Curriculum Vitae Prof. Dr Eva Scheurer
Education
11/2014 | Full professor for Forensic Medicine, Medical Faculty, University Basel, and lecturer, Faculty of Law, University Basel |
04/2013 | Habilitation, Medical University Graz, Austria |
06/2009 | Certification as „Allgemein beeidete und gerichtlich zertifizierte Sachverständige“ for forensic medicine in Austria |
07/2008 | Austrian board certification in forensic medicine |
10/2006 – 01/2008 | Diploma thesis (equivalent to Master thesis) in physics, University Bern (Prof. K. Altwegg, Prof. P. Bigler, Dr. P. Vermathen), entitled “Metabolic profiling of biofluids by high-resolution NMR” |
10/2003 – 03/2008 | Bachelor- and master studies in physics, University Bern, MSc physics, minor in mathematics with focus in applied statistics |
08/2003 | Swiss board certification in forensic medicine (FMH Fachärztin Rechtsmedizin) |
08/1996 – 07/1999 | Doctoral thesis (MD), University Bern (Prof. H. Hoppeler), entitled „Entwicklung und Validierung eines laktatgestützten Submaximaltests auf dem Veloergometer zur Schätzung des Dauerleistungsvermögens unterschiedlich trainierter Personen“ |
10/1991 – 01/1998 | Bachelor- and master studies in human medicine, University Lausanne and University Bern, Swiss state examination |
Employment History
since 11/2014 | Director and head physician of the Institute of Forensic Medicine of the University Basel, Health Department Basel-Stadt |
02/2011 – 10/2014 | Director of the Ludwig Boltzmann Institute for Clinical-Forensic Imaging, Graz, Austria |
08/2008 – 10/2014 | Senior physician for forensic medicine, Medical University Graz |
04/2008 – 01/2011 | Deputy director of the Ludwig Boltzmann Institute for Clinical-Forensic Imaging, Graz |
04/2005 – 12/2007 | Research associate, Department for Clinical Research, University Bern (Magnetic Resonance and -Spectroscopy, Prof. C. Boesch), Co-Investigator of the study „The effect of galactose and fructose containing beverages on liver glycogen synthesis post-exercise“ |
11/2003 – 12/2007 | Senior physician, Institute of Forensic Medicine, University Bern |
11/2002 – 10/2003 | Resident, Institute of Pathology, University Bern |
03/1999 – 10/2002 | Resident, Institute of Forensic Medicine, University Bern |
02/1998 – 01/1999 | Resident in surgery, Bürgerspital Solothurn |
Institutional Responsibilities
As of 1 August 2024 Dean of the Medical Faculty.
Director of the Institute of Forensic Medicine (70 employees) with responsibility for organisation, personnel, finances, and strategic planning of services in forensic medicine, traffic medicine, forensic genetics, and forensic chemistry and toxicology for the Kantons Basel-Stadt, Basel-Landschaft, Solothurn;
Head physician forensic medicine, writing of expert reports and acting as expert witness in forensic medicine; strategic planning, coordination, and supervision of the research and teaching activities of the institute; scientific counselling of federal offices (BAG, fedpol, SEM) concerning forensic aspects (e.g. traffic safety, age estimation, practical aspects of criminal law);
Member of the executive board of the health department Kanton Basel-Stadt
Major academic achievements
Building a research environment at the Institute of Forensic Medicine Basel (IRM): As the institute did not have any scientific activity prior to my appointment, the most relevant task in view of a future scientific output was building an infrastructural and personal research environment allowing to conducting high level research projects. The most relevant steps have been (1) developing an IT environment which allows to access scientific publications and other research resources at the University of Basel, (2) to install PhD student and postdoc positions in the three departments of forensic chemistry and toxicology, forensic imaging, and forensic genetics, (3) to create a dedicated research group with a research group leader in forensic imaging, (4) installing weekly journal clubs and research seminars, (5) establishing the process of applications to the ethical review board including, among others, a general ethics vote for conducting any non-invasive imaging examination in deceased with an autopsy request by the prosecution without the need of consent by the next of kin - this being an important step for performing research in postmortem forensic imaging, (6) appointing department heads who are qualified and motivated for scientific activity, (7) not claiming last authorship on all IRM publications for I deem this an important step to promote younger researchers by letting them take responsibility and gain visibility, and (8) applying for third-party funded projects.
One of my major scientific strengths is conducting research in the field of clinical-forensic imaging, which has a major impact on criminal proceedings in living victims. Applying magnetic resonance imaging to certain forensic questions allows to non-invasively detect relevant injury findings in addition to an external examination. As methodology particularly in MRI needs to be adapted to the aim of the exam and the questions to be answered, research and development of such methods are needed. My main fields of research in clinical-forensic imaging are age estimation, strangulation, fracture dating, and the detection and dating of hematomas. Forensic age estimation in adolescents is a highly relevant issue not only scientifically but also politically and legally. My studies concentrate mainly on the development and use of MRI based methods. I was able to show that X-ray based methods applied to assess dental and skeletal age, could be replaced by MRI and that the same staging systems could be used. The question of dating injury is important in forensic medicine. However, in living persons standard methods such as histology cannot be applied, and injured tissues heal and regenerate. The hypothesis of my scientific work is that MR based methods, i.e. morphologic as well as quantitative MRI permit to identify and measure additional information in regenerating tissue and its surrounding which can be used for dating. This applies similarly to hematomas as well as to fractures. Particularly in child abuse cases, estimating the age of a fracture as precisely as possible is decisive to include or exclude suspects.
[1] Glemser, P. A., Krauskopf, A., Schlemmer, H.-P., & Yen, K. (Eds.). (2021). Radiologie der Gewalt. Georg Thieme Verlag KG. https://doi.org/10.1055/b-004-132205.
[2] Ogris K, Petrovic A, Scheicher S, Sprenger H, Urschler M, Hassler EM, Yen K, Scheurer E (2017). Detection and volume estimation of artificial hematomas in the subcutaneous fatty tissue: comparison of different MR sequences at 3.0 T. Forensic Science, Medicine, and Pathology. https://doi.org/10.1007/s12024-017-9847-8.
[3] Urschler M, Krauskopf A, Widek T, Sorantin E, Ehammer T, Borkenstein M, Yen K, Scheurer E (2016). Applicability of Greulich-Pyle and Tanner-Whitehouse grading methods to MRI when assessing hand bone age in forensic age estimation: A pilot study. Forensic Science International. https://doi.org/10.1016/j.forsciint.2016.06.016.
[4] Baron K, Neumayer B, Widek T, Schick F, Scheicher S, Hassler E, Scheurer E (2016). Quantitative MR imaging in fracture dating–Initial results. Forensic Science International. https://doi.org/10.1016/j.forsciint.2016.01.020.
[5] Widek T, Genet P, Ehammer T, Schwark T, Urschler M, Scheurer E (2021). Bone age estimation with the Greulich-Pyle atlas using 3T MR images of hand and wrist. Forensic Science International. https://doi.org/10.1016/j.forsciint.2020.110654.
In the field of postmortem forensic medicine, my focus is mainly on methodology with the aim of developing and optimizing methods to translate technical advances into a practical benefit for daily forensic routine. My research included the development of computer-aided tools for forensic case analysis and identification of deceased, investigating artefacts in organ histology after postmortem CT angiography, and establishing a technical set-up for infrared photography. Additionally, during my entire research career I have been investigating brain structure using MR based methods. My first steps in research included the use of MR spectroscopy in situ for the estimation of the postmortem interval based on metabolites from degrading brain tissue. Later, I explored diffusion-weighted and diffusion tensor MRI in postmortem brain tissue. Currently, my focus is on the investigation of brain edema, the influence of temperature of postmortem brain MRI and the validation of findings, as forensic autopsy and histology offer a unique opportunity for validating neuroradiology findings and can, thus, contribute to interdisciplinary science.
[6] Stumm CJ, Wittig H, Kalberer NM, Scheurer E (2020). Histomorphological assessment of isolated abdominal organs after targeted perfusion with the contrast agent Angiofil® in postmortem computed tomography angiography. Forensic Science International. https://doi.org/10.1016/j.forsciint.2020.110427.
[7] Bauer M, Berger C, Gerlach K, Scheurer E, Lenz C (2022). Post mortem evaluation of brain edema using quantitative MRI. Forensic Science International. https://doi.org/10.1016/j.forsciint.2022.111376.
[8] Rost T, Kalberer N, Scheurer E (2017). A user-friendly technical set-up for infrared photography of forensic findings. Forensic Science International. https://doi.org/10.1016/j.forsciint.2017.07.001.
[9] Weiss G, Wittig H, Scheurer E, Ruprecht R, Lenz C (2018). Identification of deceased based on sternal bone computed tomography features. Forensic Science International. https://doi.org/10.1016/j.forsciint.2018.03.018.
[10] Langkammer C, Schweser F, Krebs N, Deistung A, Goessler W, Scheurer E, Sommer K, Reishofer G, Yen K, Fazekas F, Ropele S, Reichenbach JR (2012). Quantitative susceptibility mapping (QSM) as a means to measure brain iron? A post mortem validation study. NeuroImage. https://doi.org/10.1016/j.neuroimage.2012.05.049.
Publications
A full publication record is accessible at Google Scholar or via my ORCID Eva Scheurer.
Teaching Activities
Medical Faculty | teaching responsibility for medical students in forensic medicine (bachelor and master) |
Juridical Faculty | lecture series (3 ECTS) in forensic medicine |
Memberships in Panels, Boards, and Individual Scientific Reviewing Activities
since 08/2023 | Head of the Integrity Commission, Department of Biomedical Engineering, Medical Faculty, University of Basel |
since 11/2021 | Member of the Executive Board, Department of Biomedical Engineering, Medical Faculty, University Basel |
10/2021–06/2022 | President of the European Society for Magnetic Resonance in Medicine and Biology (ESMRMB) |
03/2019–08/2023 | Delegate of the Medical Faculty, University Basel, Senate of the Swiss Academy of Medical Science (SAMW) |
11/2018–12/2022 | President of the Swiss Society for Forensic Medicine (SGRM) |
since 05/2018 | Member of the Teachiung Commission, Master Studies in Biomedical Engineering, Medical Faculty, University of Basel |
09/2016 – 01/2021 | Member of the PhD-Board of the Medical Faculty, University Basel |
since 09/2015 | Delegate of the Medical Faculty, Senate (Regenz) of the University Basel |
since 11/2014 | Member of the Koordinationsgremium Medizin (KOG) |
2014 – 2018 | Vicepresident of the Swiss Society for Forensic Medicine (SGRM) |
2013 – 2017 and 2019 – 2021 | Member of the Executive Board (Education Officer, Treasurer, President Elect, Vice-President) of the ESMRMB |
Reviewer for | International Journal of Legal Medicine, Forensic Science International, NMR in Biomedicine, European Radiology, Journal of Magnetic Resonance Imaging, European Heart Journal, Irish Journal of Medical Science, Swiss Medical Weekly, Der Radiologe, Schweizerischer Nationalfonds (SNF), Deutsche Fördergesellschaft (DFG), Alexander Humboldt-Stiftung |