Multifunctional 4D‐Printed Sperm‐Hybrid Microcarriers for Assisted Reproduction

to related objects

Abstract: Remotely controllable microrobots are appealing for various biomedical in vivo applications. In particular, in recent years, our group has focused on developing sperm‐microcarriers to assist sperm cells with motion deficiencies or low sperm count (two of the most prominent male infertility problems) to reach the oocyte toward in‐vivo‐assisted fertilization. Different sperm carriers, considering their motion in realistic media and confined environments, have been optimized. However, the already‐reported sperm carriers have been mainly designed to transport single sperm cell, with limited functionality. Thus, to take a step forward, here, the development of a 4D‐printed multifunctional microcarrier containing soft and smart materials is reported. These microcarriers can not only transport and deliver multiple motile sperm cells, but also release heparin and mediate local enzymatic reactions by hyaluronidase‐loaded polymersomes (HYAL‐Psomes). These multifunctional facets enable in situ sperm capacitation/hyperactivation, and the local degradation of the cumulus complex that surrounds the oocyte, both to facilitate the sperm–oocyte interaction for the ultimate goal of in vivo assisted fertilization.

Location
Deutsche Nationalbibliothek Frankfurt am Main
Extent
Online-Ressource
Language
Englisch

Bibliographic citation
Multifunctional 4D‐Printed Sperm‐Hybrid Microcarriers for Assisted Reproduction ; day:31 ; month:10 ; year:2022 ; extent:15
Advanced materials ; (31.10.2022) (gesamt 15)

Creator
Rajabasadi, Fatemeh
Moreno, Silvia
Fichna, Kristin
Aziz, Azaam
Appelhans, Dietmar
Schmidt, Oliver G.
Medina‐Sánchez, Mariana

DOI
10.1002/adma.202204257
URN
urn:nbn:de:101:1-2022103114360478755098
Rights
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
Last update
15.08.2025, 7:33 AM CEST

Data provider

This object is provided by:
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Show original at data provider

Associated

Other Objects (12)

Fundamental studies of self-assembled nanostructures based on the sigec and sige material system

Hochschulschrift

Fundamental studies of self-assembled nanostructures based on the sigec and sige material system

Magnetic Micromotors for Multiple Motile Sperm Cells Capture, Transport, and Enzymatic Release

Magnetic Micromotors for Multiple Motile Sperm Cells Capture, Transport, and Enzymatic Release

Magnetic Micromotors for Multiple Motile Sperm Cells Capture, Transport, and Enzymatic Release

Magnetic Micromotors for Multiple Motile Sperm Cells Capture, Transport, and Enzymatic Release

Magnetotactic Sperm Cells for Assisted Reproduction

Magnetotactic Sperm Cells for Assisted Reproduction

Lateral alignment of epitaxial quantum dots

Lateral alignment of epitaxial quantum dots

System‐Engineered Miniaturized Robots: From Structure to Intelligence

System‐Engineered Miniaturized Robots: From Structure to Intelligence

System‐Engineered Miniaturized Robots: From Structure to Intelligence

System‐Engineered Miniaturized Robots: From Structure to Intelligence

Magnetic Micromotors for Multiple Motile Sperm Cells Capture, Transport, and Enzymatic Release

Magnetic Micromotors for Multiple Motile Sperm Cells Capture, Transport, and Enzymatic Release

Batteries for small-scale robotics

Batteries for small-scale robotics

A bright future for micro-LED displays

A bright future for micro-LED displays

Molecular Electronics: Creating and Bridging Molecular Junctions and Promoting Its Commercialization

Molecular Electronics: Creating and Bridging Molecular Junctions and Promoting Its Commercialization

Micromotor-mediated sperm constrictions for improved swimming performance

Micromotor-mediated sperm constrictions for improved swimming performance

Related objects