Each day with Oppa is a blessing.❤❤
Each year with Oppa is worth more than gold.❤❤❤❤
Time moves on. Seasons change. ❤⏳
Sometimes it's hot, sometimes it's not ❤❤❤☀️❄
The wind blows hard and then there's calm.
All around us is instability, chaos. ❤❤❤❤
Yet, always, i have a feeling in my heart
That only gets stronger through the time ❤❤❤❤❤
It's my love for Oppa ❤❤❤❤
Each year with Oppa is worth more than gold.❤❤❤❤
Time moves on. Seasons change. ❤⏳
Sometimes it's hot, sometimes it's not ❤❤❤☀️❄
The wind blows hard and then there's calm.
All around us is instability, chaos. ❤❤❤❤
Yet, always, i have a feeling in my heart
That only gets stronger through the time ❤❤❤❤❤
It's my love for Oppa ❤❤❤❤
Each day with Oppa is a blessing.❤❤
Each year with Oppa is worth more than gold.❤❤❤❤
Time moves on. Seasons change. ❤⏳
Sometimes it's hot, sometimes it's not ❤❤❤☀️❄
The wind blows hard and then there's calm.
All around us is instability, chaos. ❤❤❤❤
Yet, always, i have a feeling in my heart
That only gets stronger through the time ❤❤❤❤❤
It's my love for Oppa ❤❤❤❤
Each year with Oppa is worth more than gold.❤❤❤❤
Time moves on. Seasons change. ❤⏳
Sometimes it's hot, sometimes it's not ❤❤❤☀️❄
The wind blows hard and then there's calm.
All around us is instability, chaos. ❤❤❤❤
Yet, always, i have a feeling in my heart
That only gets stronger through the time ❤❤❤❤❤
It's my love for Oppa ❤❤❤❤
目前有哪些研究正在进行,以便将解酒药物直接引入肝脏?#喝一滴酒都致癌吗#
至今,将酶或药物直接引入肝脏仍然是一个大的科学挑战。然而,感谢科学技术的发展,一些研究正在试图突破这个问题。以下是一些可应用于解酒以及其他肝病的相关研究:#知识科普接龙##健闻登顶计划##微博新知##健康知识打卡月#
1. 使用生物材料去装载并保护药物或酶。有些生物材料乳胶颗粒或者纳米颗粒,能够装载药物或酶,并保护它们在胃肠道的恶劣环境中保持稳定,然后在适当的地方释放出药物或酶。不过,这些方法还需要进一步的研究,以验证其安全性和有效性。
2. 基因治疗。一些研究正在试图探索基于基因治疗的方法,这可以通过将特定基因插入肝脏细胞来促进人体自身产生所需的酶。这是一个相当新颖的方向,其在许多疾病,包括一些遗传性肝病和代谢疾病的治疗中都有前景。
3. 分子靶向药物传递。通过设计修饰药物或酶以使之专门与肝脏细胞的表面受体结合,从而实现在肝脏中对药物或酶的定向运送和释放。
请注意,所有这些研究都处于尝试和开发阶段,针对这些解决方案的具体实施、有效性和安全性的研究极其必要,而且其中的许多已经在进行中。
参考文献:
Wong, Z.Z., et al. “Gene therapy progress and prospects: developments in gene therapy for gastrointestinal diseases”. Gene Ther. 2005;12(14):1053–1061.
Xu W., et al. "Pharmacokinetics and tissue distribution of PEGylated lumbrokinase and a monomeric derivative". J Control Release. 2008;130(1):74-80.
Lee, H., et al. Targeted delivery of nanoparticles to ischemic muscle for imaging and therapeutic angiogenesis. Nano Lett. 2011;11(2):694-700.
Butt, A.M., et al. Treating liver fibrosis: a step towards gene therapy and bio-artificial liver. Life Sci. 2015;143:227-232.
至今,将酶或药物直接引入肝脏仍然是一个大的科学挑战。然而,感谢科学技术的发展,一些研究正在试图突破这个问题。以下是一些可应用于解酒以及其他肝病的相关研究:#知识科普接龙##健闻登顶计划##微博新知##健康知识打卡月#
1. 使用生物材料去装载并保护药物或酶。有些生物材料乳胶颗粒或者纳米颗粒,能够装载药物或酶,并保护它们在胃肠道的恶劣环境中保持稳定,然后在适当的地方释放出药物或酶。不过,这些方法还需要进一步的研究,以验证其安全性和有效性。
2. 基因治疗。一些研究正在试图探索基于基因治疗的方法,这可以通过将特定基因插入肝脏细胞来促进人体自身产生所需的酶。这是一个相当新颖的方向,其在许多疾病,包括一些遗传性肝病和代谢疾病的治疗中都有前景。
3. 分子靶向药物传递。通过设计修饰药物或酶以使之专门与肝脏细胞的表面受体结合,从而实现在肝脏中对药物或酶的定向运送和释放。
请注意,所有这些研究都处于尝试和开发阶段,针对这些解决方案的具体实施、有效性和安全性的研究极其必要,而且其中的许多已经在进行中。
参考文献:
Wong, Z.Z., et al. “Gene therapy progress and prospects: developments in gene therapy for gastrointestinal diseases”. Gene Ther. 2005;12(14):1053–1061.
Xu W., et al. "Pharmacokinetics and tissue distribution of PEGylated lumbrokinase and a monomeric derivative". J Control Release. 2008;130(1):74-80.
Lee, H., et al. Targeted delivery of nanoparticles to ischemic muscle for imaging and therapeutic angiogenesis. Nano Lett. 2011;11(2):694-700.
Butt, A.M., et al. Treating liver fibrosis: a step towards gene therapy and bio-artificial liver. Life Sci. 2015;143:227-232.
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