January 31, 2019 report

Flatworms found to regenerate faster or slower when exposed to weak magnetic field

by , 麻豆淫院

**Flatworms found to regenerate faster or slower when exposed to weak magnetic field
A planarian flatworm four hours after losing both its head (on the left) and its tail (on the right), stained for the actively-dividing stem cell response that follows injury. Credit: Wendy Scott Beane, Western Michigan University

A team of researchers from Western Michigan University and the University of Colorado Boulder has found that the regeneration rate for planaria flatworms can be impacted by a weak magnetic field. In their paper published in the journal Science Advances, the group describes experiments they conducted with flatworms exposed to weak magnetic fields and what they found.

Flatworms are known for their regenerative capabilities鈥攁mputated parts will grow right back. In this new effort, the researchers wondered what would happen if they cut off parts of a 's body and then exposed it to a (more than Earth's field, but less than that exerted by strong magnets).

Some in the biological community have theorized that exposure to weak magnetic fields could result in a process called radical pair recombination. This process could conceivably alter the spin direction of electrons located in the outer parts of atoms, disturbing molecular pairings and leading to the formation of free radicals. This could lead to the production of (ROS鈥攃hemically reactive species that contain oxygen), which might cause processes like faster wound healing or slowing .

To test the theory, the researchers used flatworms. In their lab, they sliced flatworms below and above their feeding tubes and then put the pieces in culture dishes that were placed inside a chamber shielded from outside magnetic interference. Inside the chamber, they placed a device capable of producing . They subjected the pieces to a variety of magnetic intensities and observed the impact on regeneration times.

**Flatworms found to regenerate faster or slower when exposed to weak magnetic field
Following injury, planarians undergo a stem cell response (labeled in green) that leads to new tissue growth and the regeneration of missing structures (such as the head). Weak static magnetic fields can change stem cell responses to injury, as seen following exposure to a 200 渭T field, which blocks stem cell activity and therefore regeneration. Credit: Luke Kinsey, Alanna Van Huizen, Marine Bolliet, and Wendy Beane, Western Michigan University

The researchers report that growth was slowed in blastema, cells that grow into new parts, when subjected to 100 to 400 碌T magnetic fields. Growth sped up in fields greater than 500 碌T. They also found ROS levels were altered鈥攖hey were lower than they would have been under normal conditions in blastema exposed to the lower doses of magnetism, and higher in those exposed to fields greater than 500 碌T. The researchers were unable to explain the different impacts they saw, but noted that a reduction in blastema growth was accompanied by reduced stem cell growth.

**Flatworms found to regenerate faster or slower when exposed to weak magnetic field
A Schmidtea mediterranea planarian flatworm, the species used in this study. Credit: Alanna Van Huizen, Western Michigan University

More information: Alanna V. Van Huizen et al. Weak magnetic fields alter stem cell鈥搈ediated growth, Science Advances (2019).

Journal information: Science Advances

漏 2019 Science X Network

Citation: Flatworms found to regenerate faster or slower when exposed to weak magnetic field (2019, January 31) retrieved 23 May 2025 from /news/2019-01-flatworms-regenerate-faster-slower-exposed.html
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