TY - JOUR
T1 - Recommendations of the working group of the Anatomische Gesellschaft on reduction of formaldehyde exposure in anatomical curricula and institutes
AU - Waschke, Jens
AU - Bergmann, Martin
AU - Bräuer, Lars
AU - Brenner, Erich
AU - Buchhorn, Andreas
AU - Deutsch, Arlette
AU - Dokter, Martin
AU - Egu, Desalegn Tadesse
AU - Ergün, Süleyman
AU - Fassnacht, Ulrich
AU - Fietz, Daniela
AU - Gundlach, Stefanie
AU - Heermann, Stephan
AU - Hirt, Bernhard
AU - Kugelmann, Daniela
AU - Müller-Gerbl, Magdalena
AU - Neiss, Wolfram
AU - Nimtschke, Ute
AU - Plendl, Johanna
AU - Pretterklieber, Michael
AU - Redies, Christoph
AU - Scaal, Martin
AU - Schmidt, Mirko H.H.
AU - Schmiedl, Andreas
AU - Schnittler, Hans Joachim
AU - Schomerus, Christof
AU - Sebestény, Tamás
AU - Spittau, Björn
AU - Steiniger, Birte
AU - Tschernig, Thomas
AU - Unverzagt, Axel
AU - Viebahn, Christoph
AU - Voigt, Ernst
AU - Weigner, Janet
AU - Weyers, Imke
AU - Winkelmann, Andreas
AU - Winkler, Merle
AU - Paulsen, Friedrich
PY - 2019/1
Y1 - 2019/1
N2 - The practice of human and veterinary medicine is based on the science of anatomy and dissection courses are still irreplaceable in the teaching of anatomy. Embalming is required to preserve body donors, for which process formaldehyde (FA) is the most frequently used and well characterized biocidal substance. Since January 2016, a new occupational exposure limit (OEL) for FA of 0.37 mg/m3 issued by the European Committee on Hazardous Substances is obligatory since FA has been classified as a human 1B carcinogen. The anatomical institutes in the German-speaking region are called upon to consolidate efforts to reduce use of FA in anatomical curricula and body donations. As a result, the Anatomische Gesellschaft (AG) has formed a “Working Group for Reduction of Formaldehyde Exposure in Dissection Courses” tasked with discussion and recommendation of measures to reduce FA. Based on the assessment of the Working Group, the AG has issued an official opinion to the effect that, at this point in time, embalming of body donors without FA completely is not feasible. Therefore, a combination of approaches are to be used to reduce FA exposure, including technical and structural (architectural) adaptations, modification of protocols for fixation and preservation as well as organizational measures. One structural measure considered unavoidable is the integration of air supply and exhaust of individual dissecting tables into the ventilation system of the anatomy building. To embalm human body donors, intra-arterial perfusion fixation with up to 4% FA and a total fluid volume of 150 mL/kg body weight will suffice. For animals where body weights and biology of bodies vary widely (i.e. special needs of fixation for ruminants, large animals as horses) perfusion fixation with up to 4% FA and a quantity of fixative solution of 10–15% of the body weight may be required. Preservation of body donors in storage (immersion) can be done with 40% ethanol or in a full bath preservation containing up to 2% FA. Corpse humidification in the dissecting room is possible with 2% phenoxyethanol, in each case without FA. In veterinary anatomy, microbiological burden is often higher and therefore might lead to a need of FA in long-time storage. Compliance with the current OEL in all institutes would appear to be feasible in combination with various organizational measures.
AB - The practice of human and veterinary medicine is based on the science of anatomy and dissection courses are still irreplaceable in the teaching of anatomy. Embalming is required to preserve body donors, for which process formaldehyde (FA) is the most frequently used and well characterized biocidal substance. Since January 2016, a new occupational exposure limit (OEL) for FA of 0.37 mg/m3 issued by the European Committee on Hazardous Substances is obligatory since FA has been classified as a human 1B carcinogen. The anatomical institutes in the German-speaking region are called upon to consolidate efforts to reduce use of FA in anatomical curricula and body donations. As a result, the Anatomische Gesellschaft (AG) has formed a “Working Group for Reduction of Formaldehyde Exposure in Dissection Courses” tasked with discussion and recommendation of measures to reduce FA. Based on the assessment of the Working Group, the AG has issued an official opinion to the effect that, at this point in time, embalming of body donors without FA completely is not feasible. Therefore, a combination of approaches are to be used to reduce FA exposure, including technical and structural (architectural) adaptations, modification of protocols for fixation and preservation as well as organizational measures. One structural measure considered unavoidable is the integration of air supply and exhaust of individual dissecting tables into the ventilation system of the anatomy building. To embalm human body donors, intra-arterial perfusion fixation with up to 4% FA and a total fluid volume of 150 mL/kg body weight will suffice. For animals where body weights and biology of bodies vary widely (i.e. special needs of fixation for ruminants, large animals as horses) perfusion fixation with up to 4% FA and a quantity of fixative solution of 10–15% of the body weight may be required. Preservation of body donors in storage (immersion) can be done with 40% ethanol or in a full bath preservation containing up to 2% FA. Corpse humidification in the dissecting room is possible with 2% phenoxyethanol, in each case without FA. In veterinary anatomy, microbiological burden is often higher and therefore might lead to a need of FA in long-time storage. Compliance with the current OEL in all institutes would appear to be feasible in combination with various organizational measures.
UR - http://www.scopus.com/inward/record.url?scp=85055648151&partnerID=8YFLogxK
U2 - 10.1016/j.aanat.2018.10.007
DO - 10.1016/j.aanat.2018.10.007
M3 - Journal articles
C2 - 30393181
AN - SCOPUS:85055648151
SN - 0940-9602
VL - 221
SP - 179
EP - 185
JO - Annals of Anatomy
JF - Annals of Anatomy
ER -