Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0027627 (metastases)
 103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nuclear medicine continues to evolve from a generic imaging approach to a collection of imaging techniques that are disease-specific. In-111 octreotide SPECT scan has quickly become the method of choice to image gastrinoma. A number of other agents have a role in other tumor models. FDG imaging of the liver is in its infancy, but has potential to outperform anatomic methods (CT scan, MR imaging), particularly in the detection of colorectal cancer metastases. The imaging of FDG in nuclear medicine involves rapidly evolving technology and has the potential to diffuse to the community level practice. To further face the controversial areas head on, another problem for nuclear medicine's role in hepatic imaging remains its somewhat separate existence from radiology. Frequently, the abdominal imager or the general radiologist is in the best position to recommend a scintigraphic liver study. A broad knowledge of these techniques by all radiologists is essential for their ultimate success.
 ...
PMID:Scintigraphic techniques for hepatic imaging. Update for 2000. 952 Sep 84

We performed a retrospective analysis to evaluate the ability of whole-body F-fluorodeoxyglucose positron emission tomography (FDG PET) to identify local recurrence and pulmonary metastases in patients with soft-tissue tumours after treatment. We compared the results of FDG PET with those of MRI for the detection of local recurrence, and with CT of the chest for pulmonary metastases. We assessed 62 patients of mean age 51 years, who had 15 types of soft-tissue sarcoma, after a mean follow-up of 3 years 2 months. For the detection of local disease, 71 comparisons showed that the sensitivity and specificity of FDG PET were 73.7% and 94.3%, respectively; there were 14 true-positive and five false-negative results. MRI had a sensitivity and specificity of 88.2% and 96.0% respectively. For the identification of lung metastases, 70 comparisons showed that the sensitivity and specificity of FDG PET were 86.7% and 100%, with 13 true-positive results and two false-negative results. CT of the chest had a sensitivity and specificity of 100% and 96.4%. Thirteen other sites of metastases were identified by FDG PET. FDG PET can identify both local and distant recurrence of tumour as a one-step procedure and will detect other metastases. It seems that all three methods of imaging are needed to define accurately the extent of disease, both at initial staging and during follow-up.
 ...
PMID:Evaluation of fluorodeoxyglucose positron emission tomography in the management of soft-tissue sarcomas. 961 33

Present limitations of available procedures for the diagnosis of breast cancer have stimulated the development of new methods based on Positron Emission Tomography (PET). PET can be used to evaluate primary lesions, regionally metastatic and systemic metastases of breast cancer by use of tracers including 15O-water 62Cu PTSM, [11C]L-methionine, [18F]fluordeoxyglucose and [18F]fluoro-17-estradiol, for the assessment of blood flow, metabolism and receptor density. FDG-PET is an excellent clinical method to detect primary breast lesions over 1 cm in diameter and to characterize such lesions. Several reports have also indicated various degrees of sensitivity and specificity of PET-FDG in detecting axillary lymph nodes. However, the precise role of PET in staging breast cancer remains to be defined in careful prospective studies. Prospective evaluation of PET during breast cancer chemohormonotherapy demonstrated a decline in FDG uptake in patients responsive to treatment, while no significant decline in FDG uptake is seen in the non-responding patients examined post initiation of treatment. PET may be useful when used in combination with other techniques of morphological imaging, for the proper characterization of hypermetabolic tissue. Additional studies including large populations with known or suspected breast cancer will enhance the clinical role of this technique for solving difficult diagnostic questions.
 ...
PMID:Overview of the current status of PET in breast cancer imaging. 964 39

In breast cancer patients the detection of axillary lymph node involvement is a very critical issue, in view of the earlier diagnosis of the disease in recent years, and the increased frequency of very small tumors at first presentation. The size of cancer is related to the risk of axillary metastases, and this may affect the prognosis and the therapeutic strategies. Axillary lymph node involvement is generally recognized as an index of distant microdiffusion, and as it affects overall and disease-free survival, represents the basis for adoption of adjuvant chemotherapy. Routine axillary lymph node dissection (ALND) is expensive, and does not benefit about 70% of early breast cancer patients which are node negative (pN-). Today most of these patients have to sustain the potential morbidity and the economic costs of ALND. The clinical approach is known to be an unreliable diagnostic tool, and for the detection of axillary metastases, conventional X-ray techniques are also unable to solve the problem. By contrast, nuclear medicine procedures have revealed a very interesting diagnostic potential in recent years. This paper analyzes the numerous studies conducted in the field of lymph node visualization and the heterogeneity of the published experiences, taking into account the different approaches proposed in the literature: a) imaging with gamma-emitting tumor seeking agents; b) radioimmunoscintigraphy intravenous (i.v.) or by the interstitial route; c) lymphoscintigraphy with colloids and gamma probe sentinel biopsy; d) positron emission tomography (PET). Although it is very difficult to make a definitive statement about the clinical efficacy of all these methods, this paper reports the most important series of patients examined in the literature as well as the author's own experiences. This can serve as the basis for a better understanding of the potential of nuclear medicine procedures, and gives the reader the opportunity to weigh advantages and drawbacks of each method. At present, lymphoscintigraphy with gamma probe sentinel biopsy and FDG-PET are the nuclear medicine approaches with the best diagnostic performance. However, a correct comparison of the methods will not be possible, until their careful assessment in the same patients is performed. In addition, a final statement today should consider also the increasing need to carry out an economic analysis by evaluating the cost-effectiveness of the examinations.
 ...
PMID:Nuclear medicine approaches for detection of axillary lymph node metastases. 964 46

Over the last 25 years the diagnostic approaches and therapeutic strategies of breast cancer have dramatically changed. The relationship between diagnosis and therapy has gradually become more complex due to the ever more sophisticated diagnostic tools (mammographic screening, digital mammography, magnetic resonance, SPECT scan and FDG-PET), which have improved resolution limits and accuracy, and also due to the different therapeutic planning applied to breast cancer in these years (conservative surgery, neo-adjuvant chemotherapy, axillary dissection or not). Thus, in this paper, we have briefly analyzed the many open questions in breast cancer management and the clinical challenges of present diagnostic tools in relation to pre-, peri- and postoperative phases, and to therapeutic strategies in general. The main goal of mammographic screening is to detect early invasive cancers and to treat them at the first useful moment. However, at which age should one begin screening, and what is the impact on overall survival, the cost-effectiveness, and, most of all, the best operative approach to suspect lesions? Can digital mammography give a better quality of imaging with respect to conventional mammography? Does unexpected multicentricity and/or multifocality, which is sometimes showed by magnetic resonance, have any clinical relevance? Is this technique really better than traditional methods for the identification of local recurrence? Is scintimammography able to improve the low diagnostic accuracy of mammography on non-palpable breast lesions? Moreover, at present, the need for axillary dissection and its therapeutic and staging value is deeply debated: however, clinical detection of axillary metastases is not a reliable diagnostic tool and there are no conventional radiologic techniques to be used: recently nuclear medicine imaging has provided various approaches, such as SPECT scan with different tracers, FDG-PET, or lymphoscintigraphy with gamma probe sentinel biopsy: there are not only methodologic but also phylosophic differences in using these techniques. Neo-adjuvant chemotherapy has allowed a dramatic reduction of primary breast cancer with a replanning of the surgical approach to large breast tumours but, at the same time, has posed new questions such as the adequacy of diagnostic pre- and perioperative revaluation. Finally, does postoperative follow-up take advantage of intensive diagnostic programs and are there therapeutic margins which would improve survival of patients with metastatic disease? This paper is an attempt to analyze the answers given in the literature. Nevertheless, at present, this matter is globally in progress and a scientific debate will provide, in the near future, a new promising scenario for breast cancer management.
 ...
PMID:Impact of the diagnostic methods on the therapeutic strategies. 964 47

Despite advances in morphological imaging, some patients with lung cancer are found to have non resectable disease at surgery or die of recurrence within a year of surgery. At present, metastatic bone involvement is usually assessed using bone scintigraphy, which has a high sensitivity but a poor specificity. We have attempted to evaluate the utility of the fluorine-18 deoxyglucose positron emission tomography (FDG PET) for the detection of bone metastasis. One hundred and ten consecutive patients with histological diagnosis of non-small cell lung cancer (NSCLC) who underwent both FDG PET and bone scintigraphy were selected for this review. In this group, there were 43 patients with metastatic disease (stage IV). Among these, 21 (19% of total group) had one or several bone metastases confirmed by biopsy (n = 8) or radiographic techniques (n = 13). Radionuclide bone scanning correctly identified 54 out of 89 cases without osseous involvement and 19 out of 21 osseous involvements. On the other hand, FDG PET correctly identified the absence of osseous involvement in 87 out of 89 patients and the presence of bone metastasis in 19 out of 21 patients. Thus using PET there were two false-negative and two false-positive cases. PET and bone scanning had, respectively, an accuracy of 96% and 66% in the evaluation of osseous involvement in patients with NSCLC. In conclusion, our data suggest that whole-body FDG PET may be useful in detecting bone metastases in patients with known NSCLC.
 ...
PMID:Fluorine-18 deoxyglucose positron emission tomography for the detection of bone metastases in patients with non-small cell lung cancer. 972 72

Three patients with primary breast sarcoma showed intense F-18 FDG breast uptake on the whole-body scan. In two patients the uptake was irregular and associated with cold foci that corresponded to hypodense lesions noted on the chest CT; these represented areas of pathologically demonstrated tumor necrosis. There was also intense FDG uptake in pulmonary, axillary, and supraclavicular lymph node metastases. All lesions were confirmed by CT scan of the chest. Thus F-18 FDG positron emission tomographic scanning accurately staged the tumors in these two patients, and it documented local recurrence in the third patient. Histopathologic examination showed evidence of a high-grade sarcoma, a primary rhabdomyosarcoma, and a malignant cystosarcoma phyllodes of the breast. Similar to breast carcinoma, F-18 FDG whole-body positron emission tomographic imaging could be useful in diagnosing and staging primary breast sarcomas.
 ...
PMID:F-18 FDG whole-body positron emission tomography scan in primary breast sarcoma. 973 83

An estimated 180,000 new cases of lung cancer will be diagnosed in the United States this year, and lung cancer accounts for approximately 25% of all cancer deaths. The overall 5-year survival rate is 14%, and this has not changed over the past several decades. Lung cancer diagnosis and treatment is a major health problem globally. Most lung cancers are detected initially on chest radiographs, but many benign lesions have radiologic characteristics similar to malignant lesions. Thus, additional studies are required for further evaluation. Computed tomography (CT) is most frequently used to provide additional anatomic and morphologic information about the lesion, but it is limited in distinguishing benign from malignant abnormalities in the lung, pleura, and mediastinum. Because of the indeterminate results from anatomic imaging, biopsy procedures including thoracoscopy and thoracotomy may be used even through one-half of the lesions removed are benign and do not need to be removed. FDG-PET imaging provides physiologic and metabolic information that characterizes lesions that are indeterminate by CT and that accurately stages the distribution of lung cancer. Exploiting the fundamental biochemical differences between cancer and normal tissues, FDG imaging takes advantage of the increased accumulation of FDG in transformed cells. FDG-PET is very sensitive (approximately 95%) for the detection of cancer in patients who have indeterminate lesions on CT. The specificity (approximately 85%) of PET imaging is slightly less than the sensitivity because some inflammatory processes such as active granulomatous infections accumulate FDG avidly. The high-negative predictive value of PET suggests that lesions considered negative on the study are benign, biopsy is not needed, and radiographic follow-up is recommended. Several studies have documented the increased accuracy of PET compared with CT in the evaluation of the hilar and mediastinal lymph node status in patients with lung cancer. If the mediastinum is normal on PET imaging and there is no other evidence of metastatic disease, the patient has a thoracotomy. If the mediastinum is abnormal on PET imaging, mediastinoscopy is performed with the PET images providing the lymph node stations to target. Whole-body PET studies detect metastatic disease that is unsuspected by conventional imaging and demonstrate some of the anatomic abnormalities detected by CT to be benign lesions. Management changes have been reported to occur in up to 41% of patients based on the results of the whole-body studies.
 ...
PMID:Applications of PET in lung cancer. 980 Feb 37

With the variety of radiopharmaceutical agents and refined imaging techniques, thyroid and parathyroid imaging provides much valuable clinical information. The use of imaging is most important in the follow-up of differentiated (DTC) and medullary thyroid cancer (MTC). Patients with DTC are followed with serum thyroidglobulin and 131I whole body scintigraphy when the serum thyroglobulin level is elevated. When the 131I scintigram is negative, 201Tl scintigraphy may best identify the site of recurrent DTC. Alternative radioisotopes, ultrasound, CT, and FDG PET are also useful in localizing the site of DTC metastases. MTC recurrences and metastases are more difficult to image. Selective venous catheterization is the most sensitive and specific method for detecting areas of recurrent MTC. High-resolution ultrasound, CT, MR imaging, and scintigraphy are all capable of, and useful in, detecting macroscopic foci of metastatic tumor. Somatostatin receptor scintigraphy and 99mTc DMSA have been the most frequently used nuclear imaging agents in patients with recurrent MTC. Imaging for hyperparathyroidism remains controversial. Sestambi has become the preferred isotope for parathyroid scintigraphy; whereas high-resolution ultrasound is also frequently used. Preoperative imaging is being used as a method to allow a unilateral neck exploration, more recently, in conjunction with intraoperative 1-84 PTH assay and with intraoperative use of the gamma probe. Most often, parathyroid imaging is performed before reoperation for persistent hyperparathyroidism.
 ...
PMID:The use of imaging studies in the diagnosis and management of thyroid cancer and hyperparathyroidism. 982 66

[111In-DTPA-D-Phe1]-pentetreotide has been shown to localize well-differentiated and slowly growing neuroendocrine tumours, whereas increased FDG uptake is associated with malignancy. This prospective study explores the role of metabolic (PET) and receptor (SPET) imaging in well- and less well-differentiated tumours--gastroenteropancreatic (GEP) tumours, medullary thyroid carcinomas (MTC) and thymic carcinomas--in comparison with the expression of the Ki-67 antigen. Ten patients with GEP tumours, five with MTC and five with thymic carcinomas were studied. Prior to PET, somatostatin receptor scintigraphy (SRS) was performed in all patients. Sixty minutes after the intravenous administration of 18F-FDG (370 MBq), whole-body PET was performed. In addition, the resected tissues were prepared for immunocytochemistry examination (cell cycle-associated Ki-67 antigen). Preoperative SRS detected multiple primary tumours and metastatic lesions in four patients with well-differentiated carcinoids (low Ki-67 expression). Whole-body PET demonstrated normal distribution of FDG in all of these patients. In patients with recurrent MTC and rapidly increasing CEA levels, SRS showed no in vivo somatostatin receptor expression, whereas whole-body PET localized 24 locoregional lymph node metastases with increased FDG uptake. Immunocytochemistry of the resected lymph nodes demonstrated high Ki-67 expression associated with a high proliferative activity. Similar results in receptor scintigraphic and metabolic behaviour were obtained from patients with metastasizing thymic carcinomas (high Ki-67 expression). In conclusion, SRS has been shown to localize well-differentiated GEP tumours. In contrast, FDG PET is only valuable for predicting malignancy in less well-differentiated GEP tumours and malignant MTC associated with rapidly increasing CEA levels. Therefore, an additional 18F-FDG PET procedure should only be performed if SRS is negative. Furthermore, our preliminary results suggest that increased FDG metabolism reflects the invasiveness of thymic carcinomas.
 ...
PMID:Metabolic (PET) and receptor (SPET) imaging of well- and less well-differentiated tumours: comparison with the expression of the Ki-67 antigen. 985 44


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>