Niclas Lindqvist scite author profile

Budesonide has been used for a number of years as a topical nasal corticosteroid in the treatment of nasal allergy and nasal polyps. Recently, a new device for powder insufflation where no constituents or preservatives are included has been developed (Rhinocort Turbuhaler, Astra Draco AB, Sweden). The present investigation was designed in order to study the efficacy of topical budesonide powder as the only treatment of nasal polyps. A total of 126 patients entered the study. The medical history and clinical recordings included symptoms and signs, a semiquantitative test of smell and measurement of nasal expiratory peak flow index. Medication was either 200 or 400 micrograms of budesonide powder b.i.d. or placebo. After 1 month an overall assessment of treatment efficacy was made to determine whether the treatment had been a success or a failure. The results showed a statistically significant improvement of symptoms and signs in the actively treated groups. The increase in expiratory peak flow index was about 60% in the actively treated groups as opposed to 16% in the placebo group. The overall assessment of treatment efficacy showed success in about 82% of actively treated patients as opposed to about 43% in the placebo group. It is concluded that budesonide powder is useful in the treatment of nasal polyps.

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Retinal Glial (Müller) Cells: Sensing and Responding to Tissue Stretch

Lindqvist

Liu

Zajadacz

et al. 2010

Invest. Ophthalmol. Vis. Sci.

141

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Transmission of Stress-Induced Learning Impairment and Associated Brain Gene Expression from Parents to Offspring in Chickens

et al. 2007

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BackgroundStress influences many aspects of animal behaviour and is a major factor driving populations to adapt to changing living conditions, such as during domestication. Stress can affect offspring through non-genetic mechanisms, but recent research indicates that inherited epigenetic modifications of the genome could possibly also be involved.Methodology/Principal FindingsRed junglefowl (RJF, ancestors of modern chickens) and domesticated White Leghorn (WL) chickens were raised in a stressful environment (unpredictable light-dark rhythm) and control animals in similar pens, but on a 12/12 h light-dark rhythm. WL in both treatments had poorer spatial learning ability than RJF, and in both populations, stress caused a reduced ability to solve a spatial learning task. Offspring of stressed WL, but not RJF, raised without parental contact, had a reduced spatial learning ability compared to offspring of non-stressed animals in a similar test as that used for their parents. Offspring of stressed WL were also more competitive and grew faster than offspring of non-stressed parents. Using a whole-genome cDNA microarray, we found that in WL, the same changes in hypothalamic gene expression profile caused by stress in the parents were also found in the offspring. In offspring of stressed WL, at least 31 genes were up- or down-regulated in the hypothalamus and pituitary compared to offspring of non-stressed parents.Conclusions/SignificanceOur results suggest that, in WL the gene expression response to stress, as well as some behavioural stress responses, were transmitted across generations. The ability to transmit epigenetic information and behaviour modifications between generations may therefore have been favoured by domestication. The mechanisms involved remain to be investigated; epigenetic modifications could either have been inherited or acquired de novo in the specific egg environment. In both cases, this would offer a novel explanation to rapid evolutionary adaptation of a population.

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Inheritance of Acquired Behaviour Adaptations and Brain Gene Expression in Chickens

et al. 2009

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BackgroundEnvironmental challenges may affect both the exposed individuals and their offspring. We investigated possible adaptive aspects of such cross-generation transmissions, and hypothesized that chronic unpredictable food access would cause chickens to show a more conservative feeding strategy and to be more dominant, and that these adaptations would be transmitted to the offspring.Methodology/Principal FindingsParents were raised in an unpredictable (UL) or in predictable diurnal light rhythm (PL, 12∶12 h light∶dark). In a foraging test, UL birds pecked more at freely available, rather than at hidden and more attractive food, compared to birds from the PL group. Female offspring of UL birds, raised in predictable light conditions without parental contact, showed a similar foraging behavior, differing from offspring of PL birds. Furthermore, adult offspring of UL birds performed more food pecks in a dominance test, showed a higher preference for high energy food, survived better, and were heavier than offspring of PL parents. Using cDNA microarrays, we found that the differential brain gene expression caused by the challenge was mirrored in the offspring. In particular, several immunoglobulin genes seemed to be affected similarly in both UL parents and their offspring. Estradiol levels were significantly higher in egg yolk from UL birds, suggesting one possible mechanism for these effects.Conclusions/SignificanceOur findings suggest that unpredictable food access caused seemingly adaptive responses in feeding behavior, which may have been transmitted to the offspring by means of epigenetic mechanisms, including regulation of immune genes. This may have prepared the offspring for coping with an unpredictable environment.

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The growth factor response in ischemic rat retina and superior colliculus after brimonidine pre-treatment

Lönngren

Näpänkangas

Lafuente

et al. 2006

Brain Research Bulletin

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