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Related Concept Videos

Ophthalmic Drug Delivery Systems01:23

Ophthalmic Drug Delivery Systems

126
Ophthalmic drug delivery faces major limitations due to poor absorption across the corneal membrane. This process is primarily driven by diffusion and is influenced by two main factors: the physicochemical properties of the drug and tear drainage. Most ophthalmic drugs, such as pilocarpine, epinephrine, atropine, and local anesthetics, are weak bases. They are typically formulated at an acidic pH to enhance chemical stability. However, this leads to high ionization, reducing their ability to...
126

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Correction: Double-emulsion drops with ultra-thin shells for capsule templates.

Shin-Hyun Kim1, Jin Woong Kim2, Jun-Cheol Cho3

  • 1School of Engineering and Applied Sciences and Department of Physics, Harvard University, Cambridge, Massachusetts, USA. weitz@seas.harvard.edu.

Lab on a Chip
|January 14, 2017
PubMed
Summary
This summary is machine-generated.

This correction clarifies details regarding double-emulsion drops with ultra-thin shells used as capsule templates. The study focuses on refining methods for creating precise microcapsules for various applications.

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Area of Science:

  • Materials Science
  • Chemical Engineering
  • Microfluidics

Background:

  • Double-emulsion drops are crucial for creating microcapsules.
  • Ultra-thin shells are desirable for specific templating applications.
  • Precise control over shell thickness is essential for template functionality.

Purpose of the Study:

  • To provide a correction to previously published work on double-emulsion drops.
  • To clarify methodologies related to ultra-thin shell formation.
  • To ensure accurate understanding of double-emulsion templating techniques.

Main Methods:

  • The correction addresses specific experimental parameters and observations.
  • It refines the description of the microfluidic setup used.
  • It clarifies the interpretation of results concerning shell formation.

Main Results:

  • The correction ensures the accurate representation of the double-emulsion drop characteristics.
  • It confirms the feasibility of creating ultra-thin shells for templating.
  • It provides enhanced clarity on the stability and formation process.

Conclusions:

  • Accurate reporting of methods and results is vital in scientific publications.
  • This correction enhances the reliability of the original study.
  • The refined understanding supports the use of double-emulsion drops as advanced capsule templates.