H. van Herck scite author profile

We compared the behaviours of rats, and measured various blood parameters, after three blood sampling techniques: orbital puncture while they were under diethyl-ether anaesthesia, blood collection by tail vein puncture under O2-N2O-halothane anaesthesia and puncture of the saphenous vein without anaesthesia. Twelve rats were subjected to the three treatments according to a Latin square design. After each treatment, the behaviour of the rats was automatically monitored using the so-called LABORAS method, which discriminates between grooming, locomotion and inactivity in rats. Based on excitation scores and urine production, it was found that induction of diethyl-ether anaesthesia combined with orbital puncture caused more distress than did the other two blood sampling techniques. The three techniques had no differential effects on the behaviours of grooming, locomotion and inactivity. Collecting 0.5 ml of blood by orbital puncture was +/-7 times faster than doing so by saphenous vein puncture and +/- 15 times faster than collecting blood by tail vein puncture while the rats were under O2-N2O-halothane anaesthesia. The levels of some haematological and plasma variables differed significantly between the three blood collection techniques. These observations may help to select the most appropriate technique of blood sampling with respect to anticipated discomfort in the animals.

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Orbital sinus blood sampling in rats as performed by different animal technicians: the influence of technique and expertise

Herck

et al. 1998

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In this study the influence of orbital sinus blood sampling on clinical signs was studied within the framework of various nutritional experiments. In order to assess the clinical signs in a random design, the rats were punctured in either the left or the right orbit. Thus, the effect of puncture within rats could be determined by comparing the left and right eye. Four animal technicians punctured a total of 303 rats, using different techniques. Orbital sinus blood sampling caused clinically visible alterations. The type, frequency and prognosis of the alterations differed with the person performing the puncture. Two experienced animal technicians were able to perform the technique without causing a statistically significant increase in alterations in punctured orbits. One less experienced animal technician caused severe abnormalities. The use of either a Pasteur pipette or a haematocrit capillary did not necessarily produce different results. Neither did puncturing the lateral vs the medial canthus of the orbit. By not applying chloramphenicol eye ointment in the conjunctival sac after puncture, the number of abnormalities in 'ocular discharge' and 'corneal alterations' in the punctured orbits was significantly decreased. Four punctures in the same orbit with 14-day intervals by a skilled animal technician did not cause a significant increase in abnormalities.

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FELASA recommendations for the health monitoring of mouse, rat, hamster, gerbil, guineapig and rabbit experimental units: Report of the Federation of European Laboratory Animal Science Associations (FELASA) Working Group on Animal Health accepted by the FELASA Board of Management, November 1995

Rehbinder¹,

Baneux²,

Forbes³

et al. 1996

Lab Anim

124

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Histological changes in the orbital region of rats after orbital puncture

Herck

Baumans²,

Craats

et al. 1992

Lab Anim

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SummaryTo contribute to the assessment of the degree of discomfort in rats after orbital puncture, we have examined the histological changes in the intraorbital tissues caused by this technique of blood sampling. Orbits were studied from rats euthanized either within 1 min, 4 days, 28 days or S6 days after puncture while under diethyl-ether anaesthesia. The techniques of 2 animal technicians were compared, one using a broken haematocrit capillary and the other using an intact Pasteur's pipette. Non-punctured orbits served as controls.Microscopic slides containing the eye in situ at 2 horizontal levels in the orbital region were examined for 37 parameters; the slides were scored blind and in random order. Orbital puncture caused haemorrhages in the puncture track and, depending on the technique used, also in the periosteum. Four days after puncture, inflammatory reactions were present in the puncture track. Depending on the technique of puncture, these reactions were also seen in the eye muscles and periosteum or in the Harderian gland. Within 4 weeks after puncture, the lesions had healed without detectable scars. The different histological effects of the·2 techniques of orbital puncture are discussed in the light of the characteristics of these techniques.

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Selective visualisation of neuroepithelial bodies in vibratome slices of living lung by 4-Di-2-ASP in various animal species

et al. 2005

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Pulmonary neuroepithelial bodies (NEBs) are extensively innervated organoid groups of neuroendocrine cells that lie in the epithelium of intrapulmonary airways. Our present understanding of the morphology of NEBs is comprehensive, but direct physiological studies have so far been challenging because the extremely diffuse distribution of NEBs makes them inaccessible in vivo and because a reliable in vitro model is lacking. Our aim has been to optimise an in vitro method based on vibratome slices of living lungs, a model that includes NEBs, the surrounding tissues and at least part of their complex innervation. This in vitro model offers satisfactory access to pulmonary NEBs, provided that they can be differentiated from other tissue elements. The model was first optimised for living rat lung slices. Neutral red staining, reported to stain rabbit NEBs, proved unsuccessful in rat slices. On the other hand, the styryl pyridinium dye, 4-(4-diethylaminostyryl)-N-methylpyridinium iodide (4-Di-2-ASP), showed brightly fluorescent cell groups, reminiscent of NEBs, in the airway epithelium of living lung slices from rat. In addition, nerve fibres innervating the NEBs were labelled. The reliable and specific labelling of pulmonary NEBs by 4-Di-2-ASP was corroborated by immunostaining for protein gene-product 9.5. Live cell imaging and propidium iodide staining further established the acceptable viability of 4-Di-2-ASP-labelled NEB cells in lung slices, even over long periods. Importantly, the in vitro model and 4-Di-2-ASP staining procedure for pulmonary NEBs appeared to be equally reproducible in mouse, hamster and rabbit lungs. Diverse immunocytochemical procedures could be applied to the lung slices providing an opportunity to combine physiological and functional morphological studies. Such an integrated approach offers additional possibilities for elucidating the function(s) of pulmonary NEBs in health and disease.

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H. van Herck

Blood sampling from the retro-orbital plexus, the saphenous vein and the tail vein in rats: comparative effects on selected behavioural and blood variables

Orbital sinus blood sampling in rats as performed by different animal technicians: the influence of technique and expertise

FELASA recommendations for the health monitoring of mouse, rat, hamster, gerbil, guineapig and rabbit experimental units: Report of the Federation of European Laboratory Animal Science Associations (FELASA) Working Group on Animal Health accepted by the FELASA Board of Management, November 1995

Histological changes in the orbital region of rats after orbital puncture

Selective visualisation of neuroepithelial bodies in vibratome slices of living lung by 4-Di-2-ASP in various animal species

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