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関連する概念動画

Drug Delivery: Enteral Route01:18

Drug Delivery: Enteral Route

2.9K
The enteral drug administration involves three primary routes: oral, sublingual, and buccal. Oral ingestion is the most prevalent, safe, economical, and convenient method for drug administration. However, it has certain drawbacks, including limited absorption due to the drug's low water solubility or poor membrane permeability, possible emesis from GI mucosa irritation, destruction of drugs by digestive enzymes or low gastric pH, and irregular absorption along with food or other drugs.
2.9K
Drug Delivery: Parenteral Route01:29

Drug Delivery: Parenteral Route

2.8K
The parenteral route is a critical method of drug administration. It delivers compounds directly into the systemic circulation and bypasses the gastrointestinal tract. This approach is particularly advantageous for drugs that exhibit poor absorption or instability when administered orally.
There are three primary parenteral routes: intravenous (IV), intramuscular (IM), and subcutaneous (SC). The IV route introduces the drug directly into the bloodstream, ensuring immediate action. The IM route...
2.8K
Modified-Release Drug Delivery Systems: Rate-Programmed II01:19

Modified-Release Drug Delivery Systems: Rate-Programmed II

137
Rate-programmed drug delivery systems release drugs in a controlled manner to maintain therapeutic levels. Three main designs include reservoir, matrix, and hybrid systems.Reservoir systems consist of a drug core enclosed within a membrane that controls drug release. In non-swelling reservoir systems, polymers like ethyl cellulose or polymethacrylates are used. These do not hydrate in aqueous media and control release through membrane thickness, porosity, or insolubility. This type includes...
137
Modified-Release Drug Delivery Systems: Rate-Programmed I01:22

Modified-Release Drug Delivery Systems: Rate-Programmed I

172
Rate-programmed drug delivery systems (DDS) are designed to release drugs at specific, controlled rates to maintain consistent therapeutic levels. These systems are categorized based on their release mechanisms, including dissolution-controlled DDS, diffusion-controlled DDS, and combined dissolution-diffusion-controlled DDS.In dissolution-controlled DDS, the release rate depends on the slow dissolution of the drug itself or the surrounding matrix. Drugs with inherently slow dissolution rates,...
172
Modified-Release Drug Delivery Systems: Site-Targeted01:24

Modified-Release Drug Delivery Systems: Site-Targeted

164
Site-targeted drug delivery systems enhance therapeutic efficacy while minimizing systemic toxicity and treatment costs. Unlike conventional methods, these systems ensure precise drug delivery, improving bioavailability and reducing side effects. Targeted drug delivery is classified into three levels. First-order targeting directs drugs to the capillary beds of specific organs or tissues. Second-order targets specific cell types, such as tumor cells, using receptor-mediated interactions.
164
Intrauterine Drug Delivery Systems01:21

Intrauterine Drug Delivery Systems

168
Controlled-release systems for intravaginal and intrauterine drug delivery have been developed primarily for the administration of contraceptive steroid hormones. These delivery routes circumvent first-pass hepatic metabolism, thereby enhancing bioavailability and allowing for reduced systemic dosages compared to oral administration. Such approaches contribute to improved therapeutic efficacy and patient compliance, particularly in long-term contraceptive regimens.Intravaginal Drug Delivery...
168

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Delivery of Antibodies into the Murine Brain via Convection-enhanced Delivery
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Delivery of Antibodies into the Murine Brain via Convection-enhanced Delivery

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薬剤は 精密に投与できる

Yuhao Xie1, Zhe-Sheng Chen1

  • 1Department of Pharmaceutical Sciences, College of Pharmacy and Health Sciences, St. John's University, Queens, NY, USA.

Science (New York, N.Y.)
|June 26, 2025
PubMed
まとめ

GlycoCaging技術は 炎症性腸疾患 (IBD) の治療のための特定の薬を活性化するために 腸内細菌を活用します この標的型アプローチは,IBD患者の治療効果を向上させ,副作用を軽減することを目的としています.

科学分野:

  • 微生物学
  • 薬理学について
  • 胃腸内科

背景:

  • 炎症性腸疾患 (IBD) には,クローン病と潰瘍性大腸炎が含まれ,慢性的な腸炎が特徴です.
  • 現在のIBD治療は特異性がないことが多く,全身的な副作用と限られた有効性をもたらします.
  • IBDの管理において 標的の薬物投与は重要な課題です

研究 の 目的:

  • 新しい薬物投与システムであるGlycoCagingを導入し評価する.
  • 炎症した腸内環境で 治療薬を活性化させる腸内細菌の能力を 証明するためです
  • IBD治療の改善のためのGlycoCagingの可能性を評価する.

主な方法:

  • バクテリアの酵素分裂のために設計されたGlycoCaging前薬の開発.
  • 腸内炎症のインビトロおよびインビボモデルを使用した.
  • バクテリアの活性化に対する薬物放出運動と治療効果の分析

主要な成果:

  • 特定の腸内細菌によって効果的に分裂した.
  • 活性化薬はIBDモデルで局所的抗炎症効果を示した.
  • このシステムは従来の薬剤投与と比較して 治療効果を向上させました

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Author Spotlight: Surgical Methods and Outcomes in Oviductal Cloned Pig Embryo Transfers

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結論:

  • グライコカージングは,腸内での標的薬物活性化のための有望な戦略です.
  • このバクテリアを介したアプローチは IBD治療の新たな可能性を秘めています
  • 炎症性腸疾患の臨床応用にGlycoCagingを応用するには,さらなる研究が必要である.