Education in laboratory animal science and the 3Rs.

While laboratory animal research continues to be crucial for scientific and medical advancement, it still raises relevant ethical considerations. In order to foster public trust and support, all animal use must be relevant, responsible, competent and humane, and education and training of scientists in laboratory animal science (LAS) is vital to achieve these goals. However, education must be effective in generating meaningful learning and promoting a culture of competence, professionalism, accountability and transparency. With the ongoing technological and pedagogical revolution in education, LAS educators are adopting innovative educational practices, including e-learning modules, interactive simulations and virtual reality tools, to create and deliver inspirational educational experiences that are immersive, interactive, learner-centric and effective. Drawing from their expertise and experience, the authors of the articles included in this special edition bring forward new technologies and approaches, as well as novel perspectives to well-established concepts and methodologies, hopefully valuable contributions for better engagement and improved learning on LAS and the 3Rs.

New perspectives for teaching Culture of Care and their strengths and challenges.

Nurturing a culture of care remains a key strategy and needs to be well integrated in the education programmes for laboratory animal professionals. Addressing attitudes is a complex task that must ensure reflective learning approaches. Teaching strategies must facilitate a safe space to talk openly about emotions and caring responsibilities. We reflect on two training initiatives focusing on culture of care. Firstly, the 'Care-full Stories' tool, which uses fictionalised prompts (storytelling) to encourage participants to share their own stories from working in animal research. Feedback on its impact on establishing a safe space for sharing experiences and the importance of appreciating diverse perspectives between staff is discussed. Secondly, we provide feedback on the development of training approaches on animal research integrity and culture of care with low- middle-income international communities. Strategic targets addressing the multicultural diversity of the communities, recognising their specific needs and their access to resources, must be well defined. It is important to acknowledge the interconnection between people, animals and their shared natural environment when defining the culture of care concept and addressing the teaching approaches. We discuss both the positive outcomes and challenges of these two learning experiences to support innovation when planning tools for teaching culture of care. Accounting for 'how' and 'where' the training will be delivered remains key to its successful uptake and local sustainability. Supporting improved educational tools to ascertain why caring has an impact on our professional lives will have a direct impact on the wellbeing of laboratory animal professionals worldwide.

Teaching a culture of care: why it matters / Enseñar una cultura del cuidado: por qué es importante

The use of animal in biomedical research remains a critical compromise. Research and higher education institutions play a major role in educating on the use of animal and such training is expected to translate into the development of a culture of care practice across all staff working with animals. But nurturing a "culture of care" and impacting in professional attitudes in the field of animal research remains challenging due to its social, ethical and different institutional frameworks. From an educational perspective, current practice remains challenged by the need for better integration of inter-cultural perceptions on animal welfare, supported by more cross disciplinary integration in educational curriculum including the relevance of the 3Rs principles and promoting reflective practice strategies. Institutional support is crucial to provide a safe, and supportive framework to promote such caring ethos. Our aim is to discuss practical actions to implement and assess culture of care, highlighting its direct impact on the professional integrity of staff which is directly linked to research and education excellence. Seeking a global welfare for all the beings involved and supporting individual and team reflective practice will provide better tools to guarantee the best care of the animals (AU)

El uso de animales en la investigación biomédica sigue siendo un compromiso crítico. Las instituciones de investigación y educación superior desempeñan un papel importante en la enseñanza sobre el uso de animales y se espera que dicha capacitación se traduzca en el desarrollo de una cultura de prácticas de cuidado en todo el personal que trabaja con animales. Pero fomentar una "cultura del cuidado" e impactar en las actitudes profesionales en el campo de la investigación animal sigue siendo un desafío debido a las diferentes perspectivas sociales, éticas y regulatorias. Desde una perspectiva educativa, la práctica actual sigue siendo cuestionada por la necesidad de una mejor integración de las percepciones interculturales sobre el bienestar animal, respaldada por una mayor integración interdisciplinaria en el plan de estudios, incluida la relevancia de los principios de las 3R y la promoción de estrategias de práctica reflexiva. El apoyo institucional es crucial para proporcionar un marco seguro y de apoyo para promover este espíritu solidario. Nuestro objetivo es discutir acciones prácticas para implementar y evaluar la cultura de la atención, destacando su impacto directo en la integridad profesional del personal que está directamente relacionado con la excelencia en investigación y educación. Buscar un bienestar global para todos los seres involucrados y apoyar la práctica reflexiva individual y de equipo proporcionará mejores herramientas para garantizar el mejor cuidado de los animales (AU)

L'ús d'animals en la recerca biomèdica continua sent un compromís crític. Les institucions de recerca i educació superior exerceixen un paper important en l'ensenyament sobre l'ús d'animals i s'espera que aquesta capacitació es tradueixi en el desenvolupament d'una cultura de pràctiques de cura en tot el personal que treballa amb animals. Però fomentar una "cultura de la cura" i impactar en les actituds professionals en el camp de la recerca animal continua sent un desafiament degut a les diferents perspectives socials, ètiques i reguladores. Des d'una perspectiva educativa, la pràctica actual continua sent qüestionada per la necessitat d'una millor integració de les percepcions interculturals sobre el benestar animal, recolzada per una major integració interdisciplinària en el pla d'estudis, inclosa la rellevància dels principis de les 3R i la promoció d'estratègies de pràctica reflexiva. El suport institucional és crucial per a proporcionar un marc segur i de suport per a promoure aquest esperit solidari. El nostre objectiu és discutir accions pràctiques per a implementar i avaluar la cultura de l'atenció, destacant el seu impacte directe en la integritat professional del personal que està directament relacionat amb l'excel·lència en recerca i educació. Buscar un benestar global per a tots els éssers involucrats i donar suport a la pràctica reflexiva individual i d'equip proporcionarà millors eines per a garantir la millor cura dels animals (AU)

Assessment of F/HN-pseudotyped lentivirus as a clinically relevant vector for lung gene therapy.

RATIONALE: Ongoing efforts to improve pulmonary gene transfer thereby enabling gene therapy for the treatment of lung diseases, such as cystic fibrosis (CF), has led to the assessment of a lentiviral vector (simian immunodeficiency virus [SIV]) pseudotyped with the Sendai virus envelope proteins F and HN. OBJECTIVES: To place this vector onto a translational pathway to the clinic by addressing some key milestones that have to be achieved. METHODS: F/HN-SIV transduction efficiency, duration of expression, and toxicity were assessed in mice. In addition, F/HN-SIV was assessed in differentiated human air-liquid interface cultures, primary human nasal epithelial cells, and human and sheep lung slices. MEASUREMENTS AND MAIN RESULTS: A single dose produces lung expression for the lifetime of the mouse (~2 yr). Only brief contact time is needed to achieve transduction. Repeated daily administration leads to a dose-related increase in gene expression. Repeated monthly administration to mouse lower airways is feasible without loss of gene expression. There is no evidence of chronic toxicity during a 2-year study period. F/HN-SIV leads to persistent gene expression in human differentiated airway cultures and human lung slices and transduces freshly obtained primary human airway epithelial cells. CONCLUSIONS: The data support F/HN-pseudotyped SIV as a promising vector for pulmonary gene therapy for several diseases including CF. We are now undertaking the necessary refinements to progress this vector into clinical trials.

Anaesthesia and physiological monitoring during in vivo imaging of laboratory rodents: considerations on experimental outcomes and animal welfare.

The implementation of imaging technologies has dramatically increased the efficiency of preclinical studies, enabling a powerful, non-invasive and clinically translatable way for monitoring disease progression in real time and testing new therapies. The ability to image live animals is one of the most important advantages of these technologies. However, this also represents an important challenge as, in contrast to human studies, imaging of animals generally requires anaesthesia to restrain the animals and their gross motion. Anaesthetic agents have a profound effect on the physiology of the animal and may thereby confound the image data acquired. It is therefore necessary to select the appropriate anaesthetic regime and to implement suitable systems for monitoring anaesthetised animals during image acquisition. In addition, repeated anaesthesia required for longitudinal studies, the exposure of ionising radiations and the use of contrast agents and/or imaging biomarkers may also have consequences on the physiology of the animal and its response to anaesthesia, which need to be considered while monitoring the animals during imaging studies. We will review the anaesthesia protocols and monitoring systems commonly used during imaging of laboratory rodents. A variety of imaging modalities are used for imaging rodents, including magnetic resonance imaging, computed tomography, positron emission tomography, single photon emission computed tomography, high frequency ultrasound and optical imaging techniques such as bioluminescence and fluorescence imaging. While all these modalities are implemented for non-invasive in vivo imaging, there are certain differences in terms of animal handling and preparation, how the monitoring systems are implemented and, importantly, how the imaging procedures themselves can affect mammalian physiology. The most important and critical adverse effects of anaesthetic agents are depression of respiration, cardiovascular system disruption and thermoregulation. When anaesthetising rodents, one must carefully consider if these adverse effects occur at the therapeutic dose required for anaesthesia, if they are likely to affect the image acquisitions and, importantly, if they compromise the well-being of the animals. We will review how these challenges can be successfully addressed through an appropriate understanding of anaesthetic protocols and the implementation of adequate physiological monitoring systems.

Accurate measurement of body weight and food intake in environmentally enriched male Wistar rats.

Laboratory animals are crucial in the study of energy homeostasis. In particular, rats are used to study alterations in food intake and body weight. To accurately record food intake or energy expenditure it is necessary to house rats individually, which can be stressful for social animals. Environmental enrichment may reduce stress and improve welfare in laboratory rodents. However, the effect of environmental enrichment on food intake and thus experimental outcome is unknown. We aimed to determine the effect of environmental enrichment on food intake, body weight, behavior and fecal and plasma stress hormones in male Wistar rats. Singly housed 5-7-week-old male rats were given either no environmental enrichment, chew sticks, a plastic tube of 67 mm internal diameter, or both chew sticks and a tube. No differences in body weight or food intake were seen over a 7-day period. Importantly, the refeeding response following a 24-h fast was unaffected by environmental enrichment. Rearing, a behavior often associated with stress, was significantly reduced in all enriched groups compared to controls. There was a significant increase in fecal immunoglobulin A (IgA) in animals housed with both forms of enrichment compared to controls at the termination of the study, suggesting enrichment reduces hypothalamo-pituitary-adrenal (HPA) axis activity in singly housed rats. In summary, environmental enrichment does not influence body weight and food intake in singly housed male Wistar rats and may therefore be used to refine the living conditions of animals used in the study of energy homeostasis without compromising experimental outcome.

Bioluminescent monitoring of in vivo colonization and clearance dynamics by light-emitting bacteria.

Bioluminescence is an excellent reporter system for analysing bacterial colonization and clearance dynamics in vivo. Many bacterial species have been rendered bioluminescent, allowing the sensitive detection of bacterial burden and metabolic activity in real-time and in situ in living animals. In this chapter we describe the protocols for characterizing in vivo infection models using bioluminescent bacteria: from real-time imaging in living animals by bioluminescence imaging (BLI) to ex vivo BLI of harvested organs and tissues and, finally, to quantification of bacterial numbers in organ and tissue homogenates by luminometry and viable counts. While the lux operon from Photorhabdus luminescens is ideally suited for use in such models, there may be times when alternative luciferases, such as those from the firefly (luc) or marine copepods (Gluc), may be more appropriate. Here we describe the protocols required to monitor colonization and clearance dynamics using bioluminescent bacteria that are lux-, luc-, or Gluc-positive.

Refinement of in vivo surgical procedures for cardiac gene and cell transfer in rats.

In studies of gene and cell transfer for the treatment of heart disease, direct intramyocardial injection and antegrade intracoronary injection are common methods of delivering biomaterials to the heart. The authors, who carried out these surgical procedures in 377 rats, describe their methodology in detail and discuss surgical refinements that substantially reduced rat mortality. These refinements include a rigorous fluid replacement regimen, use of inhalational anesthesia instead of injectable agents, exposure of the heart without direct contact and use of a chest drainage cannula to remove air from the pleural cavity and prevent lung collapse.

Use of biophotonic imaging as a training aid for administration of substances in laboratory rodents.

Dosing of experimental animals and the removal of blood are two of the most frequent procedures performed in biomedical research using live animals. Despite the apparently simple nature of these procedures, they can, if not correctly carried out, have significant effects on the welfare of the animals and the scientific value of the results. There are several methods by which research staff may obtain training in the administration of substances. These include practical demonstrations during teaching courses; observation of techniques; videos and educational computer programs and practising on recently killed animal cadavers or plastic animal models. Each method has its own advantages and disadvantages. A common factor encountered during training is the difficulty in assessing competency. This paper reports a pilot study on the use of bioluminescent imaging technology to assess competency in the administration of substances to rodents. Bioluminescence was rapidly detected after dosing of animals with a bioluminescent substance. However, living animals were required for a signal to be generated. The data presented suggest that this technology is ideal for use as a teaching aid and may also prove valuable in assessing the effectiveness of 'complex' and novel administration routes in 'realtime'.

Review of successful treatment for Helicobacter species in laboratory mice.

Three variations of the amoxycillin-based triple therapy (amoxycillin, metronidazole and bismuth) were administered in the diet, by oral gavage or in the diet in conjunction with cross-fostering on to Helicobacter-free foster mothers to mice naturally infected with H. hepaticus and/or H. bilis. The presence of Helicobacter species was determined by polymerase chain reaction (PCR) analysis of faecal pellets. Helicobacter infection was eliminated in 50% of strains of mice treated by oral gavage; 57% of strains of mice treated by medicated diet alone and 100% of strains of mice treated with the medicated diet in conjunction with cross-fostering on to Helicobacter-free foster mothers. Eight strains of mice were successfully treated for Helicobacter infection over a two-year period. The mouse colony has been maintained Helicobacter free, as determined by PCR analysis and has remained off treatment from December 2002 to March 2005.