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March 19, 2021 //---A new study shows that electricity may slow (and in some cases stop) the spread of breast cancer cells in the body.
The study also found that electromagnetic fields may prevent the number of breast cancer cells from spreading.
Related results were recently published in the "Bioelectricity" magazine.
This finding suggests that electromagnetic fields may be a useful tool in the fight against highly metastatic cancers, which means they are likely to spread to other parts of the body.
The study also found that electromagnetic fields may prevent the number of breast cancer cells from spreading.
Related results were recently published in the "Bioelectricity" magazine.
This finding suggests that electromagnetic fields may be a useful tool in the fight against highly metastatic cancers, which means they are likely to spread to other parts of the body.
The senior author of the paper and former professor of mechanical and aerospace engineering at Ohio State University, Vish Subramaniam, said: "We believe that by applying these areas, cancer cells can be prevented from metastasis, and we believe that using this method can even destroy tumors.
"
"
(Image source: www.
pixabay.
com)
pixabay.
com)
This study is one of the first to show that electromagnetic fields can slow down or stop the metabolism of cancer cells, thereby weakening their ability to spread.
Electromagnetic fields have no similar effects on normal breast cells.
Electromagnetic fields have no similar effects on normal breast cells.
The lead author of the paper, Ohio State University researcher Travis Jones compared this effect to what might happen when a group of people run along a path, where certain cancer cells slow down when they encounter an electromagnetic field.
"After being disturbed by the outside world, some of them stopped for a while before they started to move slowly.
As a group, they seemed to have split.
Therefore, the speed and time of movement of the entire group will be affected.
"
"After being disturbed by the outside world, some of them stopped for a while before they started to move slowly.
As a group, they seemed to have split.
Therefore, the speed and time of movement of the entire group will be affected.
"
This work was carried out on isolated human breast cancer cells in the laboratory and has not yet been clinically tested.
By changing the electric field inside a single cell, it seems that the metabolism of cancer cells can be selectively slowed down.
Subramaniam said that without actually contacting the cells through surgery or other more invasive procedures, they can enter the inner workings of cells, which is a new discovery for studying how cancer metastasizes.
(Bioon.
com)
By changing the electric field inside a single cell, it seems that the metabolism of cancer cells can be selectively slowed down.
Subramaniam said that without actually contacting the cells through surgery or other more invasive procedures, they can enter the inner workings of cells, which is a new discovery for studying how cancer metastasizes.
(Bioon.
com)
Information source: com/news/2021-03-electromagnetic-fields-hinder-breast-cancer.
html">Electromagnetic fields hinder spread of breast cancer, study shows
html">Electromagnetic fields hinder spread of breast cancer, study shows
Original source: Travis H.
Jones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity,Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
Jones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity,Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
(Image source: www.
pixabay.
com)
pixabay.
com)
This study is one of the first to show that electromagnetic fields can slow down or stop the metabolism of cancer cells, thereby weakening their ability to spread.
Electromagnetic fields have no similar effects on normal breast cells.
Electromagnetic fields have no similar effects on normal breast cells.
The lead author of the paper, Ohio State University researcher Travis Jones compared this effect to what might happen when a group of people run along a path, where certain cancer cells slow down when they encounter an electromagnetic field.
"After being disturbed by the outside world, some of them stopped for a while before they started to move slowly.
As a group, they seemed to have split.
Therefore, the speed and time of movement of the entire group will be affected.
"
"After being disturbed by the outside world, some of them stopped for a while before they started to move slowly.
As a group, they seemed to have split.
Therefore, the speed and time of movement of the entire group will be affected.
"
This work was carried out on isolated human breast cancer cells in the laboratory and has not yet been clinically tested.
By changing the electric field inside a single cell, it seems that the metabolism of cancer cells can be selectively slowed down.
Subramaniam said that without actually contacting the cells through surgery or other more invasive procedures, they can enter the inner workings of cells, which is a new discovery for studying how cancer metastasizes.
(Bioon.
com)
By changing the electric field inside a single cell, it seems that the metabolism of cancer cells can be selectively slowed down.
Subramaniam said that without actually contacting the cells through surgery or other more invasive procedures, they can enter the inner workings of cells, which is a new discovery for studying how cancer metastasizes.
(Bioon.
com)
Information source: com/news/2021-03-electromagnetic-fields-hinder-breast-cancer.
html">Electromagnetic fields hinder spread of breast cancer, study shows
html">Electromagnetic fields hinder spread of breast cancer, study shows
Original source: Travis H.
Jones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity, Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
Jones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity, Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
(Image source: www.
pixabay.
com)
pixabay.
com)
This study is one of the first to show that electromagnetic fields can slow down or stop the metabolism of cancer cells, thereby weakening their ability to spread.
Electromagnetic fields have no similar effects on normal breast cells.
Electromagnetic fields have no similar effects on normal breast cells.
The lead author of the paper, Ohio State University researcher Travis Jones compared this effect to what might happen when a group of people run along a path, where certain cancer cells slow down when they encounter an electromagnetic field.
"After being disturbed by the outside world, some of them stopped for a while before they started to move slowly.
As a group, they seemed to have split.
Therefore, the speed and time of movement of the entire group will be affected.
"
"After being disturbed by the outside world, some of them stopped for a while before they started to move slowly.
As a group, they seemed to have split.
Therefore, the speed and time of movement of the entire group will be affected.
"
This work was carried out on isolated human breast cancer cells in the laboratory and has not yet been clinically tested.
By changing the electric field inside a single cell, it seems that the metabolism of cancer cells can be selectively slowed down.
Subramaniam said that without actually contacting the cells through surgery or other more invasive procedures, they can enter the inner workings of cells, which is a new discovery for studying how cancer metastasizes.
(Bioon.
com)
By changing the electric field inside a single cell, it seems that the metabolism of cancer cells can be selectively slowed down.
Subramaniam said that without actually contacting the cells through surgery or other more invasive procedures, they can enter the inner workings of cells, which is a new discovery for studying how cancer metastasizes.
(Bioon.
com)
Information source: com/news/2021-03-electromagnetic-fields-hinder-breast-cancer.
html">Electromagnetic fields hinder spread of breast cancer, study shows
html">Electromagnetic fields hinder spread of breast cancer, study shows
Original source: Travis H.
Jones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity, Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
Jones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity, Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
The lead author of the paper, Ohio State University researcher Travis Jones compared this effect to what might happen when a group of people run along a path, where certain cancer cells slow down when they encounter an electromagnetic field.
"After being disturbed by the outside world, some of them stopped for a while before they started to move slowly.
As a group, they seemed to have split.
Therefore, the speed and time of movement of the entire group will be affected.
"
"After being disturbed by the outside world, some of them stopped for a while before they started to move slowly.
As a group, they seemed to have split.
Therefore, the speed and time of movement of the entire group will be affected.
"
This work was carried out on isolated human breast cancer cells in the laboratory and has not yet been clinically tested.
By changing the electric field inside a single cell, it seems that the metabolism of cancer cells can be selectively slowed down.
Subramaniam said that without actually contacting the cells through surgery or other more invasive procedures, they can enter the inner workings of cells, which is a new discovery for studying how cancer metastasizes.
(Bioon.
com)
By changing the electric field inside a single cell, it seems that the metabolism of cancer cells can be selectively slowed down.
Subramaniam said that without actually contacting the cells through surgery or other more invasive procedures, they can enter the inner workings of cells, which is a new discovery for studying how cancer metastasizes.
(Bioon.
com)
Information source: com/news/2021-03-electromagnetic-fields-hinder-breast-cancer.
html">Electromagnetic fields hinder spread of breast cancer, study shows
html">Electromagnetic fields hinder spread of breast cancer, study shows
Original source: Travis H.
Jones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity, Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
Jones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity, Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
This work was carried out on isolated human breast cancer cells in the laboratory and has not yet been clinically tested.
By changing the electric field inside a single cell, it seems that the metabolism of cancer cells can be selectively slowed down.
Subramaniam said that without actually contacting the cells through surgery or other more invasive procedures, they can enter the inner workings of cells, which is a new discovery for studying how cancer metastasizes.
(Bioon.
com)
By changing the electric field inside a single cell, it seems that the metabolism of cancer cells can be selectively slowed down.
Subramaniam said that without actually contacting the cells through surgery or other more invasive procedures, they can enter the inner workings of cells, which is a new discovery for studying how cancer metastasizes.
(Bioon.
com)
Information source: com/news/2021-03-electromagnetic-fields-hinder-breast-cancer.
html">Electromagnetic fields hinder spread of breast cancer, study shows
html">Electromagnetic fields hinder spread of breast cancer, study shows
Original source: Travis H.
Jones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity, Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
Jones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity, Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
Information source: com/news/2021-03-electromagnetic-fields-hinder-breast-cancer.
html">Electromagnetic fields hinder spread of breast cancer, study shows
Information source: com/news/2021-03-electromagnetic-fields-hinder-breast-cancer. html">Electromagnetic fields hinder spread of breast cancer, study shows
Original source: Travis H.
Jones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity, Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
Jones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity, Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
html">Electromagnetic fields hinder spread of breast cancer, study shows
Original source: Travis H.
Jones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity, Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
Jones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity, Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
Original source: Travis H.
Jones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity, Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
Original Source: Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity, BioelectricityJones et al, Directional Migration of Breast Cancer Cells Hindered by Induced Electric Fields May Be Due to Accompanying Alteration of Metabolic Activity, Bioelectricity (2021).
DOI: 10.
1089/bioe.
2020.
0048
