Lung cancer is one of the most aggressive and lethal form of cancers. Patients with far advanced lung cancer are treated by chemotherapy with or without radiotherapy. However, median survival of these patients is less than 6 months. To increase survival and quality of life for these patients, various forms of complementary treatments have been tried in clinical practices, and oncothermia is supposed to be one of the promising candidates. From May 2008 to November 2013, 4 patients with far advanced lung adenocarcinoma (stages IIIB and IV) were treated with oncothermia in addition to conventional chemotherapy at Gangnam Severance Hospital and Bundang CHA Hospital. All these patients have survived for more than 2 years.
Lung cancer occupies the greatest number of cancer-related death of both sexes worldwide [
Various forms of chemotherapy agents have been used in combination to improve the outcomes of the treatment. The most widely used agents include Cisplatin, Gemcitabine, Pemetrexed, Paclitaxel, and Iressa/Tarceva. By the administration of these chemo-agents, median survival of patients with advanced lung cancer have increased up to 12 months (10.9 months with Gemcitabine and Cisplatin [
Hyperthermia therapy is one of the possible complementary treatments, and known to have benefit for the improvement of survival and quality of life of patients with far advanced lung adenocarcinoma [
1) Oncothermia pumps through heat-energy 1500 nW/μm2 the malignant cell membranes, while the basal metabolic heat-production drives only 20 nW/μm2 heat flow in opposite direction through the membrane.
2) Heat delivered by Oncothermia induces Na+ influx current 150 pA/μm2 [
3) Na+ ions accompanied with water molecules moves into the malignant cell by electro-osmotic way increasing the pressure within the cell. This abrupt inflow of water results higher intracellular pressure destabilizing the membrane, helping the oncothermia effects on the membrane rafts [
These processes enhance the cell-membrane associated apoptosis of tumor cells [
Combination of adjunct oncothermia with conventional chemotherapy can be a promising treatment to enhance chemo sensitivity, because oncothermia increases the chemo-influx into tumor cells. Consequently, concentration of chemo-agents increases and pH environment changes along with high temperature inside the cells, which could enhance the cancer cell apoptosis. Despite the beneficial effect on the tumor cell apoptosis, oncothermia has virtually no significant adverse effect.
Assuming the above factors, we expected better treatment outcomes for patients with far advanced lung cancer by the combination of chemotherapy and oncothermia than by the conventional treatments applied usually for these cases.
From May 2008 to November 2013, 4 patients with far advanced lung adenocarcinoma were treated with complementary oncothermia and chemotherapy. These patients in the late stages are generally suitable for palliation only, but we tried to be curative. Chemotherapy was various taking into consideration the previous chemo- therapy treatments and the actual status of the patient. Oncothermia was provided by the EHY2000+ device (Oncotherm, Germany). The device and its heating power were checked, the temperature development was checked on solid-state carbon phantom. The applicator was carefully fixed on the appropriate place of the chest of the patient, using 30 cm diameter size. The water-bolus cooling was mild to keep the homeostasis on the body-surface. The actually applied power was administered in step-up heating up to the actual tolerable limit of the patient. The energy dose aimed the described 5000 kJ in 8 sessions, however when the patient could not tolerate well the dose, it was reduced in the actual session and the number of sessions was increased.
Forty-five years old male patient was diagnosed of stage IV (T4N3M1) advanced lung adenocarcinoma of right lower lobe (RLL) with metastases to both lungs in July 2011. First line chemotherapy of Vinorelbine and Cisplatin was administered initially. However, follow-up chest PA and chest CT revealed aggravated metastases on both lungs. After transferred to Gangnam Severance Hospital in February 2012 (
patient stopped treatment at his own will and for 2 months since then, and follow-up radiologic exam in Novem- ber 2013 showed slightly increased size of primary tumor. Diagnostic surgery which included wedge resection of RLL and mediastinal lymph node sampling revealed remaining primary adenocarcinoma without mediastinal lymph node metastasis. The EGFR mutation was expressed in the tumor specimen. He has been under treatment with Tarceva and oncothermia until now.
A solitary pulmonary nodule was found in a 55-year-old female patient on routine health exam in May 2008. Chest CT showed 2 cm diameter tumor in LLL and 0.5 cm nodules in LUL and RML (chest PA, chest CT). There was no endobronchial lesion by bronchoscopy and fine needle aspiration biopsy LLL tumor revealed lung adenocarcinoma. Those two small nodules in LUL and RML were regarded radiologically as benign. However, wedge resections on May 2008 revealed primary lung adenocarcinoma from LLL tumor and metastasis from LUL nodule. No metastasis was found in the interlobar and ipsilateral mediastinal lymph nodes. EGFR mutation was positively expressed.
Patient refused to receive chemotherapy because she had worried about some complications and side effects of CTX such as anorexia, general weakness and neurological paresthesia. However, multiple metastases appeared in both lungs by follow-up chest PA and chest CT in November 2013 (stage IV) (chest PA, chest CT). Two cycles of first line chemotherapy with Tarceva was administered based on positive EFGR mutation along with oncothermia until December 2013 and follow-up radiologic exam showed marked regression of multiple metastatic nodules (
Sixty-eight years old female was transferred to Gangnam Severance hospital due to lung tumor on RUL by routine health exam in February 2011. The chest PA and chest CT revealed about 8 cm diameter tumor in RUL with suspected chest wall invasion and pleural seeding (
Sixty years old male was admitted to Gangnam Severance Hospital due to exertional dyspnea and right chest discomfort in September 2011 (
Oncothermia on RLL primary tumor along with second line chemotherapy by Tarceva was administered from February 2012. Follow-up radiologic exam showed marked regression of primary tumor, but newly detected ascites were found due to peritoneal carcinomatosis. Chemotherapy regimen was changed into third line chemotherapy with Gemcitabine and Cisplatin, and oncothermia covered larger area from RLL primary tumor and abdomen for 4 months from June 2012 to September 2012.
The disease seeded stable for a year without further treatment before the patient was re-admitted to Bundang CHA medical center due to re-developed exertional dyspnea and abdominal discomfort in October 2013 (
multiple liver metastasis were found by serial follow-up chest and abdominal CT. After drainage of pleural effusion and ascites, oncothermia was administered on RLL primary tumor and abdomen alternatively in daily turns. Chemotherapy could not be done due to poor performance. Despite that the primary tumor showed regression, aspiration pneumonia occurred and patient died in November 2013.
1) Four patients with far advanced lung adenocarcinoma (stage IV) have survived for more than 2 years with combination of chemotherapy and oncothermia. No complete remission was achieved.
2) Conventional hyperthermia has difficulties to heat-up the breathing cooled lung, and so it cannot achieve curatively higher temperature in lung tumor cells.
3) Oncothermia can deliver electromagnetic energy more deeply and selectively to tumor tissue. It can also change the pH environment around tumor to induce tumor apoptosis.
4) Oncothermia enhance the effect of chemotherapy because it can induce higher concentration of chemo- agents inside the tumor by stasis of blood flow around the tumor and accelerated absorption of chemo-agents into tumor tissue by decreased interstitial fluid in tumor cells.
5) Despite the shrinkage of treated tumor by the combined chemotherapy and oncothermia, the distantly developed metastatic tumors, which are out of the treated area of oncothermia have continuous growth despite the systemic effect of the applied drug. Therefore, oncothermia can be useful as a kind of local treatment like radiation, rather than systemic treatment such as chemotherapy.
6) At least 3 cycles of oncothermia is required to have effect on local tumor regression. Oncothermia can be applied on both the primary tumor and metastases if possible.