Introduction of Electrochemical Therapy (EChT) and Application of EChT to The Breast Tumor

Yoon, Dae-Sung; Ra, Yu-Mi; Ko, Dae-gyung; Kim, Yun-Me; Kim, Keum-Won; Lee, Hoi-Young; Xin, Yu-Ling; Zhang, Wei; Li, Zing-Hong; Kwon, Hee-Uk

doi:10.4048/jbc.2007.10.2.162

J Breast Cancer. 2007 Jun;10(2):162-168. Korean.
Published online Jun 30, 2007.
https://doi.org/10.4048/jbc.2007.10.2.162

Original Article

Introduction of Electrochemical Therapy (EChT) and Application of EChT to The Breast Tumor

Dae-Sung Yoon, Yu-Mi Ra, Dae-gyung Ko, Yun-Me Kim,¹ Keum-Won Kim,² Hoi-Young Lee,³ Yu-Ling Xin,⁴ Wei Zhang,⁴ Zing-Hong Li,⁴ and Hee-Uk Kwon⁵

Author information

Author notes

Copyright and License

- Department of General Surgery, Konyang University Hospital, Daejeon, Korea.
- ¹Department of Pathology, Konyang University Hospital, Daejeon, Korea.
- ²Department of Radiology, Konyang University Hospital, Daejeon, Korea.
- ³Department of Pharmacology, Konyang University Hospital, Daejeon, Korea.
- ⁴Department of Thoracic Surgery, China-Japan Friendship Hospital, Beijing 100029, China.
- ⁵Department of Anesthesiology & Pain Medicine, Konyang University Hospital, Daejeon, Korea.
Email: gangsi@kyuh.co.kr

Received February 28, 2007; Accepted May 31, 2007.

Abstract

Purpose

To introduce the history and principle mechanism of electrochemical treatment (EChT) with animal study and report two cases successfully treated breast cancer and hemangioma by EChT.

Methods

In animal study, the breast cancer tumor in nude mouse treated with EChT (100 Coulomb/cm³) were reviewed for histologic changes. In the case studies, we reported method of EChT and clinical results after EChT. Case 1: 74 yr old female with locally advanced breast cancer received 3 times EChT with 1,000 Coulomb/time, 8 Volt. Case 2: 51 yr old female with breast hemagioma received one time EChT with 80 Coulomb, 8 Volt.

Results

In animal study, There were destructive change including vaculated cell fragment and extensive coagulative necrosis. Case 1 showed no local recurrence during 18 monthes after EChT. Case 2 also showed no evidence of recurrence of hemangioma.

Conclusion

The EChT is easy to use. It is effective, safe, less traumatic and makes patients recover quickly. This is a new and effective method to treat patients with tumours that are inoperable and can not receive chemotherapy or radiotherapy.

Keywords

Electrochemical therapy; Breast cancer; Hemangioma

Figures

Fig 1
A case of electrochemical therapy in the back mass of nude mouse. Two platinum electrodes were infiltrated in the tumor.

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Fig 2
Microscopic findings of breast cancer occurred on the back after inoculation of MDA-MB 231 breast cancer cell-lines to 4th mouse, The section (a: 1:1) is consisted two area. The right side is non-treated tumor (b: ×200) for control and the left side is the tumor after EChT with 80 coulomb (c: ×200). There are destructive change including vaculated cell fragment and necrotic neoplastic cells. An extensive and well-defined area of coagulative necrosis is seen (magnification 10.5X). The anodic lesion is dehydrated, with pycnotic nuclei and a small rim of marginal infarctions at the border (upper area of c). The cathodic lesions are oedematous with cellular swelling and occasional disruption of the plasma membranes (lower area of c). Both anodic and cathodic lesions are divided with very sharp demarcation (black arrow).

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Fig 3
Seventyfour years old female has left breast cancer with locally advanced and bone and pleural metastasis. The overlying skin of affected breast shows necrosis and infected area due to advanced breast cancer.

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Fig 4
First EChT for the above (Fig 3) patient. After skin sterilization, electrochemical treatments were performed under general anaesthesia at the electrode insertion site. Insertion of electrodes was done under ultrasonogram guidance for proper localization of platinum electrodes. A stylet in a catheter was first inserted into the tumor; then, the stylet was withdrawn. A platinum electrode was inserted through the catheter and was passed into the tumor mass. The catheter was then partially withdrawn in order to treat the tumor and protect the normal tissue from the electricity. After the electrodes were inserted, they were connected to the instrument. Voltage was increased gradually, starting at 2-3 V for a few minutes, then to 4-5 V for a few minutes, and finally to 7-8 V. The final current was usually 40-80 mA. The electricity delivered was calculated at 100 coulombs per cm tumor diameter. Totally thirteen platinum electrodes were used for 1,000 coulombs.

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Fig 5
The wound of skin graft shows good quality without local recurrence after thirteen months after skin graft (18 months after 1st EChT).

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Fig 6
Fiftyone years old female has biopsy confirmed cavernous hemangiomas in left breast and axilla. Preoperative MRI, fat suppression T2 weighted axial image reveals about 1.4 cm sized round high signal intensity nodule in subcutaneous fat layer in left upper outer quadrant. Another nodules also reveals round high signal intensity nodule with round low signal intensity calcification in more upper portion of this lesion.

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Fig 7
Two platinum needles are well positioned through two breast nodules in left upper outer quadrant. Position of two platinum needles is well demonstrated on mammography MLO view.

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Fig 8
Follow up MRI 2 months later EChT. MRI fat suppression T2 weighted image reveals disappeared previous high signal intensity nodules, but abnormal high signal intensity irregular septae and diffuse skin thickening at EChT site. This finding is suggestive of sclerotic change and fibrosis after EChT.

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Fig 9
A schematic on the principle for electrochemical treatment of tumors.

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