Recommendations on the use of 18F-FDG PET/CT in Oncology: consensus between the Brazilian Society of Cancerology and the Brazilian Society of Biology, Nuclear Medicine and Molecular Imaging

Soares Junior, José; Fonseca, Roberto Porto; Cerci, Juliano Julio; Buchpiguel, Carlos Alberto; Cunha, Marcelo Livorsi da; Mamed, Marcelo; Almeida, Sérgio Altino de

doi:10.1590/S0100-39842010000400010

Abstracts

The authors present a list of recommendations on the utilization of 18F-FDG PET/CT in oncology for the diagnosis, staging and detection of cancer, as well as in the follow-up of the disease progression and possible recurrence. The recommendations were based on the analysis of controlled studies and a systematic review of the literature including both retrospective and prospective studies regarding the clinical usefulness and the impact of 18F-FDG PET/CT on the management of cancer patients. 18F-FDG PET/CT should be utilized as a supplement to other conventional imaging methods such as computed tomography and magnetic resonance imaging. Positive results suggesting changes in the clinical management should be confirmed by histopathological studies. 18F-FDG PET should be utilized in the diagnosis and appropriate clinical management of cancer involving the respiratory system, head and neck, digestive system, breast, genital organs, thyroid, central nervous system, besides melanomas, lymphomas and occult primary tumors.

FDG-PET; Oncology; Diagnosis; Clinical indications

Apresentamos uma lista de recomendações sobre a utilização de 18F-FDG PET em oncologia, no diagnóstico, estadiamento e detecção de recorrência ou progressão do câncer. Foi realizada pesquisa para identificar estudos controlados e revisões sistemáticas de literatura composta por estudos retrospectivos e prospectivos. As consequências e o impacto da 18F-FDG PET no manejo de pacientes oncológicos também foram avaliados. A 18F-FDG PET deve ser utilizada como ferramenta adicional aos métodos de imagem convencionais como tomografia computadorizada e ressonância magnética. Resultados positivos que sugiram alteração no manejo clínico devem ser confirmados por exame histopatológico. A 18F-FDG PET deve ser utilizada no manejo clínico apropriado para o diagnóstico de cânceres do sistema respiratório, cabeça e pescoço, sistema digestivo, mama, melanoma, órgão genitais, tireoide, sistema nervoso central, linfoma e tumor primário oculto.

PET-FDG; Oncologia; Diagnóstico; Indicações clínicas

SPECIAL ARTICLE

Recommendations on the use of ¹⁸F-FDG PET/CT in Oncology. Consensus between the Brazilian Society of Cancerology and the Brazilian Society of Biology, Nuclear Medicine and Molecular Imaging^*

José Soares Junior^I; Roberto Porto Fonseca^II; Juliano Julio Cerci^III; Carlos Alberto Buchpiguel^IV; Marcelo Livorsi da Cunha^V; Marcelo Mamed^VI; Sérgio Altino de Almeida^VII

^IPhD, President of Sociedade Brasileira de Biologia, Medicina Nuclear e Imagem Molecular (SBBMN), São Paulo, SP, Brazil

^IIPhD, President of Sociedade Brasileira de Cancerologia (SBC), Salvador, BA, Brazil

^IIIPhD, Director for the PET/CT Center of Quanta - Diagnóstico Nuclear, Curitiba, PR, Brazil

^IVPhD, Director for the Service of Nuclear Medicine, Instituto de Radiologia do Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo (InRad/HC-FMUSP), São Paulo, SP, Brazil

^VPhD, Service of Nuclear Medicine and PET/CT, Department of Radiology, Hospital Israelita Albert Einstein, São Paulo, SP, Brazil

^VIPhD, Instituto Nacional de Câncer (INCA), Rio de Janeiro, RJ, Brazil

^VIIPhD, Nuclear Physician at Hospital Samaritano - Clínica Felippe Mattoso and Clínica de Medicina Nuclear Villela Pedras, Rio de Janeiro, RJ, Brazil

Mailing address

ABSTRACT

The authors present a list of recommendations on the utilization of ¹⁸F-FDG PET/CT in oncology for the diagnosis, staging and detection of cancer, as well as in the follow-up of the disease progression and possible recurrence. The recommendations were based on the analysis of controlled studies and a systematic review of the literature including both retrospective and prospective studies regarding the clinical usefulness and the impact of ¹⁸F-FDG PET/CT on the management of cancer patients. ¹⁸F-FDG PET/CT should be utilized as a supplement to other conventional imaging methods such as computed tomography and magnetic resonance imaging. Positive results suggesting changes in the clinical management should be confirmed by histopathological studies. ¹⁸F-FDG PET should be utilized in the diagnosis and appropriate clinical management of cancer involving the respiratory system, head and neck, digestive system, breast, genital organs, thyroid, central nervous system, besides melanomas, lymphomas and occult primary tumors.

Keywords: FDG-PET; Oncology; Diagnosis; Clinical indications.

INTRODUCTION

Today's medicine poses a number of challenges to clinical practice in daily care of patients. Increasing developments and advances in imaging methods for diagnosis and follow-up of disease have resulted in a considerable increase in costs associated with the incorporation of such new technologies into the health system. Thus, one of the greatest challenges that society is facing, is solving the problem of the utilization of more accurate diagnostic methods versus the costs associated with the incorporation of such new technologies.

In the mid-eighties, positron emission tomography (PET) utilizing ¹⁸F-Labeled 2-Deoxy-2-fluoro-D-glucose(¹⁸F-FDG) was introduced as an in vivo imaging method to demonstrate the human body metabolic activity. Since then, numberless scientific publications have reported undeniable advances in oncologic clinical practice. Malignant cells, in their greatest majority, present high glycolytic metabolism as compared with healthy tissues. Such a difference in the glucose consumption favors the detection of disease by means of ¹⁸F-FDG PET. Thus, a change was observed in the paradigm for evaluation of tumors historically evaluated by means of morphological imaging methods such as computed tomography (CT), to a metabolism-based analysis. Considering that metabolic-biochemical processes precede morphological/structural changes, it is inexorable to verify the advantages of PET both in the diagnosis as well as in the follow-up of oncologic patients.

The ¹⁸F-FDG PET is useful in the diagnosis of neoplasias (differentiating benign from malignant tumors), in the staging, in the assessment of early and late therapeutic responses, as well as in the evaluation of tumor recurrence and in the restaging of oncologic patients.

In 2001, another technological breakthrough was achieved with the integration of CT and PET, resulting in a hybrid PET/ CT equipment that allows immediate sequential acquisition of PET and CT images, making the method even more complete, by gathering and localizing the metabolic alterations with basis on anatomic data in a single scan. The high impact of the method in terms of accuracy and clinical effectiveness has allowed its rapid dissemination, culminating in the coverage of expenses with this diagnostic method by innumerable health plans and systems in the USA, Europe and in some developing countries.

In Brazil, PET methodology was first introduced in 1998 with the adoption of scintillation chambers with coincidence circuit. Later, in 2003, dedicated PET and PET/CT scans were gradually incorporated into the diagnostic arsenal. Recently, a sharp increase has been observed in the number of scans installed at both public and private institutions, in association with an increasing number of cyclotron facilities (equipment that produce the positron emitting isotopes utilized in the performance of the examinations). In Brazil, cyclotrons are distributed over different regions of the country, allowing the decentralization in the performance of PET/CT studies.

Because of the proven clinical effectiveness of the method and the absence of a consensus on the use of such method in the country, the Sociedade Brasileira de Biologia, Medicina Nuclear e Imagem Molecular - SBBMN (Brazilian Society of Nuclear Medicine and Molecular Imaging) and Sociedade Brasileira de Cancerologia - SBC (Brazilian Society of Cancerology) have joined efforts with the purpose of developing a List of Recommendations on the Use of ¹⁸F-FDG PET/CT in Oncology in order to define clinical guidelines for an appropriate utilization of the method. Experienced professionals in the areas of nuclear medicine and oncology, representing the respective medical societies participated in the effort for development of the present recommendations. A nuclear physician indicated by the Instituto Nacional de Câncer - INCA (National Cancer Institute) has also collaborated in this effort.

As a result of such joint effort, a well established list of recommendations on the use of ¹⁸F-FDG PET/CT in oncology was prepared. The participating societies had a great preoccupation in defining the clinical conditions in which ¹⁸F-FDG PET/CT could bring real impact to patients, reducing the cost of its utilization. The professionals participating in this effort believe that such a list of recommendations will be of great relevance, considering that it will provide guidelines for the indication of ¹⁸F-FDG PET/CT as it is a powerful tool for an appropriate approach to patients with different types of tumors.

The product from this effort, officially publicized during a special plenary session of the Brazilian Congress of Oncology held in October/2009 in the city of Curitiba, PR, Brazil, with the participation of the presidents of the respective societies, members of the specialty committees, and INCA representatives.

The recommendations on the use of ¹⁸F-FDG PET/CT in oncology were established with basis on the search for best clinical evidences in the medical literature and categorized as: appropriate (Class IA), acceptable (Class IB), auxiliary (Class IIA), still unknown (Class IIB) and unnecessary or without sufficient data available (Class III)^(1,2). With the purpose of establishing a list of recommendations comprising the clinical conditions in which the ¹⁸F-FDG PET/CT could be of real value for patients with cost reduction, it was established that classes IA and IB present a solid basis for the utilization of ¹⁸F-FDG PET/CT in the medical practice.

The recommendations and practical guidelines developed by professional organizations on the use of ¹⁸F-FDG PET and ¹⁸F-FDG PET/CT in oncology are summarized on the next pages. It is important to observe that other clinical situations may be added to these recommendations provided they are based upon solid clinical evidences.

CLINICAL RECOMMENDATIONS

1 - Respiratory tract cancers

1.1 - Non-small cell lung cancer (NSCLC)

Lung cancer presents the highest worldwide incidence. According to latest estimates, 1,438,916 deaths caused by lung cancer were reported in 2008, with 52% of the cases occurring in developed countries⁽¹⁾. The estimated number of new cases of lung cancer in Brazil in 2008 was 27,270 corresponding to an estimated risk of 19 new cases per 100 thousand men, and 10 new cases per 100 thousand women. Unless the cases of non-melanoma skin tumors are considered, lung cancer is the third most frequent type of cancer in Brazil. Probably, NSCLC is the pathology in which ¹⁸F-FDG PET is most utilized ^(2,3)with the following indications:

Evaluation of solitary pulmonary nodules > 1.0 cm (Class IA) - It must be taken into consideration that there are some situations (inflammatory/infectious diseases, granulomatous diseases) in which false-positives results may be observed. However the negative predictive value is above 90%.

Nodal staging of NSCLC (Class IA) - The surgical approach with curative intent is essentially restricted for patients with disease staged as I to IIIA, lymph nodes evaluation being essential. With high sensitivity and specificity (around 90%), ¹⁸F-FDG PET is currently the most accurate imaging method for both nodal and extranodal staging in patients with NSCLC.

In the restaging of NSCLC (Class IA) - Considering the structural imaging methods limitations, ¹⁸F-FDG PET can differentiate local recurrence from fibrosis in patients after surgery, with high sensitivity and specificity (around 90%).

In the planning of radiotherapy for NSCLC (Class IB) - ¹⁸F-FDG PET/CT é preferable to CT alone for the definition of radiotherapy fields in the presence of poststenotic atelectasis.

1.2 - Mesothelioma

Malignant mesothelioma is a tumor that originates in the multipotent mesothelial cells of the pleura. It is the main primary malignant neoplasia of the pleura and presents a high degree of malignancy, characterized by local invasion of soft tissues such as chest walls, pulmonary parenchyma, pericardium and regional lymph nodes, besides possible metastases to lungs, liver, pancreas, kidneys, adrenals and bone marrow, significantly reducing the mean survival of patients (approximately 12 months), regardless the type of therapy adopted. Mesotheliomas present high affinity with ¹⁸F-FDG. For this reason, studies with ¹⁸F-FDG PET are indicated^(4-6):

Differential diagnosis between benign and malignant lesions (Class IIA).

Staging (Class IB).

Assessment of therapeutic response (Class IIA).

2 - Head & neck tumors

It is estimated that in 2008 head and neck tumors caused 370,739 deaths worldwide. The estimated incidence in the United States is of 35,720 cases, corresponding to 2.4% of new cases of cancer. In Brazil, 10,380 new cases of oral cavity cancer are estimated for 2009. The applications of ¹⁸F-FDG PET/CT in cases of head and neck cancer comprise^(7-9):

Staging, mainly for defining the surgical approach (unilateral or bilateral) (Class IA).

Detection of recurrent or residual disease (Class IA).

Detection of primary tumor of unknown origin in patients with metastatic disease (Class IA).

3 - Gastrointestinal tract cancers

3.1 - Esophageal cancer

The World Health Organization (WHO) has estimated 562,440 deaths caused by esophageal cancer worldwide in 2008. It is estimated that esophageal cancer caused 14,530 deaths in the United States in 2008. In Brazil, according to the latest INCA's estimates indicate 10,550 new cases of esophageal cancer in 2009. In 2005, there were 6,457 deaths related to esophageal cancer in the country. ¹⁸F-FDG PET has shown to be efficient in the following situations^(6,10):

Initial staging in cases with no evidence of metastases at CT (Class IB).

Post-chemotherapy follow-up (Class IIA).

3.2 - Colorectal carcinoma

As regards incidence, colorectal cancer is the third most common cause of cancer-related deaths worldwide, causing 694,847 deaths in 2008. The estimated number of new cases of colorectal cancer in Brazil for 2008 is 12,490 cases in the male population and 14,500 cases in the female population, corresponding to an estimated risk of 13 new cases per 100 thousand men and 15 new cases per 100 thousand women. One of the first indications for ¹⁸F-FDG PET occurred in the eighties for evaluation of local recurrence in a case of colorectal cancer. With excellent sensitivity and specificity (> 90%), ¹⁸F-FDG PET is fundamental in the detection of lymph node metastases, peritoneal involvement, hepatic and pulmonary metastases. Thus, the applications of ¹⁸F-FDG PET in colorectal cancer include^(6,11,12):

Initial staging (Class III).

Increased CEA (carcinoembryonic antigen) levels, without evidence of lesions by conventional imaging methods (Class IA).

Assessment of metastases resectability (Class IA).

Detection of recurrence in the event of inconclusive radiological findings, even in the absence of CEA levels in non-secreting tumors (Class IA).

3.3 - Gastrointestinal stromal tumor (GIST)

Mesenchymal tumors are the most frequently found neoplasms in the intestinal submucosa and comprise 1% of the tumors in the gastrointestinal tract. These tumors present an unpredictable behavior, and most of times are asymptomatic, being accidentally found during endoscopic or radiological examination. The occurrence of such tumors is evenly distributed among men, women and individuals aged above 50 years. In approximately two thirds of the cases the tumor is located in the stomach. In 25% of cases, the tumor is located in the small bowel, one third of them in the duodenum. Colorectal involvement occurs in about 10% of the cases. Gastrointestinal stromal tumors also present an intense ¹⁸F-FDG uptake. Thus the main indications for ¹⁸F-FDG PET are the following^(13-15):

Staging (Class IIA).

Restaging (Class IB).

Assessment of therapeutic response, particularly in patients treated with Imatinib, in whom the metabolic response evaluated by ¹⁸F-FDG PET may anticipate by weeks the response provided by anatomical methods (Class IA).

4 - Breast cancer

Breast cancer is the second most frequent type of cancer in the world and the most common among women. Every year, 22% of all new cases of tumors in women are breast cancers. In 2008, there were estimated 559,081 deaths related to breast cancer worldwide. According to the National Cancer Institute (NCI), 194,280 new cases will be diagnosed in the United States. In 2008, 49,400 new cases of breast cancer were estimated in Brazil with an estimated risk of 51 cases per 100 thousand women. The applications of 18F-FDG PET in cases of breast cancer, considering ductal carcinoma, include^(6,16-18):

Detection of metastatic or recurrent breast cancer in patients under clinical suspicion (Class IA).

Restaging in patients with loco-regional recurrence or metastasis (Class IA).

Evaluation of treatment response in patients with locally advanced disease or metastatic cancer (Class IA).

Post-treatment follow-up (Class III).

5 - Melanoma

Melanomas occur less frequently than other skin tumors (basal cell and squamous cells tumors), however their lethality is higher. The WHO estimates that annually 132,000 new cases occur worldwide, with estimated 72,901 related deaths. In the United States, 68,720 new cases are estimated for 2009, while in Brazil 5,920 new cases are estimated for the same period. The applications of PET in cases of melanoma include^(6,19,20):

Staging in high-risk patients (Breslow > 1.5 mm) (Class IA).

Restaging of high-risk patients with melanoma, or candidates for metastasectomy, except for very small lesions (< 3 mm in diameter) and central nervous system lesions (Class IA).

6 - Genital cancers

6.1 - Ovarian cancer

In 2008, 155,326 deaths related to ovarian cancer were estimated in the world. In the United States, 21,550 new cases were expected for 2009. Approximately 90% of all ovarian cancers are of epithelial type and originate from cells on the ovarian surface. The remaining 10% are of germinal-cell type and stromal tumors. The five-year survival rate is 92% for in cases of focal disease, but distant metastasis occurs in 30% of cases. Clinical applications include⁽²¹⁾:

Restaging following first-line treatment (Class IA).

Increased CA125 levels, with no lesion identified by conventional imaging methods (Class IB).

6.2 - Uterine cervix cancer

With approximately 500 thousand new cases/year worldwide, uterine cervix cancer is the second most common type of cancer among women, causing 286,451 deaths per year. The rate of incidence is approximately two times higher in less developed countries as compared with developed countries. In Brazil, the number of new cases of uterine cervix cancer in 2008 was 18,680, with estimated risk of 19 cases per 100 thousand women. Approximately 43% of patients diagnosed with locally advanced disease (III e IVA) are candidates for systemic treatment. The initial clinical staging of uterine cervix cancer is notoriously inaccurate. In this context, ¹⁸F-FDG PET has demonstrated to be extremely useful in patients with locally advanced disease, particularly through the characterization of apparently normal retroperitoneal lymph nodes at CT or magnetic resonance imaging (MRI). In the assessment of therapeutic response of patients submitted to radiotherapy and chemotherapy, ¹⁸F-FDG PET presents a higher accuracy than anatomic imaging methods and a complete metabolic response has a high prognostic value. Another contribution of the ¹⁸F-FDG PET study can be observed in the restaging of patients with suspicion of disease recurrence⁽²¹⁾. The clinical applications of ¹⁸F-FDG PET/CT in cases of uterine cervix cancer are the following:

Initial staging of locally advanced disease (Class IB).

Restaging and evaluation of therapeutic response (Class IIB).

In the suspicion of disease recurrence (Class IIA).

In radiotherapy planning (Class IIA).

6.3 - Testicular cancer

Indicated in the evaluation of seminomas.^(22,23)

Restaging, in the evaluation of residual masses, after orchiectomy and chemotherapy (Class IA).

7 - Thyroid cancer

Differentiated thyroid carcinomas present increased ¹⁸F-FDG uptake. Several studies have reported high sensitivity and specificity (75-85% and 90%, respectively) in the detection of metastasis in patients with well-differentiated thyroid carcinoma, with negative or dubious ¹³¹I whole-body scan (¹³¹I WBS) results and increased thyroglobulin (Tg) levels (> 10 ng/ml). In these cases, ¹⁸F-FDG PET is indicated as a diagnostic method provided an ascending Tg curve is observed and cervical ultrasonography (US) and chest CT present negative results^(12,24). Recent data indicate the usefulness of ¹⁸F-FDG PET in the evaluation of disease extent even in patients with positive WBS. Therefore, ¹⁸F-FDG PET may also be indicated for patients with positive WBS, as the demonstration of additional lesions by ¹⁸F-FDG PET may determine significant changes in the clinical approach of these patients. The applications can be summarized as follows:

Papillary carcinoma with Tg > 10 ng/ml or stimulated Tg > 5 ng/ml and negative ¹³¹I-WBS (Class IA).

Follicular carcinoma with Tg > 10 ng/ml or stimulated Tg > 5 ng/ml and negative ¹³¹I-WBS (Class IA).

Hurthle cell carcinoma with Tg > 10 ng/ ml or stimulated Tg > 5 ng/ml and negative ¹³¹I-WBS (Class IA).

Medullary carcinoma, restaging in patients with a progressive increase in calcitonin levels and negative or inconclusive investigation by imaging methods (Class IB)⁽¹⁷⁾.

Anaplastic carcinoma (Class III).

8 - Central nervous system tumors

¹⁸F-FDG PET presents good results in the evaluation of recurrent high-grade primary CNS tumors. In the evaluation of gliomas recidivation, the structural images (CT and MRI) present difficulties in the differentiation between viable tumor cells, edema and fibrosis, while ¹⁸F-FDG PET demonstrates a significant increase in the ¹⁸F-FDG uptake by the recurrent high-grade tumor. Therefore, ¹⁸F-FDG PET was classified as Class IIA for the detection of recurrent high-grade gliomas^(25,26). In cases of low-grade gliomas, whose ¹⁸F-FDG uptake is only moderately increased, the study with ¹⁸F-FDG is not indicated.

Restaging of glioblastoma multiforme / anaplastic astrocytoma / anaplastic oligodendroglioma (Class IA).

Patients with suspicious, ill-defined CNS lesion (s) at conventional imaging methods (Class IIA).

9 - Lymphomas

Lymphomas are the fifth most frequent neoplasias in the USA, and comprise a heterogeneous group of lymphocytic neoplasias, basically divided into two categories: Hodgkin lymphoma (HL) and non-Hodgkin lymphoma (NHL). It is estimated that 74,490 cases were diagnosed in 2009, causing 359,993 deaths in 2008. With the exception of low-grade NHLs, NHLs and HLs, lymphomas present intense ¹⁸F-FDG uptake. In the staging, ¹⁸F-FDG PET presents higher sensitivity and specificity in the detection of nodal and extranodal involvement. In the restaging, particularly in the evaluation of residual masses, ¹⁸F-FDG

PET presents excellent accuracy in the noninvasive characterization of lymphomas^(27,28). Particularly in Brazil, this method is highly cost-effective⁽²⁹⁾. Thus, the clinical recommendations for the use of ¹⁸F-FDG PET in cases of lymphomas are the following:

Initial staging (Class IA).

Restaging following first-line treatment (Class IA).

Evaluation of early response to chemotherapy (Class IIA).

Follow-up (Class III).

10 - Identification of occult primary tumor

The detection of unknown primary neoplasias represents a challenge for oncologists and imaginologists. In many cases the patients present with evident metastatic disease. The diagnosis of primary neoplasia is relevant, as it will define the type of treatment. Several reports are found in the literature about the utilization of ¹⁸F-FDG PET in this clinical condition^(30,31).

Identification of occult primary tumor (Class IIA).

REFERENCES

¹
Ministério da Saúde/Funasa/CENEPI. Sistema de Informações sobre Mortalidade - SIM / Instituto Brasileiro de Geografia e Estatística - IBGE / Indicadores e Dados Básicos 2008 - IDB 2008. [acessado em 1º de outubro de 2009]. Disponível em: http://www.saude.sc.gov.br/inf_saude/sim_informacoes/index.htm
2. Gould MK, Kuschner WG, Rydzak CE, et al. Test performance of positron emission tomography and computed tomography for mediastinal staging in patients with non-small-cell lung cancer: a meta-analysis. Ann Intern Med. 2003;139:879-92.
3. Fischer BM, Mortensen J, Hrjgaard L. Positron emission tomography in the diagnosis and staging of lung cancer: a systematic, quantitative review. Lancet Oncol. 2001;2:659-66.
4. van Meerbeeck JP, Boyer M. Consensus report: pretreatment minimal staging and treatment of potentially resectable malignant pleural mesothelioma. Lung Cancer. 2005;49 Suppl 1:S123-7.
5. Orki A, Akin O, Tasci AE, et al. The role of positron emission tomography/computed tomography in the diagnosis of pleural diseases. Thorac Cardiovasc Surg. 2009;57:217-21.
6. Veit-Haibach P, Schaefer NG, Steinert HC, et al. Combined FDG-PET-CT in response evaluation of malignant pleural mesothelioma. Lung Cancer. 2010;67:311-7.
7. Institute for Clinical Evaluative Sciences. Health technology assessment of positron emission tomography (PET) in oncology: a systematic review. Toronto, ON. Institute for Clinical Evaluative Sciences; April 2004.
8. Nieder C, Gregoire V, Ang KK. Cervical lymph node metastases from occult squamous cell carcinoma: cut down a tree to get an apple? Int J Radiat Oncol Biol Phys. 2001;50:727-33.
⁹
Blue Cross and Blue Shield Association. FDG positron emission tomography in head and neck cancer. TEC Assessment. 2000;15(4).
10. van Westreenen HL, Westerterp M, Bossuyt PM, et al. Systematic review of the staging performance of 18F-fluorodeoxyglucose positron emission tomography in esophageal cancer. J Clin Oncol. 2004;22:3805-12.
11. Liu YN, Huang MX, An Q, et al. The impact of PET/CT on therapeutic strategy of patients with colorectal cancer metastasis. Hepatogastroenterology. 2009;56:968-70.
12. Wiering B, Krabbe PF, Jager GJ, et al. The impact of fluor-18-deoxyglucose-positron emission tomography in the management of colorectal liver metastases. Cancer. 2005;104:2658-70.
13. Van den Abbeele AD. The lessons of GIST-PET and PET-CT: a new paradigm for imaging. Oncologist. 2008;13 Suppl 2:8-13.
14. Choi H, Charnsangavej C, de Castro Faria S, et al. CT evaluation of the response of gastrointestinal stromal tumors after imatinib mesylate treatment: a quantitative analysis correlated with FDG PET findings. AJR Am J Roentgenol. 2004;183: 1619-28.
15. Wahl RL, Jacene H, Kasamon Y, et al. From RECIST to PERCIST: evolving considerations for PET response criteria in solid tumors. J Nucl Med. 2009;50 Suppl 1:122S-50S.
16. Isasi CR, Moadel RM, Blaufox MD. A meta-analysis of FDG-PET for the evaluation of breast cancer recurrence and metastases. Breast Cancer Res Treat. 2005;90:105-12.
17. Rosen EL, Eubank WB, Mankoff DA. FDG PET, PET/CT, and breast cancer imaging. Radiographics. 2007;27 Suppl 1:S215-29.
18. Almubarak M, Osman S, Marano G, et al. Role of positron-emission tomography scan in the diagnosis and management of breast cancer. Oncology (Williston Park). 2009;23:255-61.
19. Mijnhout GS, Hoekstra OS, van Tulder MW, et al. Systematic review of the diagnostic accuracy of 18F-fluorodeoxyglucose positron emission tomography in melanoma patients. Cancer. 2001; 91:1530-42.
20. Schwimmer J, Essner R, Patel A, et al. A review of the literature for whole-body FDG PET in the management of patients with melanoma. Q J Nucl Med. 2000;44:153-67.
21. Schwarz JK, Grigsby PW, Dehdashti F, et al. The role of 18F-FDG-PET in assessing therapy response in cancer of the cervix and ovaries. J Nucl Med. 2009;50 Suppl 1:64S-73S.
22. Hinz S, Schrader M, Kempkensteffen C, et al. The role of positron emission tomography in the evaluation of residual masses after chemotherapy for advanced stage seminoma. J Urol. 2008;179: 936-40.
23. Bourguet P, Planchamp F, Montravers F, et al. Recommendation for clinical practice: use of PET-FDG in cancer of the kidney, prostate, testicles, and the urinary bladder. Bull Cancer. 2006; 93:1228-32.
24. Hooft L, Hoekstra OS, Devillé W, et al. Diagnostic accuracy of 18F-fluorodeoxyglucose positron emission tomography in the follow-up of papillary or follicular thyroid cancer. J Clin Endocrinol Metab. 2001;86:3779-86.
25. Ullrich RT, Kracht LW, Jacobs AH. Neuroimaging in patients with gliomas. Semin Neurol. 2008;28: 484-94.
26. Chen W, Silverman DH. Advances in evaluation of primary brain tumors. Semin Nucl Med. 2008; 38:240-50.
27. Facey K, Bradbury I, Laking G, et al. Positron emission tomography (PET) imaging in cancer management. Ultra Rapid Review. Health Technology Assessment. National Health Service (NHS) Research & Development (R&D) Programme. Southampton, UK: NHS R&D Programme; July 2004.
28. Isasi CR, Lu P, Blaufox MD. A metaanalysis of 18F-2-deoxy-2-fluoro-D-glucose positron emission tomography in the staging and restaging of patients with lymphoma. Cancer. 2005;104: 1066-74.
29. Cerci JJ, Trindade E, Pracchia LF, et al. Cost effectiveness of positron emission tomography in patients with Hodgkin's lymphoma in unconfirmed complete remission or partial remission after first-line therapy. J Clin Oncol. 2010;28: 1415-21.
30. Delgado-Bolton RC, Fernández-Pérez C, González-Maté A, et al. Meta-analysis of the performance of 18F-FDG PET in primary tumor detection in unknown primary tumors. J Nucl Med. 2003;44:1301-14.
31. Rusthoven KE, Koshy M, Paulino AC. The role of fluorodeoxyglucose positron emission tomography in cervical lymph node metastases from an unknown primary tumor. Cancer. 2004;101: 2641-9.

Endereço para correspondência:

Sociedade Brasileira de Biologia, Medicina Nuclear e Imagem Molecular

Avenida Paulista, 491, cj. 53, Bela Vista

01311-000. São Paulo, SP, Brasil

E-mail:

sbbmn@sbbmn.org.br

*

Trabalho realizado na Sociedade Brasileira de Cancerologia (SBC), Salvador, BA, e na Sociedade Brasileira de Biologia, Medicina Nuclear e Imagem Molecular (SBBMN), São Paulo, SP, Brasil.

Publication Dates

Publication in this collection
16 Sept 2010
Date of issue
Aug 2010

History

Accepted
11 June 2010
Received
01 Mar 2010

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] ¹
Ministério da Saúde/Funasa/CENEPI. Sistema de Informações sobre Mortalidade - SIM / Instituto Brasileiro de Geografia e Estatística - IBGE / Indicadores e Dados Básicos 2008 - IDB 2008. [acessado em 1º de outubro de 2009]. Disponível em: http://www.saude.sc.gov.br/inf_saude/sim_informacoes/index.htm

[2] 2. Gould MK, Kuschner WG, Rydzak CE, et al. Test performance of positron emission tomography and computed tomography for mediastinal staging in patients with non-small-cell lung cancer: a meta-analysis. Ann Intern Med. 2003;139:879-92.

[3] 3. Fischer BM, Mortensen J, Hrjgaard L. Positron emission tomography in the diagnosis and staging of lung cancer: a systematic, quantitative review. Lancet Oncol. 2001;2:659-66.

[4] 4. van Meerbeeck JP, Boyer M. Consensus report: pretreatment minimal staging and treatment of potentially resectable malignant pleural mesothelioma. Lung Cancer. 2005;49 Suppl 1:S123-7.

[5] 5. Orki A, Akin O, Tasci AE, et al. The role of positron emission tomography/computed tomography in the diagnosis of pleural diseases. Thorac Cardiovasc Surg. 2009;57:217-21.

[6] 6. Veit-Haibach P, Schaefer NG, Steinert HC, et al. Combined FDG-PET-CT in response evaluation of malignant pleural mesothelioma. Lung Cancer. 2010;67:311-7.

[7] 7. Institute for Clinical Evaluative Sciences. Health technology assessment of positron emission tomography (PET) in oncology: a systematic review. Toronto, ON. Institute for Clinical Evaluative Sciences; April 2004.

[8] 8. Nieder C, Gregoire V, Ang KK. Cervical lymph node metastases from occult squamous cell carcinoma: cut down a tree to get an apple? Int J Radiat Oncol Biol Phys. 2001;50:727-33.

[9] ⁹
Blue Cross and Blue Shield Association. FDG positron emission tomography in head and neck cancer. TEC Assessment. 2000;15(4).

[10] 10. van Westreenen HL, Westerterp M, Bossuyt PM, et al. Systematic review of the staging performance of 18F-fluorodeoxyglucose positron emission tomography in esophageal cancer. J Clin Oncol. 2004;22:3805-12.

[11] 11. Liu YN, Huang MX, An Q, et al. The impact of PET/CT on therapeutic strategy of patients with colorectal cancer metastasis. Hepatogastroenterology. 2009;56:968-70.

[12] 12. Wiering B, Krabbe PF, Jager GJ, et al. The impact of fluor-18-deoxyglucose-positron emission tomography in the management of colorectal liver metastases. Cancer. 2005;104:2658-70.

[13] 13. Van den Abbeele AD. The lessons of GIST-PET and PET-CT: a new paradigm for imaging. Oncologist. 2008;13 Suppl 2:8-13.

[14] 14. Choi H, Charnsangavej C, de Castro Faria S, et al. CT evaluation of the response of gastrointestinal stromal tumors after imatinib mesylate treatment: a quantitative analysis correlated with FDG PET findings. AJR Am J Roentgenol. 2004;183: 1619-28.

[15] 15. Wahl RL, Jacene H, Kasamon Y, et al. From RECIST to PERCIST: evolving considerations for PET response criteria in solid tumors. J Nucl Med. 2009;50 Suppl 1:122S-50S.

[16] 16. Isasi CR, Moadel RM, Blaufox MD. A meta-analysis of FDG-PET for the evaluation of breast cancer recurrence and metastases. Breast Cancer Res Treat. 2005;90:105-12.

[17] 17. Rosen EL, Eubank WB, Mankoff DA. FDG PET, PET/CT, and breast cancer imaging. Radiographics. 2007;27 Suppl 1:S215-29.

[18] 18. Almubarak M, Osman S, Marano G, et al. Role of positron-emission tomography scan in the diagnosis and management of breast cancer. Oncology (Williston Park). 2009;23:255-61.

[19] 19. Mijnhout GS, Hoekstra OS, van Tulder MW, et al. Systematic review of the diagnostic accuracy of 18F-fluorodeoxyglucose positron emission tomography in melanoma patients. Cancer. 2001; 91:1530-42.

[20] 20. Schwimmer J, Essner R, Patel A, et al. A review of the literature for whole-body FDG PET in the management of patients with melanoma. Q J Nucl Med. 2000;44:153-67.

[21] 21. Schwarz JK, Grigsby PW, Dehdashti F, et al. The role of 18F-FDG-PET in assessing therapy response in cancer of the cervix and ovaries. J Nucl Med. 2009;50 Suppl 1:64S-73S.

[22] 22. Hinz S, Schrader M, Kempkensteffen C, et al. The role of positron emission tomography in the evaluation of residual masses after chemotherapy for advanced stage seminoma. J Urol. 2008;179: 936-40.

[23] 23. Bourguet P, Planchamp F, Montravers F, et al. Recommendation for clinical practice: use of PET-FDG in cancer of the kidney, prostate, testicles, and the urinary bladder. Bull Cancer. 2006; 93:1228-32.

[24] 24. Hooft L, Hoekstra OS, Devillé W, et al. Diagnostic accuracy of 18F-fluorodeoxyglucose positron emission tomography in the follow-up of papillary or follicular thyroid cancer. J Clin Endocrinol Metab. 2001;86:3779-86.

[25] 25. Ullrich RT, Kracht LW, Jacobs AH. Neuroimaging in patients with gliomas. Semin Neurol. 2008;28: 484-94.

[26] 26. Chen W, Silverman DH. Advances in evaluation of primary brain tumors. Semin Nucl Med. 2008; 38:240-50.

[27] 27. Facey K, Bradbury I, Laking G, et al. Positron emission tomography (PET) imaging in cancer management. Ultra Rapid Review. Health Technology Assessment. National Health Service (NHS) Research & Development (R&D) Programme. Southampton, UK: NHS R&D Programme; July 2004.

[28] 28. Isasi CR, Lu P, Blaufox MD. A metaanalysis of 18F-2-deoxy-2-fluoro-D-glucose positron emission tomography in the staging and restaging of patients with lymphoma. Cancer. 2005;104: 1066-74.

[29] 29. Cerci JJ, Trindade E, Pracchia LF, et al. Cost effectiveness of positron emission tomography in patients with Hodgkin's lymphoma in unconfirmed complete remission or partial remission after first-line therapy. J Clin Oncol. 2010;28: 1415-21.

[30] 30. Delgado-Bolton RC, Fernández-Pérez C, González-Maté A, et al. Meta-analysis of the performance of 18F-FDG PET in primary tumor detection in unknown primary tumors. J Nucl Med. 2003;44:1301-14.

[31] 31. Rusthoven KE, Koshy M, Paulino AC. The role of fluorodeoxyglucose positron emission tomography in cervical lymph node metastases from an unknown primary tumor. Cancer. 2004;101: 2641-9.