TY - JOUR
T1 - Special stain and X-ray probe microanalysis of livers with Wilson disease
AU - Hayashi, Hisao
AU - Fujita, Yoshikazu
AU - Tatsumi, Yasuaki
AU - Hattori, Ai
AU - Hayashi, Kazuhiko
AU - Katano, Yoshiaki
AU - Wakusawa, Shinya
AU - Yano, Motoyoshi
AU - Itoh, Masafumi
AU - Mizutani, Naoki
AU - Goto, Hidemi
PY - 2009
Y1 - 2009
N2 - Aim: Primary copper toxicosis due to Wilson disease is clinically complex, often leading to delayed diagnosis. Because the metabolic disorder is frequently complicated by iron overload due to hypoceruloplasminemia, either a special stain or microanalysis has been recommended for liver biopsy specimens. Methods: Liver biopsy was performed in three patients in whom Wilson disease was highly suspected. Light microscopic study included rubeanic acid stain for copper and Berlin blue stain for iron. To improve the resolution of ultra-structures and preservation of toxic metals, short-term fixation with a 0.1% osmic acid solution was applied for X-ray probe microanalysis. Their diagnosis was confirmed by genetic study and copper chelation therapy. Results: Two patients at the age of 17 and 23 years, respectively, demonstrated cirrhotic livers surrounded by fibrous septa, while a 7-year-old patient demonstrated fatty liver with mildly expanded portal tracts. Both copper grains stained with rubeanic acid and cuprothionein by microanalysis were found in the cirrhotic livers of aged patients. However, either morphological method failed to detect copper deposition in fatty liver tissues from the young patient. Iron deposits were also found in the cirrhotic livers of aged patients. The molecular basis of Wilson disease was confirmed by gene analysis. All patients responded to copper chelation therapy. Conclusion: A morphological method of special staining or microanalysis improved with a new fixative may be unreliable for detecting diffusely distributed copper in the early stage of Wilson liver disease.
AB - Aim: Primary copper toxicosis due to Wilson disease is clinically complex, often leading to delayed diagnosis. Because the metabolic disorder is frequently complicated by iron overload due to hypoceruloplasminemia, either a special stain or microanalysis has been recommended for liver biopsy specimens. Methods: Liver biopsy was performed in three patients in whom Wilson disease was highly suspected. Light microscopic study included rubeanic acid stain for copper and Berlin blue stain for iron. To improve the resolution of ultra-structures and preservation of toxic metals, short-term fixation with a 0.1% osmic acid solution was applied for X-ray probe microanalysis. Their diagnosis was confirmed by genetic study and copper chelation therapy. Results: Two patients at the age of 17 and 23 years, respectively, demonstrated cirrhotic livers surrounded by fibrous septa, while a 7-year-old patient demonstrated fatty liver with mildly expanded portal tracts. Both copper grains stained with rubeanic acid and cuprothionein by microanalysis were found in the cirrhotic livers of aged patients. However, either morphological method failed to detect copper deposition in fatty liver tissues from the young patient. Iron deposits were also found in the cirrhotic livers of aged patients. The molecular basis of Wilson disease was confirmed by gene analysis. All patients responded to copper chelation therapy. Conclusion: A morphological method of special staining or microanalysis improved with a new fixative may be unreliable for detecting diffusely distributed copper in the early stage of Wilson liver disease.
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U2 - 10.1111/j.1872-034X.2009.00491.x
DO - 10.1111/j.1872-034X.2009.00491.x
M3 - Article
C2 - 19254344
AN - SCOPUS:66449097380
SN - 1386-6346
VL - 39
SP - 563
EP - 568
JO - Hepatology Research
JF - Hepatology Research
IS - 6
ER -