Summary of Study ST002692

This data is available at the NIH Common Fund's National Metabolomics Data Repository (NMDR) website, the Metabolomics Workbench, https://www.metabolomicsworkbench.org, where it has been assigned Project ID PR001667. The data can be accessed directly via it's Project DOI: 10.21228/M87727 This work is supported by NIH grant, U2C- DK119886.

See: https://www.metabolomicsworkbench.org/about/howtocite.php

This study contains a large results data set and is not available in the mwTab file. It is only available for download via FTP as data file(s) here.

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Study ID	ST002692
Study Title	Per- and poly-fluoroalkyl substances (PFAS) Exposures and Child Health (PEACH) Study: Using targeted exposure assessment and untargeted metabolic profiling to characterize molecular pathways and mechanisms underlying PFAS toxicity on adverse birth and child health outcomes
Study Type	Prospective Cohort Study
Study Summary	The overarching goal of the Per- and poly-fluoroalkyl substances Exposures And Child Health (PEACH) Study is to apply an advanced untargeted metabolomics workflow to investigate associations between PFAS levels, perturbations in maternal and newborn metabolome and adverse birth outcomes. The Emory ECHO team has established a socio-economically diverse, exceptionally phenotyped African American (AA) maternal-child cohort that enrolls pregnant women in the early prenatal period and extends dyad follow-up through age five. PEACH draws from repeated metabolic profiling on a subset of 320 AA pregnant people within the Atlanta ECHO cohort, PFAS assessment, and untargeted metabolomics from newborn blood spots (n=279). Please contact Drs. Donghai Liang (Donghai.liang@emory.edu) and Anne Dunlop (amlang@emory.edu) via email for questions related to the subject characteristics and outcomes. This research was supported by the Environmental influences on Child Health Outcomes (ECHO) OIF program, Office of The Director, National Institutes of Health. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. PEACH is an ECHO cohort which is supported by the following ECHO Program Collaborators: ECHO Coordinating Center: Duke Clinical Research Institute, Durham, North Carolina: Smith PB, Newby KL, Benjamin DK; U2C OD023375 ECHO Data Analysis Center: Johns Hopkins University Bloomberg School of Public Health, Baltimore, Maryland: Jacobson LP; Research Triangle Institute, Durham, North Carolina: Catellier D; U24 OD023382 North Carolina Human Health Exposure Analysis Resource Hub: Research Triangle Institute: Fennell T, University of North Carolina at Chapel Hill: Sumner S, University of North Carolina at Charlotte: Du X; U2C ES030857 Human Health Exposure Analysis Resource Coordinating Center: Westat, Inc., Rockville, Maryland: O’Brien B; U24 ES026539
Institute	Emory University
Department	Environmental Health
Last Name	Liang
First Name	Donghai
Address	1518 Clifton Rd. NE Atlanta, GA 30322
Email	donghai.liang@emory.edu
Phone	(404) 712-9583
Submit Date	2023-04-26
Total Subjects	279
Study Comments	HHEAR Project EO19-0009, ECHO Project EC0386
Raw Data Available	Yes
Raw Data File Type(s)	raw(Thermo)
Chear Study	Yes
Analysis Type Detail	LC-MS
Release Date	2024-04-26
Release Version	1

Select appropriate tab below to view additional metadata details:

Project:

Project ID:	PR001667
Project DOI:	doi: 10.21228/M87727
Project Title:	Per- and poly-fluoroalkyl substances (PFAS) Exposures and Child Health (PEACH) Study: Using targeted exposure assessment and untargeted metabolic profiling to characterize molecular pathways and mechanisms underlying PFAS toxicity on adverse birth and child health outcomes
Project Type:	C18 Reversed-Phase Broad Spectrum Metabolomics
Project Summary:	The overarching goal of the Per- and poly-fluoroalkyl substances Exposures And Child Health (PEACH) Study is to apply an advanced untargeted metabolomics workflow to investigate associations between PFAS levels, perturbations in maternal and newborn metabolome and adverse birth outcomes. The Emory ECHO team has established a socio-economically diverse, exceptionally phenotyped African American (AA) maternal-child cohort that enrolls pregnant women in the early prenatal period and extends dyad follow-up through age five. PEACH draws from repeated metabolic profiling on a subset of 320 AA pregnant people within the Atlanta ECHO cohort, PFAS assessment, and untargeted metabolomics from newborn blood spots (n=279). Please contact Drs. Donghai Liang (Donghai.liang@emory.edu) and Anne Dunlop (amlang@emory.edu) via email for questions related to the subject characteristics and outcomes.
Institute:	NC HHEAR Hub
Department:	Untargeted Analysis
Laboratory:	Sumner Lab
Last Name:	Rushing
First Name:	Blake
Address:	Nutrition Research Institute, UNC-CH, 500 Laureate Way, Kannapolis, NC 28081
Email:	blake_rushing@unc.edu
Phone:	(704) 282-9838
Funding Source:	This research was supported by the Environmental influences on Child Health Outcomes (ECHO) OIF program, Office of The Director, National Institutes of Health. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. PEACH is an ECHO cohort which is supported by the following ECHO Program Collaborators: ECHO Coordinating Center: Duke Clinical Research Institute, Durham, North Carolina: Smith PB, Newby KL, Benjamin DK; U2C OD023375; ECHO Data Analysis Center: Johns Hopkins University Bloomberg School of Public Health, Baltimore, Maryland: Jacobson LP; Research Triangle Institute, Durham, North Carolina: Catellier D; U24 OD023382; North Carolina Human Health Exposure Analysis Resource Hub: Research Triangle Institute: Fennell T, University of North Carolina at Chapel Hill: Sumner S, University of North Carolina at Charlotte: Du X; U2C ES030857; Human Health Exposure Analysis Resource Coordinating Center: Westat, Inc., Rockville, Maryland: O’Brien B; U24 ES026539

Subject:

Subject ID:	SU002794
Subject Type:	Human
Subject Species:	Homo sapiens
Taxonomy ID:	9606

Factors:

Subject type: Human; Subject species: Homo sapiens (Factor headings shown in green)

mb_sample_id	local_sample_id	Sample Type	Batch
SA266408	BP_8	Blank	1
SA266409	BP_2	Blank	1
SA266410	BP_1	Blank	1
SA266411	BP_7	Blank	1
SA266412	BP_3	Blank	1
SA266413	BP_5	Blank	1
SA266414	BP_4	Blank	1
SA266415	BP_6	Blank	1
SA266416	BP_16	Blank	2
SA266417	BP_9	Blank	2
SA266418	BP_10	Blank	2
SA266419	BP_12	Blank	2
SA266420	BP_11	Blank	2
SA266421	BP_15	Blank	2
SA266422	BP_13	Blank	2
SA266423	BP_14	Blank	2
SA266424	BP_28	Blank	3
SA266425	BP_22	Blank	3
SA266426	BP_19	Blank	3
SA266427	BP_23	Blank	3
SA266428	BP_20	Blank	3
SA266429	BP_21	Blank	3
SA266430	BP_26	Blank	3
SA266431	BP_24	Blank	3
SA266432	BP_18	Blank	3
SA266433	BP_27	Blank	3
SA266434	BP_17	Blank	3
SA266435	BP_25	Blank	3
SA266436	NIST_7	NIST Plasma SRM 1950	1
SA266437	NIST_3	NIST Plasma SRM 1950	1
SA266438	NIST_5	NIST Plasma SRM 1950	1
SA266439	NIST_4	NIST Plasma SRM 1950	1
SA266440	NIST_2	NIST Plasma SRM 1950	1
SA266441	NIST_1	NIST Plasma SRM 1950	1
SA266442	NIST_6	NIST Plasma SRM 1950	1
SA266443	NIST_8	NIST Plasma SRM 1950	1
SA266444	NIST_14	NIST Plasma SRM 1950	2
SA266445	NIST_10	NIST Plasma SRM 1950	2
SA266446	NIST_11	NIST Plasma SRM 1950	2
SA266447	NIST_16	NIST Plasma SRM 1950	2
SA266448	NIST_13	NIST Plasma SRM 1950	2
SA266449	NIST_9	NIST Plasma SRM 1950	2
SA266450	NIST_12	NIST Plasma SRM 1950	2
SA266451	NIST_15	NIST Plasma SRM 1950	2
SA266452	NIST_25	NIST Plasma SRM 1950	3
SA266453	NIST_24	NIST Plasma SRM 1950	3
SA266454	NIST_26	NIST Plasma SRM 1950	3
SA266455	NIST_23	NIST Plasma SRM 1950	3
SA266456	NIST_20	NIST Plasma SRM 1950	3
SA266457	NIST_18	NIST Plasma SRM 1950	3
SA266458	NIST_17	NIST Plasma SRM 1950	3
SA266459	NIST_19	NIST Plasma SRM 1950	3
SA266460	NIST_28	NIST Plasma SRM 1950	3
SA266461	NIST_21	NIST Plasma SRM 1950	3
SA266462	NIST_27	NIST Plasma SRM 1950	3
SA266463	NIST_22	NIST Plasma SRM 1950	3
SA266464	SP_1	Study pool	1
SA266465	SP_5	Study pool	1
SA266466	SP_7	Study pool	1
SA266467	SP_8	Study pool	1
SA266468	SP_2	Study pool	1
SA266469	SP_6	Study pool	1
SA266470	SP_4	Study pool	1
SA266471	SP_3	Study pool	1
SA266472	SP_10	Study pool	2
SA266473	SP_9	Study pool	2
SA266474	SP_11	Study pool	2
SA266475	SP_16	Study pool	2
SA266476	SP_12	Study pool	2
SA266477	SP_15	Study pool	2
SA266478	SP_14	Study pool	2
SA266479	SP_13	Study pool	2
SA266480	SP_18	Study pool	3
SA266481	SP_17	Study pool	3
SA266482	SP_19	Study pool	3
SA266483	SP_28	Study pool	3
SA266484	SP_20	Study pool	3
SA266485	SP_24	Study pool	3
SA266486	SP_25	Study pool	3
SA266487	SP_23	Study pool	3
SA266488	SP_26	Study pool	3
SA266489	SP_27	Study pool	3
SA266490	SP_21	Study pool	3
SA266491	SP_22	Study pool	3
SA266492	S_77	Study sample	1
SA266493	S_76	Study sample	1
SA266494	S_75	Study sample	1
SA266495	S_1	Study sample	1
SA266496	S_80	Study sample	1
SA266497	S_74	Study sample	1
SA266498	S_79	Study sample	1
SA266499	S_78	Study sample	1
SA266500	S_71	Study sample	1
SA266501	S_24	Study sample	1
SA266502	S_25	Study sample	1
SA266503	S_26	Study sample	1
SA266504	S_23	Study sample	1
SA266505	S_22	Study sample	1
SA266506	S_20	Study sample	1
SA266507	S_21	Study sample	1

Showing page 1 of 4 Results: 1 2 3 4 Next Showing results 1 to 100 of 363

Collection:

Collection ID:	CO002787
Collection Summary:	N/A
Sample Type:	Blood (whole)
Collection Method:	Dried Blood Spot
Storage Conditions:	-80℃

Treatment:

Treatment ID:	TR002803
Treatment Summary:	NA

Sample Preparation:

Sampleprep ID:	SP002800
Sampleprep Summary:	279 newborn dried blood spot and blank samples and were randomized and extracted by 1000 µL methanol with 500 ng/mLtryptophan-d5 as internal standard via a multiple tube vortex mixer for 10 minutes at 5000 rpm. The blank and study samples were sonicated in an ice bath for 20 minutes. A volume of 700 µL of the supernatants was transferred into a pre-labeled 2.0 mL Low-bind Eppendorf tube labeled as the stock. Protein precipitate was pelleted using a centrifuge operating at 4° C for 5 minutes at 16,000 rcf. A volume of 70 µL of each blank sample stock was transferred to 15 mL conical tube to be combined to create a Blank Pool (BP). A volume of 70 µL of each study sample stock was transferred to 15 mL conical tube to be combined and create a Study Pool (SP). A total volume of 1400 µL of NIST Reference Plasma (NIST) was aliquoted into twenty-eight 50 µL aliquots. A volume of 600 µL supernatant (including experimental samples, BP, and SP) was transferred into a pre-labeled 2.0 mL Low-bind Eppendorf tube. All samples and pools were then dried by a SpeedVac overnight. For immediate analysis, 100 µL of water-methanol solution (95:5, v/v) was added to reconstitute the dried extracts, and the samples were thoroughly mixed on multiple tube vortex mixer for 10 min at 5000 rpm. Samples were centrifuged at 4°C for 4 min at 16,000 rcf. The supernatant was transferred to pre-labeled autosampler vials for data acquisition by LC-MS. Broad-spectrum metabolomics was conducted using a Thermo Scientific™ Vanquish™ UPHPLC - Q Exactive™ HF-X Orbitrap System. Metabolites were separated on an Acquity UPLC HSS T3 C18 (2.1 X 100 mm, 1.8 µm) operating at 50 C using a reversed phase gradient separation with Water with 0.1% Formic Acid (v/v) as mobile phase A and Methanol with 0.1% Formic Acid (v/v) as mobile phase B. A 5 µL was injected into the instrument, and MS was collected between 50-750 m/z in positive mode with the MS/MS data triggered by the Data-Dependent Acquisition.
Processing Storage Conditions:	4℃
Extraction Method:	Vortex with methanol containing 500ng/ml tryptophan-d5 as internal standard
Extract Storage:	-80℃
Sample Resuspension:	Water-Methanol (95:5, v/v)
Sample Spiking:	Tryptophan-d5 stock solution at 500 ng/mL

Combined analysis:

Analysis ID	AN004365
Analysis type	MS
Chromatography type	Reversed phase
Chromatography system	Thermo Vanquish
Column	Waters ACQUITY UPLC HSS T3 (100 x 2.1mm,1.8um)
MS Type	ESI
MS instrument type	Orbitrap
MS instrument name	Thermo Q Exactive HF-X Orbitrap
Ion Mode	POSITIVE
Units	Normalized intensity

Chromatography:

Chromatography ID:	CH003271
Chromatography Summary:	Reverse phase
Instrument Name:	Thermo Vanquish
Column Name:	Waters ACQUITY UPLC HSS T3 (100 x 2.1mm,1.8um)
Column Pressure:	6000-10000 psi
Column Temperature:	50℃
Flow Gradient:	Time(min) Flow Rate %A %B Curve 1. 0 0.4 99.0 1.0 5 2. 1.00 0.4 99.0 1.0 5 3. 16.00 0.4 1.0 99.0 5 4. 19.00 0.4 1.0 99.0 5 5. 19.50 0.4 99.0 1.0 5 6. 22.00 0.4 99.0 1.0 5
Flow Rate:	0.4 mL/min
Injection Temperature:	8℃
Internal Standard:	Tryptophan-d5
Solvent A:	100% water; 0.1% formic acid
Solvent B:	100% methanol; 0.1% formic acid
Analytical Time:	22 min
Weak Wash Solvent Name:	10% methanol/90% water; 0.1% formic acid
Strong Wash Solvent Name:	75% 2-Propanol/25% Water; 0.1% formic acid
Chromatography Type:	Reversed phase

MS:

MS ID:	MS004112
Analysis ID:	AN004365
Instrument Name:	Thermo Q Exactive HF-X Orbitrap
Instrument Type:	Orbitrap
MS Type:	ESI
MS Comments:	Instrument: Thermo Q Exactive HFx Software: Xcalibur 4.1.31.9 for data acquisition; Progenesis QI 2.4 for data preprocessing
Ion Mode:	POSITIVE
Capillary Temperature:	320 °C
Capillary Voltage:	3.5 KV
Collision Energy:	20-45, ramp
Collision Gas:	N2
Dry Gas Flow:	55
Dry Gas Temp:	400°C
Fragmentation Method:	CID
Ion Spray Voltage:	3.5kV
Ionization:	ES+
Mass Accuracy:	5 ppm
Dataformat:	Profile
Desolvation Gas Flow:	55
Desolvation Temperature:	400 ℃