Your search keyword '"Jingyun Shi"' showing total 3 results

1. Three-dimensionally printed navigational template: a promising guiding approach for lung biopsy

Author

Haoran E, Jiafei Chen, Weiyan Sun, Yikai Zhang, Shengxiang Ren, Jingyun Shi, Yaofeng Wen, Chunxia Su, Jian Ni, Lei Zhang, Yayi He, Bin Chen, Roberto F. Casal, Fayez Kheir, Tsukasa Ishiwata, Jie Zhang, Deping Zhao, and Chang Chen

Subjects

Oncology, Original Article

Abstract

BACKGROUND: Percutaneous transthoracic lung biopsy is customarily conducted under computed tomography (CT) guidance, which primarily depends on the conductors’ experience and inevitably contributes to long procedural duration and radiation exposure. Novel technique facilitating lung biopsy is currently demanded. METHODS: Based on the reconstructed anatomical information of CT scans, a three-dimensionally printed navigational template was customized to guide fine-needle aspiration (FNA). The needle insertion site and angle could be indicated by the template after proper placement according to the reference landmarks. From June 2020 to August 2020, patients with peripheral indeterminate lung lesions ≥30 mm in diameter were enrolled in a pilot trial. Cases were considered successful when the virtual line indicated by the template in the first CT scan was pointing at the target, and the rate of success was recorded. The insertion deviation, procedural duration, radiation exposure, biopsy-related complications, and diagnostic yield were documented as well. RESULTS: A total of 20 patients consented to participate, and 2 withdrew. The remaining 18 participants consisting of 11 men and 7 women with a median age of 63 [inter-quartile range (IQR), 50–68] years and a median body mass index (BMI) of 23.5 (IQR, 20.8–25.8) kg/m(2) received template-guided FNA. The median nodule size of the patients was 41.2 (IQR, 36.2–51.9) mm and 17 lesions were successfully targeted (success rate, 94.4%). One lesion was not reached through the designed trajectory due to an unpredictable alteration of the lesion’s location resulting from pleural effusion. The median deviation between the actual position of the needle tip and the designed route was 9.4 (IQR, 6.8–11.7) mm. The median procedural duration was 10.7 (IQR, 9.7–11.8) min, and the median radiation exposure was 220.9 (IQR, 198.6–249.5) mGy×cm. No major biopsy-related complication was encountered. Definitive diagnosis of malignancy was reached in 13 of the 17 (76.5%) participants. CONCLUSIONS: The feasibility and safety of navigational template-guided FNA were preliminarily validated in lung biopsy cohort. Nonetheless, patients with pleural effusion were not recommended to undergo FNA guided by such technique. TRIAL REGISTRATION: This study was registered with ClinicalTrials.gov (identifier: NCT03325907).

Published

2021

2. Impact of ALK variants on brain metastasis and treatment response in advanced NSCLC patients with oncogenic ALK fusion

Author

Jingyun Shi, Anwen Xiong, Fengying Wu, Meng Qiao, Wei Li, Jiayu Li, Shuo Yang, Caicun Zhou, Shengxiang Ren, Xuefei Li, Chunxia Su, Tao Jiang, Terry L. Ng, Guanghui Gao, Yan Wang, Jun Zhang, Fei Zhou, Xiaoxia Chen, Chao Zhao, and Qian Liu

Subjects

0301 basic medicine, Oncology, medicine.medical_specialty, Chemotherapy, Treatment response, Crizotinib, business.industry, medicine.medical_treatment, Similar time, medicine.disease, Targeted therapy, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, 030220 oncology & carcinogenesis, Internal medicine, hemic and lymphatic diseases, medicine, In patient, Original Article, business, Lung cancer, Brain metastasis, medicine.drug

Abstract

Background To investigate the impact of ALK variants on the features of brain metastases (BM), the outcome of chemotherapy and targeted therapy using crizotinib, as well as the progression pattern in patients with ALK fusion. Methods Patients with ALK fusion were retrospectively collected from January 2013 to July 2017 in Shanghai Pulmonary Hospital. ALK rearrangements were identified via ARMS-PCR. ALK variants were identified via Sanger Sequencing. Results A total of 135 patients and 41 with brain metastasis were identified. Radiological features showed that the patients with ALK variant 1 had a larger BM size compared with patients with ALK non-variant 1 (median tumor size: 16.89 vs. 11.01 mm, P=0.031). Similar time to treatment failure (TTF) was observed in patients with ALK variant 1 and non-variant 1 who received first-line crizotinib (median TTF: 15.7 vs. 13.8 months, HR =0.75, P=0.34). Patients with ALK variant 1 who had baseline BM had significantly shorter TTF than non-variant 1 with baseline BM when treated with first-line crizotinib (median TTF: 9.1 vs. 14.9 months, HR =2.68, P=0.037). In patients treated with chemotherapy, ALK variant 1 was associated with inferior TTF (median TTF: 5.6 vs. 8.1 months, HR =1.66, P=0.039). Progression pattern was similar between ALK variant 1 and non-variant 1. Conclusions Patients with ALK variant 1 and baseline BM had inferior TTF on first-line crizotinib treatment and presented with more aggressive radiological features. Patients with ALK non-variant 1 had better clinical outcome on first-line chemotherapy.

Published

2020

3. From diagnosis to therapy in lung cancer: management of CT detected pulmonary nodules, a summary of the 2015 Chinese-German Lung Cancer Expert Panel

Author

Jinghong Wang, Thomas Henzler, Stefan S. Schoenberg, Lothar R. Pilz, Rudolf M. Huber, Wieland Voigt, Chunxia Su, Eric Dominic Roessner, Jian Zhang, Xiuyi Zhi, Bo Zhu, Mathias Meyer, Caicun Zhou, Yonglan He, Xuan Wang, Yi-Long Wu, Jingyun Shi, Meiqi Shi, Robert Pirker, and Christian Manegold

Subjects

medicine.medical_specialty, business.industry, Radiation dose, Context (language use), Review Article, Treatment of lung cancer, medicine.disease, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Oncology, 030220 oncology & carcinogenesis, medicine, National Lung Screening Trial, Radiology, Lung cancer, business, Risk classification, Lung cancer screening, Primary screening

Abstract

The first Chinese-German Lung Cancer Expert Panel was held in November 2015 one day after the 7th Chinese-German Lung Cancer Forum, Shanghai. The intention of the meeting was to discuss strategies for the diagnosis and treatment of lung cancer within the context of lung cancer screening. Improved risk classification criteria and novel imaging approaches for screening populations are highly required as more than half of lung cancer cases are false positive during the initial screening round if the National Lung Screening Trial (NLST) demographic criteria [≥30 pack years (PY) of cigarettes, age ≥55 years] are applied. Moreover, if the NLST criteria are applied to the Chinese population a high number of lung cancer patients are not diagnosed due to non-smoking related risk factors in China. The primary goal in the evaluation of pulmonary nodules (PN) is to determine whether they are malignant or benign. Volumetric based screening concepts such as investigated in the Dutch-Belgian randomized lung cancer screening trial (NELSON) seem to achieve higher specificity. Chest CT is the best imaging technique to identify the origin and location of the nodule since 20% of suspected PN found on chest X-ray turn out to be non-pulmonary lesions. Moreover, novel state-of-the-art CT systems can reduce the radiation dose for lung cancer screening acquisitions down to a level of 0.1 mSv with improved image quality to novel reconstruction techniques and thus reduce concerns related to chest CT as the primary screening technology. The aim of the first part of this manuscript was to summarize the current status of novel diagnostic techniques used for lung cancer screening and minimally invasive treatment techniques for progressive PNs that were discussed during the first Chinese-German Lung Cancer. This part should serve as an educational part for the readership of the techniques that were discussed during the Expert Panel. The second part summarizes the consensus recommendations that were interdisciplinary discussed by the Expert Panel.

Published

2016