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Nanofiber-based biodegradable millirobot that can release drugs in targeted positions in the intestines

Nanofiber-based biodegradable millirobot that can release different drugs in targeted positions in the intestines

A nanofiber-based biodegradable millirobot called Fibot was successfully developed in research led by a scholar from City University of Hong Kong (CityU). Fibot can move in the intestines and degrade in response to the pH of its environment, thus releasing different drugs in different anchored positions. The research has shed light on the development of millirobots, with the potential application of the controlled release of drugs in targeted positions in the intestines. The research has also facilitated the development of biodegradable and adaptive devices with biomedical applications.

The research team was led by Dr. Shen Yajing, Associate Professor in CityU’s Department of Biomedical Engineering (BME). Their findings were published in the academic journal Matter, titled “Nanofiber-based biodegradable millirobot with controllable anchoring and adaptive stepwise release functions.”

Fibot can move and ‘anchor’ in the intestines, driven by an external magnetic field

Targeted drug release at desired locations is difficult in the gastrointestinal tract owing to the acid/alkali environment of the stomach and intestines, as well as the rough surface of the gastric wall, and peristalsis of the intestine. However, Dr. Shen and his team overcame all these obstacles.

“We named this nanofiber-based soft millirobot Fibot. It can be used for controllable anchoring and is fully degradable in response to the pH of its surrounding environment. Therefore, Fibot can release various drugs embedded in its body and legs step by step in the gastrointestinal tract,” said Dr. Shen, as he introduced the team’s research achievements.


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“Anchoring” means Fibot can stay at a fixed position after being moved to the desired location inside the intestine, without being pushed away by peristalsis. Driven by an external magnetic field, the multi-legged Fibot can effectively move in the complicated environment of the gastrointestinal tract and anchor itself on the intestinal wall through the application of a strong magnetic field.

In vivo experiments in rabbits prove that Fibot can fully degrade in four hours

“Fibot’s legs can penetrate intestine mucosa, which enables it to anchor at the desired intestine position without being pushed away by peristalsis. This is a prerequisite for drug release at a targeted position. Also, with precise control of the magnetic field, Fibot’s legs do not reach the submucosa and muscularis externa layers of the gastrointestinal tract, thus effectively avoiding the potential risk of bowel perforation,” Dr. Shen explained.

The team conducted various experiments with Fibot. They found that driven by magnetic force, Fibot moved 7 cm in 10 seconds in a pig’s stomach, which is rugged, wet and acidic, with a pH of 5. This demonstrated Fibot’s locomotive ability in the stomach.

The team also conducted an in vivo experiment in a rabbit’s intestine with Fibot. When Fibot moved to the targeted intestinal region, the team applied a stronger magnetic field to anchor it to the intestinal tissue. Fibot stayed there for four hours and eventually was fully degraded in that position.

Different pH-responsive degradation capability of the fabricated materials enables controllable drug release

Another feature of Fibot is its capability to release drugs. The key lies in the manufactured material. The team fabricated Fibot’s nanofiber-based soft membrane body and multi-legged array separately from biodegradable materials, and then assembled the two parts with a magnetic field-assisted electrospinning method.

The special core-shell structure of the nanofibers used in the body fabric enabled drug encapsulation within the shell. When fabricating the needle-like legs, the team adjusted the components of the material, and the drugs were placed inside.

“Since we adjusted the materials during fabrication, Fibot’s body and legs can degrade at different pH values, allowing us to control the gradual release of different drugs encapsulated in Fibot’s body and legs,” added Dr. Shen.

Experiments show that in an acid environment like that in the stomach, where the pH is less than or equal to 5, Fibot’s structure remained stable and showed no leakage of the encapsulated drugs. When Fibot is located in an environment with a pH greater than or equal to 5.5, the body remains intact, but the legs dissolve slowly and release an embedded drug gradually over about 40 minutes. The remaining body can still be moved by magnetic force. In an environment with a pH greater than 6, the remaining body degrades fully within seven hours and releases another kind of drug encapsulated in the body.

Fibot is entirely biocompatible and safe for biomedical use

“In vivo experiments have proven that Fibot is entirely biocompatible and biodegradable, so it will not cause any intestinal obstruction. Anchoring it to the intestine tissue did not lead to any inflammation reaction, so we believe that Fibot is safe for biomedical use,” Dr. Shen added.

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