Evaluation of Physiochemical Properties, Thermal Behavior and Phytopharmaceutical Potential of Citrus aurantium’s Essential Oil

The study investigates the therapeutic potential of the Citrus aurantium var. amara essential oil extracted from the blossoms of the bitter orange plant by examining its chemical composition, thermal stability, and potency against infectious disease-causing pathogens. Initially, the volatile components of the essential oil were evaluated by obtaining a chromatographic fingerprint using HPTLC and FTIR spectrum identification. Furthermore, a thermal profile of the essential oil was obtained using the thermogravimetric-differential thermal analysis and differential scanning calorimetric analysis. A predetermined set of antibiotic-resistant microorganisms were used to examine the antibacterial activity of the essential oil. Lastly, its anti-inflammatory activity was assessed using the albumin denaturation assay. The research concluded that the Citrus aurantium var. Amara essential oil exhibits potential therapeutic characteristics which can be further explored through in vivo studies.

Qualitative Analysis of Open-Path Fourier Transform Spectra / 分析化学

Open-path Fourier transform infrared ( OP/FT-IR) spectra were analyzed with target factor analysis ( TFA) and band-target entropy minimization ( BTEM) respectively, with the purpose to reconstruct spectral characteristics of target molecules from matrices of spectra. Five sessions of continuous OP/FT-IR monitoring were carried out around farms. For each session, the spectra were arranged row-wisely in order of measuring time, which yielded five matrices for data analysis. Results showed that both BTEM and TFA could reconstruct spectral characteristics of target molecules from the spectral data matrix, but the performance of the two methods differed slightly. TFA can retrieve spectral features of target molecules in the presence of interferences, and the reconstructed spectra are similar to corresponding reference. BTEM can implement such spectral retrieval without the reference spectrum. This work presents not only the application of BTEM method to qualitative analysis for OP/FT-IR spectra, but also a thorough comparison between the two methods. The conclusion is helpful to qualitative analysis of complex multi-component systems.

Pyrolysis characteristics of radix rhizoma rhei, cortex moudan radicis, and radix sanguisorbae and correlations with the carbonizing process of Chinese herbs / 中国天然药物

AIM@#The aim of the work is to study the pyrolysis characteristics of radix rhizoma rhei, cortex moudan radicis, and radix sanguisorbae in an inert atmosphere of argon (Ar), and to investigate the mechanism of the carbonizing process of the three traditional Chinese herbs.@*METHODS@#The pyrolysis characteristics of the crude materials and their extracts were studied by thermogravimetry-mass spectrometry (TG-MS) in a carrier gas of argon, coupled with Fourier transform infrared spectrometry (FTIR) and scanning electron microscopy (SEM) methods. Correlation of the pyrolysis behaviors with the carbonizing process by stir-frying of traditional Chinese medicines was made.@*RESULTS@#Within the temperature range of 200-300 °C, which is the testing range for the study of the carbonizing process of Chinese herbs, the temperatures indicated by the maximum weight loss rate peak of the above three extracts were taken as the upper-limit temperatures of the carbonizing process of the herbs, and which were 200, 240 and 247 °C for radix rhizoma rhei, cortex moudan radicis, and radix Sanguisorbae, respectively. The ion monitoring signal peaks detected by the TG-MS method corresponded with reports that the level of chemical components of traditional Chinese medicinal materials would decrease after the carbonizing process. It was confirmed by Fourier transform infrared spectrometry (FTIR) and scanning electron microscopy (SEM) methods that better results of "medicinal property preservation" could be obtained by heating at 200 °C for radix rhizoma rhei, at about 250 °C for cortex moudan radicis, and radix sanguisorbae, as the relative intensity values of the common peaks were among the middle of their three carbonized samples by programmed heating.@*CONCLUSION@#The upper-limit temperatures of the carbonizing process for radix rhizoma rhei, cortex moudan radicis and radix sanguisorbae were 200, 240 and 247 °C respectively. It is feasible to research the mechanism and technology of the carbonizing process of traditional Chinese medicinal materials using thermogravimetry, Fourier transform infrared spectrometry, and scanning electron microscopy methods.

Characterization of Protein in Old Myocardial Infarction by FTIR Micro-spectroscopy / 华中科技大学学报（医学）（英德文版）

The aim of the present study was to assess whether Fourier transform infrared spectrometry (FTIR)micro-spectroscopy could produce distinct spectral information on protein of old myocardial infarction(OMI)and to set them as molecular markers to diagnose atypical OMI.Paraffin-embedded heart samples were derived from victims dying of OMI.In combination with histological stain,FTIR and infrared micro-spectroscopy,the characteristics of OMI were analyzed morphologicallyand molecularly.The most relevant bands identified were the amide A,B,Ⅰ and Ⅱ,showing crucial spectral differences between apparent normal region and OMI region,including the peak position blue shift and the increased intensity of OMI,moreover relative increase in a-helix and decrease in β-sheet of protein secondary structures in OMI.Comparing to single spectral band,the I1650/I1550 ratio was increased and rationally used as a molecular marker for diagnosing OMI.These novel preliminary findings supported further exploration of FTIR molecular profiling in clinical or forensic study,and were in accordance with histopathology.

Fourier Transform Infrared Spectrometry and Magnetic Resonance Spectrometry for the Diagnosis of Colorectal Cancer / 中国微创外科杂志

Objective To analyze ex vivo samples of colorectal cancers by Fourier transform infrared spectrometry and magnetic resonance spectrometry,and to explore the feasibility to diagnose the tumor by using the methods in clinic.Methods From March 2007 to April 2008,fresh samples colorectal mucosa and carcinoma were obtained from 47 patients.The regimens were examined pathologically and then analyzed by Fourier transform infrared spectrometry and magnetic resonance spectrometry.The accuracy of the spectrometrical results was determined by comparing with the pathological results.Results The accuracy of the Fourier transform infrared spectrometry and magnetic resonance spectrometry was 94.7%(89/94)and 97.8%(45/46),respectively,while the sensitivity was 93.6%(44/47)and 100%(23/23),specificity was 95.7%(45/47)and 95.7%(22/23),false positive rate was 4.3%(2/47)and 4.3%(1/23),false negative rate was 6.4%(3/47)and 0%(0/23),positive prognostic value was 95.7%(44/46)and 95.8%(23/24),and the negative prognostic value was 93.8%(45/48)and 100%(22/22).ConclusionsBenign and malignant colorectal tissues can be identified quickly and accurately by Fourier transform infrared spectrometry and magnetic resonance spectrometry.The methods,which are minimally invasive,could be a potential diagnosing tool for colorectal cancer at an early stage.

Identification of genus Zanthoxlum by Fourier transform infrared spectrometry / 第二军医大学学报

Attenuation reflectance Fourier transformation infrared spectrometry(ATR FTIRs) combined with clustering analysis was used to identify genus Zanthoxlum .The dendrogram of clustering analysis showed that there were obvious difference between genus different species of Zanthoxlum . The results are consistent with that of morphologic study and analyzing.This method is rapid, simple, effective and can be used for the identification of crude drugs.