RÉSUMÉ
The dynamic and expansive field of entomology is poised for transformative changes, thanks to technological advancements and the emergence of new avenues of research. Traditional methodologies like specimen collection and observation are increasingly being complemented by state-of-the-art techniques such as environmental DNA (eDNA) analysis, CRISPR genome editing, remote sensing, and artificial intelligence. The eDNA methodology, for example, offers a non-invasive approach to monitor elusive or endangered insect species, thereby enriching biodiversity databases. Genome editing technologies like CRISPR have enabled nuanced manipulation of insect genes, providing a deeper understanding of their physiology and behavior. Moreover, artificial intelligence and machine learning contribute to automated species identification and predictive modeling of insect populations, offering invaluable insights for conservation efforts. In terms of emerging fields, insect neurobiology, microbiomics, and environmental entomology are gaining prominence. Neurobiological studies are dissecting the neural substrates of insect behaviors, which not only deepen our basic biological understanding but also have implications in robotics and AI. Microbiomics explores the symbiotic relationships between insects and their microbial communities, revealing avenues for novel pest control strategies. Environmental entomology focuses on the impacts of habitat change and climate variability on insect populations, which is crucial for biodiversity conservation. Acknowledging the concerted efforts of researchers, academic institutions, and funding bodies is essential, as these stakeholders shape the field's future direction. Thus, entomology stands at the cusp of a new era, enriched by technological innovations and multidisciplinary approaches. These advancements hold the promise of significantly broadening our understanding of insects' roles in ecosystems, their adaptability, and their importance in maintaining ecological balance. This future direction not only provides exciting prospects for scientific inquiry but also brings forth substantial implications for the sustainable management of ecosystems and conservation policy.
RÉSUMÉ
Background and Objectives: Many studies in recent years have focused attention on identification of risk factors associated with stroke. However, most of these studies have been conducted in the developed countries. Only few studies have been conducted in Nepal. So the present study has been undertaken with the aim of determining the risk factors and management pattern of stroke and makes the people aware of those factors. Material and Methods: It is a descriptive prospective study conducted with 50 consecutive patients who presented in medicine and emergency department at Universal College of Medical Science, Bhairahawa, Nepal from December 2009 to July 2010. Data were collected using a standard questionnaire and encounter form after receiving a verbal consent from the patient. The collected data were coded, tabulated and analyzed using SPSS version- 16. Results: The present study showed that 56% of stroke patients were male. Hemorrhagic stroke (60%) was more than the ischemic stroke (40%).The age was common non modifiable risk factor. The common–modifiable risk factors were hypertension (86%), alcohol consumption (74%) and smoking (56%). Calcium channel blocker (44.18%) and combination of it with Diuretic (18.60%) and ACE inhibitors (20.93%) were the commonly prescribed drugs for lowering blood pressure. Prescribed drugs therapy and lifestyle modification improved the health condition of patients (80%). The non compliance to the drugs was due to multiple dosages (51.52%), side effects (18.18%) and forgetfulness (18.18%). Conclusion: Finding of this study will be helpful for the practitioners as well as researcher in the future. Practitioners can make people aware on the risk factors and preventive measures of the stroke. Researchers will be helped by knowing the commonest risk factors of stroke and its management pattern.