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Development of a gene panel for 18F-FDG PET positivity prediction in gastric cancer.

Bae, Seong-Woo ; Berlth, Felix ; Choi, Hongyoon ; [et al.]

American Society of Clinical Oncology (ASCO) ; 2020

In: Journal of Clinical Oncology Vol. 38, No. 4_suppl ( 2020-02-01), p. 420-420

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In: Journal of Clinical Oncology, American Society of Clinical Oncology (ASCO), Vol. 38, No. 4_suppl ( 2020-02-01), p. 420-420

Abstract: 420 Background: 18F-FDG PET is widely used in clinical cancer diagnostics. However, 18F-FDG PET scan in gastric cancer (GC) is still controversial because of its lower sensitivity in diagnosis and staging compared to other imaging modalities. The purpose of this study was to establish a gene panel for 18F-FDG PET positivity in GC by using patient-derived xenografts (PDXs). Methods: BALB/c nude mice were subcutaneously implanted with 30 cases of GC PDX tissues and underwent a simultaneous PET/MRI scanner. Using RNA-seq data of the 30 GC PDXs for training set, we constructed a gene co-expression network which was correlated with the maximal standardized uptake values (SUVmax). The least absolute shrinkage and selection operator (LASSO) was used for identification of genomic signature for the PET positivity and a prediction model was established. By using qRT-PCR, a gene panel (PredictionScore) based on the gene signature was developed. Results: We found that the PDXs could recapitulate FDG avidity of those parental tumors between 15 Patient-PDX pairs (Spearman r = 0.54, p-value = 0.04). The prediction model with the identified five genes ( PLS1, PYY, HBQ1, SLC6A5, NAT16) provided excellent prediction values compared with actual SUVmax for 15 patients as a validation set (Spearman r = 0.56, p-value = 0.03) and for 8 patients as a test set (Spearman r = 0.90, p-value = 0.005). The PredictionScore showed significant positive correlation with the actual SUVmax for 7 patients as an external validation set (Spearman r = 0.82, p-value = 0.03). Conclusions: PDX can be used to develop a gene panel for the PET positivity prediction in GC. Our results showed that the scoring system can be clinically applicable for developing a predicted stratification model. Future studies will aim to evaluate the panel for a higher number of PET-scanned GC patients to establish a rational patient selection for PET scan in clinical settings.

Type of Medium: Online Resource

ISSN: 0732-183X , 1527-7755

URL: Article

DOI: 10.1200/JCO.2020.38.4_suppl.420

RVK:

XA 52760

RVK:

XA 10000

Language: English

Publisher: American Society of Clinical Oncology (ASCO)

Publication Date: 2020

detail.hit.zdb_id: 2005181-5

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A multinational phase II clinical trial of neoadjuvant imatinib for large gastrointestinal stromal tumor of the stomach.

Yang, Han-Kwang ; Kurokawa, Yukinori ; Ryu, Min-Hee ; [et al.]

American Society of Clinical Oncology (ASCO) ; 2016

In: Journal of Clinical Oncology Vol. 34, No. 4_suppl ( 2016-02-01), p. 130-130

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In: Journal of Clinical Oncology, American Society of Clinical Oncology (ASCO), Vol. 34, No. 4_suppl ( 2016-02-01), p. 130-130

Abstract: 130 Background: Neoadjuvant therapy is expected to reduce the risk of primary surgery, such as rupture of the tumor, hemorrhage, and multi-visceral resection, and to improve survivals for patients with a large gastric gastrointestinal stromal tumor (GIST). This study aims to evaluate the efficacy and safety of neoadjuvant imatinib therapy for a large gastric GIST. Methods: Patients with gastric GIST, which is 10cm or larger and without metastasis, received neoadjuvant imatinib (400mg/day) for 6 months, and up to 9 months if maximal response is expected. Postoperative adjuvant imatinib was prescribed for at least 1 year and up to 3 years according to adjuvant treatment guideline. The primary endpoint was complete (R0) resection rate. A primary analysis were performed by the time all the operations were finished, to examine the efficacy and safety of the neoadjuvant treatment. Results: Between Feb 2010 and Sep 2014, 55 patients were enrolled in Japan and Korea. One patient with a jejunal GIST and one patient with PDGFRA-18 D842V mutation were excluded from analysis. Mean tumor diameter was 12cm (10-23). 86.8% of patients (46/53) completed neoadjuvant treatment. Dose reduction of imatinib was performed in 26.4% (14/53). The most frequent Grade 3 or 4 adverse events were G3 rash (5/53, 9.4%) and G3/4 neutropenia (4/53, 7.5%). Disease control rate (PR+SD) and response rate (PR) of neoadjuvant imatinib was 100% and 62.3% by RECIST, and 100% and 98.1% by Choi criteria, respectively. There was no case of CR or PD. 50 patients underwent operation, and R0 resection rate was 90.6% (n = 48, 95% CI 79.3% - 96.9%), which was significantly higher than the threshold value of 70% (p 〈 0.001). Combined resection of other organs (except gall bladder) was performed in 24.5% (n = 13), and 83.0% of patients (n = 44) could preserve ≥ 50% of the stomach. Postoperative complication occurred in 18.0% (9/50). Conclusions: Neoadjuvant imatinib treatment is effective and safe treatment option for a large primary GIST allowing high R0 resection rate with acceptable incidence of adverse events and postoperative complications. Clinical trial information: UMIN000003114.

Type of Medium: Online Resource

ISSN: 0732-183X , 1527-7755

URL: Article

DOI: 10.1200/jco.2016.34.4_suppl.130

RVK:

XA 52760

RVK:

XA 10000

Language: English

Publisher: American Society of Clinical Oncology (ASCO)

Publication Date: 2016

detail.hit.zdb_id: 2005181-5

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NIR fluorochrome labeled anti-carcinoembryonic antigen monoclonal antibody for gastric cancer-specific image guided surgery.

Koo, Eunhee ; Jeong, Kyoung-Yun ; Yoo, Jaeun ; [et al.]

American Society of Clinical Oncology (ASCO) ; 2022

In: Journal of Clinical Oncology Vol. 40, No. 4_suppl ( 2022-02-01), p. 340-340

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In: Journal of Clinical Oncology, American Society of Clinical Oncology (ASCO), Vol. 40, No. 4_suppl ( 2022-02-01), p. 340-340

Abstract: 340 Background: Carcinoembryonic antigen (CEA) is a widely known tumor marker that is clearly expressed in gastrointestinal tract cancer. We utilized a CEA-specific chimeric antibody conjugated to a near infrared (NIR) fluorophore to facilitate CEA-targeted fluorescence image–guided surgery (FGS) of gastric cancer. The anti-CEA antibody, SGM-101 is conjugated with NIR dye BM-105, which has an absorbance band centered at 705 nm. Methods: RNA sequencing data of 34 gastric cancer cell lines from Cancer Cell Line Encyclopedia were screened and validated by qPCR and western blotting. Flow cytometry and confocal microscopy were performed by SGM-101, Alexa Fluor-680, Isotype-101 and Isotype-680 to quantify fluorescence intensity. SGM-101(n = 5) or Isotype-101(n = 2) was injected to mouse xenografts through a tail vein which had been subcutaneously implanted with MKN-45, SNU-16, and SNU-668. IVIS Spectrum quantified radiant efficiency of fluorescence in the region of interest at serial time points. The extracted tumor in peak time was analyzed by confocal imaging for microdistribution. In addition, 85As2mLuc were injected intraperitoneally in 6-week-old female BALB/c-nu mice for peritoneal carcinomatosis. Bioluminescence/fluorescence imaging was performed with IVIS Spectrum at peak time and analyzed via Living Image. Histologic evaluations were processed with H & E and Immunohistochemistry (IHC) data by a pathologist. Results: RNA expression of ceacam5 and protein expression of CEA in gastric cell lines was measured by RNA sequencing, qPCR, and western blotting. CEA expression patterns displays similar with fluorescence intensity patterns which were quantified through flow cytometry and immunocytochemistry show that CEA localized in membranes. In subcutaneously implanted model, the radiant efficiency of each group shows that the accumulation of SGM-101 has significantly higher fluorescence signal in the high CEA expressing group (MKN-45) and medium expressing group (SNU-16) while no fluorescence signal was observed in the CEA negative group (SNU-668) via IVIS Spectrum. Biodistribution of SGM-101 indicates that the maximum peak accumulation point was 48 hours after tail vein injection. Frozen tissue which was extracted at peak detection time shows micro-distribution of SGM-101 and expression of extracted tissue CEA expression was validated with IHC by pathological analysis. In the peritoneal carcinomatosis model, the imaging of fluorescence detection patterns corresponds with bioluminescence imaging and histological evaluation. Conclusions: CEA expression corresponded with intensity of in vitro fluorescence immunodetection and a tumor area accumulation in gastric cancer xenografts by SGM-101. This study indicates that NIR tumor specific imaging can be a feasible tool for image-guided surgery.

Type of Medium: Online Resource

ISSN: 0732-183X , 1527-7755

URL: Article

DOI: 10.1200/JCO.2022.40.4_suppl.340

RVK:

XA 52760

RVK:

XA 10000

Language: English

Publisher: American Society of Clinical Oncology (ASCO)

Publication Date: 2022

detail.hit.zdb_id: 2005181-5

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First-in-human phase I trial of anti-hepatocyte growth factor (HGF) antibody (YYB101) in refractory solid tumor patients: Integrative pathologic-genomic analysis and the final results.

Lee, Jeeyun ; Kim, Seung ; Nam, Do-Hyun ; [et al.]

American Society of Clinical Oncology (ASCO) ; 2019

In: Journal of Clinical Oncology Vol. 37, No. 15_suppl ( 2019-05-20), p. 3104-3104

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In: Journal of Clinical Oncology, American Society of Clinical Oncology (ASCO), Vol. 37, No. 15_suppl ( 2019-05-20), p. 3104-3104

Abstract: 3104 Background: It has been demonstrated in vivo that HGF-MET signaling axis is a key molecular determinant in tumor invasion and there is a significant association in HGF expression and mesenchymal phenotype in addition to immune cell recruitment. We have developed a HGF neutralizing humanized monoclonal antibody antibody, YYB-101. The aim of this study was to determine the maximum tolerate dose (MTD), safety, pharmacokinetics (PK), and pharmacodynamics (PD) of YYB101, in patients with refractory solid tumors. Methods: YYB101 was administered intravenously at once every 2 weeks doses of 0.3, 1, 3, 5, 10, 20, 30 mg/kg, according to a 3+3 dose escalation design. Enrolled patients were planned to receive YYB101 until disease progression or intolerable toxicity. The escalation and expansion cohorts (20mg/kg) were completed. Pre-planned biomarker analysis was performed in parallel. Results: 39 heavily pre-treated refractory cancer patients were enrolled and received YYB101. No DLT was observed. YYB101 demonstrated dose proportional PK up to the dose of 30 mg/kg. No patients discontinued treatment because of adverse events. Based on PK analysis and toxicity data, the recommended dose was determined as 20 mg/kg. Of 39 evaluation patients, there was 1 confirmed partial response for 〉 +14months (2.5%, N = 1; 1 (of 2) sebaceous carcinoma) and 17 stable disease as best response (43.5%, N = 17; 7 (of 13) CRC, 3 (of 4) melanoma, 1 (of 2) sebaceous carcinoma, 1 (of 3) gastric, 1 (of 1) basal cell carcinoma, 2 (of 10) ovarian cancer, 1 (of 1) HCC, 1 (of 1) lung cancer). Of note, 1 sebaceous carcinoma patient who have failed to ≥2+ lines of chemotherapy, have been responding to YYB for 14 months. The MET and HGF expressions by immunohistochemistry (IHC) were evaluated in 19 and 17 tumor specimens, respectively. Neither protein expressions were significant predictors for treatment response to anti-HGF antibody. However, we have observed significant reduction in HGF in responders to YYB. Two long-term responders had mesenchymal signature in RNA sequencing. Conclusions: YYB101 has a favorable safety profile in patients with refractory solid tumors and a dose-proportional PK. Efficacy data are encouraging and phase II combination therapy with YYB101 is planned to be open in metastatic CRC patients as salvage treatment. The predictive power of mesenchymal signature in YYB responders will be defined prospectively. Clinical trial information: 02499224.

Type of Medium: Online Resource

ISSN: 0732-183X , 1527-7755

URL: Article

DOI: 10.1200/JCO.2019.37.15_suppl.3104

RVK:

XA 52760

RVK:

XA 10000

Language: English

Publisher: American Society of Clinical Oncology (ASCO)

Publication Date: 2019

detail.hit.zdb_id: 2005181-5

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First-in-human phase I trial of anti-hepatocyte growth factor (HGF) antibody (YYB101) in refractory solid tumor patients.

Lee, Jeeyun ; Kim, Seung ; Lee, Sujin ; [et al.]

American Society of Clinical Oncology (ASCO) ; 2018

In: Journal of Clinical Oncology Vol. 36, No. 15_suppl ( 2018-05-20), p. e14501-e14501

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In: Journal of Clinical Oncology, American Society of Clinical Oncology (ASCO), Vol. 36, No. 15_suppl ( 2018-05-20), p. e14501-e14501

Type of Medium: Online Resource

ISSN: 0732-183X , 1527-7755

URL: Article

DOI: 10.1200/JCO.2018.36.15_suppl.e14501

RVK:

XA 52760

RVK:

XA 10000

Language: English

Publisher: American Society of Clinical Oncology (ASCO)

Publication Date: 2018

detail.hit.zdb_id: 2005181-5

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