Sensing nitriles with THz spectroscopy of urine vapours from cancers patients subject to chemotherapy
A THz nonstationary high-resolution spectrometer based on semiconductor superlattice multipliers is applied to investigate the dynamics of urine composition for cancer patients treated with chemotherapy. The molecular urine composition of healthy volunteers and cancer patients was compared and contr...
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| Published in | Scientific reports Vol. 12; no. 1; pp. 18117 - 11 |
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| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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Nature Publishing Group UK
27.10.2022
Nature Publishing Group Nature Portfolio |
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| Abstract | A THz nonstationary high-resolution spectrometer based on semiconductor superlattice multipliers is applied to investigate the dynamics of urine composition for cancer patients treated with chemotherapy. The molecular urine composition of healthy volunteers and cancer patients was compared and contrasted. We have found a set of nitriles that either appeared after chemotherapy or increased in content, which are expected as a result of bio-chemical damage to the liver. While no damage can be detected at this stage by existing clinical methods, the identified nitriles are candidates for further large-scale systematic testing towards markers for nephrotoxicity of chemotherapy at an early stage of the treatment, when conventional diagnostics cannot identify substantial organ damage. Comparing the metabolite concentration dynamics with side effects during chemotherapy might then help individuate patients prone to severe complications and correct the treatment. Our devices are game-changers for THz spectroscopy of liquids: they allow spanning four different frequency ranges for a general evaluation of most substances found in the liquid and selecting a spectral interval that bypasses the strong absorption lines from substances such as water and ammonia, which may otherwise mask the detection of the target metabolites. |
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| AbstractList | A THz nonstationary high-resolution spectrometer based on semiconductor superlattice multipliers is applied to investigate the dynamics of urine composition for cancer patients treated with chemotherapy. The molecular urine composition of healthy volunteers and cancer patients was compared and contrasted. We have found a set of nitriles that either appeared after chemotherapy or increased in content, which are expected as a result of bio-chemical damage to the liver. While no damage can be detected at this stage by existing clinical methods, the identified nitriles are candidates for further large-scale systematic testing towards markers for nephrotoxicity of chemotherapy at an early stage of the treatment, when conventional diagnostics cannot identify substantial organ damage. Comparing the metabolite concentration dynamics with side effects during chemotherapy might then help individuate patients prone to severe complications and correct the treatment. Our devices are game-changers for THz spectroscopy of liquids: they allow spanning four different frequency ranges for a general evaluation of most substances found in the liquid and selecting a spectral interval that bypasses the strong absorption lines from substances such as water and ammonia, which may otherwise mask the detection of the target metabolites. A THz nonstationary high-resolution spectrometer based on semiconductor superlattice multipliers is applied to investigate the dynamics of urine composition for cancer patients treated with chemotherapy. The molecular urine composition of healthy volunteers and cancer patients was compared and contrasted. We have found a set of nitriles that either appeared after chemotherapy or increased in content, which are expected as a result of bio-chemical damage to the liver. While no damage can be detected at this stage by existing clinical methods, the identified nitriles are candidates for further large-scale systematic testing towards markers for nephrotoxicity of chemotherapy at an early stage of the treatment, when conventional diagnostics cannot identify substantial organ damage. Comparing the metabolite concentration dynamics with side effects during chemotherapy might then help individuate patients prone to severe complications and correct the treatment. Our devices are game-changers for THz spectroscopy of liquids: they allow spanning four different frequency ranges for a general evaluation of most substances found in the liquid and selecting a spectral interval that bypasses the strong absorption lines from substances such as water and ammonia, which may otherwise mask the detection of the target metabolites.A THz nonstationary high-resolution spectrometer based on semiconductor superlattice multipliers is applied to investigate the dynamics of urine composition for cancer patients treated with chemotherapy. The molecular urine composition of healthy volunteers and cancer patients was compared and contrasted. We have found a set of nitriles that either appeared after chemotherapy or increased in content, which are expected as a result of bio-chemical damage to the liver. While no damage can be detected at this stage by existing clinical methods, the identified nitriles are candidates for further large-scale systematic testing towards markers for nephrotoxicity of chemotherapy at an early stage of the treatment, when conventional diagnostics cannot identify substantial organ damage. Comparing the metabolite concentration dynamics with side effects during chemotherapy might then help individuate patients prone to severe complications and correct the treatment. Our devices are game-changers for THz spectroscopy of liquids: they allow spanning four different frequency ranges for a general evaluation of most substances found in the liquid and selecting a spectral interval that bypasses the strong absorption lines from substances such as water and ammonia, which may otherwise mask the detection of the target metabolites. Abstract A THz nonstationary high-resolution spectrometer based on semiconductor superlattice multipliers is applied to investigate the dynamics of urine composition for cancer patients treated with chemotherapy. The molecular urine composition of healthy volunteers and cancer patients was compared and contrasted. We have found a set of nitriles that either appeared after chemotherapy or increased in content, which are expected as a result of bio-chemical damage to the liver. While no damage can be detected at this stage by existing clinical methods, the identified nitriles are candidates for further large-scale systematic testing towards markers for nephrotoxicity of chemotherapy at an early stage of the treatment, when conventional diagnostics cannot identify substantial organ damage. Comparing the metabolite concentration dynamics with side effects during chemotherapy might then help individuate patients prone to severe complications and correct the treatment. Our devices are game-changers for THz spectroscopy of liquids: they allow spanning four different frequency ranges for a general evaluation of most substances found in the liquid and selecting a spectral interval that bypasses the strong absorption lines from substances such as water and ammonia, which may otherwise mask the detection of the target metabolites. |
| ArticleNumber | 18117 |
| Author | Chernyaeva, Maria Schevchenko, Yuliia Domracheva, Elena Vaks, Vladimir Maslennikova, Anna Zhelesnyak, Alla Pereira, Mauro Fernandes Yablokov, Anton Baranov, Alexei Anfertev, Vladimir |
| Author_xml | – sequence: 1 givenname: Vladimir surname: Vaks fullname: Vaks, Vladimir organization: Institute for Physics of Microstructures, Lobachevsky State University – sequence: 2 givenname: Vladimir surname: Anfertev fullname: Anfertev, Vladimir organization: Institute for Physics of Microstructures – sequence: 3 givenname: Maria surname: Chernyaeva fullname: Chernyaeva, Maria organization: Institute for Physics of Microstructures, Lobachevsky State University – sequence: 4 givenname: Elena surname: Domracheva fullname: Domracheva, Elena organization: Institute for Physics of Microstructures – sequence: 5 givenname: Anton surname: Yablokov fullname: Yablokov, Anton organization: Institute for Physics of Microstructures – sequence: 6 givenname: Anna surname: Maslennikova fullname: Maslennikova, Anna organization: Lobachevsky State University, Privolzhsky Research Medical University – sequence: 7 givenname: Alla surname: Zhelesnyak fullname: Zhelesnyak, Alla organization: Nizhny Novgorod Regional Oncology Hospital – sequence: 8 givenname: Alexei surname: Baranov fullname: Baranov, Alexei organization: Institute of Electronics and Systems (IES), University of Montpellier, UMR5214 CNRS/Université – sequence: 9 givenname: Yuliia surname: Schevchenko fullname: Schevchenko, Yuliia organization: Institute of Physics, Czech Academy of Sciences – sequence: 10 givenname: Mauro Fernandes surname: Pereira fullname: Pereira, Mauro Fernandes email: mauro.pereira@ku.ac.ae organization: Department of Physics, Khalifa University of Science and Technology, Institute of Physics, Czech Academy of Sciences |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/36302930$$D View this record in MEDLINE/PubMed |
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| Snippet | A THz nonstationary high-resolution spectrometer based on semiconductor superlattice multipliers is applied to investigate the dynamics of urine composition... Abstract A THz nonstationary high-resolution spectrometer based on semiconductor superlattice multipliers is applied to investigate the dynamics of urine... |
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| SubjectTerms | 639/766/1130/2799 692/4028/67/1059/99 Ammonia Chemotherapy Gases Humanities and Social Sciences Humans Metabolites multidisciplinary Neoplasms - drug therapy Nitriles Patients Science Science (multidisciplinary) Spectroscopy Spectrum Analysis Urine Water - chemistry |
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| Title | Sensing nitriles with THz spectroscopy of urine vapours from cancers patients subject to chemotherapy |
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