OBJECTIVES: To compare the effects of a single nocturnal dose of 3 honey products (eucalyptus honey, citrus honey, or labiatae honey) to placebo (silan date extract) on nocturnal cough and difficulty sleeping associated with childhood upper respiratory tract infections (URIs). METHODS: A survey was administered to parents on 2 consecutive days, first on the day of presentation, when no medication had been given the previous evening, and the following day, when the study preparation was given before bedtime, based on a double-blind randomization plan. Participants included 300 children aged 1 to 5 years with URIs, nocturnal cough, and illness duration of ≤7 days from 6 general pediatric community clinics. Eligible children received a single dose of 10 g of eucalyptus honey, citrus honey, labiatae honey, or placebo administered 30 minutes before bedtime. Main outcome measures were cough frequency, cough severity, bothersome nature of cough, and child and parent sleep quality. RESULTS: In all 3 honey products and the placebo group, there was a significant improvement from the night before treatment to the night of treatment. However, the improvement was greater in the honey groups for all the main outcome measures. CONCLUSIONS: Parents rated the honey products higher than the silan date extract for symptomatic relief of their children’s nocturnal cough and sleep difficulty due to URI. Honey may be a preferable treatment for cough and sleep difficulty associated with childhood URI.
Israel acute paralysis virus (IAPV) is associated with colony collapse disorder of honey bees. Nonetheless, its role in the pathogenesis of the disorder and its geographic distribution are unclear. Here, we report phylogenetic analysis of IAPV obtained from bees in the United States, Canada, Australia, and Israel and the establishment of diagnostic real-time PCR assays for IAPV detection. Our data indicate the existence of at least three distinct IAPV lineages, two of them circulating in the United States. Analysis of representatives from each proposed lineage suggested the possibility of recombination events and revealed differences in coding sequences that may have implications for virulence.Over the winter of 2006 and 2007, an estimated 23% of all beekeeping operations in the United States experienced losses of hives attributed to colony collapse disorder (CCD) (30). More than 90 cultivated crops depend on the honey bee, Apis mellifera, for pollination; thus, CCD has profound implications for the food supply (23). We recently reported that the presence in hives of the dicistrovirus Israel acute paralysis virus (IAPV) was strongly correlated with the presence of CCD (8).IAPV was first described in 2004 in Israel (21), where infected bees presented with shivering wings, progressed to paralysis, and then died outside the hive. IAPV has features comparable to those of members of the family Dicistroviridae of the superfamily Picornaviridae. Unlike members of the Picornaviridae, which have a single open reading frame (ORF) encoding a single polyprotein, viruses in the family Dicistroviridae have two ORFs encoding two polyproteins. Dicistroviruses have two internal ribosomal entry sites (IRES), one found in the 5Ј untranslated region (UTR) and the other located in the intergenic region between ORF1 and ORF2. Other viruses known to infect honey bees, and related to picornaviruses, are sacbrood virus, deformed wing virus, acute bee paralysis virus (ABPV), Kashmir bee virus (KBV), and black queen cell virus (4, 7).Given the importance of honey bees as pollinators and the reported association between CCD and IAPV, we pursued phylogenetic analysis of geographically discrete IAPV isolates. We report the complete genome sequences of representatives from each of three lineages of IAPV and demonstrate through detailed analysis of four regions of the viral genome (the 5Ј UTR and 5Ј terminus of ORF1; the 3Ј terminus of ORF1, the intergenic region, and the 5Ј terminus of ORF2; ORF2; and the RNA-dependent RNA polymerase [RdRp]) the presence on three continents of at least three clusters of IAPV, two of them currently circulating in the United States. MATERIALS AND METHODSSample collection and RNA extraction. Adult bees were collected from migratory beekeeping operations in the United States with CCD. Diseased apiaries were identified based on evidence of recent collapse of colonies within the apiary and a lack of dead bees in the collapsed colonies. From each colony, 150 adult bees were collected and stored at Ϫ80°C until they w...
To evaluate symptoms, extent, and possible causes of colony decline and losses in Israel, we carried out (1) a survey of honeybee colony losses and potential causes via mail and phone; (2) systematic sampling of healthy and problematic beehives after requeening in the winter; (3) detection of Varroa and pathogens including, viruses and Nosema ceranae, by microbiological means and sensitive RT-PCR. From 58 beekeepers (46 000 colonies) interviewed, 40% complained of extensive colony loses during 2008. Examination and sampling for pests and pathogens of 113 hives in the winter of 2009 showed 35% of hives with Nosema and 21% with V. destructor. The most frequent viruses detected were Black Queen Cell Virus, Israeli Acute Paralysis Virus, and Deformed Wing Virus. A significant negative correlation was found between worker population in the hive and the presence of viral and Nosema infections. Apis mellifera / Bee viruses / Varroa / Nosema
The aim of this study was to explore the extent of varroa mite resistance to fluvalinate in Israel and to determine the underlying biochemical mechanism. Assays at different apiaries indicated varroa mite resistance at three of the five sites tested. Dose response assays conducted with tau-fluvalinate on mites obtained from different sites indicated uneven resistance. A monooxygenase assay revealed an increased rate (approximately 20-fold) of activity in mites that were not controlled by the pesticide, as compared to activity in mites from untreated colonies. A minor, 1.5-2.5 fold, increase of esterase activity was also noted in the resistant mites. This first demonstration of a fluvalinate-resistance mechanism in varroa mites points to the need for more vigorous resistance management practices to control the pest.
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