An early scientific report on acromegaly: solving an intriguing endocrinological (c)old case?

We present and discuss a late-nineteenth century clinical case described by Professor Taruffi in a scientific paper titled "Scheletro con prosopoectasia e tredici vertebre dorsali" (Skeleton with prosopoectasia and thirteen thoracic vertebrae). Taruffi could not explain the disproportionate skeletal and visceral growth, and the case could therefore be considered an unrecognized case of acromegaly. The anatomopathological specimens and the wax model cited in the paper are currently hosted at the "Luigi Cattaneo" Anatomical Wax Collection of Bologna University; however, some inaccuracies and uncertainties as to their attribution to the same case have remained to this day. The skeletal remains were examined macroscopically to investigate any structural abnormalities and pathological changes. In addition, thanks to archival, museum inventory and literature research, we documented the systematic relationship between the paper and the samples and were able to ascribe the abnormally dilated dried stomach, currently displayed in a different showcase, to the same case. This is, to our knowledge, the first case of acromegaly in the history of medical literature which also includes a visceral specimen. As far as we know, there are no reports of the occurrence of severe gastromegaly in patients with acromegaly. In view of this rare association and, to date, endocrinological research, we hypothesize a further pathogenic mechanism by which acromegaly could have induced this massive dilatation. Taruffi's work represents an immensely valuable scientific/artistic heritage and is still cited in contemporary endocrinological literature, demonstrating its relevant contribution to the historical evolution of the disease through the nineteenth and twentieth centuries.

Collagen fibre arrangement and functional crimping pattern of the medial collateral ligament in the rat knee.

Ligaments have been described as multifascicular structures with collagen fibres cross-connecting to each other or running straight and parallel also showing a waviness or crimping pattern playing as a shock absorber/recoiling system during joint motions. A particular collagen array and crimping pattern in different ligaments may reflect different biomechanical roles and properties. The aim of the study was to relate the 3D collagen arrangement in the crimping pattern of the medial collateral ligament (MCL) to its functional role. The MCL is one of the most injured ligaments during sports activities and an experimental model to understand the rate, quality and composition of ligaments healing. A deep knowledge of structure-function relationship of collagen fibres array will improve the development of rehabilitation protocols and more appropriate exercises for recovery of functional activity. The rat MCL was analysed by polarized light microscopy, confocal laser microscopy and scanning electron microscopy (SEM). Histomorphometric analysis demonstrated that MCL crimps have a smaller base length versus other tendons. SEM observations demonstrated that collagen fibres showing few crimps were composed of fibrils intertwining and crossing one another in the outer region. Confocal laser analyses excluded a helical array of collagen fibres. By contrast, in the core portion, densely packed straight collagen fibres ran parallel to the main axis of the ligament being interrupted both by planar crimps, similar to tendon crimps, and by newly described right-handed twisted crimps. It is concluded that planar crimps could oppose or respond exclusively to tensional forces parallel to the main ligament axis, whereas the right-handed twisted crimps could better resist/respond to a complex of tensional/rotational forces within the ligament thus opposing to an external rotation of tibia.