TANGENTIAL FLOW CASSETTE-HF EMULATION

Organization Name

Global Life Sciences Solutions USA LLC

Inventor(s)

Ralph Stankowski of Westborough MA (US)

Douglas Albagli of Clifton Park NY (US)

William A. Hennessy of Schenectady NY (US)

TANGENTIAL FLOW CASSETTE-HF EMULATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240050905 titled 'TANGENTIAL FLOW CASSETTE-HF EMULATION

Simplified Explanation

The abstract describes a biocompatible polymeric membrane that consists of two layers of material with pores defined between them. The first membrane material layer includes strips, and the second membrane material binds to each strip, creating windows that expose the first membrane material strips. The membrane has uniform passages within each window, which define the pores.

• The patent application describes a biocompatible polymeric membrane with a unique structure.
• The membrane is composed of two layers of material, with pores defined between them.
• The first membrane material layer includes strips, while the second membrane material binds to each strip.
• The binding creates windows that expose the first membrane material strips.
• The membrane has uniform passages within each window, which define the pores.

Potential Applications:

• Biomedical devices: The biocompatible membrane can be used in various biomedical devices, such as filters, drug delivery systems, and artificial organs.
• Water filtration: The membrane can be utilized in water filtration systems to remove contaminants and impurities.
• Separation processes: The membrane can be employed in separation processes, such as gas separation and liquid purification.

Problems Solved:

• Biocompatibility: The membrane is designed to be biocompatible, meaning it is compatible with living tissues and can be used in medical applications without causing harm.
• Filtration efficiency: The uniform passages and defined pores of the membrane enhance filtration efficiency by allowing precise control over the size and flow of particles or substances passing through.

Benefits:

• Biocompatibility: The membrane's biocompatible nature ensures its safe use in medical and biological applications.
• Enhanced filtration: The uniform passages and defined pores enable efficient filtration, ensuring the removal of contaminants or impurities.
• Versatility: The membrane can be adapted for various applications due to its unique structure and properties.

Original Abstract Submitted

a biocompatible polymeric membrane includes pores defined between two material layers, where the first membrane material layer includes strips, and the second membrane material binds to each of the plurality of first membrane material layer strips includes a plurality of windows exposing each of the first membrane material strips. the biocompatible polymeric filtration membrane comprises pores defined by uniform passages defined by the first membrane material layer strips and the second membrane material layer within each window.