Tedros Bezabeh scite author profile

Tumor hypoxia and its downstream effects have remained of considerable interest for decades due to its negative impact on response to various cancer therapies and promotion of metastasis. Diagnosing hypoxia non-invasively can provide a significant advancement in cancer treatment and is the dire necessity for implementing specific targeted therapies now emerging to treat different aspects of cancer. A variety of techniques are being proposed to do so. However, none of them has yet been established in the clinical arena. This review summarizes the methods currently available to assess tumor hypoxia in vivo and their respective advantages and shortcomings. It also points out the impedances that need to be overcome to establish any particular method in the clinic, along with a broad overview of requirements for further advancement in this sphere of cancer research.

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In vivo¹H MRS of human gallbladder bile at 3 T in one and two dimensions: detection and quantification of major biliary lipids

Mohajeri

Ijare

Bezabeh

et al. 2014

NMR in Biomedicine

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In vitro1 H MRS of human bile has shown potential in the diagnosis of various hepatopancreatobiliary (HPB) diseases. Previously, in vivo 1 H MRS of human bile in gallbladder using a 1.5 T scanner demonstrated the possibility of quantification of choline-containing phospholipids (chol-PLs). However, other lipid components such as bile acids play an important role in the pathophysiology of the HPB system. We have employed a higher magnetic field strength (3 T), and a custom-built receive array coil, to improve the quality of in vivo 1 H MRS of human bile in the gallbladder. We obtained significant improvement in the quality of 1D spectra (17 healthy volunteers) using a respiratory-gated PRESS sequence with well distinguished signals for total bile acids (TBAs) plus cholesterol resonating at 0.66 ppm, taurine-conjugated bile acids (TCBAs) at 3.08 ppm, chol-PLs at 3.22 ppm, glycineconjugated bile acids (GCBAs) at 3.74 ppm, and the amide proton (ÀNH) arising from GCBAs and TCBAs in the region 7.76-8.05 ppm. The peak areas of these signals were measured by deconvolution, and subsequently the molar concentrations of metabolites were estimated with good accuracy, except for that of TBAs plus cholesterol. The concentration of TBAs plus cholesterol was overestimated in some cases, which could be due to lipid contamination. In addition, we report the first 2D L-COSY spectra of human gallbladder bile in vivo (obtained in 15 healthy volunteers). 2D L-COSY spectra will be helpful in differentiating various biliary chol-PLs in pathological conditions of the HPB system.

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Absence of glycochenodeoxycholic acid (GCDCA) in human bile is an indication of cholestasis: A ¹H MRS study

et al. 2009

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The utility of (1)H MR spectroscopy in detecting chronic cholestasis has been investigated. The amide proton region of the (1)H MR spectrum of human bile plays a major role in differentiating cholestatic (Ch) patterns from the normal ones. Bile obtained from normal bile ducts contains both taurine and glycine conjugates of bile acids--cholic acid (CA), chenodeoxycholic acid (CDCA), and deoxycholic acid (DCA). Absence of a glycine-conjugated bile acid glycochenodeoxycholic acid (GCDCA) has been observed in bile samples obtained from primary sclerosing cholangitis (PSC) patients. A total of 32 patients with various hepatobiliary diseases were included in the study. Twenty-one patients had PSC and 11 had normal cholangiograms. One PSC patient was excluded from the study because of a bad spectrum. Seventeen out of the 20 PSC patients showed an absence of GCDCA in their (1)H MR spectrum of bile. Six of the 11 reference patients with normal cholangiogram also showed spectra similar to those of PSC, indicating the possibility of cholestasis. DQF-COSY and TOCSY experiments performed on bile samples from PSC patients also revealed absence of phosphatidylcholine (PC) in some of the bile samples, suggesting possible damage to the cholangiocytes by the toxic bile. These observations suggest that analysis of human bile by (1)H MRS could be of value in the diagnosis of chronic Ch liver disorders.

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Tedros Bezabeh

Near-optimal region selection for feature space reduction: novel preprocessing methods for classifying MR spectra

Advances in methods for assessing tumor hypoxia in vivo: Implications for treatment planning

In vivo¹H MRS of human gallbladder bile at 3 T in one and two dimensions: detection and quantification of major biliary lipids

Absence of glycochenodeoxycholic acid (GCDCA) in human bile is an indication of cholestasis: A ¹H MRS study

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Tedros Bezabeh

Near-optimal region selection for feature space reduction: novel preprocessing methods for classifying MR spectra

Advances in methods for assessing tumor hypoxia in vivo: Implications for treatment planning

In vivo1H MRS of human gallbladder bile at 3 T in one and two dimensions: detection and quantification of major biliary lipids

Absence of glycochenodeoxycholic acid (GCDCA) in human bile is an indication of cholestasis: A 1H MRS study

Contact Info

Product

Resources

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In vivo¹H MRS of human gallbladder bile at 3 T in one and two dimensions: detection and quantification of major biliary lipids

Absence of glycochenodeoxycholic acid (GCDCA) in human bile is an indication of cholestasis: A ¹H MRS study