Study Data
| Project uploaded by: | Arun |
| Project ID: | IMP_100010 |
| Title: | Analysis of the metabolic profile of humans naturally exposed to RF-EM radiation |
| Project Description: | The world is experiencing exponential growth in communication, especially wireless communication. In recent times, wireless connectivity seems to become a part of daily life for everyone. Recent developments in low-cost, low-power, and miniature devices contribute to a significant rise in radiofrequency-electromagnetic field (RF-EM) radiation exposure in our environment, raising concern over its effect on biological systems. The inconsistent and conflicting research results make it difficult to draw definite conclusions about how RF-EM radiation affects living things. This study identified two micro-environments based on their level of exposure to cellular RF-EM radiation – one with significantly less exposure and another with very high exposure to RF-EM radiation. Emphasis is given to studying the metabolites in the urine samples of humans naturally exposed to these two different microenvironments to understand short-term metabolic dysregulations. The study found that the twenty-nine metabolites were dysregulated. Among them, 19 were downregulated, and 10 were upregulated. In particular, Glyoxylate and dicarboxylate and the TCA cycle metabolism pathway have been perturbed. The results indicated that high RF-EM radiation exposure is linked to oxidative stress. Further, the dysregulated metabolites were validated using the ROC curve analysis. |
| Research Area: | Biological Sciences |
| Funding Source: | ICGEB core funds |
| Project Contributors: | Neel Mani Rangesh, Arun Kumar Malaisamy, Nitesh Kumar, Sanjay Kumar |
| Study uploaded by: | Arun |
| Study ID: | IMS_100009 |
| Title: | Analysis of the metabolic profile of humans naturally exposed to RF-EM radiation |
| Summary: | The world is experiencing exponential growth in communication, especially wireless communication. In recent times, wireless connectivity seems to become a part of daily life for everyone. Recent developments in low-cost, low-power, and miniature devices contribute to a significant rise in radiofrequency-electromagnetic field (RF-EM) radiation exposure in our environment, raising concern over its effect on biological systems. The inconsistent and conflicting research results make it difficult to draw definite conclusions about how RF-EM radiation affects living things. This study identified two micro-environments based on their level of exposure to cellular RF-EM radiation – one with significantly less exposure and another with very high exposure to RF-EM radiation. Emphasis is given to studying the metabolites in the urine samples of humans naturally exposed to these two different microenvironments to understand short-term metabolic dysregulations. The study found that the twenty-nine metabolites were dysregulated. Among them, 19 were downregulated, and 10 were upregulated. In particular, Glyoxylate and dicarboxylate and the TCA cycle metabolism pathway have been perturbed. The results indicated that high RF-EM radiation exposure is linked to oxidative stress. Further, the dysregulated metabolites were validated using the ROC curve analysis. |
| Keywords: | NMR spectroscopy, metabolomics, microenvironment, oxidative metabolites, RF-EM radiation |
| Publication: | https://doi.org/10.1007/s11306-024-02121-2 |
| Release Date: | Sept. 16, 2025 |
| Study Type: | Nuclear Magnetic Resonance (NMR) |
| Data Type: | Untargeted |
| IEC/IBSC Approval Number : | 1145/IEC /IGIMS/2019/16.10.2019. |
| Sr.No | Sample ID | Sample Name | Organism | Source | Sample Preparation Protocol | Sample Type | Experimental Condition | Time of treatment | Variant/Variety | Gender | Age | Replicates | Storage Conditions | Extraction Protocol | Number of files per sample |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 1 | IMSM_100550 | B1 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 41 | N/A | -80 |
N/A |
||||
| 2 | IMSM_100551 | B2 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 19 | N/A | -80 |
N/A |
||||
| 3 | IMSM_100552 | B3 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 19 | N/A | -80 |
N/A |
||||
| 4 | IMSM_100553 | B4 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 20 | N/A | -80 |
N/A |
||||
| 5 | IMSM_100554 | B5 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 37 | N/A | -80 |
N/A |
||||
| 6 | IMSM_100555 | B6 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 49 | N/A | -80 |
N/A |
||||
| 7 | IMSM_100556 | B7 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 38 | N/A | -80 |
N/A |
||||
| 8 | IMSM_100557 | B8 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 54 | N/A | -80 |
N/A |
||||
| 9 | IMSM_100558 | B9 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 41 | N/A | -80 |
N/A |
||||
| 10 | IMSM_100559 | B10 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 44 | N/A | -80 |
N/A |
||||
| 11 | IMSM_100560 | B11 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 19 | N/A | -80 |
N/A |
||||
| 12 | IMSM_100561 | B12 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 38 | N/A | -80 |
N/A |
||||
| 13 | IMSM_100562 | B13 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 28 | N/A | -80 |
N/A |
||||
| 14 | IMSM_100563 | B14 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 42 | N/A | -80 |
N/A |
||||
| 15 | IMSM_100564 | B15 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 40 | N/A | -80 |
N/A |
||||
| 16 | IMSM_100565 | B16 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 39 | N/A | -80 |
N/A |
||||
| 17 | IMSM_100566 | B17 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 26 | N/A | -80 |
N/A |
||||
| 18 | IMSM_100567 | B18 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 33 | N/A | -80 |
N/A |
||||
| 19 | IMSM_100568 | B19 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 58 | N/A | -80 |
N/A |
||||
| 20 | IMSM_100569 | B20 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 23 | N/A | -80 |
N/A |
||||
| 21 | IMSM_100570 | B21 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 21 | N/A | -80 |
N/A |
||||
| 22 | IMSM_100571 | B22 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 35 | N/A | -80 |
N/A |
||||
| 23 | IMSM_100572 | B23 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 27 | N/A | -80 |
N/A |
||||
| 24 | IMSM_100573 | B24 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 19 | N/A | -80 |
N/A |
||||
| 25 | IMSM_100574 | B25 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 31 | N/A | -80 |
N/A |
||||
| 26 | IMSM_100575 | B26 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 40 | N/A | -80 |
N/A |
||||
| 27 | IMSM_100576 | B27 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 38 | N/A | -80 |
N/A |
||||
| 28 | IMSM_100577 | B28 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 45 | N/A | -80 |
N/A |
||||
| 29 | IMSM_100578 | B29 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 35 | N/A | -80 |
N/A |
||||
| 30 | IMSM_100579 | B30 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | less exposed to RF-EMF radiation | Male | 46 | N/A | -80 |
N/A |
||||
| 31 | IMSM_100580 | A1 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 22 | N/A | -80 |
N/A |
||||
| 32 | IMSM_100581 | A2 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 23 | N/A | -80 |
N/A |
||||
| 33 | IMSM_100582 | A3 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 24 | N/A | -80 |
N/A |
||||
| 34 | IMSM_100583 | A4 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 25 | N/A | -80 |
N/A |
||||
| 35 | IMSM_100584 | A5 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 28 | N/A | -80 |
N/A |
||||
| 36 | IMSM_100585 | A6 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 30 | N/A | -80 |
N/A |
||||
| 37 | IMSM_100586 | A7 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 31 | N/A | -80 |
N/A |
||||
| 38 | IMSM_100587 | A8 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 34 | N/A | -80 |
N/A |
||||
| 39 | IMSM_100588 | A9 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 36 | N/A | -80 |
N/A |
||||
| 40 | IMSM_100589 | A10 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 38 | N/A | -80 |
N/A |
||||
| 41 | IMSM_100590 | A11 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 41 | N/A | -80 |
N/A |
||||
| 42 | IMSM_100591 | A12 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 43 | N/A | -80 |
N/A |
||||
| 43 | IMSM_100592 | A13 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 45 | N/A | -80 |
N/A |
||||
| 44 | IMSM_100593 | A14 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 46 | N/A | -80 |
N/A |
||||
| 45 | IMSM_100594 | A15 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 48 | N/A | -80 |
N/A |
||||
| 46 | IMSM_100595 | A16 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 49 | N/A | -80 |
N/A |
||||
| 47 | IMSM_100596 | A17 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 52 | N/A | -80 |
N/A |
||||
| 48 | IMSM_100597 | A18 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 54 | N/A | -80 |
N/A |
||||
| 49 | IMSM_100598 | A19 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 56 | N/A | -80 |
N/A |
||||
| 50 | IMSM_100599 | A20 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 22 | N/A | -79 |
N/A |
||||
| 51 | IMSM_100600 | A21 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 28 | N/A | -80 |
N/A |
||||
| 52 | IMSM_100601 | A22 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 34 | N/A | -80 |
N/A |
||||
| 53 | IMSM_100602 | A23 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 41 | N/A | -80 |
N/A |
||||
| 54 | IMSM_100603 | A24 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 41 | N/A | -80 |
N/A |
||||
| 55 | IMSM_100604 | A25 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 45 | N/A | -80 |
N/A |
||||
| 56 | IMSM_100605 | A26 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 45 | N/A | -80 |
N/A |
||||
| 57 | IMSM_100606 | A27 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 49 | N/A | -80 |
N/A |
||||
| 58 | IMSM_100607 | A28 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 49 | N/A | -80 |
N/A |
||||
| 59 | IMSM_100608 | A29 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 38 | N/A | -80 |
N/A |
||||
| 60 | IMSM_100609 | A30 | Homo sapiens | Urine | The urine samples were thawed during NMR measurements, and 0.5 ml of urine samples were transferred to a 1.5 ml centrifuge tube to eliminate contaminants of larger molecules. The samples were centrifuged at 10000g at 4 °C for 10 minutes to remove solid debris. Next, 180 µl of urine samples in the supernatant (metabolite) were transferred to a fresh centrifuge tube, and 20 µl NMR buffer (1.5 M KH2PO4, 2 mM NaN3, 5.8 mM sodium 3-(trimethylsilyl) propionate-2,2,3,3-d4 in D2O pH 7.4) was gently mixed. The resulting solutions were transferred to separate 3 mm NMR tubes. | high exposed to RF-EMF radiation | Male | 52 | N/A | -80 |
N/A |
| Sr.No | NMR Exp ID | Sample Name/ID | Reference Standard | NMR Instrument Name | NMR Instrument Type | NMR Experiment Type | NMR Spectrometer Frequency | NMR Probe | NMR Probe temperature | NMR Solvent | NMR tube size | Data Transformation (Software/s Used) |
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 1 | IME_100408 | B1 / IMSM_100550 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 2 | IME_100409 | B2 / IMSM_100551 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 3 | IME_100410 | B3 / IMSM_100552 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 4 | IME_100411 | B4 / IMSM_100553 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 5 | IME_100412 | B5 / IMSM_100554 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 6 | IME_100413 | B6 / IMSM_100555 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 7 | IME_100414 | B7 / IMSM_100556 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 8 | IME_100415 | B8 / IMSM_100557 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 9 | IME_100416 | B9 / IMSM_100558 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 10 | IME_100417 | B10 / IMSM_100559 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 11 | IME_100418 | B11 / IMSM_100560 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 12 | IME_100419 | B12 / IMSM_100561 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 13 | IME_100420 | B13 / IMSM_100562 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 14 | IME_100421 | B14 / IMSM_100563 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 15 | IME_100422 | B15 / IMSM_100564 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 16 | IME_100423 | B16 / IMSM_100565 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 17 | IME_100424 | B17 / IMSM_100566 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 18 | IME_100425 | B18 / IMSM_100567 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 19 | IME_100426 | B19 / IMSM_100568 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 20 | IME_100427 | B20 / IMSM_100569 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 21 | IME_100428 | B21 / IMSM_100570 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 22 | IME_100429 | B22 / IMSM_100571 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 23 | IME_100430 | B23 / IMSM_100572 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 24 | IME_100431 | B24 / IMSM_100573 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 25 | IME_100432 | B25 / IMSM_100574 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 26 | IME_100433 | B26 / IMSM_100575 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 27 | IME_100434 | B27 / IMSM_100576 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 28 | IME_100435 | B28 / IMSM_100577 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 29 | IME_100436 | B29 / IMSM_100578 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 30 | IME_100437 | B30 / IMSM_100579 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 31 | IME_100438 | A1 / IMSM_100580 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 32 | IME_100439 | A2 / IMSM_100581 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 33 | IME_100440 | A3 / IMSM_100582 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 34 | IME_100441 | A4 / IMSM_100583 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 35 | IME_100442 | A5 / IMSM_100584 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 36 | IME_100443 | A6 / IMSM_100585 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 37 | IME_100444 | A7 / IMSM_100586 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 38 | IME_100445 | A8 / IMSM_100587 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 39 | IME_100446 | A9 / IMSM_100588 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 40 | IME_100447 | A10 / IMSM_100589 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 41 | IME_100448 | A11 / IMSM_100590 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 42 | IME_100449 | A12 / IMSM_100591 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 43 | IME_100450 | A13 / IMSM_100592 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 44 | IME_100451 | A14 / IMSM_100593 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 45 | IME_100452 | A15 / IMSM_100594 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 46 | IME_100453 | A16 / IMSM_100595 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 47 | IME_100454 | A17 / IMSM_100596 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 48 | IME_100455 | A18 / IMSM_100597 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 49 | IME_100456 | A19 / IMSM_100598 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 50 | IME_100457 | A20 / IMSM_100599 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 51 | IME_100458 | A21 / IMSM_100600 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 52 | IME_100459 | A22 / IMSM_100601 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 53 | IME_100460 | A23 / IMSM_100602 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 54 | IME_100461 | A24 / IMSM_100603 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 55 | IME_100462 | A25 / IMSM_100604 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 56 | IME_100463 | A26 / IMSM_100605 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 57 | IME_100464 | A27 / IMSM_100606 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 58 | IME_100465 | A28 / IMSM_100607 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 59 | IME_100466 | A29 / IMSM_100608 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| 60 | IME_100467 | A30 / IMSM_100609 | DSS | Bruker Avance Neo | Solution NMR | 1D 1H | 500 | cryogenic 5 mm TCI probe head | 298k | D2O | 3mm | topspin |
| Sr.No | First name | Last name | Organization | Designation | |
|---|---|---|---|---|---|
| 1 | Sanjay | Kumar | skumar@bitmesra.ac.in | Birla Institute of Technology, Ranchi ... | principal_investigator |
| 2 | Nitesh | Kumar | niteshjnu@gmail.com | Indira Gandhi Institute of Medical Sciences, Patna | scientist |
| 3 | Arun Kumar | Malaisamy | makias191@gmail.com | International Centre for Genetic Engineering and Biotechnology, New Delhi | research_scholar |
| 4 | Neel Mani | Rangesh | neelmr@gmail.com | Birla Institute of Technology, Ranchi ... | principal_investigator |
| Sr.No | ftprun ID | NMR Exp ID | NMR Data Files |
|---|---|---|---|
| 1 | IMR_101007 | IME_100408 | B1.zip |
| 2 | IMR_101008 | IME_100409 | B10.zip |
| 3 | IMR_101009 | IME_100410 | B11.zip |
| 4 | IMR_101010 | IME_100411 | B12.zip |
| 5 | IMR_101011 | IME_100412 | B13.zip |
| 6 | IMR_101012 | IME_100413 | B14.zip |
| 7 | IMR_101013 | IME_100414 | B15.zip |
| 8 | IMR_101014 | IME_100415 | B16.zip |
| 9 | IMR_101015 | IME_100416 | B17.zip |
| 10 | IMR_101016 | IME_100417 | B18.zip |
| 11 | IMR_101017 | IME_100418 | B19.zip |
| 12 | IMR_101018 | IME_100419 | B2.zip |
| 13 | IMR_101019 | IME_100420 | B20.zip |
| 14 | IMR_101020 | IME_100421 | B21.zip |
| 15 | IMR_101021 | IME_100422 | B22.zip |
| 16 | IMR_101022 | IME_100423 | B23.zip |
| 17 | IMR_101023 | IME_100424 | B24.zip |
| 18 | IMR_101024 | IME_100425 | B25.zip |
| 19 | IMR_101025 | IME_100426 | B26.zip |
| 20 | IMR_101026 | IME_100427 | B27.zip |
| 21 | IMR_101027 | IME_100428 | B28.zip |
| 22 | IMR_101028 | IME_100429 | B29.zip |
| 23 | IMR_101029 | IME_100430 | B3.zip |
| 24 | IMR_101030 | IME_100431 | B30.zip |
| 25 | IMR_101031 | IME_100432 | B4.zip |
| 26 | IMR_101032 | IME_100433 | B5.zip |
| 27 | IMR_101033 | IME_100434 | B6.zip |
| 28 | IMR_101034 | IME_100435 | B7.zip |
| 29 | IMR_101035 | IME_100436 | B8.zip |
| 30 | IMR_101036 | IME_100437 | B9.zip |
| 31 | IMR_101037 | IME_100438 | A1.zip |
| 32 | IMR_101038 | IME_100439 | A10.zip |
| 33 | IMR_101039 | IME_100440 | A11.zip |
| 34 | IMR_101040 | IME_100441 | A12.zip |
| 35 | IMR_101041 | IME_100442 | A13.zip |
| 36 | IMR_101042 | IME_100443 | A14.zip |
| 37 | IMR_101043 | IME_100444 | A15.zip |
| 38 | IMR_101044 | IME_100445 | A16.zip |
| 39 | IMR_101045 | IME_100446 | A17.zip |
| 40 | IMR_101046 | IME_100447 | A18.zip |
| 41 | IMR_101047 | IME_100448 | A19.zip |
| 42 | IMR_101048 | IME_100449 | A2.zip |
| 43 | IMR_101049 | IME_100450 | A20.zip |
| 44 | IMR_101050 | IME_100451 | A21.zip |
| 45 | IMR_101051 | IME_100452 | A22.zip |
| 46 | IMR_101052 | IME_100453 | A23.zip |
| 47 | IMR_101053 | IME_100454 | A24.zip |
| 48 | IMR_101054 | IME_100455 | A25.zip |
| 49 | IMR_101055 | IME_100456 | A26.zip |
| 50 | IMR_101056 | IME_100457 | A27.zip |
| 51 | IMR_101057 | IME_100458 | A28.zip |
| 52 | IMR_101058 | IME_100459 | A29.zip |
| 53 | IMR_101059 | IME_100460 | A3.zip |
| 54 | IMR_101060 | IME_100461 | A30.zip |
| 55 | IMR_101061 | IME_100462 | A4.zip |
| 56 | IMR_101062 | IME_100463 | A5.zip |
| 57 | IMR_101063 | IME_100464 | A6.zip |
| 58 | IMR_101064 | IME_100465 | A7.zip |
| 59 | IMR_101065 | IME_100466 | A8.zip |
| 60 | IMR_101066 | IME_100467 | A9.zip |
Download Metabolite/Compound
| Sr.No | Structure | Details |
|---|