Surface enhanced Raman spectroscopic direct determination of low molecular weight biothiols in umbilical cord whole blood

Kuligowski, Julia; El-Zahry, Marwa R.; Sánchez-Illana, Ángel; Quintás, Guillermo; Vento, Máximo; Lendl, Bernhard

doi:10.1039/c5an01865j

Cited by 24 publications

(17 citation statements)

References 40 publications

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“…The most relevant hindrance to the popularization of these techniques resides fundamentally in the complexity, cost and difficulty in driving of the laboratory equipment only available in academic setting with research facilities. Hopefully, the development of new machines with greater clinical applicability and new techniques such as surface enhanced Raman spectroscopy (SERS) can render excellent results at the cot side and may perhaps in the coming future allow to perform serial determinations of oxidative stress biomarkers with very little volume of sample and immediate results [83].…”

Section: Discussionmentioning

confidence: 99%

Oxygen and oxidative stress in the perinatal period

et al. 2017

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Fetal life evolves in a hypoxic environment. Changes in the oxygen content in utero caused by conditions such as pre-eclampsia or type I diabetes or by oxygen supplementation to the mother lead to increased free radical production and correlate with perinatal outcomes.In the fetal-to-neonatal transition asphyxia is characterized by intermittent periods of hypoxia ischemia that may evolve to hypoxic ischemic encephalopathy associated with neurocognitive, motor, and neurosensorial impairment. Free radicals generated upon reoxygenation may notably increase brain damage. Hence, clinical trials have shown that the use of 100% oxygen given with positive pressure in the airways of the newborn infant during resuscitation causes more oxidative stress than using air, and increases mortality.Preterm infants are endowed with an immature lung and antioxidant system. Clinical stabilization of preterm infants after birth frequently requires positive pressure ventilation with a gas admixture that contains oxygen to achieve a normal heart rate and arterial oxygen saturation. In randomized controlled trials the use high oxygen concentrations (90% to 100%) has caused more oxidative stress and clinical complications that the use of lower oxygen concentrations (30–60%). A correlation between the amount of oxygen received during resuscitation and the level of biomarkers of oxidative stress and clinical outcomes was established. Thus, based on clinical outcomes and analytical results of oxidative stress biomarkers relevant changes were introduced in the resuscitation policies. However, it should be underscored that analysis of oxidative stress biomarkers in biofluids has only been used in experimental and clinical research but not in clinical routine. The complexity of the technical procedures, lack of automation, and cost of these determinations have hindered the routine use of biomarkers in the clinical setting. Overcoming these technical and economical difficulties constitutes a challenge for the immediate future since accurate evaluation of oxidative stress would contribute to improve the quality of care of our neonatal patients.

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Section: Discussionmentioning

confidence: 99%

Oxygen and oxidative stress in the perinatal period

et al. 2017

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“…Moreover, LSPR is responsible for enhancing the surface sensitivity of different spectroscopic methods including fluorescence [ 20 ] and Raman scattering [ 21 , 22 ]. The reported applications of LSPR found in literature are based on the optical detection and its enhancement such as in surface enhanced Raman spectroscopy (SERS) which is applied for molecule detection using the extinction of metal nanoparticles [ 23 – 25 ].…”

Section: Introductionmentioning

confidence: 99%

A Localized Surface Plasmon Resonance Sensing Method for Simultaneous Determination of Atenolol and Amiloride in Pharmaceutical Dosage Forms and Urine Samples

El-Zahry

2018

Journal of Analytical Methods in Chemistry

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This contribution describes a simple, fast, and sensitive application of localized surface plasmon resonance effect of silver nanoparticles for simultaneous determination of antihypertensive drugs' mixture atenolol and amiloride in both pharmaceutical dosage forms and in biological samples (urine). Silver nanoparticles were prepared by chemical reduction of silver nitrate using hydroxylamine HCL in an alkaline medium. Application of silver-hydroxylamine nanoparticles (SH NPs) provides many advantages including reproducibility, sensitivity, and cost effective way of analyte determination. Amiloride has four amino groups which act as attachment points on the surface of silver nanoparticles resulting in a synergistic effect on the absorption intensity of atenolol, leading to increase the sensitivity of the determination of both compounds. This method shows excellent advantages comparing with the previously reported methods, including accuracy, precision, and selectivity. The linear range of atenolol is 1 × 10−5–1 × 10−4 mol·L−1 and of amiloride is 1 × 10−6–1 × 10−5 mol·L−1. The limit of detection (LOD) values of atenolol and amiloride are 0.89 × 10−5 and 0.42 × 10−6 mol·L−1, respectively.

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“…Over the past few decades, a number of techniques have been exploited to detect biothiols, including high performance liquid chromatography (HPLC), 9 , 10 mass spectrometry (MS), 11 , 12 capillary electrophoresis, 13 , 14 electrochemistry assay, 15 , 16 UV-vis absorption spectrometry, 17 , 18 surface-enhanced Raman scattering (SERS), 19 – 21 and fluorescence methods. 8 , 22 – 25 Among these methods, fluorescence based imaging methods are the most available techniques for the detection of biothiols in cell samples.…”

Section: Introductionmentioning

confidence: 99%

“…1–2 nm) and a wealth of fingerprint information can provide much more molecular structural information. 29 , 30 Thus far, only a few Raman-based biothiol detection methods have been reported, 19 – 21 and two main challenges still remain unaddressed: discriminating different constituents within a multicomponent cellular system and quantifying the concentration of each constituent. Herein, we solved these two challenges by designing a Raman probe that could react with Cys, Hcy and GSH, and chemical reaction kinetics and quantitative principal component analysis (qPCA) allowed us to discriminate and quantify these three biothiols at the single cell level simultaneously via the one probe platform.…”

Section: Introductionmentioning

confidence: 99%