolled as a member of the EAA on purchase of conference tickets), but all are welcome to join the conference.  It promises to be an interesting conference with the attendance of some of the most important archaeologists in Europe discussing a wide variety of topics, including a number of speakers discussing human osteology related topics.  Istanbul is also a fantastic place to host a conference positioned as it is between the crossing of the West into the East and vice versa, and boasting a city full of heritage, archaeology and art.

Is Gender Still Relevant? University of Bradford

The British Academy and the University of Bradford are holding a two day event on the question of whether gender is still relevant.  The mini conference runs from Wednesday the 17th to the Thursday the 18th of September and it is free to attend.  Guest speakers include Professor Rosemary Joyce from the University of California and Dr Roberta Gilchrist from the University of Reading, who will discussing sex and gender dichotomies in archaeology.  You can find out more information here and, as far as I am aware, there is still time to submit abstracts for the conference.

No doubt there will be more archaeology and osteology based conferences going on so please feel free to leave a comment below.

Digitised Diseases Website Live Tomorrow!

9 Dec

Something pretty spectacular and interesting is happening in the world of online access as the Digitised Diseases project website goes live tomorrow night (09/12/13) with a grand opening at the Royal College of Surgeons of England in London.  This means that a grand total of around 1600 scanned human skeletal specimens will be made available to researchers and the public to view for free.  The aim of the project is ‘to create a web-accessible archive of photo-realistic digital 3D models of pathological type-specimens’ from human remains (source).

DD

The Digitised Diseases blog banner. The site is an excellent resource detailing the pathological bone changes which occur as a result of either trauma or disease progression.

The project is using the latest in 3D laser scanning, high resolution photograph and CT scans to provide free examples of palaeopathologies that affected the skeletal anatomy.  The populations that are represented by the skeletal series used to illustrate the various traumas and diseases will include individuals from a variety of archaeological contexts from England, including late Medieval  and more modern 18th and 19th century contexts.  The team that is spearheading the project is largely based at the archaeology department at the University of Bradford with support coming from the Royal College of Surgeons of England, who are based in London.  One of the main reasons for initiating the project was the poor state and bone quality of the pathological examples, so by creating an online depository, which is free to access, it is hoped that the knowledge can be spread far and wide whilst the bones themselves can be preserved and maintained.

The popular Digitised Diseases blog for the project has been up and running for a while now and it is currently helping to showcase examples of scanned bones with clinical descriptions and case histories of their various maladies.  It is a fantastic site and well worth a visit.  Once the proper site is up and running I can imagine that it will be extremely popular with human osteologists, medical historians and archaeologists.  It will be the perfect site to quickly log and compare an example of a suspected pathology right in front of you with one recorded properly and scanned on the site.  I am also looking forward to seeing what impact this will have on other academic institutions and whether the site will evolve to contain further pathological examples, perhaps some prehistoric ones or examples on other hominins.

On a side note the Royal College of Surgeons of England’s base in London is also home to the Wellcome Museum of Anatomy and Pathology and the Hunterian Museum, two excellent museums that document and present the value of human osteology and soft tissue pathology to a wide audience.

Updated 09/12/13

The website is now live and the available models are excellent!  It is a fantastic resource for learning about the trauma and disease process and the effects that they can have on human bone.  I have only just started to play around with the live beta version of the website and there are quite a few of the models that are currently unavailable to view.  I expect that this will change in the upcoming days and weeks as this project becomes fully live.

Below is a quick screen shot of an adult individual (sex undetermined) who presents with a surgical trepannation on the left parietal bone, quite something!  I did have difficulty zooming into the model as my laptop lacks a 3 buttoned mouse.

ddsurgtrepannation

A screen shot of the ectocranial view of trepannation model (left parietal bone in the skull) found in the surgical sub-menu on the Digitised Diseases website. Note the model can be enlarged and the description box on the right hand side details the anatomical pathology on this specimen.  Click to enlarge (source).

I am looking forward to investigating Digitised Diseases in further detail as it is a great resource, openly available to everyone to investigate pathological bone changes and the effects of disease, trauma and surgical procedures on human skeletal remains.  The models can be viewed online, as I did (see above), or can be downloaded and used at your pleasure.  Please remember to cite the program where it has been used in research.

Further Information

Human Osteology Courses in the UK

22 Jan

This is something I should have done a while ago.  Regardless, whilst I was doing some light research for another article I made a quick list of every course in the UK that offers human osteology as a taught masters (either as an MA – a Masters of Arts or as an MSc – Masters of Science) or offer a distinctive human osteology module or component within a taught masters degree.  England is well represented within the universities highlighted, Scotland only comes in with two entries whilst Wales and Northern Ireland, as far as I know, offer no distinctive osteological courses at the Masters level.  Further to this the reader should be aware that some universities, such as the University of Leicester, offer commercial or research centers for human and animal osteology yet run no postgraduate courses that provide the training in the methods of osteoarchaeology.  Thus they are excluded from this list.

This information is correct as of the 8 January 2014, but please expect at least some of the information to change.  I think we could likely see a raise in the tuition fees for MSc and MA courses within the next few years, as a direct knock on effect of the upping of undergraduate fees.  It should be noted here that the education system in the UK is well-regarded, and it’s educational institutions are often in the top 10% in world league tables; however it can be very expensive to study here, especially so in the consideration of prospective international students.  Please also take note of the cost of renting (especially in the south east of the country) and the high cost of daily living.  The list is not an exhaustive attempt and I am happy to add any further information or to correct any entries.

As well as the list below, the British Association for Biological Anthropology and Osteoarchaeology also have links to human osteology and bioarchaeology courses in the UK – check it out here.

skull-saxon

A example of an archaeological skull. Image credit: source.

MA/MSC Degrees in England

Bournemouth University:

University of Bradford:

University of Cambridge:

  • MPhil Human Evolution (amazingly there are 18,000 skeletons in the Duckworth Collection).

Cranfield University:

Liverpool John Moores University:

UCLAN:

University College London:

University of Durham:

  • MSc Palaeopathology (Fees available on request, expect UK/EU £5000 and International £14,000).
  • MSc Evolutionary Anthropology (Fees available on request, expect UK/EU £5000 and International £14,000).

University of Exeter:

Universities of Hull and York Medical School:

  • MSc Human Evolution (A very interesting course, combining dissection and evolutionary anatomy) (UK/EU £4620 and International £16,540).

University of Liverpool:

University of Manchester:

  • MSc Biomedical and Forensic Studies in Egyptology (course under review).

University of Oxford:

University of Sheffield:

University of Southampton:

University of York:

MA/MSc Degrees in Scotland

University of Dundee:

University of Edinburgh:

Please be aware of changing program fees, as some of the above information has come from the 2012/2013 course fees, and these can, and are likely, to change during the next academic year.  In conjunction with the above, a number of universities also run short courses.

The following universities offer short courses in human osteology, osteology, forensics or zooarchaeology.

Short Courses in England

Bournemouth University:

Cranfield University:

Luton Museum

Oxford Brookes University:

University of Bradford:

  • On occasion run a palaeopathology course, please check the university website for details.

University of Sheffield:

I am surprised there are not more short courses in the UK.  If you find any in the UK please feel free to drop a comment below!

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A University of Hull and Sheffield joint excavation at Brodsworth carried out in 2008 helped to uncover and define a Medieval cemetery. Image credit: University of Hull.

Note: A final note to prospective students, I would strongly advise researching your degree by visiting the universities own webpages, finding out about the course specifics and the module content.  I would also always advise to try and contact a past student and to gain their views on the course they have attended.  They will often offer frank advice and information, something that can be hard to find on a university webpage.  Also be aware of the high cost of UK tertiary education as prices have been raised considerably in the past few years and are likely to rise again.

Furthermore if you know of any other human osteology Masters or short courses in the UK please comment below or send me an email and I will add it to the list here.

Further Information

The End of the MSc at the University of Sheffield…

17 Dec

Just over a year ago I wrote a blog entry on the beginnings of the MSc at the University of Sheffield, which detailed the modules that made up the course and the contents of each module.  I graduate next month, and I feel now is a pertinent time to reflect on both the modules and the department as a whole, one year on.  Perhaps first and foremost I should state that I enjoyed the course thoroughly, that it tested me in ways in which I had not been tested in academia before, and offered opportunities I’d never though I’d get to experience.  However, it is also wise to add that this is my own personal experience, and as such, the reader should be aware that this a subjective review.

As I stated in the original blog post I had chosen the University of Sheffield partly because it offered the opportunity to dissect human cadavers and to learn firsthand what the muscles and associated anatomy looked and felt like.  In fact, this is still the only University in the UK that offers a hands on anatomy and dissection class in an MSc in studying Human Osteology and Funerary Archaeology.  A second important factor was the fact that many now practicing the profession in the UK undertook and passed this course or it’s sister course at The University of Bradford, as they were both devised and set up by Professor Charlotte Roberts in the late 1980s/early 1990s.  This course is widely respected as a benchmark in osteological Masters, both in the UK and abroad.

However there has also been important recent changes with regards to staff in the archaeology department at Sheffield since the conclusion of my time of study, and this has affected the MSc in Human Osteology and Funerary Archaeology.  Mike Parker Pearson, who taught the funerary archaeology module on the Masters course, has moved to UCL to teach and carry on research, whilst Dr Andrew Chamberlain, who taught Biological Anthropology I & II & Quantitative Methods in Anthropology, has moved to the University of Manchester (although no webpage is currently up displaying his profile).  Further to this a small number of prehistorians  have also left the department.  Perhaps most importantly is the advent of the new MSc in Osteoarchaeology offered at the University of Sheffield, which combines human and animal osteological modules.  This does however place further stress onto the human osteology lab and skeletal materials in the department.

As per the earlier blog entry a break down of the modules will now be presented.

1. Human Osteology-

A single lecture covered a certain part of the skeletal anatomy whilst a follow up lab session involved a detailed look at the typical osteological landmarks for each element, alongside how to side the element.  The practical was marked in a series of bi-monthly osteological tests in the 1st semester, whilst a essay accounts for the remaining 40% of the module mark.  This module, alongside the anatomy module below, accounted for many many hours spent in the laboratory studying variations and fragments of the skeletal elements.  It is heavily recommended you work both by yourself,  and with others testing you and each other.

2. Human Anatomy-

A single lecture covered a certain part of the musculoskeletal anatomy (anterior ante-brachium for instance) followed by a practical dissection class in the medical teaching unit at the university.  Perhaps one of the more intensive modules, which involved a thorough study and revision of the anatomy before and after the practical classes.  Two timed exams, one covering the upper body delivered half way through the 1st semester and the second covering the lower half of the body at the end of the 1st semester, is the way in which the module is marked.  The exams take the format of ten un-annotated diagrams with four parts each, and the questions asking to name the muscles and actions etc.

3. Biological Anthropology I-

A 1st semester lecture and lab based module, which followed on from the human osteology module.  Included varyingly successful methods of aging, sexing, and palaeopathological markers, alongside indicators of health, stature and overall height.  Competing methods for each of the above, on different elements and sections of the skeletons, were presented, which highlighted the vast range of discrepancies between some solid, and some not so solid methods.  The assessment for this module was a skeletal report on two individuals, one adult and one child, from the skeletal collections, and how well different methods were applied.

4. Biological Anthropology II-

A 2nd semester lecture and lab based module on the wider issues in biological anthropology, including human evolution, diet, health, mass disasters, forensics, recording and technology in osteology.  A single written assessment with preset titles was used to mark this module.

5. Funerary Archaeology-

A 1st semester lecture based module discussing a variety of topics throughout the main topic of funerary archaeology.  This included social and cultural reactions to death, and the dead body, how the body is treated to death, historical and prehistoric traditions from around the globe, and the science behind the decomposition of the human body.  A single essay was set on pre-assigned topics, although free range is given to the discussion and examples used.

6. Quantitative Methods in Anthropology-

Each week in the 2nd semester a different statistical method is used in a case study.  This module introduces the basics of statistical analysis using the SPSS19/20 program, and teaches which statistical tests should be used on both parametric and non-parametric data sets, and how to interpret the results.  A statistical report based on original questions applied to a compiled cemetery dataset is the way in which this module is marked.  I only truly learnt to understand the importance and value of statistical analysis whilst conducting research for my dissertation itself, during long hours of repeating a variety of tests against my own database.  By going through each of the weekly tests a few times a week a core bedrock of knowledge can be formed, but it can still be (and is!) mystifying at times.

7. Biomolecular Archaeology (module choice)-

A lecture based study of the breadth of biomolecular archaeology.  Topics included aDNA, infectious diseases, human evolution and stable light isotopes amongst others.  Although disappointing in the fact that there were no practical classes, the revolving door nature of the lecturers kept the talks interesting and vibrant, as the various researchers were clearly invigorated by their topics.

8. Research Design in Anthropology-

This module consisted of reading various themed articles each week and discussing them in front of the study group.  Ultimately, this was a hit and miss affair, with some articles covered in depth and others lightly skimmed over.  The marked component of this module was a critically assessed research design of the dissertation topic under consideration.

9 Dissertation Topic-

The dissertation consisted of original research, and naturally led on from the Research Design in Anthropology.  Ideally have a topic idea, or area, in your mind before the end of the 1st semester.  Although this is not necessary, it will help you work through any potential problems, and let you decide if a topic is feasible or not.  Depending if you are conducting physical examinations on human bones or carrying out practical tests, or if your topic is mainly statistical or literature based, always make sure you factor in enough laboratory and library time to conduct your tests and research.  In my experience, time with supervisors was severally limited during the summer months due to movement (both student/staff), and conflicting timetables.  I conducted statistical testing on Strontium isotope ratios from 422 individuals from the LBK period in Central Europe taken from the existing literature, with regards to mobility and migration.

Ultimately this course is what you yourself make of it.  The first semester is especially intense, focusing on the osteology and the anatomy, with almost weekly exams testing your new found knowledge.  The second semester is more relaxed, with a focus on research for essays and original research for dissertation projects.  Although this course is a taught Masters, it is heavily advised that you take every opportunity to study in the human osteological laboratory, and make full use of the skeletal elements, skeletal collections, and the muscle marked anatomical models.  Compared to courses abroad, the time spent teaching by the staff may seem limited, so it is heavily advised that personal study is conducted in conjunction, especially in familiarizing yourself with the anatomy and osteological landmarks.

With any future prospective student, I’d advise that you research the type of Masters program that you want, and compare and contrast the varying courses on offer in the UK and abroad.  The UK is currently experiencing a boom in the forensic sciences, and this is reflected by the introduction and rise of forensic archaeology, especially in conjunction with forensic osteology and biomolecular archaeology.  Remember to email and ask specific questions on the courses you are interested in, and ask to see the figures for past students regarding employment or research routes taken.

Guest Blog: Photography vs Laser Scanning in Forensic Archaeology & CSI Contexts by Dave Errickson.

21 Oct

Dave Errickson is a doctoral candidate at Teesside University, where he is building upon his experience and research gained into the 3D visualization of osteological material during his Masters undertaken at the University of Bradford.  His current research focuses on the use of digital recording methods using 3D scanning and laser scanning in a forensic medicolegal framework.  A practising archaeologist, he often works for Tees Archaeology as well as conducting his own original research, alongside taking part in various excavations and surveys around the country.


In forensics the current method for recording information is with digital and film photography.

Photography is cheap once the camera has been purchased, reliable and almost instant (photos can now be developed within minutes rather than days).  Photography has also been used for decades and has become refined.

Photography captures a two dimensional (2D) image of a specific object or scene.  This however poses a problem. When recording a three dimensional (3D) image, the photograph loses the third dimension and compresses the actual image into 2D form.  This loss of dimension in forensics is critical.  For example, a photograph of a body which has been dismembered may lose details that in turn might stop a suspect being committed to jail for a crime carried out.

With such a high profile that photography has, it is unclear where the next method of improvement is or more so, where it is going to come from.

Figure 1. Photograph of a dismembered sheep bone with cut marks, with a scale for size. Image credit: Dave Errickson.

Although it may not be known by many people, the new technology has arrived.  This is a method which has been tried within fields close to forensics such as palaeontologyarchaeology and anthropology.  This new method allows the creation of a three 3D scene, therefore minimising the loss of evidence after capture.  This new technology is laser scanning.

My name is David Errickson, studying Forensic Archaeology and Crime Scene Investigation within the University of Bradford. I am currently working on my dissertation for my Masters of Science award.

For this, I am looking at cut marks found upon bone created after the body has been dismembered.  Using traditional methods such as photography, I am recovering saw marks, tool type, direction of stroke, change of stroke direction and other diagnostic features hacksaws leave upon the bone.  I am then using the novel technique, laser scanning to do the same.

The FARO Laser Scanner, originally used within the fields of aerospace, automotive, metal fabrication and moulding, has the potential to show the details for both the macro and the microscopic detail left on bone that the standard photographic techniques find difficult to recover.

Figure 2. 3D model rendered of the bone after scanning digitally. Image credit: Dave Errickson.

Reconstruction of the events leading to a crime is crucial.  The FARO Laser Scanner may accurately and quickly record evidence for further digital forensic analysis.  It also provides a non-contact bone reconstruction that can be displayed and enhanced with software.  This is accomplished without damaging or cross contaminating the evidence for a court environment.  This may include parry marks or defense wounds that may distinguish how a victim was attacked or killed.  This data can ultimately be taken and reconstructed after the recording of evidence in a crime scene.  It then can be placed into a virtual environment that can be displayed to help with the interpretation of events.

Figure 3. The two changes in direction that has been made by the saw during dismemberment on a animal bone. Image credit: Dave Errickson.

Both techniques will be utilised and compared to see where in forensics the laser scanning will fit.  The results may show that laser scanning soon, will be the method of choice for recording crime scenes.

Other laser scanning equipment used within this research includes the OLS 3000 (LEXT Generation technology) and scanning electron microscopy (SEM). The  following are some images taken with these apparatus.

Figure 4. Scanning Electron Micropscope (SEM) image recovery of the striations from a dismembered bone (left) and OLS (right). Image credit: Dave Errickson.

Figure 5. Photograph of blue paint residues within a cut mark on the bone caused by a blade.  The fine photograph highlights the ingrained paint residue and can be used as evidence if a blade is found with similar residues. Image credit: Dave Errickson.

Figure 6. A colour laser scanned image of the paint (notice the individual striations and saw slippage) and black laser scan of the paint residue in the cutmark on the bone.  Image credit: Dave Errickson.

In conjunction with this research I have taken it a step further. Once the recording has been completed, the bones will be left to Mother Nature and her natural processes.  I would like to know whether it is possible to recover tool marks from bone after they have been affected by the climate.  This would do two things.  First, it may then become possible to convict a suspect after a number of years from previously made cut marks.  Secondly, diagnostic features recovered from the bone after weathering has taken place can be recorded.

This information will then be able to help the expert witness in a court of law.  This means the expert witness could determine the difference between cut marks and other marks which may have been created by weathering or scavenging.  This re enforces the value of evidence, allowing no room for it being made inadmissible.

For any questions, please feel free to email me:

Daveerrickson at gmail.com

NB: Please be aware that the images are copyrighted and are used with the permission of Dave Errickson here on this site.

Further Information

  • Keep up to date with new visualization advances in anthropology at the Teesside University blog site here.

Bibliography

Errickson, D., Thompson, T. J. U. & Rankin, B. W. J. 2014. The Application of 3D Visualization of Osteological Trauma for the Courtroom: A Critical Review. Journal of Forensic Radiology and Imaging. 2 (3): 132.137.