Summary of Study ST002559

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 PR001651. The data can be accessed directly via it's Project DOI: 10.21228/M8971G 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.

Show all samples | Perform analysis on untargeted data
Download mwTab file (text) | Download mwTab file(JSON) | Download data files (Contains raw data)

Study ID	ST002559
Study Title	The ECHO Cohort Exposome: First Steps using HHEAR Analysis – An Opportunity for ALL ECHO Cohorts to Contribute Type A Samples – Untargeted Analysis (VCSIP Cohort)
Study Type	Prospective Cohort Study
Study Summary	Maternal smoking during pregnancy negatively effects fetal lung development and causes lifelong decreases in offspring pulmonary function and offspring respiratory health including increased risk of childhood asthma development. The VCSIP cohort was created from 2 RCTs to determine if vitamin C supplementation to pregnant smokers could ameliorate some of the negative effects of maternal smoking during pregnancy on offspring lung health (JAMA 311:2074-2082, 2014; JAMA Pediatr 177:16-24, 2023). Both pre- and postnatal tobacco exposures have been carefully monitored and extensive respiratory phenotyping on the offspring have been performed. Please contact Cindy McEvoy at Mcevoyc@ohsu.edu for questions related to subject characteristics and outcomes. This research was supported by the Environmental influences on Child Health Outcomes (ECHO) 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. VCSIP 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	Oregon Health and Science University
Department	Division of Neuroscience
Last Name	Spindel
First Name	Eliot
Address	3181 SW Sam Jackson Park Road Portland, OR 97239-3098
Email	spindele@ohsu.edu
Phone	503-346-5524
Submit Date	2023-04-13
Total Subjects	200
Study Comments	HHEAR Project EM20-0011, ECHO Project EC0376
Raw Data Available	Yes
Raw Data File Type(s)	raw(Thermo)
Chear Study	Yes
Analysis Type Detail	LC-MS
Release Date	2024-04-14
Release Version	1

Select appropriate tab below to view additional metadata details:

Project:

Project ID:	PR001651
Project DOI:	doi: 10.21228/M8971G
Project Title:	The ECHO Cohort Exposome: First Steps using HHEAR Analysis – An Opportunity for ALL ECHO Cohorts to Contribute Type A Samples – Untargeted Analysis (VCSIP Cohort)
Project Type:	C18 Reversed-Phase Broad Spectrum Metabolomics
Project Summary:	This project was funded by the NIH Environmental influences on Child Health Outcomes (ECHO) Program. Untargeted metabolomics profiling data was acquired from urine samples provided by 14 ECHO cohorts.
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) 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. The VCSIP ECHO Cohort 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:	SU002660
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	Analysis Order
SA257342	VCSIP_B_8	Blank	1	108
SA257343	VCSIP_B_1	Blank	1	12
SA257344	VCSIP_B_2	Blank	1	26
SA257345	VCSIP_B_3	Blank	1	39
SA257346	VCSIP_B_4	Blank	1	53
SA257347	VCSIP_B_5	Blank	1	67
SA257348	VCSIP_B_6	Blank	1	81
SA257349	VCSIP_B_7	Blank	1	94
SA257350	VCSIP_B_9	Blank	2	123
SA257351	VCSIP_B_10	Blank	2	137
SA257352	VCSIP_B_11	Blank	2	150
SA257353	VCSIP_B_12	Blank	2	164
SA257354	VCSIP_B_13	Blank	2	178
SA257355	VCSIP_B_14	Blank	2	192
SA257356	VCSIP_B_15	Blank	2	205
SA257357	VCSIP_B_16	Blank	2	219
SA257358	VCSIP_B_17	Blank	3	234
SA257359	VCSIP_B_18	Blank	3	248
SA257360	VCSIP_B_19	Blank	3	262
SA257361	VCSIP_B_20	Blank	3	276
SA257362	VCSIP_CHEAR_U_1	CHEAR Urine Pool	1	14
SA257363	VCSIP_CHEAR_U_2	CHEAR Urine Pool	1	41
SA257364	VCSIP_CHEAR_U_3	CHEAR Urine Pool	1	69
SA257365	VCSIP_CHEAR_U_4	CHEAR Urine Pool	1	96
SA257366	VCSIP_CHEAR_U_5	CHEAR Urine Pool	2	125
SA257367	VCSIP_CHEAR_U_6	CHEAR Urine Pool	2	152
SA257368	VCSIP_CHEAR_U_7	CHEAR Urine Pool	2	180
SA257369	VCSIP_CHEAR_U_8	CHEAR Urine Pool	2	207
SA257370	VCSIP_CHEAR_U_9	CHEAR Urine Pool	3	236
SA257371	VCSIP_CHEAR_U_10	CHEAR Urine Pool	3	264
SA257372	VCSIP_HHEAR_U1_1	HHEAR Urine Pool 1 (HHEAR_U1_20)	1	13
SA257373	VCSIP_HHEAR_U1_2	HHEAR Urine Pool 1 (HHEAR_U1_20)	1	40
SA257374	VCSIP_HHEAR_U1_3	HHEAR Urine Pool 1 (HHEAR_U1_20)	1	68
SA257375	VCSIP_HHEAR_U1_4	HHEAR Urine Pool 1 (HHEAR_U1_20)	1	95
SA257376	VCSIP_HHEAR_U1_5	HHEAR Urine Pool 1 (HHEAR_U1_20)	2	124
SA257377	VCSIP_HHEAR_U1_6	HHEAR Urine Pool 1 (HHEAR_U1_20)	2	151
SA257378	VCSIP_HHEAR_U1_7	HHEAR Urine Pool 1 (HHEAR_U1_20)	2	179
SA257379	VCSIP_HHEAR_U1_8	HHEAR Urine Pool 1 (HHEAR_U1_20)	2	206
SA257380	VCSIP_HHEAR_U1_9	HHEAR Urine Pool 1 (HHEAR_U1_20)	3	235
SA257381	VCSIP_HHEAR_U1_10	HHEAR Urine Pool 1 (HHEAR_U1_20)	3	263
SA257382	VCSIP_HHEAR_U2_4	HHEAR Urine Pool 2 (HHEAR_U2_50)	1	109
SA257383	VCSIP_HHEAR_U2_1	HHEAR Urine Pool 2 (HHEAR_U2_50)	1	27
SA257384	VCSIP_HHEAR_U2_2	HHEAR Urine Pool 2 (HHEAR_U2_50)	1	54
SA257385	VCSIP_HHEAR_U2_3	HHEAR Urine Pool 2 (HHEAR_U2_50)	1	82
SA257386	VCSIP_HHEAR_U2_5	HHEAR Urine Pool 2 (HHEAR_U2_50)	2	138
SA257387	VCSIP_HHEAR_U2_6	HHEAR Urine Pool 2 (HHEAR_U2_50)	2	165
SA257388	VCSIP_HHEAR_U2_7	HHEAR Urine Pool 2 (HHEAR_U2_50)	2	193
SA257389	VCSIP_HHEAR_U2_8	HHEAR Urine Pool 2 (HHEAR_U2_50)	2	220
SA257390	VCSIP_HHEAR_U2_9	HHEAR Urine Pool 2 (HHEAR_U2_50)	3	249
SA257391	VCSIP_HHEAR_U2_10	HHEAR Urine Pool 2 (HHEAR_U2_50)	3	277
SA257392	VCSIP_NIST_3672_1	NIST Urine Pool 3672	1	1
SA257393	VCSIP_NIST_3672_3	NIST Urine Pool 3672	1	111
SA257394	VCSIP_NIST_3672_2	NIST Urine Pool 3672	1	56
SA257395	VCSIP_NIST_3672_4	NIST Urine Pool 3672	2	112
SA257396	VCSIP_NIST_3672_5	NIST Urine Pool 3672	2	167
SA257397	VCSIP_NIST_3672_6	NIST Urine Pool 3672	2	222
SA257398	VCSIP_NIST_3672_7	NIST Urine Pool 3672	3	223
SA257399	VCSIP_NIST_3672_8	NIST Urine Pool 3672	3	251
SA257400	VCSIP_NIST_3672_9	NIST Urine Pool 3672	3	279
SA257401	VCSIP_SP_8	Study Pool	1	110
SA257402	VCSIP_SP_1	Study Pool	1	15
SA257403	VCSIP_SP_2	Study Pool	1	28
SA257404	VCSIP_SP_3	Study Pool	1	42
SA257405	VCSIP_SP_4	Study Pool	1	55
SA257406	VCSIP_SP_5	Study Pool	1	70
SA257407	VCSIP_SP_6	Study Pool	1	83
SA257408	VCSIP_SP_7	Study Pool	1	97
SA257409	VCSIP_SP_9	Study Pool	2	126
SA257410	VCSIP_SP_10	Study Pool	2	139
SA257411	VCSIP_SP_11	Study Pool	2	153
SA257412	VCSIP_SP_12	Study Pool	2	166
SA257413	VCSIP_SP_13	Study Pool	2	181
SA257414	VCSIP_SP_14	Study Pool	2	194
SA257415	VCSIP_SP_15	Study Pool	2	208
SA257416	VCSIP_SP_16	Study Pool	2	221
SA257417	VCSIP_SP_17	Study Pool	3	237
SA257418	VCSIP_SP_18	Study Pool	3	250
SA257419	VCSIP_SP_19	Study Pool	3	265
SA257420	VCSIP_SP_20	Study Pool	3	278
SA257421	VCSIP_S_9	Study Sample	1	10
SA257422	VCSIP_S_73	Study Sample	1	100
SA257423	VCSIP_S_74	Study Sample	1	101
SA257424	VCSIP_S_75	Study Sample	1	102
SA257425	VCSIP_S_76	Study Sample	1	103
SA257426	VCSIP_S_77	Study Sample	1	104
SA257427	VCSIP_S_78	Study Sample	1	105
SA257428	VCSIP_S_79	Study Sample	1	106
SA257429	VCSIP_S_80	Study Sample	1	107
SA257430	VCSIP_S_10	Study Sample	1	11
SA257431	VCSIP_S_11	Study Sample	1	16
SA257432	VCSIP_S_12	Study Sample	1	17
SA257433	VCSIP_S_13	Study Sample	1	18
SA257434	VCSIP_S_14	Study Sample	1	19
SA257435	VCSIP_S_1	Study Sample	1	2
SA257436	VCSIP_S_15	Study Sample	1	20
SA257437	VCSIP_S_16	Study Sample	1	21
SA257438	VCSIP_S_17	Study Sample	1	22
SA257439	VCSIP_S_18	Study Sample	1	23
SA257440	VCSIP_S_19	Study Sample	1	24
SA257441	VCSIP_S_20	Study Sample	1	25

Showing page 1 of 3 Results: 1 2 3 Next Showing results 1 to 100 of 279

Collection:

Collection ID:	CO002653
Collection Summary:	N/A
Sample Type:	Urine
Storage Conditions:	-80℃

Treatment:

Treatment ID:	TR002672
Treatment Summary:	NA

Sample Preparation:

Sampleprep ID:	SP002666
Sampleprep Summary:	Study samples were shipped from the Oregon Health and Sciences University to the NC HHEAR Hub on dry ice. The NC HHEAR Hub thawed and transferred 50 µL of the study samples to a new set of tubes and used them for the analysis. An additional 10 µL was taken from the original study sample and transferred to another tube to make the total study pool for this project, and then distributed with 50 µL per aliquot, used as quality control study pools (QC study pools) throughout the whole analysis. All sample aliquots (50 µL each) and QC study pools (50 µL each) were stored at -80° C until the day of sample preparation. HHEAR Urine Pool 1 (50 µL each), HHEAR Urine Pool 2 (50 µL each), CHEAR reference urine (50 µL each) and NIST urine (SRM 3672) reference material (50 µL each) were provided by the NC HHEAR Hub. LC-MS grade water (50 µL) was used as blanks. All samples were thawed at 4°C overnight before the preparation. Samples, including study samples, study pool samples, HHEAR reference urine, CHEAR reference urine, NIST reference urine, and blanks were mixed with 400 µL methanol containing 500 ng/mL tryptophan-d5 as internal standard and vortexed by a multiple tube vortex mixer for 2 min at 5000 rpm at room temperature. All samples were centrifuged at 16,000 rcf for 10 min at 4°C. The supernatant (350 µL) was transferred into a pre-labeled 2.0 mL Lo-bind Eppendorf tube, dried by a SpeedVac overnight, and stored at -80° C. For immediate analysis, 100 µL of water-methanol solution (95:5, v/v) was used to reconstitute the dried extracts. Samples were thoroughly mixed on a multiple tube vortex mixer for 10 min at 5000 rpm at room temperature and then centrifuged at 4°C for 10 min at 16,000 rcf. The supernatant was transferred to pre-labeled autosampler vials for data acquisition by LC-MS.
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	AN004218
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	m/z

Chromatography:

Chromatography ID:	CH003128
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:	8oC
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:	MS003965
Analysis ID:	AN004218
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 oC