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1.
Clin Anat ; 37(1): 54-72, 2024 Jan.
Article in English | MEDLINE | ID: mdl-37650536

ABSTRACT

Dissection Rooms (DRs) are key facilities that allow teaching and research on human anatomy, where students and researchers work with human bodies to acquire, increase, or create new knowledge. Usually, DRs work with a Body Donation Program (BDP), where living donors bequeath their bodies for use in teaching and research after they expire. Despite DRs being part of universities worldwide, no common guidelines, regulations, or quality management systems (QMS) exist that could be applied to different countries. With that purpose in mind, we aimed to develop a QMS that could be applied to DRs globally, using a Delphi panel to achieve consensus about the items that should constitute the QMS. The panel was constituted by 20 anatomy professors from 20 different countries, and the 167 standards to create the rules or guidelines that constitute the QMS were divided in five categories: direction, body donation, students, instructors, and research. After two rounds of revisions, 150 standards were considered "essential" or "important" by more than 70% of the participants, thus being incorporated to the Dissection Room Quality System (DRQS). The results of this panel represent a minimum list of items of the DRQS for improving the functioning of DRs globally.


Subject(s)
Dissection , Human Body , Humans , Consensus , Delphi Technique
2.
J Anat ; 213(6): 718-24, 2008 Dec.
Article in English | MEDLINE | ID: mdl-19094187

ABSTRACT

The attachment of the Achilles tendon is part of an 'enthesis organ' that reduces stress concentration at the hard-soft tissue interface. The organ also includes opposing sesamoid and periosteal fibrocartilages, a bursa and Kager's fat pad. In addition, the deep crural and plantar fasciae contribute to Achilles stress dissipation and could also be regarded as components. Here we describe the sequence in which these various tissues differentiate. Serial sections of feet from spontaneously aborted foetuses (crown rump lengths 22-322 mm) were examined. All slides formed part of an existing collection of histologically sectioned embryological material, obtained under Spanish law and housed in the Universidad Complutense, Madrid. From the earliest stages, it was evident that the Achilles tendon and plantar fascia had a mutual attachment to the calcaneal perichondrium. The first components of the enthesis organ to appear (in the 45-mm foetus) were the retrocalcaneal bursa and the crural fascia. The former developed by cavitation within the mesenchyme that later gave rise to Kager's fat pad. The tip of the putative fat pad protruded into the developing bursa in the 110-mm foetus and fully differentiated adipocytes were apparent in the 17-mm foetus. All three fibrocartilages were first recognisable in the 332-mm foetus--at which time adipogenesis had commenced in the heel fat pad. The sequence in which the various elements became apparent suggests that bursal formation and the appearance of the crural fascia may be necessary to facilitate the foot movements that subsequently lead to fibrocartilage differentiation. The later commencement of adipogenesis in the heel than in Kager's pad probably reflects the non-weight environment in utero. The direct continuity between plantar fascia and Achilles tendon that is characteristic of the adult reflects the initial attachment of both structures to the calcaneal perichondrium rather than to the skeletal anlagen itself.


Subject(s)
Achilles Tendon/anatomy & histology , Aging/physiology , Magnetic Resonance Imaging , Achilles Tendon/embryology , Adipose Tissue/anatomy & histology , Adipose Tissue/embryology , Adult , Bursa, Synovial/anatomy & histology , Bursa, Synovial/embryology , Calcaneus/anatomy & histology , Calcaneus/embryology , Female , Fetal Development/physiology , Fibrocartilage/anatomy & histology , Fibrocartilage/embryology , Humans , Male , Middle Aged , Young Adult
3.
Clin Anat ; 17(5): 429-35, 2004 Jul.
Article in English | MEDLINE | ID: mdl-15176043

ABSTRACT

A study was carried out on the application of magnetic resonance microscopy (MRM) in teaching prenatal human development. Human embryos measuring 8 mm, 15 mm, 18.5 mm, and 22 mm were fixed in a 4% paraformaldehyde solution and sections obtained with magnetic resonance imaging (MRI) were compared to those prepared for light microscopy (LM), using the same embryos. The MRM and LM slices were of a similar quality. In the MRM sections, embryonic organs and systems were clearly visible, particularly the peripheral and central nervous systems, and the cardiovascular and digestive systems. The digitalization and clarity of the MRM images make them an ideal teaching aid that is suitable for students during the first years of a health-science degree, particularly medicine. As well as providing students with their first experience of MRM, these images allow students to access, at any time, all embryos used, to assess changes in the positions of different organs throughout their stages of development, and to acquire spatial vision, an absolute requirement in the study of human anatomy. We recommend that this technique be incorporated into the wealth of standard embryonic teaching methods already in use.


Subject(s)
Embryo, Mammalian/embryology , Embryology/education , Magnetic Resonance Imaging , Microscopy/methods , Gestational Age , Humans , Image Processing, Computer-Assisted , Imaging, Three-Dimensional
4.
Ital J Anat Embryol ; 106(2 Suppl 2): 155-60, 2001.
Article in English | MEDLINE | ID: mdl-11732572

ABSTRACT

This study evaluates the use of the Microscopic Magnetic Resonance (MMR) in the human prenatal development. Human embryos (8mm, 15mm, 18mm and 22mm in length) fixed in 4% paraformaldehyde were used. Results were compared with light microscopy (LM) images. The internal configuration of the embryos can be clearly observed as well as many organs such as liver, lungs, heart, including their spatial relationships. In general MMR sections are less clear and show minor details than those by LM. Neverthless, many advantages are provided by using this technique. For example it is possible: a) to make three-dimensional (3-D) surface and internal full or partial reconstructions; b) to evaluate the presence of developmental anomalies; c) to evaluate the tissular preservation degree of the specimens; and d) to apply morphometric techniques to unfixed specimens. In our opinion the advantages derived by using MMR are many and overcome the disadvantages. This study demonstrates that MMR can be incorporated into ordinary laboratory techniques in human development studies, being also an initial election technique opposite to others more aggressive.


Subject(s)
Embryonic and Fetal Development , Fetus/anatomy & histology , Magnetic Resonance Spectroscopy , Microscopy , Gestational Age , Humans , Magnetic Resonance Spectroscopy/methods , Microscopy/methods
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