Project description:Malaria-naive male rhesus macaques (<i>Macaca mulatta</i>), approximately four years of age, were inoculated intravenously with salivary gland sporozoites produced and isolated at the Centers for Disease Control and Prevention from multiple <i>Anopheles</i> species (<i>An. dirus</i>, <i>An. gambiae</i>, and <i>An. stephensi</i>) and then profiled for clinical, hematological, parasitological, immunological, functional genomic, lipidomic, proteomic, and metabolomic measurements. The experiment was designed for 100 days, and pre- and post-100 day periods to prepare subjects and administer curative treatments respectively. The anti-malarial drug artemether was subcuratively administered to all subjects at the initial peak of infection, one out of the five macaques received four additional subcurative treatments for subsequent recrudescence peaks. The experimental infection in one subject was ineffective but the macaque was followed-up for the same period of 100 days. The different clinical phases of the infection were clinically determined for each subject. Blood-stage curative doses of artemether were administered to all subjects at the end of the study. Capillary blood samples were collected daily for the measurement of CBCs, reticulocytes, and parasitemias. Capillary blood samples were collected every other day to obtain plasma for metabolomic analysis. Venous blood and bone marrow samples were collected at seven time points for functional genomic, proteomic, lipidomic, and immunological analyses. Within the MaHPIC, this project is known as 'Experiment 03'. This dataset was produced by Dean Jones at Emory University. The experimental design and protocols for this study were approved by the Emory University Institutional Animal Care and Use Committee (IACUC).<br/>To access other publicly available results from E03 and other MaHPIC Experiments, including clinical results (specifics on drugs administered, diet, and veterinary interventions), and other omics, visit <a href=http://plasmodb.org/plasmo/mahpic.jsp>http://plasmodb.org/plasmo/mahpic.jsp</a> This page will be updated as datasets are released to the public. The experimental design and protocols for this study were approved by the Emory University Institutional Animal Care and Use Committee (IACUC).<br><br>Linked Studies: <a href='/metabolights/search?freeTextQuery=MaHPIC' target='_blank'><span class='label label-success'>Malaria Host-Pathogen Interaction Center (MaHPIC)</span></a>

Project description:Malaria-naive male rhesus macaques (<i>Macaca mulatta</i>), approximately three years of age, were inoculated intravenously with salivary gland sporozoites produced and isolated at the Centers for Disease Control and Prevention from multiple <i>Anopheles</i> species (<i>An. dirus, An. gambiae</i>, and <i>An. stephensi</i>) and then profiled for clinical, hematological, parasitological, immunological, functional genomic, lipidomic, proteomic, and metabolomic measurements. The experiment was designed for 100 days, and pre- and post-100 day periods to prepare subjects and administer curative treatments respectively. The anti-malarial drug artemether was subcuratively administered selectively to several subjects during the primary parasitemia to suppress clinical complications and to all animals for curative treatment of blood-stage infections to allow detection of relapses. One subject was euthanized during the 100-day experimental period due to clinical complications. The anti-malarial drugs primaquine and chloroquine were administered to all remaining subjects at the end of the study for curative treatment of the liver and blood-stage infections, respectively. Capillary blood samples were collected daily for the measurement of CBCs, reticulocytes, and parasitemias. Capillary blood samples were collected every other day to obtain plasma for metabolomic analysis. Venous blood and bone marrow samples were collected at seven time points for functional genomic, proteomic, lipidomic, and immunological analyses. Within the MaHPIC, this project is known as Experiment 04. This dataset was produced by Dean Jones at Emory University.</br></br>To access other publicly available results from E04 and other MaHPIC Experiments, including clinical results (specifics on drugs administered, diet, and veterinary interventions), and other omics, visit <a href=http://plasmodb.org/plasmo/mahpic.jsp>http://plasmodb.org/plasmo/mahpic.jsp</a> This page will be updated as datasets are released to the public. The experimental design and protocols for this study were approved by the Emory University Institutional Animal Care and Use Committee (IACUC).<br><br>Linked Studies: <a href='/metabolights/search?freeTextQuery=MaHPIC' target='_blank'><span class='label label-success'>Malaria Host-Pathogen Interaction Center (MaHPIC)</span></a>

Project description:Telemetry devices (DSI, model L11) with blood pressure sensors and electrocardiogram (ECG) leads were surgically implanted in two malaria-naive male rhesus macaques (<i>Macaca mulatta</i>), approximately three years of age. After a resting period of two weeks, physiological data that include activity, temperature, ECG, and blood pressure were continuously collected. Two weeks after activation of the telemetry implant, the macaques were inoculated intravenously with cryopreserved <i>P. knowlesi</i> Malayan strain salivary gland sporozoites, obtained from <i>Anopheles dirus</i> infected with parasites from the Pk1A+ clone. The <i>P. knowlesi</i> sporozoites were produced, isolated and cryopreserved at the Centers for Disease Control and Prevention. After inoculation, the macaques were profiled for clinical, hematological, parasitological, immunological, functional genomic, lipidomic, proteomic, metabolomic, telemetric and histopathological measurements. The experiment was designed for pathology studies, with terminal necropsies on days 11 (RKy15) or 19 (Red16). The anti-malarial drug artemether was subcuratively administered selectively to one subject (REd16) during the primary parasitemia to suppress clinical complications. Capillary blood samples were collected daily for the measurement of complete blood counts, reticulocytes, and parasitemias. Capillary blood samples were collected every other day to obtain plasma for metabolomic analysis. Venous blood and bone marrow samples were collected at five timepoints for functional genomic, proteomic, lipidomic, and immunological analyses. Physiological data were continuously captured via telemetry. <br/>Within the MaHPIC, this project is known as 'Experiment 30'. This dataset was produced by Dr. Regina Cordy and Manoj Khadka at Emory University. To access other publicly available results from 'E30' and other MaHPIC Experiments, including clinical results (specifics on drugs administered, diet, and veterinary interventions), and other omics, visit <a href='http://plasmodb.org/plasmo/mahpic.jsp' target='_blank'>http://plasmodb.org/plasmo/mahpic.jsp</a>. This page will be updated as datasets are released to the public. The experimental design and protocols for this study were approved by the Emory University Institutional Animal Care and Use Committee (IACUC) and the MRMC Office of Research Protection Animal Care and Use Review Office (ACURO). <br><br>Linked Studies: <a href='/metabolights/search?freeTextQuery=MaHPIC' target='_blank'><span class='label label-success'>Malaria Host-Pathogen Interaction Center (MaHPIC)</span></a>

Project description:Telemetry devices (DSI, model L11) with blood pressure sensors and electrocardiogram (ECG) leads were surgically implanted in four malaria-naive male rhesus macaques (<i>Macaca mulatta</i>), approximately five years of age. After a resting period of two weeks, physiological data that include activity, temperature, ECG, and blood pressure were continuously collected. Two weeks after activation of the telemetry implant, the macaques were inoculated intravenously with cryopreserved <i>P. knowlesi</i> Malayan strain salivary gland sporozoites, obtained from <i>Anopheles dirus</i> infected with parasites from the Pk1A+ clone and previously tested in E30 for their infectivity of macaques. The sporozoite stocks used were produced, isolated and cryopreserved at the Centers for Disease Control and Prevention, and then stored at Yerkes. After inoculation, the macaques were profiled longitudinally for clinical, hematological, parasitological, immunological, functional genomic, proteomic, and metabolomic measurements. The experiment was designed with pathology studies and thus terminal necropsies, which were scheduled at the log phase of the infections or at the peak of parasitemias. Capillary blood samples were collected daily for the measurement of complete blood counts, reticulocytes, and parasitemias. Capillary blood samples were collected every other day to obtain plasma for metabolomics analyses. Venous blood and bone marrow samples were collected at five timepoints for functional genomic, targeted proteomic, targeted metabolomics, and immunological analyses. Physiological data noted above were continuously captured via the implanted telemetry devices. <br/> Within the MaHPIC, this project is known as 'Experiment 06'. This dataset was produced by Dr. Regina Cordy and Manoj Khadka at Emory University. To access other publicly available results from E06 and other MaHPIC Experiments, including clinical results (specifics on drugs administered, diet, and veterinary interventions), and other omics, visit <a href='http://plasmodb.org/plasmo/mahpic.jsp'>plasmodb.org/plasmo/mahpic.jsp</a>. This page will be updated as datasets are released to the public. The experimental design and protocols for this study were approved by the Emory University Institutional Animal Care and Use Committee (IACUC) and the MRMC Office of Research Protection Animal Care and Use Review Office (ACURO). <br/><br/>Linked Studies: <a href='/metabolights/search?freeTextQuery=MaHPIC' target='_blank'><span class='label label-success'>Malaria Host-Pathogen Interaction Center (MaHPIC)</span></a>

Project description:Telemetry devices (DSI, model L11) with blood pressure sensors and electrocardiogram (ECG) leads were surgically implanted in two malaria-naive male rhesus macaques (<i>Macaca mulatta</i>), approximately three years of age. After a resting period of two weeks, physiological data that include activity, temperature, ECG, and blood pressure were continuously collected. Two weeks after activation of the telemetry implant, the macaques were inoculated intravenously with cryopreserved <i>P. knowlesi</i> Malayan strain salivary gland sporozoites, obtained from <i>Anopheles dirus</i> infected with parasites from the Pk1A+ clone. The <i>P. knowlesi</i> sporozoites were produced, isolated and cryopreserved at the Centers for Disease Control and Prevention. After inoculation, the macaques were profiled for clinical, hematological, parasitological, immunological, functional genomic, lipidomic, proteomic, metabolomic, telemetric and histopathological measurements. The experiment was designed for pathology studies, with terminal necropsies on days 11 (RKy15) or 19 (Red16). The anti-malarial drug artemether was subcuratively administered selectively to one subject (REd16) during the primary parasitemia to suppress clinical complications. Capillary blood samples were collected daily for the measurement of complete blood counts, reticulocytes, and parasitemias. Capillary blood samples were collected every other day to obtain plasma for metabolomic analysis. Venous blood and bone marrow samples were collected at five timepoints for functional genomic, proteomic, lipidomic, and immunological analyses. Physiological data were continuously captured via telemetry. <br/>Within the MaHPIC, this project is known as 'Experiment 30'. This dataset was produced by Dean Jones at Emory University. To access other publicly available results from 'E30' and other MaHPIC Experiments, including clinical results (specifics on drugs administered, diet, and veterinary interventions), and other omics, visit <a href='http://plasmodb.org/plasmo/mahpic.jsp' target='_blank'>http://plasmodb.org/plasmo/mahpic.jsp</a>. This page will be updated as datasets are released to the public. The experimental design and protocols for this study were approved by the Emory University Institutional Animal Care and Use Committee (IACUC) and the MRMC Office of Research Protection Animal Care and Use Review Office (ACURO). <br><br>Linked Studies: <a href='/metabolights/search?freeTextQuery=MaHPIC' target='_blank'><span class='label label-success'>Malaria Host-Pathogen Interaction Center (MaHPIC)</span></a>

Project description:ATTENTION: The dataset package associated with this study is out of date. Please refer to https://www.ebi.ac.uk/metabolights/MTBLS518 for the latest and final version of all files. Malaria-naive male rhesus macaques (Macaca mulatta), approximately four years of age, were inoculated intravenously with salivary gland sporozoites produced and isolated at the Centers for Disease Control and Prevention from multiple Anopheles species (An. dirus, An. gambiae, and An. stephensi) and then profiled for clinical, hematological, parasitological, immunological, functional genomic, lipidomic, proteomic, and metabolomic measurements. The experiment was designed for 100 days, and pre- and post-100 day periods to prepare subjects and administer curative treatments respectively. The anti-malarial drug artemether was subcuratively administered to all subjects at the initial peak of infection, one out of the five macaques received four additional subcurative treatments for subsequent recrudescence peaks. The experimental infection in one subject was ineffective but the macaque was followed-up for the same period of 100 days. The different clinical phases of the infection were clinically determined for each subject. Blood-stage curative doses of artemether were administered to all subjects at the end of the study. Capillary blood samples were collected daily for the measurement of CBCs, reticulocytes, and parasitemias. Capillary blood samples were collected every other day to obtain plasma for metabolomic analysis. Venous blood and bone marrow samples were collected at seven time points for functional genomic, proteomic, lipidomic, and immunological analyses. Within the MaHPIC, this project is known as ‘Experiment 03’. This dataset was produced by Dean Jones at Emory University. The experimental design and protocols for this study were approved by the Emory University Institutional Animal Care and Use Committee (IACUC).

Project description:<b>MaHPIC Experimental Description:</b><br/> Malaria-naive male rhesus macaques (<i>Macaca mulatta</i>), approximately four years of age, were inoculated intravenously with salivary gland sporozoites produced and isolated at the Centers for Disease Control and Prevention from multiple <i>Anopheles</i> species (<i>An. dirus, An. gambiae</i>, and <i>An. stephensi</i>) and then profiled for clinical, hematological, parasitological, immunological, functional genomic, lipidomic, proteomic, and metabolomic measurements. The experiment was designed for 100 days, and pre- and post-100 day periods to prepare subjects and administer curative treatments respectively. The anti-malarial drug artemether was subcuratively administered to all subjects at the initial peak of infection, one out of the five macaques received four additional subcurative treatments for subsequent recrudescence peaks. The experimental infection in one subject was ineffective but the macaque was followed-up for the same period of 100 days. The different clinical phases of the infection were clinically determined for each subject. Blood-stage curative doses of artemether were administered to all subjects at the end of the study. Capillary blood samples were collected daily for the measurement of CBCs, reticulocytes, and parasitemias. Capillary blood samples were collected every other day to obtain plasma for metabolomic analysis. Venous blood and bone marrow samples were collected at seven time points for functional genomic, proteomic, lipidomic, and immunological analyses.<br/><br/>Within the MaHPIC, this project is known as ‘Experiment 03’. This dataset was produced by Dr. Regina Cordy and Manoj Khadka at Emory University. To access other publicly available results from 'E03' and other MaHPIC Experiments, including clinical results (specifics on drugs administered, diet, and veterinary interventions), and other omics, visit http://plasmodb.org/plasmo/mahpic.jsp . This page will be updated as datasets are released to the public. The experimental design and protocols for this study were approved by the Emory University Institutional Animal Care and Use Committee (IACUC). <br/><br/><b>Complete list of dataset contributors:</b><br/>The MaHPIC Consortium, Jeremy D. DeBarry, Monica Cabrera-Mora, Mary R. Galinski, Manoj Khadka, Jessica C. Kissinger, Regina Joice Cordy, Esmeralda V.S. Meyer, Mustafa Nural, Eric A. Ortland, Rabindra M. Tirouvanziaml<br/>Please contact the Informatics Core with any questions / concerns / suggestions - mahpic-infocore@uga.edu<br/><br/>Linked Studies: <a href='/metabolights/search?freeTextQuery=MaHPIC' target='_blank'><span class='label label-success'>Malaria Host-Pathogen Interaction Center (MaHPIC)</span></a>

Project description:Malaria-naive male rhesus macaques (Macaca mulatta), approximately three years of age, were inoculated intravenously with salivary gland sporozoites produced and isolated at the Centers for Disease Control and Prevention from multiple Anopheles species (An. dirus, An. gambiae, and An. stephensi) and then profiled for clinical, hematological, parasitological, immunological, functional genomic, lipidomic, proteomic, and metabolomic measurements. The experiment was designed for 100 days, and pre- and post-100 day periods to prepare subjects and administer curative treatments respectively. The anti-malarial drug artemether was subcuratively administered selectively to several subjects during the primary parasitemia to suppress clinical complications and to all animals for curative treatment of blood-stage infections to allow detection of relapses. One subject was euthanized during the 100-day experimental period due to clinical complications. The anti-malarial drugs primaquine and chloroquine were administered to all remaining subjects at the end of the study for curative treatment of the liver and blood-stage infections, respectively. Capillary blood samples were collected daily for the measurement of CBCs, reticulocytes, and parasitemias. Capillary blood samples were collected every other day to obtain plasma for metabolomic analysis. Venous blood and bone marrow samples were collected at seven time points for functional genomic, proteomic, lipidomic, and immunological analyses. Within the MaHPIC, this project is known as 'Experiment 04'. This dataset was produced by Lance Wells at UGA. To access other publicly available results from 'E04' and other MaHPIC Experiments, including clinical results (specifics on drugs administered, diet, and veterinary interventions), and other omics, visit http://plasmodb.org/plasmo/mahpic.jsp . This page will be updated as datasets are released to the public. The experimental design and protocols for this study were approved by the Emory University Institutional Animal Care and Use Committee (IACUC). This dataset also includes results from MaHPIC Experiment 18 (E18). LC-MS/MS output from E18 were used as a control for analysis. Refer to the E04 and E18 README files for details of these datasets and their production.

Project description:MaHPIC Experimental Description: Malaria-naive male rhesus macaques (<i>Macaca mulatta</i>), approximately four years of age, were inoculated intravenously with salivary gland sporozoites produced and isolated at the Centers for Disease Control and Prevention from multiple Anopheles species (<i>An. dirus</i>, <i>An. gambiae</i>, and <i>An. stephensi</i>) and then profiled for clinical, hematological, parasitological, immunological, functional genomic, lipidomic, proteomic, and metabolomic measurements. The experiment was designed for about 100 days, with pre- and post-100 day periods to prepare subjects and administer curative treatments respectively. During the 100-day period subjects experienced periods of patent and sub- patent infection. The anti-malarial drug artemether was subcuratively administered to subjects after the initial peak of infection, if subjects were not able to self-resolve. Blood-stage curative artemether was administered to all subjects following peak infection, and following a period of relapse infection. All peaks were clinically determined for each subject. The anti-malarial drugs primaquine and chloroquine were administered to all subjects at the end of the study for curative treatment of the liver and blood-stage infections, respectively. Capillary blood samples were collected daily for the measurement of CBCs, reticulocytes, and parasitemias. Capillary blood samples were collected every other day to obtain plasma for metabolomic analysis. Venous blood and bone marrow samples were collected at seven time points for functional genomic, proteomic, lipidomic, and immunological analyses. Within the MaHPIC, this project is known as 'Experiment 23'. This is an iteration of Experiment 04 with the same parasite-host combination and sampling and treatment adjustments made, and this is the first in a series of experiments that includes subsequent homologous (Experiment 24, <i>P. cynomolgi</i> B strain) and heterologous (Experiment 25, <i>P. cynomolgi</i> strain ceylonensis) challenges of individuals from the Experiment 23 cohort. One subject was not included in subsequent experiments due to persistent behavioral issues that prevented sample collection. This dataset was produced by Dean Jones at Emory University. To access other publicly available results from E23 and other MaHPIC Experiments, including clinical results (specifics on drugs administered, diet, and veterinary interventions), and other omics, visit <a href='http://plasmodb.org/plasmo/mahpic.jsp' target='_blank'>http://plasmodb.org/plasmo/mahpic.jsp</a>. This page will be updated as datasets are released to the public. The experimental design and protocols for this study were approved by the Emory University Institutional Animal Care and Use Committee (IACUC).<br><br>Linked Studies: <a href='/metabolights/search?freeTextQuery=MaHPIC' target='_blank'><span class='label label-success'>Malaria Host-Pathogen Interaction Center (MaHPIC)</span></a>

Project description:Malaria-naive male rhesus macaques (Macaca mulatta), approximately four years of age, were inoculated intravenously with salivary gland sporozoites produced and isolated at the Centers for Disease Control and Prevention from multiple Anopheles species (An. dirus, An. gambiae, and An. stephensi) and then profiled for clinical, hematological, parasitological, immunological, functional genomic, lipidomic, proteomic, and metabolomic measurements. The experiment was designed for about 100 days, with pre- and post-100 day periods to prepare subjects and administer curative treatments respectively. During the 100-day period subjects experienced periods of patent and sub-patent infection. The anti-malarial drug artemether was subcuratively administered to subjects after the initial peak of infection, if subjects were not able to self-resolve. Blood-stage curative artemether was administered to all subjects following peak infection, and following a period of relapse infection. All peaks were clinically determined for each subject. The anti-malarial drugs primaquine and chloroquine were administered to all subjects at the end of the study for curative treatment of the liver and blood-stage infections, respectively. Capillary blood samples were collected daily for the measurement of CBCs, reticulocytes, and parasitemias. Capillary blood samples were collected every other day to obtain plasma for metabolomic analysis. Venous blood and bone marrow samples were collected at seven time points for functional genomic, proteomic, lipidomic, and immunological analyses. Within the MaHPIC, this project is known as ‘Experiment 23’. This is an iteration of Experiment 04 with the same parasite-host combination and sampling and treatment adjustments made, and this is the first in a series of experiments that includes subsequent homologous (Experiment 24, P. cynomolgi B strain) and heterologous (Experiment 25, P. cynomolgi strain ceylonensis) challenges of individuals from the Experiment 23 cohort. One subject was not included in subsequent experiments due to persistent behavioral issues that prevented sample collection. This dataset was produced by Lance Wells at University of Georgia. To access other publicly available results from 'E23' and other MaHPIC Experiments, including clinical results (specifics on drugs administered, diet, and veterinary interventions), and other omics, visit http://plasmodb.org/plasmo/mahpic.jsp . This page will be updated as datasets are released to the public. The experimental design and protocols for this study were approved by the Emory University Institutional Animal Care and Use Committee (IACUC). Refer to the E23 README file for further details of this dataset and its production.