特大喜讯,坚持就有希望

liver411

乙肝患者仍然需要注意病毒在体内的含量。 这个要再强调。

要知道，如果病毒在感染的部位顺利开始复制后会使体内病毒的数量逐渐增加/维持，这样，病毒才能再经由血液、淋巴液或神经组织等途径散播到主要的目标器官(target organs) - 比如，HBV 要通过血液，淋巴液或神经回到肝脏，此时如果能由宿主的血液中分离出病毒（比如，检验静脉血能够测到病毒的DNA 拷贝数量）就称为病毒血症(viremia)。病毒重新进入肝细胞后，如免疫系统识别错误，人为带有病毒的肝细胞是”病原体“，肝细胞就会被细胞毒素T细胞(cytotoxic T cells)杀死 - 造成损害。

所以，将病毒血控制在最低限度非常重要，特别是对于已经造成严重损害的肝硬化患者 - 他们没有余地或能力再接受任何这种病毒介导的损害。

liver_GZ

ｌｉｖｅｒ411果然厉害，解释如此专业的内容，深入浅出，通俗易懂。
我没有查找到原文，能否贴出来，大家分享？
谢谢。

liver411

谢谢liver GZ。

http://www.nature.com/nbt/journal/vaop/ncurrent/abs/nbt1396.html
这个是摘要(abstract)，

全文可能过一阵才能看到 （当然可以购买，不过过一阵应可看到）
http://www.nature.com/nbt/journal/vaop/ncurrent/full/nbt1396.html

http://www.nature.com/search/exe ... phrase&sp-p=all

这个是摘要：

Article abstract

Nature Biotechnology
Published online: 30 March 2008 | doi:10.1038/nbt1396

Resolution of liver cirrhosis using vitamin A–coupled liposomes to deliver siRNA against a collagen-specific chaperone

Yasushi Sato1,2, Kazuyuki Murase1,2, Junji Kato1,2, Masayoshi Kobune1, Tsutomu Sato1, Yutaka Kawano1, Rishu Takimoto1, Kouichi Takada1, Koji Miyanishi1, Takuya Matsunaga1, Tetsuji Takayama1 & Yoshiro Niitsu1
Abstract

There are currently no approved antifibrotic therapies for liver cirrhosis. We used vitamin A–coupled liposomes to deliver small interfering RNA (siRNA) against gp46, the rat homolog of human heat shock protein 47, to hepatic stellate cells. Our approach exploits the key roles of these cells in both fibrogenesis as well as uptake and storage of vitamin A. Five treatments with the siRNA-bearing vitamin A–coupled liposomes almost completely resolved liver fibrosis and prolonged survival in rats with otherwise lethal dimethylnitrosamine-induced liver cirrhosis in a dose- and duration-dependent manner. Rescue was not related to off-target effects or associated with recruitment of innate immunity. Receptor-specific siRNA delivery was similarly effective in suppressing collagen secretion and treating fibrosis induced by CCl4 or bile duct ligation. The efficacy of the approach using both acute and chronic models of liver fibrosis suggests its therapeutic potential for reversing human liver cirrhosis.
Top of page

   1. Fourth Department of Internal Medicine, Sapporo Medical University, School of Medicine, Sapporo, 060-8543, Japan.
   2. These authors contributed equally to this work.

Correspondence to: Yoshiro Niitsu1 e-mail: [email protected]

我试图和作者联系看看是否能email我一个digital 拷贝作为非商业用途。

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这个是路透社英国香港发表的新闻。 主要关键在介绍星状细胞因为同时可以吸收储存维生素A，人们利用这个让其“打开”门户使得阻碍剂进入关闭胶原蛋白制作...。

Man-made molecules reverse liver cirrhosis in rats
Sun Mar 30, 2008 6:02pm BST

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By Tan Ee Lyn

HONG KONG (Reuters) - Scientists in Japan have designed artificial molecules that when used with rats successfully reversed liver cirrhosis, a serious chronic disease in humans that until now can only be cured by transplants.

Cirrhosis is the hardening or scarring of the liver, and is caused by factors such as heavy drinking and Hepatitis B and C. The disease is especially serious in parts of Asia, including China.

Cirrhosis occurs when a class of liver cells starts producing collagen, a fibrous material that toughens skin and tendons. Such damage cannot be reversed although steps can be taken to prevent further damage. In advanced cases, transplants are the only way out.

In the journal Nature Biotechnology, the researchers said they designed molecules that can block collagen production by liver "stellate cells," which are also known to absorb vitamin

A.

The scientists then loaded the molecules into carriers that were coated with vitamin A, which tricked the stellate cells into absorbing the molecules.

"By packaging the (molecules) in carriers coated with vitamin A, they tricked the stellate cells into letting in the inhibitor, which shut down collagen secretion," the researchers wrote.

In the study, the researchers induced liver cirrhosis in rats and then injected them with the vitamin A-laced molecules.

"We were able to completely eradicate the fibrosis by injecting this agent ... we cured them of the cirrhosis," Yoshiro Niitsu at the Sapporo Medical University School of Medicine in Japan said in a telephone interview.

"The liver is such an important organ, after you remove the fibrosis, the liver by itself starts to regenerate tissues. So liver damage is reversible."

Explaining how the damage reversal came about, Niitsu said: "Liver is itself responsible for the production and deposition of collagen, it also secretes certain enzymes that dissolve collagen ... dissolve the fibrosis which has already been deposited in the tissues."

Niitsu was hopeful that the molecules would provide a cure for cirrhosis patients in time.

"We hope it (a drug) will be ready for humans in a few years," he said.

(Reporting by Tan Ee Lyn; Editing by Alistair Scrutton)

© Reuters 2008 All rights reserved.

tongyunqian

谢谢411老师,得漫漫看研究下,全英文的

艾如

太好了！不管怎样看到希望就好！

坚韧地活着

太好了，感谢众位老师，让我们更加有理由坚持，让我们更加相信抗是科学的选择。密切关注和热切期待，同时让我们把本钱留住！

liver_GZ

谢谢ｌｉｖｅｒ411。
全文可以下的。
http://www.nature.com/nbt/journal/vaop/ncurrent/pdf/nbt1396.pdf

诸诸2006

有希望就好！

乙肝日记

十年吧，应该所有的该出来的药都出来了！可是有的人却永远的离我们而去了

心软肝硬

哦真好，只是我现在C4了，不知道能不能等到那一天，