NEW MICROPARTICLES CONTAINING ACTIVE SUBSTANCES

Organization Name

BASF SE

Inventor(s)

Claude Taranta of Limburgerhof (DE)

Bernd Dieter Oschmann of Ludwigshafen (DE)

Gerardo Incera Garrido of Ludwigshafen (DE)

Antoine Maxime Charles Joseph Beziau of Ludwigshafen (DE)

Thomas Bork of Limburgerhof (DE)

Thorsten Volland of Limburgerhof (DE)

Henning Urch of Limburgerhof (DE)

Gerd Kraemer of Limburgerhof (DE)

Laurent Picard of Limburgerhof (DE)

Marcel Patrik Kienle of Limburgerhof (DE)

Helmut Kraus of Research Triangle Park NC (US)

Carla Marchioro of Bologna (IT)

Lucio Bassetti of Bologna (IT)

Carlotta Gobbi of Bologna (IT)

Valerio Borzatta of Bologna (IT)

NEW MICROPARTICLES CONTAINING ACTIVE SUBSTANCES - A simplified explanation of the abstract

This abstract first appeared for US patent application 18280522 titled 'NEW MICROPARTICLES CONTAINING ACTIVE SUBSTANCES

Simplified Explanation

The patent application describes a microparticle containing one or more water-immiscible active substances, such as liquid pesticides or non-aqueous solvents, along with phospholipids and sterols.

• The microparticle contains at least one phospholipid (PL) and at least one sterol (ST).
• The active substances in the microparticle are water-immiscible and liquid at 21°C.
• The microparticle is designed to deliver the active substances effectively and efficiently.

Potential Applications

The technology could be used in agriculture for targeted delivery of pesticides, in pharmaceuticals for controlled release of drugs, and in cosmetics for encapsulation of active ingredients.

Problems Solved

This technology addresses the challenge of delivering water-immiscible active substances in a controlled and efficient manner. It also helps improve the stability and bioavailability of these substances.

Benefits

The microparticle technology offers improved delivery efficiency, enhanced stability of active substances, and controlled release capabilities. It can also potentially reduce the environmental impact of certain substances by targeting their delivery.

Potential Commercial Applications

"Enhancing Delivery of Water-Immiscible Active Substances through Microparticles"

Possible Prior Art

There may be prior art related to microparticle delivery systems for active substances, particularly in the fields of pharmaceuticals and agriculture.

Unanswered Questions

How does the microparticle technology compare to existing delivery systems for water-immiscible active substances?

The article does not provide a direct comparison with other delivery systems, so it is unclear how the microparticle technology stands out in terms of efficacy, cost, or ease of use.

Are there any potential drawbacks or limitations to using microparticles for delivering water-immiscible active substances?

The article does not address any potential drawbacks or limitations of the microparticle technology, leaving open the question of whether there are any challenges or disadvantages associated with its use.

Original Abstract Submitted

Microparticle, wherein said microparticle contains one or more active substance, said one or more active substance being water immiscible, and being liquid (at 21° C.) pesticide or dissolved in a non-aqueous solvent S that is immiscible with water, and wherein said microparticle contains i) at least one phospholipid PL,ii) at least one sterol ST.