A highly infectious tick‐borne virus causes Kyasanur Forest disease (KFD), which has been expanding in recent decades in India. Current studies do not provide an updated understanding of the disease trends and its expansion in India. We address this gap in the literature through a detailed review to reveal the annual historic expansion of KFD cases across the span of years from 1957 to 2017. In addition, we explore the factors that may have led to the geographic expansion of KFD. The annual numbers of cases of KFD among humans are estimated using peer‐reviewed journal articles, Pro‐MED database, historical and archived newspapers, and government reports, technical reports, publications, and medical websites. From 1957 to 2017, there were an estimated 9,594 cases of KFD within 16 districts in India. The most significant human outbreaks of the disease were in the years 1957–1958 (681 cases), 1983–1984 (2,589 cases), 2002–2003 (1,562 cases), and 2016–2017 (809 cases). In 2015, KFD appeared in Goa. In 2016, new cases emerged in Belgaum, a district in Karnataka state, and in the Sindhudurg district in Maharashtra state. The processes by which KFD persists and spreads are not clear, but demographic, socioeconomic, political, and environmental factors seem to play a role.
We updated the Illinois historical (1905–December 2017) distribution and status (not reported, reported or established) maps for Amblyomma americanum (L.) (Acari: Ixodidae), Dermacentor variabilis (Say) (Acari: Ixodidae), and Ixodes scapularis (Say) (Acari: Ixodidae) by compiling publicly available, previously unexplored or newly identified published and unpublished data (untapped data). Primary data sources offered specific tick-level information, followed by secondary and tertiary data sources. For A. americanum, D. variabilis, and I. scapularis, primary data contributed to 90% (4,045/4,482), 80% (2,124/2,640), and 32% (3,490/10,898) tick records vs 10%, 20%, and 68%, respectively from secondary data; primary data updated status in 95% (62/65), 94% (51/54) and in 90% (9/10) of the updated counties for each of these tick species; by 1985 there were tick records in 6%, 68%, and 0% of the counties, compared to 20%, 72%, and 58% by 2004, and 77%, 96%, and 75% of the counties by 2017, respectively for A. americanum, D. variabilis, and I. scapularis. We document the loss of tick records due to unidentified, not cataloged tick collections, unidentified ticks in tick collections, unpublished data or manuscripts without specific county location, and tick-level information, to determine distribution and status. In light of the increase in tick-borne illnesses, updates in historical distributions and status maps help researchers and health officials to identify risk areas for a tick encounter and suggest targeted areas for public outreach and surveillance efforts for ticks and tick-borne diseases. There is a need for a systematic, national vector surveillance program to support research and public health responses to tick expansions and tick-borne diseases.
Purpose:This joint position statement, by the Indian Association of Palliative Care (IAPC) and Academy of Family Physicians of India (AFPI), proposes to address gaps in palliative care provision in the country by developing a community-based palliative care model that will empower primary care physicians to provide basic palliative care.Evidence:India ranks very poorly, 67th of 80 countries in the quality of death index. Two-thirds of patients who die need palliative care and many such patients spend the last hours of life in the Intensive care unit. The Indian National Health Policy (NHP) 2017 and other international bodies endorse palliative care as an essential health-care service component. NHP 2017 also recommends development of distance and continuing education options for general practitioners to upgrade their skills to provide timely interventions and avoid unnecessary referrals.Methods:A taskforce was formed with Indian and International expertise in palliative care and family medicine to develop this paper including an open conference at the IAPC conference 2017, agreement of a formal liaison between IAPC and AFPI and wide consultation leading to the development of this position paper aimed at supporting integration, networking, and joint working between palliative care specialists and generalists. The WHO model of taking a public health approach to palliative care was used as a framework for potential developments; policy support, education and training, service development, and availability of appropriate medicines.Recommendations:This taskforce recommends the following (1) Palliative care should be integrated into all levels of care including primary care with clear referral pathways, networking between palliative care specialist centers and family medicine physicians and generalists in community settings, to support education and clinical services. (2) Implement the recommendations of NHP 2017 to develop services and training programs for upskilling of primary care doctors in public and private sector. (3) Include palliative care as a mandatory component in the undergraduate (MBBS) and postgraduate curriculum of family physicians. (4) Improve access to necessary medications in urban and rural areas. (5) Provide relevant in-service training and support for palliative care to all levels of service providers including primary care and community staff. (6) Generate public awareness about palliative care and empower the community to identify those with chronic disease and provide support for those choosing to die at home.
West Nile Virus (WNV) is a mosquito-borne infection that can cause serious illness in humans. Surveillance for WNV primarily focuses on a measure of infection prevalence in the Culex spp. mosquitos, its primary vectors, known as the Minimum Infection Rate (MIR). The calculation of MIR for a given area considers the number of mosquitos tested, but not the relative effort to collect mosquitos, leading to a potential underestimation of the uncertainty around the estimate. We performed Value of Information analysis on simulated data sets including a range of mosquito trap densities in two well-studied counties in Illinois between 2005 and 2016 to determine the relative error introduced into MIR associated with changing the density of mosquito traps. We found that low trap density increases the potential for error in MIR estimation, and that it does so synergistically with low true MIR values. We propose that these results could be used to better estimate uncertainty in WNV risk.
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