Masaki Hashimoto1, Fumihiro Tanaka2, Kazue Yoneda1, Teruhisa Takuwa1, Seiji Matsumoto1, Yoshitomo Okumura3, Nobuyuki Kondo1, Noriaki Tsubota4, Tohru Tsujimura5, Chiharu Tabata6, Takashi Nakano6, Seiki Hasegawa1. 1. Department of Thoracic Surgery, Hyogo College of Medicine, Nishinomiya, Japan. 2. Second Department of Surgery (Chest Surgery), University of Occupational and Environmental Health, Kitakyusyu, Japan ftanaka@med.uoeh-u.ac.jp. 3. Itami City Hospital, Itami, Japan. 4. Department of Thoracic Oncology, Hyogo College of Medicine, Nishinomiya, Japan. 5. Department of Pathology, Hyogo College of Medicine, Nishinomiya, Japan. 6. Division of Respiratory Medicine, Department of Internal Medicine, Hyogo College of Medicine, Nishinomiya, Japan.
Abstract
OBJECTIVES: Circulating tumour cells (CTCs) are tumour cells shed from a primary tumour and circulate in the peripheral blood after passing through the drainage vein. In previous studies, we showed that high numbers of CTCs were detected in the drainage pulmonary venous blood of most patients with resectable primary lung cancer, whereas only low numbers of CTCs were detected in the peripheral blood of some patients. Accordingly, this prospective study was conducted to assess changes in CTCs in the drainage pulmonary vein (PV) during lung cancer surgery. METHODS: A total of 30 consecutive peripheral-type primary lung cancer patients who underwent lobectomy (or right upper and middle bilobectomy) through open thoracotomy were included. For each patient, 2.5 ml of blood was sampled from the lobar PV of the primary tumour site before and after surgical manipulation for lobectomy. The CTCs were evaluated quantitatively with the CellSearch® system. RESULTS: Before surgical manipulation, CTCs were detected in PV blood in the majority of patients (22 of 30, 73.3%), although CTCs were detected in peripheral blood in only two patients (6.7%). The median number of CTCs in the PV (pvCTC-count) before surgical manipulation was 4.0 cells/2.5 ml, and there was no significant correlation between pvPV-count and any clinicopathological characteristic, including tumour size, progression and histological type. After surgical manipulation, at the time of completion of the lobectomy, the pvCTC-count significantly increased (median, 60.0 cells/2.5 ml; P = 0.001). The increase in pvCTC-count was significantly associated with microscopic lymphatic tumour invasion (ly); pvCTC-count significantly increased in ly-positive patients (pvCTC-count before and after surgical manipulation, 4.0 and 90.5 cells/2.5 ml, respectively; P = 0.006), but not in ly-negative patients (3.5 and 7.0 cells/2.5 ml, respectively; P = 0.153). The increase in pvCTC-count was not significantly associated with any other clinicopathological factor or with any surgical procedure, including the sequence of vessel interruption. CONCLUSIONS: We documented a significant increase in CTC count in drainage PV blood after surgical manipulation, especially in tumours with lymphatic invasion. We are awaiting survival data at 5 year follow-up examination, which may provide clinical significance of the pvCTC-count.
OBJECTIVES: Circulating tumour cells (CTCs) are tumour cells shed from a primary tumour and circulate in the peripheral blood after passing through the drainage vein. In previous studies, we showed that high numbers of CTCs were detected in the drainage pulmonary venous blood of most patients with resectable primary lung cancer, whereas only low numbers of CTCs were detected in the peripheral blood of some patients. Accordingly, this prospective study was conducted to assess changes in CTCs in the drainage pulmonary vein (PV) during lung cancer surgery. METHODS: A total of 30 consecutive peripheral-type primary lung cancerpatients who underwent lobectomy (or right upper and middle bilobectomy) through open thoracotomy were included. For each patient, 2.5 ml of blood was sampled from the lobar PV of the primary tumour site before and after surgical manipulation for lobectomy. The CTCs were evaluated quantitatively with the CellSearch® system. RESULTS: Before surgical manipulation, CTCs were detected in PV blood in the majority of patients (22 of 30, 73.3%), although CTCs were detected in peripheral blood in only two patients (6.7%). The median number of CTCs in the PV (pvCTC-count) before surgical manipulation was 4.0 cells/2.5 ml, and there was no significant correlation between pvPV-count and any clinicopathological characteristic, including tumour size, progression and histological type. After surgical manipulation, at the time of completion of the lobectomy, the pvCTC-count significantly increased (median, 60.0 cells/2.5 ml; P = 0.001). The increase in pvCTC-count was significantly associated with microscopic lymphatic tumour invasion (ly); pvCTC-count significantly increased in ly-positive patients (pvCTC-count before and after surgical manipulation, 4.0 and 90.5 cells/2.5 ml, respectively; P = 0.006), but not in ly-negative patients (3.5 and 7.0 cells/2.5 ml, respectively; P = 0.153). The increase in pvCTC-count was not significantly associated with any other clinicopathological factor or with any surgical procedure, including the sequence of vessel interruption. CONCLUSIONS: We documented a significant increase in CTC count in drainage PV blood after surgical manipulation, especially in tumours with lymphatic invasion. We are awaiting survival data at 5 year follow-up examination, which may provide clinical significance of the pvCTC-count.
Authors: Vasudha Murlidhar; Rishindra M Reddy; Shamileh Fouladdel; Lili Zhao; Martin K Ishikawa; Svetlana Grabauskiene; Zhuo Zhang; Jules Lin; Andrew C Chang; Philip Carrott; William R Lynch; Mark B Orringer; Chandan Kumar-Sinha; Nallasivam Palanisamy; David G Beer; Max S Wicha; Nithya Ramnath; Ebrahim Azizi; Sunitha Nagrath Journal: Cancer Res Date: 2017-07-17 Impact factor: 12.701
Authors: Jonathan G Hiller; Nicholas J Perry; George Poulogiannis; Bernhard Riedel; Erica K Sloan Journal: Nat Rev Clin Oncol Date: 2017-12-28 Impact factor: 66.675