Serological-Epidemiological and Molecular Study of Dengue Viruses in Nepal

Serological-Epidemiological and Molecular Study of Dengue Viruses in Nepal

Show other versions (1)

Background: Dengue fever (DF) and more severe forms namely dengue hemorrhagic fever (DHF) and dengue shock syndrome (DSS) are caused by dengue virus, transmitted by Aedes mosquito. DF/DHF is primarily a disease in tropical and sub tropical areas of the world. Dengue virus infection occurs in more th...

Shranjeno v:

Bibliografske podrobnosti
Glavni avtor:	Pandey, BD
Format:	Technical Report
Jezik:	en_US
Izdano:	2016
Teme:	dengue viruses outbreak sensitivity specificity sero-epidemiological terai region
Online dostop:	http://103.69.126.140:8080/handle/123456789/78
Oznake:	Označite Brez oznak, prvi označite!

Podobne knjige/članki

Serological-epidemiological and Molecular Study of Dengue Viruses in Nepal, January, 2008
od: Nepal Health Research Council (NHRC)
Izdano: (2012)

Sero-epidemiology of dengue virus infection in Western Terai Region of Nepal
od: Shah, Yogendra
Izdano: (2010)

Serological-epidemiological and molecular study of dengue viruses in Nepal
od: Pandey, Basu Dev
Izdano: (2008)

Impact of climate in dengue virus infection among human and aedes vectors.
od: Tuladhar, Reshma
Izdano: (2016)

Molecular Epidemiology of Malaria in Nepal Parajuli K1, Khatri Y1 1Central Department of Microbiology, University Campus, Tribhuwan University, Kirtipur, Kathmandu, Nepal. Date: 2003 Background The distribution and the molecular finger print of the existing strain of the malaria and the indigenous inherent species was not yet disclosed. In this regard, molecular epidemiology of malaria in the context of Nepal is an essential area to be studied. Methods The study was carried out in Kanchanpur district from July 2003 to December 2003. A total of 676 blood samples were collected from individual malaria suspected patients attending malaria clinic, District Public Health Office and different sets of camps. Giemsa stained thin and thick blood smears were examined microscopically and compared with the Rapid Diagnostic Test which was finally followed by Polymerase Chain Reaction. The observations thus obtained were documented/analyzed and comparative study was performed. Results Among the total, 374 patients attended in malaria clinic the positive cases for malaria were 80 in which 10 cases were of Plasmodium falcifarum and 70 cases were of Plasmodium vivax. The total of 302 patients attended in the camp where the positive cases for malaria were 68 in which 27 cases were of Plasmodium falcifarum and 41 cases were of Plasmodium vivax. The sensitivity, specificity, positive predictive value and negative predictive value of the optiMAL test for diagnosis of P. vivax was found to be 84.61%, 100%, 100% and 77.78% respectively. Similarly, the sensitivity, specificity, positive predictive value and negative predictive value of the optiMAL test for diagnosis of P. falcifarum was found to be 85.71%, 100%, 100% and 92.85% respectively. Conclusions Extensive study of malaria as molecular epidemiology should be conducted for the determination of low parasitaemia and multiple infections. Keywords: epidemiology; malaria; negative predictive value; optimal test; positive predictive value; rapid diagnostic test; sensitivity; specificity.
od: Parajuli, K, et al.
Izdano: (2016)

Role of Prostate Specific Antigen in differentiating various Prostatic Pathology
od: Kumar, P
Izdano: (2016)

The dengue strategic plan for the Asia Pacific Region 2008-2015
Izdano: (2012)

Frequeently asked questions on dengue
Izdano: (2013)

Evaluation of oral potentially malignant disorders with autoflorescence, reflectance spectroscopy and vital staining and their correlation with histopathology -A hospital based prospective study.
od: Sharma, Deepa
Izdano: (2019)

A Report on Detection and Management of Arsenicosis in the Selected Local Communities of Terai Regions of Nepal
od: Nepal Health Research Council (NHRC), et al.
Izdano: (2013)

A Report on Evaluation Study of Health Impacts Due to Arsenic Contamination in the Selected Communities of Terai Regions in Nepal
od: Nepal Health Research Council (NHRC), et al.
Izdano: (2013)

Molecular Epidemiology of Malaria in Nepal
od: Parajuli, Keshab, et al.
Izdano: (2013)

Epidemiological factors related to dengue in Sunsari district, Nepal.
od: Dhakal, Roshan
Izdano: (2021)

Environmental conditions associated with vector of dengue and corrective actions for its prevention in Nepal
od: Nepal Health Research Council (NHRC), Ramshah Path, Kathmandu, Nepal
Izdano: (2012)

Community programs in dengue surveillance and control in Viet Nam
od: Development For International Development (DFID)
Izdano: (2013)

Methods in field epidemiology /
od: MacDonald, Pia D. M.
Izdano: (2012)

Infectious disease epidemiology : theory and practice /
od: Nelson, kenrad E.
Izdano: (2000)

Prevalence of hepatitis B and C virus infection in health-care workers of Bir hospital, Kathmandu
od: Shrestha, Sanjaya Kumar
Izdano: (2013)

Bibliography of scientific publications on vector-borne diseases from WHO South-East Asia region 2009-2013
Izdano: (2014)

Infectious disease epidemiology : theory and practice /
Izdano: (2014)

Cases in field epidemiology : a global perspective /
Izdano: (2011)

Molecular epidemiology of Mycobacterium tuberculosis in Nepal.
od: Malla, Bijaya
Izdano: (2013)

Evaluation Study of Health Impacts Due to Arsenic Contamination in the Selected Communities of Terai Regions in Nepal
od: Pathak, LR
Izdano: (2016)

Socio-behavioral epidemiology and ecological determinants of malaria outbreak in Kanchanpur district.
od: Chand, Krishna Bahadur
Izdano: (2003)

Study of co-infection of Malaria and Dengue with COVID-19.
od: Shrestha, Padma
Izdano: (2021)

Understanding Dengue Transmission: Application of an Eco health Approach in Dhaka, Bangladesh.
od: Chowdhury,Parnali Dhar
Izdano: (2015)

Behavioral and Sero Prevalence Survey Among IDUs in Kathmandu
od: Family Health International, et al.
Izdano: (2013)

Socio-behavioral epidemiology and ecological determinants of Malaria outbreak
od: Chand, Krishna Bahadur, et al.
Izdano: (2013)

Compassionate use of remdesir and convalescent plasma therapy for the treatment of COVID-19 infection in Nepal: a prospective observational study
od: Gyanwali, Pradeep, et al.
Izdano: (2021)

Assessment of the Environmental Conditions Associated with Emerging Vector Borne Disease Dengue and Recommended Corrective actions for Prevention in Nepal
Izdano: (2016)

Human papilloma virus DNHuman papilloma virus DNA testing of abnormal uterine cervical cytology as atypical squamous cell of undetermined significance (ASCUS) in a tertiary hospital.
od: Jha, Rijuta Joshi
Izdano: (2021)

The possible effect of leprosy on marital and sexual relationships among women: a comparative exploratory study between women affected by leprosy, women with a visible physical impairment and able-bodied healthy women in the Eastern Terai region of Nepal
od: Banstola, Nandlal
Izdano: (2014)

Prevalence of hepatitis E virus (HEV) infection markers and associated risk factors among residents of the Kathmandu valley.
od: Miller,Peter J.
Izdano: (1996)

Determination of Breeding Habitats and Seasonal Prevalence of Larvae of Aedes aegypti (L) and Other Possible Vector of Dengue in Kathmandu Valley
od: Gautam, I
Izdano: (2016)

Knowledge and practice regarding preventive measures of dengue fever among community people of Jhapa district.
od: Pakuwal,Sandhya
Izdano: (2018)

WHO expert committee on specifications for pharmaceutical preparations
Izdano: (2006)

Behavioral and Sero Prevalence Survey Among Injecting Drug Users (IDUs) In Pokhara Valley November 2003
od: Family Health International, et al.
Izdano: (2013)

Behavioral and Sero Prevalence Survey Among Injecting Drug Users (IDUs) In Kathmandu December 2002
od: Family Health International, et al.
Izdano: (2013)

Molecular Epidemiology of Malaria in Nepal
od: parajuli, Keshab
Izdano: (2003)

Planning social mobilization and communication for dengue fever prevention and control
od: Parks, Will
Izdano: (2004)