Pulmonary edema measured by MRI correlates with late-phase response to allergen challenge

Purpose: Asthma is associated with reversible airway obstruction, leucocyte infiltration, airways hyperresponsiveness (AHR) and airways remodelling. Fluid accumulation causes pulmonary oedema contributing to airways obstruction. We examined the temporal relationship between the late asthmatic response (LAR) following allergen challenge of sensitised guinea-pigs and pulmonary oedema measured by magnetic resonance imaging (MRI). Materials and Methods: Ovalbumin (OVA) sensitised guinea-pigs received either a single OVA inhalation (acute) or nine OVA inhalations at 48 h intervals (chronic). Airways obstruction was measured as specific airways conductance (sGaw) by whole body plethysmography. AHR to inhaled histamine and bronchoalveolar lavage for leucocyte counts were measured 24 h after a single or the final chronic ovalbumin challenges. MRI was performed at intervals after OVA challenge and high intensity oedemic signals quantified. Results: Ovalbumin caused early bronchoconstriction, followed at 7 h by a LAR and at 24 h AHR and leucocyte influx. The bright intensity MRI oedema signal, peaking at 7 h, was significantly (P<0.05) greater after chronic (9.0±0.7x103 mm3) than acute OVA (7.6±0.2x103 mm3). Dexamethasone treatment before acute OVA abolished the AHR and LAR and significantly reduced eosinophils and the bright intensity MRI oedema from 9.1±1.0 to 6.4±0.3x103 mm3. Conclusion: We show a temporal relationship between oedema and the LAR and their parallel reduction, along with eosinophils and AHR, by dexamethasone. This suggests a close causative association between pulmonary oedema and impaired airways function

Lessons from Natural Cold-Induced Dormancy to Organ Preservation in Medicine and Biotechnology: From the “Backwoods to the Bedside”

Hypothermia is a powerful modulator of all life processes, and this has been harnessed over the past 50 years in clinical sciences where tissues or organs for transplantation need to be stored outside the body for periods of time. However for human organs (as an obligate homoeothermic), cooling alone cannot provide sufficient time for the clinical logistics of transplantation, and a series of interventions to further control metabolism have been developed empirically. In retrospect, it can be seen that these approaches mimic to some degree the ways in which cold tolerance in the natural world has developed in evolutionary terms. This chapter reviews the history and the current state of the art of applied hypothermic preservation, and compares and contrasts what is known about natural cold tolerance, highlighting areas for further research and development to meet the challenges for organ and tissue preservation in the next few years. © 2010 Springer-Verlag Berlin Heidelberg

Meal-feeding scheme: twenty years of research in Brazil

Naomi Shinomiya Hell was the first researcher to investigate the physiological adaptations to a meal-feeding scheme (MFS) in Brazil. Over a period of 20 years, from 1979 to 1999, Naomi's group determined the physiological and metabolic adaptations induced by this feeding scheme in rats. The group showed the persistence of such adaptations even when MFS is associated with moderate exercise training and the performance to a session of intense physical effort. The metabolic changes induced by the feeding training were discriminated from those caused by the effective fasting period. Naomi made an important contribution to the understanding of the MFS but a lot still has to be done. One crucial question still remains to be satisfactorily answered: what is the ideal control for the MFS