UMLS:C0242379 - FACTA Search

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Query: UMLS:C0242379 (lung cancer)
71,905 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Patients with type 2 diabetes (DM) demonstrate inadequate insulin release, elevated gluconeogenesis, and diminished nonoxidative glucose disposal. Similar metabolic changes occur during systemic injury caused by infection, trauma, or cancer. Described here are metabolic changes occurring in 16 DM and 11 lung cancer patients (CA) and 13 normal volunteers (NV). After a 10-h overnight fast, all subjects had fasting hormone and substrate concentrations determined, along with rates of glucose production, leucine appearance (LA), and leucine oxidation (LO). Fasting insulin (data not shown) and C-peptide concentrations were elevated in DM and CA compared with weight-matched NV (0.72 +/- 0.09 and 0.64 +/- 0.08 vs. 0.51 +/- 0.03 mg/l, P < 0.05). C-reactive protein concentration was elevated in CA compared with DM and NV (23.3 +/- 6.0 vs. 4.2 +/- 1.4 and 2.1 +/- 0.5 mg/l, P < 0.01). All counterregulatory hormones were normal except for serum cortisol (11.4 +/- 1.0 and 12.1 +/- 1.0 vs. 8.9 +/- 0.7 microg/dl, DM and CA vs. NL, respectively, P < 0.05). Glucose production was increased in DM and CA compared with NV (4.22 +/- 0.6 and 3.53 +/- 0.3 vs. 2.76 +/- 0.2 mg x kg lean body wt(-1) x min(-1), P < 0.01). LO and LA were increased in DM and CA compared with NV (LO: 27.3 +/- 1.5 and 19.7 +/- 1.5 vs. 12.5 +/- 1.1 mmol x kg lean body wt(-1) x min(-1), P < 0.05; LA: 91.9 +/- 6.6 and 90.7 +/- 7.0 vs. 79.1 +/- 6.0 mmol. kg lean body wt(-1) x min(-1), P < 0.01). DM share similar metabolic derangements with CA. The increase in LA may be secondary to an increased glucose production where amino acids are mobilized to provide the liver with adequate substrate to make glucose. The increase in glucose production may also be part of the injury response, or it may represent a form of insulin resistance that exists in both the DM and (non-DM) CA patients.
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PMID:Type 2 diabetic patients may have a mild form of an injury response: a clinical research center study. 1200 58

Peroxisome Proliferator Activated Receptor-gamma (PPAR-gamma) is a ligand-activated transcription factor belonging to the steroid receptor superfamily. It is a key regulator of adipogenic differentiation and glucose homeostasis, the ligands of which have also been demonstrated to induce differentiation in human breast, lung and colon cancer cell lines. In the present study, PPAR-gamma expression in cases of non-small cell lung carcinoma (NSCLC) was examined immunohistochemically and was correlated with tumor histological type and grade. Primary tumor samples from 147 patients with NSCLC were immunostained using a monoclonal antibody against PPAR-gamma. Positive PPAR-gamma immunostaining was prominent in 61 out of 147 cases (42%) and negative in the rest. PPAR-gamma positivity was prominent in 37 out of 79 cases (47%) of squamous cell lung carcinoma and in 24 out of 68 ones (35%) of lung adenocarcinoma. PPAR-gamma positivity was most frequently observed in squamous cell tumors (P=0.021) and in tumors of high histological grade of both histological types (P=0.041). Well-differentiated adenocarcinoma cases presented increased frequency for PPAR-gamma positivity compared with moderately and poorly differentiated ones (P=0.001). The intensity and pattern of PPAR-gamma staining in tumor cells were not correlated with histopathological parameters in PPAR-gamma positive cases of NSCLC examined. Our findings support evidence for participation of this protein in the biological mechanisms underlying the carcinogenic evolution in the lung, suggesting also the importance of specific PPAR-gamma ligands as future therapeutic approach in lung cancer.
Lung Cancer 2002 Jun
PMID:Expression of peroxisome proliferator activated receptor-gamma in non-small cell lung carcinoma: correlation with histological type and grade. 1200 33

In the past 5 yrs, positron emission tomography (PET), usually used with 18F-fluoro-2-deoxy-glucose (FDG), has become an important imaging modality in lung cancer patients. Currently, the use of FDG-PET in respiratory oncology is mainly for diagnosis and staging. Standard indications are the evaluation of an indeterminate solitary pulmonary nodule or mass, where FDG-PET has proven to be significantly more accurate than computed tomography (CT) in the distinction between benign and malignant lesions. Several studies have also convincingly demonstrated that locoregional lymph node staging by FDG-PET (in correlation with CT images) is significantly superior to CT, with a negative predictive value equal or even superior to mediastinoscopy. FDG-PET also improves extrathoracic staging, through the detection of lesions missed at conventional imaging or characterization of lesions that remain equivocal on conventional imaging. Many European countries now have or plan reimbursement in these indications. Large-scale randomized studies should now focus on the impact this accurate tumour imaging technique has on treatment outcome and cost-efficacy. Ongoing studies in specialized centres focus on the use of FDG-PET in more advanced clinical applications, such as planning radiotherapy, response evaluation after radiotherapy or (induction) chemotherapy, follow-up and early detection of recurrence, and prognostic information in this in vivo measurement of tumour glucose metabolism. After a short note on the technique used and a summary of the current common indications of diagnosis and staging, this paper will deal mainly with two of the more advanced clinical applications of FDG-PET in locally advanced nonsmall cell lung cancer: radiation treatment planning and assessment of induction chemotherapy. Finally, it should be mentioned that a whole new field of applications of positron emission tomography in molecular biology, using new radiopharmaceutical probes, is under extensive investigation. These techniques are promising for future use in very early response monitoring during chemo- or radiotherapy, in evaluation of novel molecular-targeted lung cancer therapies, or even gene therapy.
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PMID:Imaging in lung cancer: positron emission tomography scan. 1206 81

Positron emission tomography (PET) with [18F]-fluorodeoxyglucose (FDG) is a tool for the imaging and evaluation of glucose metabolism. This technique has recently become available in more than thirty hospitals and has been approved under Japan's national health insurance program. FDG uptake correlates with glucose utilization in tissue and is widely used for evaluating malignant tumors as well as brain function and myocardial viability. FDG-PET is useful for the diagnosis of lung cancer, colon cancer, esophageal cancer, malignant lymphoma, malignant melanoma, head and neck cancer, myocardial viability, and epileptic focus. A brief summary of the application and utility of FDG-PET for esophageal carcinoma is described in this article. Because of its limited spatial resolution, FDG-PET is not able to evaluate the invasiveness of primary tumors and small lesions. However, the uptake of FDG correlates with the aggressiveness of the tumor and the prognosis of patients with esophageal carcinoma. The sensitivity, specificity, and accuracy of lymph node staging is higher than that with CT. FDG-PET has the advantage of being able to detect distant metastases on a single occasion. Evaluation of the response to therapy and of recurrence is also possible by means of FDG-PET. There is some normal uptake and physiological distribution of FDG in many organs. Physiological status has an effect on the uptake of FDG in normal organs, and, consequently, on lesion uptake. Understanding of these characteristics makes this procedure a useful diagnostic modality for the management of patients with esophageal carcinoma.
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PMID:[Current status of nuclear medicine. Clinical application of FDG-PET for cancer diagnosis. Esophageal cancer]. 1207 32

Lung cancer is one of the most common malignant tumors in humans. Metastasis is the basic biological feature of malignant tumors, which is the main cause of death. Molecular mechanism of metastasis is still unclear, although lots of studies have been done in tumor metastasis. To study and explore the molecular basis of metastasis in lung cancer, and isolate tumor metastasis-related genes, two human lung adenocarcinoma cell lines AGZY 83-a and Anip 973 were chosen as research materials. The Anip973 was derived from AGZY83-a, but manifested much higher metastasis potential than the parent line. Using mRNA differential display technique, an unknown cDNA fragment, OPB7-1, which is over-expressive in Anip973 cell line, was obtained. It was used as a template to isolate its corresponding cDNA through dbEST searching and PCR. To search and clone lung adenocarcinoma metastasis-related candidate gene, and to explore the molecular basis of development of lung carcinoma, differential expression of OPB7-1 cDNA fragment among 9 human lung adenocarcinoma cell lines and 12 normal human tissues were detected using cell culture, cDNA clone, Northern blot analysis and bioinformation technology. Results showed that there were significant differences in OPB7-1 expression among 9 human lung adenocarcinoma cell lines. High expression tendency was observed in Anip973 cell line with high metastasis potential, TKB-18 cell line with high invasion potential and GLC-82 cell line with low differentiation potential. Besides, a bigger fragment can be found in Anip973 cell line on the Northern blot hybridization. The 3.0 kb transcriptions were found in various tissues. Over-expression in heart and skeletal muscle could be observed, whereas expression in spleen, liver, kidney, placental and lung could be found except colon, thyroid gland and small intestine. These manifests indicate that OPB7-1 gene has a wide-rage expression in human multiple tissues. A 1.0 kb cDNA fragment was acquired by linking up EST fragments homologous match 5' end and PCR. BLAST analysis revealed that OPB7-1 gene has extremely low sequence identity with any known genes from GenBank and any sequences from EST database. The chromosomal localization of it was determined by RH location method. The OPB7-1 fragment was localized to chromosome 1p31-34. That OPB7-1 gene has an extensive expression pattern, may be a novel tumor gene related to lung carcinoma. Further research needs to be done to obtain the full-length cDNA of OPB7-1 gene. It will be helpful to investigate the expression in lung cancer cases and other tumor tissues for further determining the function of OPB7-1 gene in development of tumor.
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PMID:[Mapping and expression analysis of a different expression cDNA fragment from lung adenocarcinoma cell line]. 1209 22

Since publication of the Radiologic Diagnostic Oncology Group Report in 1991, the clinical application of pulmonary magnetic resonance (MR) imaging to patients with lung cancer has been limited. Computed tomography has been much more widely available for staging of lung cancer in clinical situations. Currently, ventilation and perfusion scintigraphy is the only modality that demonstrates pulmonary function while 2-[fluorine-18]-fluoro-2-deoxy-D-glucose positron emission tomography is the only modality that reveals biological glucose metabolism of lung cancer. However, recent advancements in MR imaging have made it possible to evaluate morphological and functional information in lung cancer patients more accurately and quantitatively. Pulmonary MR imaging may hold significant potential to substitute for nuclear medicine examinations. In this review, we describe recent advances in MR imaging of lung cancer, focusing on (1) characterization of solitary pulmonary nodules; (2) differentiation from secondary change; evaluation of (3) medastinal invasion, (4) chest wall invasion, (5) lymph node metastasis, and (6) distant metastasis; and (7) pulmonary functional imaging. We believe that further basic studies, as well as clinical applications of newer MR techniques, will play an important role in the management of patients with lung cancer.
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PMID:MR imaging of lung cancer. 1246 66

In the past 5 years, metabolic imaging with positron emission tomography (PET) using 18F-fluoro-2-deoxy-glucose (FDG) has become an important imaging modality in lung cancer patients. FDG-PET consistently proved to be superior to structure-based imaging modalities in both the diagnosis and staging of lung cancer. At this moment the use of FDG-PET in these indications needs further validation in multi-centre large-scale randomised studies, focusing mainly on treatment outcome parameters, survival and cost-efficacy. More recently, interesting findings have also been reported in the response assessment to cytotoxic treatments providing information of greater prognostic significance than can be obtained using conventional approaches. This review focuses on the potential role of FDG-PET in the diagnosis of lung nodules and masses, and in locoregional and extrathoracic staging of non-small cell lung cancer. Emphasis is put on the potential clinical implementation of the numerous data of the last decade.
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PMID:Value of FDG-PET in the management of non-small cell lung cancer. 1249 64

18F-fluorodeoxyglucose (FDG) PET imaging provides physiologic and metabolic information that characterizes lesions that are indeterminate by CT. FDG PET imaging is sensitive to the detection of lung cancer in patients who have indeterminate lesions on CT, whereas low grade malignancy such as bronchioloalveolar carcinoma and carcinoid may be negative on FDG PET. The specificity of PET imaging is less than its sensitivity because some inflammatory processes, such as active granulomatous infections, avidly accumulate FDG. This possibility should be kept in mind in the analysis of PET studies of glucose metabolism aimed at differentiating malignant from benign solitary pulmonary nodules. FDG uptake is considered to be a good marker of cell differentiation, proliferative potential, aggressiveness, and the grade of malignancy in patients with lung cancer. FDG PET accurately stages the distribution of lung cancer. Several studies have documented the increased accuracy of PET compared with CT in the evaluation of the hilar and mediastinal lymphnode status in patients with lung cancer. Whole-body PET studies detect metastatic disease that is unsuspected by conventional imaging. Management changes have been reported in up to 41% of patients on the basis of the results of whole-body studies. Whole-body FDG PET is also useful for the detection of recurrence. Several studies have indicated that the degree of FDG uptake in primary lung cancer can be used as an independent prognostic factor. Thus, whole-body FDG PET is clinically very useful in the management of lung cancer.
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PMID:Value of whole-body FDG PET in management of lung cancer. 1269 Nov 25

OBJECTIVE: To compare kinetics and accumulation of 2-[fluorine-18]-fluoro-2-deoxy-D-glucose (FDG) in primary lung cancer between diabetic and non-diabetic patients using positron emission tomography (PET).METHODS: Five diabetic patients and 21 non-diabetic patients underwent dynamic FDG-PET to image untreated primary lung cancers. Standardized uptake value normalized for lean body mass (SUL) was determined in tumor, blood, muscle, and lung. A 3-compartment metabolic model was applied to FDG kinetics in tumors in 24 of 26 patients.RESULTS: At the time of PET scans, serum glucose levels were elevated in 5 diabetic patients, while 21 non-diabetic patients showed normal glucose levels. In diabetic patients, tumor SUL, tumor/blood and tumor/muscle SUL ratios were significantly decreased (P < 0.02) and also tumor/lung SUL ratio declined (P = 0.064), as compared to non-diabetic patients. In addition, the rate constant for FDG phosphorylation (k3) and influx constant (Ki) in diabetic patients were significantly lower than those in non-diabetic patients (P < 0.02).CONCLUSION: In diabetic patients, the rate of FDG accumulation in tumors is decreased, and tumor targeting with FDG is impaired. Diabetes may reduce the sensitivity of FDG-PET for lung cancer detection.
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PMID:Diabetes Decreases FDG Accumulation in Primary Lung Cancer. 1451 52

Several studies have shown the benefit of fluorine-18 fluorodeoxy glucose (FDG) imaging in the differentiation of solitary pulmonary nodules. The majority of malignant tumor have a higher glucose metabolic rate as compared to benign lesions. However, there is a considerable variety in glucose metabolic rate that depends on the aggressiveness and histological subtype of the tumor. Technetium-99m sestamibi (MIBI) is another tumor imaging agent for SPECT. We present a case of bronchioloalveolar cell carcinoma with a false negative finding in FDG imaging and a positive finding in MIBI imaging. This case clearly indicates that the FDG uptake and MIBI uptake might provide different information regarding characteristics of lung cancer.
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PMID:Discrepant uptake between fluorine-18 fluorodeoxy glucose and Tc-99m sestamibi in bronchioloalveolar cell carcinoma. 1457 87

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