Your search keyword '"Srivastava, Harish C."' showing total 15 results

1. Sub-basalt hydrocarbon prospect assessment in Peninsular India using seaward dipping reflectors

Author

Srivastava, Harish C., Mittal, Saurabh, Kalra, Tony, and Parshad, Rajinder

Published

2024

2. Envisioning Fatherhood: Indian Fathers' Perceptions of an Ideal Father

Author

Saraff, Anjula and Srivastava, Harish C.

Published

2008

3. The burden of submicroscopic and asymptomatic malaria in India revealed from epidemiology studies at three varied transmission sites in India

Author

van Eijk, Anna Maria, Sutton, Patrick L., Ramanathapuram, Lalitha, Sullivan, Steven A., Kanagaraj, Deena, Priya, G. Sri Lakshmi, Ravishankaran, Sangamithra, Asokan, Aswin, Sangeetha, V., Rao, Pavitra N., Wassmer, Samuel C., Tandel, Nikunj, Patel, Ankita, Desai, Nisha, Choubey, Sandhya, Ali, Syed Zeeshan, Barla, Punam, Oraon, Rajashri Rani, Mohanty, Stuti, Mishra, Shobhna, Kale, Sonal, Bandyopadhyay, Nabamita, Mallick, Prashant K., Huck, Jonathan, Valecha, Neena, Singh, Om P., Pradhan, K., Singh, Ranvir, Sharma, S. K., Srivastava, Harish C., Carlton, Jane M., and Eapen, Alex

Published

2019

4. Pattern and Determinants of Paternal Involvement in Childcare: An Empirical Investigation in a Metropolis of India

Author

Saraff, Anjula and Srivastava, Harish C.

Published

2010

5. Bionomics of Anopheles culicifacies Sensu Lato in two Malaria Endemic Districts of Central Gujarat, India.

Author

Baharia, Rajendra K., Kaur, Jaspreet, Sindhania, Ankita, Sharma, Gunjan, Srivastava, Harish C., Pant, Chandra S., Rahi, Manju, Raghavendra, Kamaraju, and Singh, Om P.

Subjects

INSECTICIDE resistance, ANOPHELES, MALARIA, INSECTICIDES, INSECT traps, VECTOR control, CYPERMETHRIN

Abstract

Background: Gujarat State has been witnessing large scale urbanization, in last two decades, resulting changes in local environment and microclimate may have also influenced the resting, feeding habits and development of Anopheles culicifacies sensu 1ato. Therefore, a systematic longitudinal study was undertaken to know the bionomics of An. culicifacies s.l. in present study. Methods: The study was conducted in four sentinel villages in Kheda and Panchmahal Districts. The mosquitoes resting indoors and outdoors were collected in early morning hours, using mouth aspirator, pyrethrum space spray and light traps. Mosquito landing collections on human volunteers was carried out from dusk to dawn. Species composition, abundance, seasonal prevalence, resting behavior (Endophily and Exophily), sibling species composition, vector potential and insecticide susceptibility status of malaria vectors was studied. Results: Six Anopheles species were collected, An. subpictus s.l. was the predominant species followed by An. culicifacies s.l., a known malaria vector was resting indoor and zoophagic behaviour. Anopheles culicifacies, sibling species B (89%) was found. The sporozoite rate (%) and entomological inoculation rate in Kheda was 2.33%, 3.09 per bite/ person/ annum and they were 1.05% and 0.475 bite/person/annum in Panchmahal, respectively. Anopheles culicifacies s.l. was found possible resistance to alpha-cypermethrin. Conclusion: Anopheles culicifacies s.l. showed endophillic, zoophagic behaviour and found possible resistance to alpha- cypermethrin. Early biting behaviour of An. culicifacies s.l. in this area is a cause of concern. Therefore, there is need for frequent monitoring and evaluation of vector control measures in order to achieve the elimination target of malaria in this area. [ABSTRACT FROM AUTHOR]

Published

2022

6. Mutant pfcrt 'SVMNT' haplotype and wild type pfmdr1 'N86' are endemic in Plasmodium vivax dominated areas of India under high chloroquine exposure

Author

Mallick Prashant K, Joshi Hema, Valecha Neena, Sharma Surya K, Eapen Alex, Bhatt Rajendra M, Srivastava Harish C, Sutton Patrick L, Dash Aditya P, and Bhasin Virendra K

Subjects

Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Chloroquine resistance (CQR) phenotype in Plasmodium falciparum is associated with mutations in pfcrt and pfmdr-1 genes. Mutations at amino acid position 72-76 of pfcrt gene, here defined as pfcrt haplotype are associated with the geographic origin of chloroquine resistant parasite. Here, mutations at 72-76 and codon 220 of pfcrt gene and N86Y pfmdr-1 mutation were studied in blood samples collected across 11 field sites, inclusive of high and low P. falciparum prevalent areas in India. Any probable correlation between these mutations and clinical outcome of CQ treatment was also investigated. Methods Finger pricked blood spotted on Whatman No.3 papers were collected from falciparum malaria patients of high and low P. falciparum prevalent areas. For pfcrt haplotype investigation, the parasite DNA was extracted from blood samples and used for PCR amplification, followed by partial sequencing of the pfcrt gene. For pfmdr-1 N86Y mutation, the PCR product was subjected to restriction digestion with AflIII endonuclease enzyme. Results In 240 P. falciparum isolates with reported in vivo CQ therapeutic efficacy, the analysis of mutations in pfcrt gene shows that mutant SVMNT-S (67.50%) and CVIET-S (23.75%) occurred irrespective of clinical outcome and wild type CVMNK-A (7.91%) occurred only in adequate clinical and parasitological response samples. Of 287 P. falciparum isolates, SVMNTS 192 (66.89%) prevailed in all study sites and showed almost monomorphic existence (98.42% isolates) in low P. falciparum prevalent areas. However, CVIETS-S (19.51%) and CVMNK-A (11.84%) occurrence was limited to high P. falciparum prevalent areas. Investigation of pfmdr-1 N86Y mutation shows no correlation with clinical outcomes. The wild type N86 was prevalent in all the low P. falciparum prevalent areas (94.48%). However, mutant N86Y was comparably higher in numbers at the high P. falciparum prevalent areas (42.76%). Conclusions The wild type pfcrt gene is linked to chloroquine sensitivity; however, presence of mutation cannot explain the therapeutic efficacy of CQ in the current scenario of chloroquine resistance. The monomorphic existence of mutant SVMNT haplotype, infer inbreeding and faster spread of CQR parasite in areas with higher P. vivax prevalance and chloroquine exposure, whereas, diversity is maintained in pfcrt gene at high P. falciparum prevalent areas.

Published

2012

7. Climate forcing and desert malaria: the effect of irrigation

Author

Srivastava Harish C, Dhiman Ramesh, Dobson Andy P, Bouma Menno J, Baeza Andres, and Pascual Mercedes

Subjects

Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Rainfall variability and associated remote sensing indices for vegetation are central to the development of early warning systems for epidemic malaria in arid regions. The considerable change in land-use practices resulting from increasing irrigation in recent decades raises important questions on concomitant change in malaria dynamics and its coupling to climate forcing. Here, the consequences of irrigation level for malaria epidemics are addressed with extensive time series data for confirmed Plasmodium falciparum monthly cases, spanning over two decades for five districts in north-west India. The work specifically focuses on the response of malaria epidemics to rainfall forcing and how this response is affected by increasing irrigation. Methods and Findings Remote sensing data for the Normalized Difference Vegetation Index (NDVI) are used as an integrated measure of rainfall to examine correlation maps within the districts and at regional scales. The analyses specifically address whether irrigation has decreased the coupling between malaria incidence and climate variability, and whether this reflects (1) a breakdown of NDVI as a useful indicator of risk, (2) a weakening of rainfall forcing and a concomitant decrease in epidemic risk, or (3) an increase in the control of malaria transmission. The predictive power of NDVI is compared against that of rainfall, using simple linear models and wavelet analysis to study the association of NDVI and malaria variability in the time and in the frequency domain respectively. Conclusions The results show that irrigation dampens the influence of climate forcing on the magnitude and frequency of malaria epidemics and, therefore, reduces their predictability. At low irrigation levels, this decoupling reflects a breakdown of local but not regional NDVI as an indicator of rainfall forcing. At higher levels of irrigation, the weakened role of climate variability may be compounded by increased levels of control; nevertheless this leads to no significant decrease in the actual risk of disease. This implies that irrigation can lead to more endemic conditions for malaria, creating the potential for unexpectedly large epidemics in response to excess rainfall if these climatic events coincide with a relaxation of control over time. The implications of our findings for control policies of epidemic malaria in arid regions are discussed.

Published

2011

8. Chlorfenapyr: a new insecticide with novel mode of action can control pyrethroid resistant malaria vectors

Author

Srivastava Harish C, Bhatt Rajendra M, Sharma Poonam, Barik Tapan K, Raghavendra Kamaraju, Sreehari Uragayala, and Dash Aditya P

Subjects

Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Malaria vectors have acquired widespread resistance to many of the currently used insecticides, including synthetic pyrethroids. Hence, there is an urgent need to develop alternative insecticides for effective management of insecticide resistance in malaria vectors. In the present study, chlorfenapyr was evaluated against Anopheles culicifacies and Anopheles stephensi for its possible use in vector control. Methods Efficacy of chlorfenapyr against An. culicifacies and An. stephensi was assessed using adult bioassay tests. In the laboratory, determination of diagnostic dose, assessment of residual activity on different substrates, cross-resistance pattern with different insecticides and potentiation studies using piperonyl butoxide were undertaken by following standard procedures. Potential cross-resistance patterns were assessed on field populations of An. culicifacies. Results A dose of 5.0% chlorfenapyr was determined as the diagnostic concentration for assessing susceptibility applying the WHO tube test method in anopheline mosquitoes with 2 h exposure and 48 h holding period. The DDT-resistant/malathion-deltamethrin-susceptible strain of An. culicifacies species C showed higher LD50 and LD99 (0.67 and 2.39% respectively) values than the DDT-malathion-deltamethrin susceptible An. culicifacies species A (0.41 and 2.0% respectively) and An. stephensi strains (0.43 and 2.13% respectively) and there was no statistically significant difference in mortalities among the three mosquito species tested (p > 0.05). Residual activity of chlorfenapyr a.i. of 400 mg/m2 on five fabricated substrates, namely wood, mud, mud+lime, cement and cement + distemper was found to be effective up to 24 weeks against An. culicifacies and up to 34 weeks against An. stephensi. No cross-resistance to DDT, malathion, bendiocarb and deltamethrin was observed with chlorfenapyr in laboratory-reared strains of An. stephensi and field-caught An. culicifacies. Potentiation studies demonstrated the antagonistic effect of PBO. Conclusion Laboratory studies with susceptible and resistant strains of An. culicifacies and An. stephensi, coupled with limited field studies with multiple insecticide-resistant An. culicifacies have shown that chlorfenapyr can be a suitable insecticide for malaria vector control, in multiple-insecticide-resistant mosquitoes especially in areas with pyrethroid resistant mosquitoes.

Published

2011

9. TRENDS IN BIRTH AND DEATH RATES IN GOA, 1820-1910: SOME EVIDENCE GATHERED FROM THE BAPTISM AND BURIAL RECORDS OF A PARISH

Author

SRIVASTAVA, HARISH C.

Subjects

Goa, India (State) -- History, Birth rates -- India, Mortality -- India, Developing countries -- Demographic aspects, Ethnic, cultural, racial issues/studies, Regional focus/area studies, History, Demographic aspects

Abstract

Deemed University, Deonar, Bombay, India Journal of Asian and African Studies Vol.22 (1987) pp. 87-95 [Research Communication] In the present paper, an attempt has been made to estimate trends in [...]

Published

2000

10. Chlorfenapyr: a new insecticide with novel mode of action can control pyrethroid resistant malaria vectors.

Author

Raghavendra, Kamaraju, Barik, Tapan K., Sharma, Poonam, Bhatt, Rajendra M., Srivastava, Harish C., Sreehari, Uragayala, and Dash, Aditya P.

Subjects

PREVENTION of communicable diseases, VECTOR control, MALARIA, BIOLOGICAL assay, PYRETHROIDS

Abstract

Background: Malaria vectors have acquired widespread resistance to many of the currently used insecticides, including synthetic pyrethroids. Hence, there is an urgent need to develop alternative insecticides for effective management of insecticide resistance in malaria vectors. In the present study, chlorfenapyr was evaluated against Anopheles culicifacies and Anopheles stephensi for its possible use in vector control. Methods: Efficacy of chlorfenapyr against An. culicifacies and An. stephensi was assessed using adult bioassay tests. In the laboratory, determination of diagnostic dose, assessment of residual activity on different substrates, cross-resistance pattern with different insecticides and potentiation studies using piperonyl butoxide were undertaken by following standard procedures. Potential cross-resistance patterns were assessed on field populations of An. culicifacies. Results: A dose of 5.0% chlorfenapyr was determined as the diagnostic concentration for assessing susceptibility applying the WHO tube test method in anopheline mosquitoes with 2 h exposure and 48 h holding period. The DDT-resistant/malathion-deltamethrin-susceptible strain of An. culicifacies species C showed higher LD50 and LD99 (0.67 and 2.39% respectively) values than the DDT-malathion-deltamethrin susceptible An. culicifacies species A (0.41 and 2.0% respectively) and An. stephensi strains (0.43 and 2.13% respectively) and there was no statistically significant difference in mortalities among the three mosquito species tested (p > 0.05). Residual activity of chlorfenapyr a.i. of 400 mg/m² on five fabricated substrates, namely wood, mud, mud+lime, cement and cement + distemper was found to be effective up to 24 weeks against An. culicifacies and up to 34 weeks against An. stephensi. No cross-resistance to DDT, malathion, bendiocarb and deltamethrin was observed with chlorfenapyr in laboratory-reared strains of An. stephensi and field-caught An. culicifacies. Potentiation studies demonstrated the antagonistic effect of PBO. Conclusion: Laboratory studies with susceptible and resistant strains of An. culicifacies and An. stephensi, coupled with limited field studies with multiple insecticide-resistant An. culicifacies have shown that chlorfenapyr can be a suitable insecticide for malaria vector control, in multiple-insecticide-resistant mosquitoes especially in areas with pyrethroid resistant mosquitoes. [ABSTRACT FROM AUTHOR]

Published

2011

11. Physicochemical Properties of Canna edulis Starch - Comparison with Maize Starch.

Author

Soni, Purshottam L., Sharma, Harshwardhan, Srivastava, Harish C., and Gharia, Mahendrasinh M.

Published

1990

12. Synthesis of 6-deoxy-1,2:3,5-di- O-methylidene-α- D- xylo-hex-5-enofuranose

Author

Srivastava, Harish C. and Srivastava, Vinai K.

Published

1978

13. Use of the benzyl group during purdie methylation: a synthesis of 2- O-methyl-D-mannose

Author

Srivastava, Harish C. and Srivastava, Vinai K.

Published

1977

14. Malaria in India: The Center for the Study of Complex Malaria in India

Author

Das, Aparup, Anvikar, Anupkumar R., Cator, Lauren J., Dhiman, Ramesh C., Eapen, Alex, Mishra, Neelima, Nagpal, Bhupinder N., Nanda, Nutan, Raghavendra, Kamaraju, Read, Andrew F., Sharma, Surya K., Singh, Om P., Singh, Vineeta, Sinnis, Photini, Srivastava, Harish C., Sullivan, Steven A., Sutton, Patrick L., Thomas, Matthew B., Carlton, Jane M., and Valecha, Neena

Subjects

*MALARIA treatment, *PUBLIC health, *MORTALITY, *INFECTIOUS disease transmission, *DRUG resistance, *EPIDEMIOLOGICAL research

Abstract

Abstract: Malaria is a major public health problem in India and one which contributes significantly to the overall malaria burden in Southeast Asia. The National Vector Borne Disease Control Program of India reported ∼1.6 million cases and ∼1100 malaria deaths in 2009. Some experts argue that this is a serious underestimation and that the actual number of malaria cases per year is likely between 9 and 50 times greater, with an approximate 13-fold underestimation of malaria-related mortality. The difficulty in making these estimations is further exacerbated by (i) highly variable malaria eco-epidemiological profiles, (ii) the transmission and overlap of multiple Plasmodium species and Anopheles vectors, (iii) increasing antimalarial drug resistance and insecticide resistance, and (iv) the impact of climate change on each of these variables. Simply stated, the burden of malaria in India is complex. Here we describe plans for a Center for the Study of Complex Malaria in India (CSCMi), one of ten International Centers of Excellence in Malaria Research (ICEMRs) located in malarious regions of the world recently funded by the National Institute of Allergy and Infectious Diseases, National Institutes of Health. The CSCMi is a close partnership between Indian and United States scientists, and aims to address major gaps in our understanding of the complexity of malaria in India, including changing patterns of epidemiology, vector biology and control, drug resistance, and parasite genomics. We hope that such a multidisciplinary approach that integrates clinical and field studies with laboratory, molecular, and genomic methods will provide a powerful combination for malaria control and prevention in India. [Copyright &y& Elsevier]

Published

2012

15. Climate forcing and desert malaria: the effect of irrigation.

Author

Baeza A, Bouma MJ, Dobson AP, Dhiman R, Srivastava HC, and Pascual M

Subjects

Humans, Incidence, India epidemiology, Plant Development, Remote Sensing Technology, Agricultural Irrigation, Desert Climate, Malaria, Falciparum epidemiology

Abstract

Background: Rainfall variability and associated remote sensing indices for vegetation are central to the development of early warning systems for epidemic malaria in arid regions. The considerable change in land-use practices resulting from increasing irrigation in recent decades raises important questions on concomitant change in malaria dynamics and its coupling to climate forcing. Here, the consequences of irrigation level for malaria epidemics are addressed with extensive time series data for confirmed Plasmodium falciparum monthly cases, spanning over two decades for five districts in north-west India. The work specifically focuses on the response of malaria epidemics to rainfall forcing and how this response is affected by increasing irrigation., Methods and Findings: Remote sensing data for the Normalized Difference Vegetation Index (NDVI) are used as an integrated measure of rainfall to examine correlation maps within the districts and at regional scales. The analyses specifically address whether irrigation has decreased the coupling between malaria incidence and climate variability, and whether this reflects (1) a breakdown of NDVI as a useful indicator of risk, (2) a weakening of rainfall forcing and a concomitant decrease in epidemic risk, or (3) an increase in the control of malaria transmission. The predictive power of NDVI is compared against that of rainfall, using simple linear models and wavelet analysis to study the association of NDVI and malaria variability in the time and in the frequency domain respectively., Conclusions: The results show that irrigation dampens the influence of climate forcing on the magnitude and frequency of malaria epidemics and, therefore, reduces their predictability. At low irrigation levels, this decoupling reflects a breakdown of local but not regional NDVI as an indicator of rainfall forcing. At higher levels of irrigation, the weakened role of climate variability may be compounded by increased levels of control; nevertheless this leads to no significant decrease in the actual risk of disease. This implies that irrigation can lead to more endemic conditions for malaria, creating the potential for unexpectedly large epidemics in response to excess rainfall if these climatic events coincide with a relaxation of control over time. The implications of our findings for control policies of epidemic malaria in arid regions are discussed.

Published

2011