Detection of novel visible-light region absorbance peaks in the urine after alkalization in patients with alkaptonuria.

Detection of novel visible-light region absorbance peaks in the urine after alkalization in patients with alkaptonuria.

BACKGROUND: Alkaptonuria, caused by a deficiency of homogentisate 1,2-dioxygenase, results in the accumulation of homogentisic acid (2,5-dihydroxyphenylacetic acid, HGA) in the urine. Alkaptonuria is suspected when the urine changes color after it is left to stand at room temperature for several hou...

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Main Authors: Yasunori Tokuhara, Kenichi Shukuya, Masami Tanaka, Mariko Mouri, Ryunosuke Ohkawa, Midori Fujishiro, Tomoo Takahashi, Shigeo Okubo, Hiromitsu Yokota, Makoto Kurano, Hitoshi Ikeda, Seiji Yamaguchi, Shinobu Inagaki, Mika Ishige-Wada, Hiromi Usui, Yutaka Yatomi, Tatsuo Shimosawa
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2014-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3900575?pdf=render
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spelling doaj-f6c8405fca42434b923ed7de98c267312020-11-24T21:43:49ZengPublic Library of Science (PLoS)PLoS ONE1932-62032014-01-0191e8660610.1371/journal.pone.0086606Detection of novel visible-light region absorbance peaks in the urine after alkalization in patients with alkaptonuria.Yasunori TokuharaKenichi ShukuyaMasami TanakaMariko MouriRyunosuke OhkawaMidori FujishiroTomoo TakahashiShigeo OkuboHiromitsu YokotaMakoto KuranoHitoshi IkedaSeiji YamaguchiShinobu InagakiMika Ishige-WadaHiromi UsuiYutaka YatomiTatsuo ShimosawaBACKGROUND: Alkaptonuria, caused by a deficiency of homogentisate 1,2-dioxygenase, results in the accumulation of homogentisic acid (2,5-dihydroxyphenylacetic acid, HGA) in the urine. Alkaptonuria is suspected when the urine changes color after it is left to stand at room temperature for several hours to days; oxidation of homogentisic acid to benzoquinone acetic acid underlies this color change, which is accelerated by the addition of alkali. In an attempt to develop a facile screening test for alkaptonuria, we added alkali to urine samples obtained from patients with alkaptonuria and measured the absorbance spectra in the visible light region. METHODS: We evaluated the characteristics of the absorption spectra of urine samples obtained from patients with alkaptonuria (n = 2) and compared them with those of urine specimens obtained from healthy volunteers (n = 5) and patients with phenylketonuria (n = 3), and also of synthetic homogentisic acid solution after alkalization. Alkalization of the urine samples and HGA solution was carried out by the addition of NaOH, KOH or NH4OH. The sample solutions were incubated at room temperature for 1 min, followed by measurement of the absorption spectra. RESULTS: Addition of alkali to alkaptonuric urine yielded characteristic absorption peaks at 406 nm and 430 nm; an identical result was obtained from HGA solution after alkalization. The absorbance values at both 406 nm and 430 nm increased in a time-dependent manner. In addition, the absorbance values at these peaks were greater in strongly alkaline samples (NaOH- KOH-added) as compared with those in weakly alkaline samples (NH4OH-added). In addition, the peaks disappeared following the addition of ascorbic acid to the samples. CONCLUSIONS: We found two characteristic peaks at 406 nm and 430 nm in both alkaptonuric urine and HGA solution after alkalization. This new quick and easy method may pave the way for the development of an easy method for the diagnosis of alkaptonuria.http://europepmc.org/articles/PMC3900575?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Yasunori Tokuhara
Kenichi Shukuya
Masami Tanaka
Mariko Mouri
Ryunosuke Ohkawa
Midori Fujishiro
Tomoo Takahashi
Shigeo Okubo
Hiromitsu Yokota
Makoto Kurano
Hitoshi Ikeda
Seiji Yamaguchi
Shinobu Inagaki
Mika Ishige-Wada
Hiromi Usui
Yutaka Yatomi
Tatsuo Shimosawa
spellingShingle Yasunori Tokuhara
Kenichi Shukuya
Masami Tanaka
Mariko Mouri
Ryunosuke Ohkawa
Midori Fujishiro
Tomoo Takahashi
Shigeo Okubo
Hiromitsu Yokota
Makoto Kurano
Hitoshi Ikeda
Seiji Yamaguchi
Shinobu Inagaki
Mika Ishige-Wada
Hiromi Usui
Yutaka Yatomi
Tatsuo Shimosawa
Detection of novel visible-light region absorbance peaks in the urine after alkalization in patients with alkaptonuria.
PLoS ONE
author_facet Yasunori Tokuhara
Kenichi Shukuya
Masami Tanaka
Mariko Mouri
Ryunosuke Ohkawa
Midori Fujishiro
Tomoo Takahashi
Shigeo Okubo
Hiromitsu Yokota
Makoto Kurano
Hitoshi Ikeda
Seiji Yamaguchi
Shinobu Inagaki
Mika Ishige-Wada
Hiromi Usui
Yutaka Yatomi
Tatsuo Shimosawa
author_sort Yasunori Tokuhara
title Detection of novel visible-light region absorbance peaks in the urine after alkalization in patients with alkaptonuria.
title_short Detection of novel visible-light region absorbance peaks in the urine after alkalization in patients with alkaptonuria.
title_full Detection of novel visible-light region absorbance peaks in the urine after alkalization in patients with alkaptonuria.
title_fullStr Detection of novel visible-light region absorbance peaks in the urine after alkalization in patients with alkaptonuria.
title_full_unstemmed Detection of novel visible-light region absorbance peaks in the urine after alkalization in patients with alkaptonuria.
title_sort detection of novel visible-light region absorbance peaks in the urine after alkalization in patients with alkaptonuria.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2014-01-01
description BACKGROUND: Alkaptonuria, caused by a deficiency of homogentisate 1,2-dioxygenase, results in the accumulation of homogentisic acid (2,5-dihydroxyphenylacetic acid, HGA) in the urine. Alkaptonuria is suspected when the urine changes color after it is left to stand at room temperature for several hours to days; oxidation of homogentisic acid to benzoquinone acetic acid underlies this color change, which is accelerated by the addition of alkali. In an attempt to develop a facile screening test for alkaptonuria, we added alkali to urine samples obtained from patients with alkaptonuria and measured the absorbance spectra in the visible light region. METHODS: We evaluated the characteristics of the absorption spectra of urine samples obtained from patients with alkaptonuria (n = 2) and compared them with those of urine specimens obtained from healthy volunteers (n = 5) and patients with phenylketonuria (n = 3), and also of synthetic homogentisic acid solution after alkalization. Alkalization of the urine samples and HGA solution was carried out by the addition of NaOH, KOH or NH4OH. The sample solutions were incubated at room temperature for 1 min, followed by measurement of the absorption spectra. RESULTS: Addition of alkali to alkaptonuric urine yielded characteristic absorption peaks at 406 nm and 430 nm; an identical result was obtained from HGA solution after alkalization. The absorbance values at both 406 nm and 430 nm increased in a time-dependent manner. In addition, the absorbance values at these peaks were greater in strongly alkaline samples (NaOH- KOH-added) as compared with those in weakly alkaline samples (NH4OH-added). In addition, the peaks disappeared following the addition of ascorbic acid to the samples. CONCLUSIONS: We found two characteristic peaks at 406 nm and 430 nm in both alkaptonuric urine and HGA solution after alkalization. This new quick and easy method may pave the way for the development of an easy method for the diagnosis of alkaptonuria.
url http://europepmc.org/articles/PMC3900575?pdf=render
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