Refine
Year of publication
Document Type
- Article (34)
- Conference Proceeding (1)
- Doctoral Thesis (1)
Language
- English (36)
Has Fulltext
- yes (36)
Is part of the Bibliography
- no (36)
Keywords
- Attitude (3)
- Knowledge (3)
- Malaria (3)
- Zika virus (3)
- Dengue (2)
- Healthcare worker (2)
- Mountain (2)
- Nepal (2)
- climate change (2)
- public health (2)
One of the crucial steps during trials for Zika and other vaccines is to recruit participants and to understand how participants’ attitudes and sociodemographic characteristics affect willingness to participate (WTP). This study was conducted to assess WTP, its explanatory variables, and the impact of financial compensation on WTP in Indonesia. A health facility-based cross-sectional study was conducted in eleven regencies in the Aceh and West Sumatra provinces of Indonesia. Participants were recruited via a convenience sampling method and were interviewed. The associations between explanatory variables and WTP were assessed using a two-step logistic regression analysis. A total of 1,102 parents were approached, and of these 956 (86.8%) completed the interview and were included in analysis. Of those, 144 (15.1%) were willing to participate in a Zika vaccine trial without a financial compensation. In the multivariate analysis, WTP was tied to an age of more than 50 years old, compared to 20–29 years (odds ratio (OR): 5.0; 95% confidence interval (CI): 2.37–10.53), to being female (OR: 2.20; 95% CI: 1.11–4.37), and to having heard about Zika (OR: 2.41; 95% CI: 1.59–3.65). Participants’ WTP increased gradually with higher financial compensation. The rate of WTP increased to 62.3% at the highest offer (US$ 350.4), and those who were still unwilling to participate (37.7%) had a poorer attitude towards childhood vaccination. This study highlights that pre-existing knowledge about Zika and attitudes towards childhood vaccination are important in determining community members being willing to participate in a vaccine trial. Financial incentives are still an important factor to enhance participant recruitment during a vaccine trial.
Abstract:
Snakebite is an important medical emergency in rural Nepal. Correct identification of the biting species is crucial for clinicians to choose appropriate treatment and anticipate complications. This is particularly important for neurotoxic envenoming which, depending on the snake species involved, may not respond to available antivenoms. Adequate species identification tools are lacking. This study used a combination of morphological and molecular approaches (PCR-aided DNA sequencing from swabs of bite sites) to determine the contribution of venomous and non-venomous species to the snakebite burden in southern Nepal. Out of 749 patients admitted with a history of snakebite to one of three study centres, the biting species could be identified in 194 (25.9%). Out of these, 87 had been bitten by a venomous snake, most commonly the Indian spectacled cobra (Naja naja; n = 42) and the common krait (Bungarus caeruleus; n = 22). When both morphological identification and PCR/sequencing results were available, a 100% agreement was noted. The probability of a positive PCR result was significantly lower among patients who had used inadequate “first aid” measures (e.g. tourniquets or local application of remedies). This study is the first to report the use of forensic genetics methods for snake species identification in a prospective clinical study. If high diagnostic accuracy is confirmed in larger cohorts, this method will be a very useful reference diagnostic tool for epidemiological investigations and clinical studies.
Author Summary:
Snakebite is an important medical problem in sub-tropical and tropical regions, including Nepal where tens of thousands of people are bitten every year. Snakebite can result in life-threatening envenoming, and correct identification of the biting species is crucial for care providers to choose appropriate treatment and anticipate complications. This paper explores a number of methods, including molecular techniques, to assist care providers in identifying the species responsible for bites in rural Nepal. Out of 749 patients with a history of snakebite, the biting species could be identified in 194 (25.9%). Out of these, 87 had been bitten by a venomous snake, most commonly cobras (n = 42) and kraits (n = 22). This study is the first to report the use of molecular techniques for snake species identification. The diagnostic accuracy of this method appears high but needs to be confirmed in larger studies.
Sustainable Development Goals (SDGs) comprise of 17 goals and 169 targets. All SDGs are interlinked to produce synergetic eff ects and emphasize health in all policies. Among the 17 Goals, Goal 3 has a central focus on health, which is underpinned by 13 targets. Th e other 16 goals are also directly or indirectly related to health and will contribute to achieving the associated targets for Goal 3. Th e ambitious SDG agenda and their progress can be tracked by measuring numerous goals, targets, and indicators. The main objective of this paper is to provide an overview about how health- related SDGs and their targets and indicators are being tracked in the national context of Nepal. Adequate investment in research for knowledge generation, capacity building and innovation, and continous research communication among policy makers, researchers and external development partners will contribute to tracking the progress of SDGs in Nepal.
Asia and its Hindu Kush Himalayan (HKH) region is particularly vulnerable to environmental change, especially climate and land use changes further influenced by rapid population growth, high level of poverty and unsustainable development. Asia has been a hotspot of dengue fever and chikungunya mainly due to its dense human population, unplanned urbanization and poverty. In an urban cycle, dengue virus (DENV) and chikungunya virus (CHIKV) are transmitted by Aedes aegypti and Ae. albopictus mosquitoes which are also competent vectors of Zika virus (ZIKV). Over the last decade, DENV and CHIKV transmissions by Ae. aegypti have extended to the Himalayan countries of Bhutan and Nepal and ZIKV could follow in the footsteps of these viruses in the HKH region. The already established distribution of human-biting Aedes mosquito vectors and a naïve population with lack of immunity against ZIKV places the HKH region at a higher risk of ZIKV. Some of the countries in the HKH region have already reported ZIKV cases. We have documented an increasing threat of ZIKV in Asia and its HKH region because of the high abundance and wide distribution of human-biting mosquito vectors, climate change, poverty, report of indigenous cases in the region, increasing numbers of imported cases and a naïve population with lack of immunity against ZIKV. An outbreak anywhere is potentially a threat everywhere. Therefore, in order to ensure international health security, all efforts to prevent, detect, and respond to ZIKV ought to be intensified now in Asia and its HKH region. To prepare for possible ZIKV outbreaks, Asia and the HKH region can also learn from the success stories and strategies adopted by other regions and countries in preventing ZIKV and associated complications. The future control strategies for DENV, CHIKV and ZIKV should be considered in tandem with the threat to human well-being that is posed by other emerging and re-emerging vector-borne and zoonotic diseases, and by the continuing urgent need to strengthen public primary healthcare systems in the region.
Background: As ectothermic animals, temperature influences insects in almost every aspect. The potential disease spreading Asian bush mosquito (Aedes japonicus japonicus) is native to temperate East Asia but invasive in several parts of the world. We report on the previously poorly understood temperature-dependence of its life history under laboratory conditions to understand invasion processes and to model temperature niches.
Results: To evaluate winter survival, eggs were exposed between 1 day and 14 days to low temperatures (5 °C, 0 °C, -5 °C and -9 °C). Hatching success was drastically decreased after exposure to 0 °C and -5 °C, and the minimal hatching success of 0% was reached at -9 °C after two days. We then exposed larvae to 14 temperatures and assessed their life trait parameters. Larval survival to adulthood was only possible between 10 °C and 31 °C. Based on this, we modelled the optimal (25 °C), minimal (7 °C) and maximal (31 °C) temperature for cumulative female survival. The time to adult emergence ranges from 12 days to 58 days depending on temperature. We used an age-at-emergence-temperature model to calculate the number of potential generations per year for the Asian bush mosquito in Germany with an average of 4.72 potential generations. At lower temperatures, individuals grew larger than at higher temperatures with female R1 length ranging from 3.04 ± 0.1 mm at 31 °C to 4.26 ± 0.2 mm at 15 °C.
Conclusions: Reduced egg hatch after exposure to sub-zero temperatures prohibits the establishment of the Asian bush mosquito in large parts of Germany. Larval overwintering is not possible at temperature ≤ 5 °C. The many potential generations displayed per year may contribute to the species’ invasion success. This study on the thermal ecology of the Asian bush mosquito adds to our knowledge on the temperature dependence of the species and data could be incorporated in epidemiological and population dynamic modelling.
Shaped by some of the most dramatic tectonic events of the Cenozoic, the parts of southern and eastern Asia that have become known as the Oriental faunal region comprise vast areas of great geological complexity and ecological diversity. One of the four major groups of terrestrial elapid snakes in this region is the genus Bungarus. These nocturnal and predominantly ophiophagous snakes are widely known as kraits and are an important cause of snakebite mortality throughout their wide range that extends from Afghanistan to Vietnam and eastern China, and south to the Indonesian islands of Java and Bali. Although present on Borneo, kraits have not been found on any island of the Philippines, nor on Lesser Sunda Islands east of Bali. Despite their medical significance and the great importance of Bungarus toxins as tools in neuropharmacology, krait systematics and taxonomy have remained largely unstudied. Twelve species of Bungarus were recognized at the beginning of the present study. Many of these are rare in collections, and most aspects of their biology are unknown. While some species are highly distinct, most kraits are conservative morphologically, rendering molecular methods invaluable for the study of their diversity and biogeography. This study is the first to address the relationships within Bungarus and the historical biogeography of kraits based on molecular evidence. I inferred phylogeographic relationships based on analyses of new nucleotide sequences of the entire mitochondrial cytochrome b gene of 51 kraits and partial NADH dehydrogenase subunit 4 sequences of 40 kraits which I analyzed together with a representative sample of 32 published elapid and non-elapid outgroup taxa using Bayesian, maximum-likelihood, maximum-parsimony and neighbor-joining methods. I then used the recovered phylogeny to investigate the evolution of selected morphological characters and, together with collections-based geographical distribution information, in dispersal-vicariance analyses with models of variable taxonomic and biogeographic complexity. The phylogenetic analyses demonstrate that the current taxonomy of kraits does not adequately represent either the relationships or the genetic diversity in this genus. In contrast, I identified monophyletic groups that are congruent with recognized biogeographic units as well as extensive ecomorph evolution and morphologically cryptic speciation. The following additional conclusions are collectively supported by the mitochondrial phylogeny and morphological as well as biochemical synapomorphies: (1) Kraits are monophyletic with respect to the remaining taxa of the Elapidae; (2) Bungarus flaviceps and Bungarus bungaroides form the monophyletic sister clade of a clade formed by B. fasciatus, black-and-white-banded, and uniformly black taxa; (3) the remaining taxa are divisible into two sister clades, the South Asian species (Bungarus sindanus (Bungarus caeruleus, Bungarus ceylonicus)) vs. Himalayan, Burmese, Southeast and East Asian taxa; (4) within the latter, Burmese taxa form the sister clade to Southeast and East Asian taxa; (5) the widespread and medically significant species Bungarus candidus and Bungarus multicinctus are paraphyletic. The results of this study highlight the importance of vicariant geological events and sea level fluctuations for the cladogenesis of kraits. Events of particular importance in the evolution of kraits include the uplift of the Indo-Burman ranges (Arakan-Naga Hills) which separated black-and-white banded kraits in India and Southeast Asia, and the uplift of mountain ranges in Yunnan, China (e.g., the Gaoligong Shan), which coincided with lineage separation in two distantly related clades of kraits. Alternating dispersal and vicariance events due to Pleistocene climatic and sea level changes have caused complex phylogeographic patterns in kraits in Southeast Asia. Zones of contact between closely related evolutionary lineages of the B. candidus complex are identified in Thailand, Vietnam, and southern China (Hainan). Within this complex, two main clades are revealed. One includes populations from the Southeast Asian mainland and is in contact with B. multicinctus in southern China. The other consists of populations from Thailand, southern Vietnam, Java, and Bali. The phylogeny as well as genetic distances suggest a scenario in which a Pleistocene southward dispersal of B. candidus to Sumatra, Java, and Bali during times of low sea levels was temporarily interrupted by vicariant events (rising sea levels, especially flooding of the Malacca Strait between Sumatra and the Malay Peninsula, and of the Bali Strait between Java and Bali). In this context, the close phylogenetic relationship between haplotypes from southern Vietnam and those from Java and Bali suggests that "southern" B. candidus dispersed directly via colonization of the widely receded South Chinese Sea, and not by taking a detour via the Malay Peninsula and Thailand, which were already inhabited by other populations of B. candidus. Using these phylogenetic estimates as the framework for a study on the diversity and evolution of krait venom components, I applied biochemical and molecular genetic approaches to identify and quantify polypeptide and protein toxins in krait venom, focusing on the distribution and molecular evolution of alpha-bungarotoxin, an irreversible competitive antagonist of nicotinic acetylcholine receptors with an exceptionally high applied significance as a receptor probe. I was specifically interested in the medically relevant question of intraspecific and interspecific variability in toxin diversity, and whether receptor-binding postsynaptic toxins evolve at rates different from those of presynaptic neurotoxins like beta-bungarotoxin, which act by destroying the nerve terminal and are believed to exhibit hypervariable functional diversification due to an accelerated mode of molecular evolution. In the context of this question, I isolated and purified the major lethal neurotoxins from B. candidus venoms by sequential steps of liquid chromatography for structural and functional characterization studies. Cloning and sequence analysis of toxin-coding genomic DNAs showed that the gene encoding the alpha-bungarotoxin alanine-31 variant, originally isolated from B. multicinctus venom, is widely present and highly conserved in multiple populations of B. candidus and is expressed as the principal postsynaptic neurotoxin at least in Javan B. candidus. In addition to the widespread presence of genomic DNAs encoding the alpha-bungarotoxin alanine-31 variant, the present study also revealed the partial genes of three novel alpha-bungarotoxin isoforms in addition to the previously known alanine-31 and valine-31 variants, all of which share an invariant exon 3 coding region. While alpha-bungarotoxin is the principal postsynaptic neurotoxin of Taiwanese B. multicinctus and Javan B. candidus, the main postsynaptic neurotoxin of Thai B. candidus both by quantity and lethality was a novel polypeptide of similar toxicity with a mass of 8030 Da and 73 amino acid residues, whose characterization at the genetic and protein levels revealed a novel subgroup of krait neurotoxins, here named alpha-delta-bungarotoxins and represented by four sequences from Bungarus caeruleus and B. candidus. alpha-delta-Bungarotoxins share high sequence homology with alpha-bungarotoxins but the purified, 8030 Da alpha-delta-bungarotoxin-1 exhibits only reversible, low affinity binding to nicotinic receptors and high site-selectivity for the acetylcholine binding site at the alpha-delta-subunit interface of the receptor. These properties render alpha-delta-bungarotoxin not only the first snake long-chain neurotoxin with reversible binding and binding-site selectivity, but also an exciting natural tool with which to address structure-function relationships at the subunit interfaces of the human receptor. The results of comparisons of the number of non-synonymous nucleotide substitutions per nonsynonymous site (dN) to the number of synonymous nucleotide substitutions per synonymous site (dS) strongly suggest that positive selection is acting on exon 2 of the alpha-bungarotoxin and probably also of the alpha-delta-bungarotoxin genes. In addition, the numbers of nucleotide substitutions per site of intron (dI) compared to the dS value of the toxin-coding exon regions provide strong evidence for accelerated molecular evolution in exon 2 of alpha-delta-bungarotoxins —whose value of dI is only one-eighth of the value of dS—whereas the hypothesis of accelerated evolution is rejected for 13 unique genomic DNAs encoding five alpha-bungarotoxin isoforms from B. candidus and B. multicinctus....
The Asian bush mosquito (Aedes japonicus japonicus, Theobald 1901) is an invasive culicid species which originates in Asia but is nowadays present in northern America and Europe. It is a competent vector for several human disease pathogens. In addition to the public health threat, this invasive species may also be an ecological threat for native container-breeding mosquitoes which share a similar larval habitat. Therefore, it is of importance to gain knowledge on ecological and eco-toxicological features of the Asian bush mosquito. However, optimal laboratory feeding conditions have not yet been established. Standardized feeding methods will be needed in assessing the impact of insecticides or competitional strength of this species. To fill this gap, we performed experiments on food quality and quantity for Ae. j. japonicus larvae. We found out that the commercial fish food TetraMin (Tetra, Melle, Germany) in a dose of 10 mg per larva is the most suitable food tested. We also suggest a protocol with a feeding sequence of seven portions for all larval stages of this species.
The risk of increasing dengue (DEN) and chikungunya (CHIK) epidemics impacts 240 million people, health systems, and the economy in the Hindu Kush Himalayan (HKH) region. The aim of this systematic review is to monitor trends in the distribution and spread of DEN/CHIK over time and geographically for future reliable vector and disease control in the HKH region. We conducted a systematic review of the literature on the spatiotemporal distribution of DEN/CHIK in HKH published up to 23 January 2020, following Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) guidelines. In total, we found 61 articles that focused on the spatial and temporal distribution of 72,715 DEN and 2334 CHIK cases in the HKH region from 1951 to 2020. DEN incidence occurs in seven HKH countries, i.e., India, Nepal, Bhutan, Pakistan, Bangladesh, Afghanistan, and Myanmar, and CHIK occurs in four HKH countries, i.e., India, Nepal, Bhutan, and Myanmar, out of eight HKH countries. DEN is highly seasonal and starts with the onset of the monsoon (July in India and June in Nepal) and with the onset of spring (May in Bhutan) and peaks in the postmonsoon season (September to November). This current trend of increasing numbers of both diseases in many countries of the HKH region requires coordination of response efforts to prevent and control the future expansion of those vector-borne diseases to nonendemic areas, across national borders.
Background: Rapidly increasing temperatures in the mountain region of Nepal and recent reports of dengue fever and lymphatic filariasis cases from mountainous areas of central Nepal prompted us to study the spatio-temporal distribution of the vectors of these two diseases along an altitudinal transect in central Nepal.
Methodology/Principal Findings: We conducted a longitudinal study in four distinct physiographical regions of central Nepal from September 2011 to February 2012. We used BG-Sentinel and CDC light traps to capture adult mosquitoes. We found the geographical distribution of the dengue virus vectors Aedes aegypti and Aedes albopictus along our study transect to extend up to 1,310 m altitude in the Middle Mountain region (Kathmandu). The distribution of the lymphatic filariasis vector Culex quinquefasciatus extended up to at least 2,100 m in the High Mountain region (Dhunche). Statistical analysis showed a significant effect of the physiographical region and month of collection on the abundance of A. aegypti and C. quinquefasciatus only. BG-Sentinel traps captured significantly higher numbers of A. aegypti than CDC light traps. The meteorological factors temperature, rainfall and relative humidity had significant effects on the mean number of A. aegypti per BG-Sentinel trap. Temperature and relative humidity were significant predictors of the number of C. quinquefasciatus per CDC light trap. Dengue fever and lymphatic filariasis cases had previously been reported from all vector positive areas except Dhunche which was free of known lymphatic filariasis cases.
Conclusions/Significance: We conclude that dengue virus vectors have already established stable populations up to the Middle Mountains of Nepal, supporting previous studies, and report for the first time the distribution of lymphatic filariasis vectors up to the High Mountain region of this country. The findings of our study should contribute to a better planning and scaling-up of mosquito-borne disease control programmes in the mountainous areas of Nepal.
Spatial modelling of malaria cases associated with environmental factors in South Sumatra, Indonesia
(2018)
Background: Malaria, a parasitic infection, is a life-threatening disease in South Sumatra Province, Indonesia. This study aimed to investigate the spatial association between malaria occurrence and environmental risk factors.
Methods: The number of confirmed malaria cases was analysed for the year 2013 from the routine reporting of the Provincial Health Office of South Sumatra. The cases were spread over 436 out of 1613 villages. Six potential ecological predictors of malaria cases were analysed in the different regions using ordinary least square (OLS) and geographically weighted regression (GWR). The global pattern and spatial variability of associations between malaria cases and the selected potential ecological predictors was explored.
Results: The importance of different environmental and geographic parameters for malaria was shown at global and village-level in South Sumatra, Indonesia. The independent variables altitude, distance from forest, and rainfall in global OLS were significantly associated with malaria cases. However, as shown by GWR model and in line with recent reviews, the relationship between malaria and environmental factors in South Sumatra strongly varied spatially in different regions.
Conclusions: A more in-depth understanding of local ecological factors influencing malaria disease as shown in present study may not only be useful for developing sustainable regional malaria control programmes, but can also benefit malaria elimination efforts at village level.