Gunter F. Egger scite author profile

The uniquely designed limbs of the African elephant, Loxodonta africana , support the weight of the largest terrestrial animal. Besides other morphological peculiarities, the feet are equipped with large subcutaneous cushions which play an important role in distributing forces during weight bearing and in storing or absorbing mechanical forces. Although the cushions have been discussed in the literature and captive elephants, in particular, are frequently affected by foot disorders, precise morphological data are sparse. The cushions in the feet of African elephants were examined by means of standard anatomical and histological techniques, computed tomography (CT) and magnetic resonance imaging (MRI). In both the forelimb and the hindlimb a 6th ray, the prepollex or prehallux, is present. These cartilaginous rods support the metacarpal or metatarsal compartment of the cushions. None of the rays touches the ground directly. The cushions consist of sheets or strands of fibrous connective tissue forming larger metacarpal/metatarsal and digital compartments and smaller chambers which were filled with adipose tissue.The compartments are situated between tarsal, metatarsal, metacarpal bones, proximal phalanges or other structures of the locomotor apparatus covering the bones palmarly/plantarly and the thick sole skin. Within the cushions, collagen, reticulin and elastic fibres are found. In the main parts, vascular supply is good and numerous nerves course within the entire cushion. Vater-Pacinian corpuscles are embedded within the collagenous tissue of the cushions and within the dermis. Meissner corpuscles are found in the dermal papillae of the foot skin. The micromorphology of elephant feet cushions resembles that of digital cushions in cattle or of the foot pads in humans but not that of digital cushions in horses. Besides their important mechanical properties, foot cushions in elephants seem to be very sensitive structures.

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Enabling Development of Paediatric Medicines in Europe: 10 Years of the EU Paediatric Regulation

Tomasi¹,

Egger²,

Pallidis³

et al. 2017

Pediatr Drugs

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The year 2017 marks the tenth anniversary of entry into force of the Paediatric Regulation in the European Union (EU). This law aimed to stimulate the development of paediatric medicines and provide more information on their use, as a response to the lack of evidence and approval of medicines for children. The European Medicines Agency (EMA) has had a central role in the implementation of the Regulation. Pharmaceutical companies need to submit a paediatric investigation plan (PIP) to the EMA's Paediatric Committee (PDCO) for every new medicine, unless an exemption (waiver) is granted. The plans, which describe the development of drugs for children, must be agreed well in advance of the request for marketing authorization of the medicine. Deferrals of studies can be granted to allow approval in adults before the completion of paediatric studies. Between January 2007 and December 2016, a total of 273 new medicines and 43 additional pharmaceutical forms appropriate for use in children were authorized in the EU, and 950 PIPs were agreed by the EMA. In addition, 486 waivers of the development of a medicine in one or more medical conditions were agreed. The Paediatric Regulation has had a very positive impact on paediatric drug development, as exemplified by a comparison of two periods of 3 years before and after entry into force of the Regulation. We conclude that the Regulation has resulted in more medicines for children and more information on the pediatric use of medicines in the EU being available to clinicians.

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The elephant knee joint: morphological and biomechanical considerations

Weissengruber

Fuss

Egger³

et al. 2006

Journal of Anatomy

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Elephant limbs display unique morphological features which are related mainly to supporting the enormous body weight of the animal. In elephants, the knee joint plays important roles in weight bearing and locomotion, but anatomical data are sparse and lacking in functional analyses. In addition, the knee joint is affected frequently by arthrosis. Here we examined structures of the knee joint by means of standard anatomical techniques in eight African ( Loxodonta africana ) and three Asian elephants ( Elephas maximus ). Furthermore, we performed radiography in five African and two Asian elephants and magnetic resonance imaging (MRI) in one African elephant. Macerated bones of 11 individuals (four African, seven Asian elephants) were measured with a pair of callipers to give standardized measurements of the articular parts. In one Asian and three African elephants, kinematic and functional analyses were carried out using a digitizer and according to the helical axis concept. Some peculiarities of healthy and arthrotic knee joints of elephants were compared with human knees. In contrast to those of other quadruped mammals, the knee joint of elephants displays an extended resting position. The femorotibial joint of elephants shows a high grade of congruency and the menisci are extremely narrow and thin. The four-bar mechanism of the cruciate ligaments exists also in the elephant. The main motion of the knee joint is extension-flexion with a range of motion of 142 ° .In elephants, arthrotic alterations of the knee joint can lead to injury or loss of the cranial (anterior) cruciate ligament.

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Microvessel density in normal lymph nodes and lymphomas of dogs and their correlation with vascular endothelial growth factor expression

Wolfesberger

Tonar

Witter

et al. 2008

Research in Veterinary Science

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Gunter F. Egger

The structure of the cushions in the feet of African elephants (Loxodonta africana)

Enabling Development of Paediatric Medicines in Europe: 10 Years of the EU Paediatric Regulation

The elephant knee joint: morphological and biomechanical considerations

Microvessel density in normal lymph nodes and lymphomas of dogs and their correlation with vascular endothelial growth factor expression

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