Significance of splenic uptake on somatostatin receptor imaging studies

Ismet Sarikaya; Ali Sarikaya; Naheel Alnafisi; Saud Alenezi

doi:10.5603/NMR.a2018.0012

Vol 21, No 1 (2018)

Review paper

Submitted: 2017-10-19

Accepted: 2018-01-09

Published online: 2018-01-10

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Significance of splenic uptake on somatostatin receptor imaging studies

Ismet Sarikaya, Ali Sarikaya, Naheel Alnafisi, Saud Alenezi

DOI: 10.5603/NMR.a2018.0012

Pubmed: 29319140

Nucl. Med. Rev 2018;21(1):66-70.

Vol 21, No 1 (2018)

Reviews

Submitted: 2017-10-19

Accepted: 2018-01-09

Published online: 2018-01-10

Abstract

Spleen shows a high physiological uptake on radionuclide somatostatin receptor (SSTR) imaging studies. Autoradiography and immunohistochemistry studies showed that SSTRs are mainly located in the red pulp of the spleen. In this review article we will summarize the significance of splenic uptake in SSTR imaging studies and will also present high resolution splenic images of Ga-68 DOTANOC PET in which splenic distribution of the radiotracer appears to be correlating with the distribution of red pulp.

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Keywords

Spleen, somatostatin receptor, SSTR, radionuclide, red pulp, scintigraphy, Ga-68 DOTANOC

About this article

Title

Significance of splenic uptake on somatostatin receptor imaging studies

Journal

Nuclear Medicine Review

Issue

Vol 21, No 1 (2018)

Article type

Review paper

Pages

66-70

Published online

2018-01-10

Page views

2636

Article views/downloads

2794

DOI

10.5603/NMR.a2018.0012

Pubmed

29319140

Bibliographic record

Nucl. Med. Rev 2018;21(1):66-70.

Keywords

Spleen
somatostatin receptor
SSTR
radionuclide
red pulp
scintigraphy
Ga-68 DOTANOC

Authors

Ismet Sarikaya
Ali Sarikaya
Naheel Alnafisi
Saud Alenezi

References (46)

Cesta MF. Normal structure, function, and histology of the spleen. Toxicol Pathol. 2006; 34(5): 455–465.
CrossRefPubMed
Olias G, Viollet C, Kusserow H, et al. Regulation and function of somatostatin receptors. J Neurochem. 2004; 89(5): 1057–1091.
CrossRefPubMed
Ando H. Chapter 5: Somatostatin. In: Takei Y, Tsutsui K, Ando H. ed. Handbook of Hormones:Handbook of Hormones: Comparative Endocrinology for Basic and Clinical Research Comparative Endocrinology for Basic and Clinical Research. 2016: 36–38.
He Y, Yuan XM, Lei P, et al. The antiproliferative effects of somatostatin receptor subtype 2 in breast cancer cells. Acta Pharmacol Sin. 2009; 30(7): 1053–1059.
CrossRefPubMed
Weinstock JV, Elliott D. The somatostatin immunoregulatory circuit present at sites of chronic inflammation. Eur J Endocrinol. 2000; 143 Suppl 1: S15–S19.
CrossRefPubMed
Stanisz AM, Scicchitano R, Payan DG, et al. In vitro studies of immunoregulation by substance P and somatostatin. Ann N Y Acad Sci. 1987; 496: 217–225.
CrossRefPubMed
Theodoropoulou M, Stalla GK. Somatostatin receptors: from signaling to clinical practice. Front Neuroendocrinol. 2013; 34(3): 228–252.
CrossRefPubMed
Reubi JC, Waser B, Horisberger U, et al. In vitro autoradiographic and in vivo scintigraphic localization of somatostatin receptors in human lymphatic tissue. Blood. 1993; 82(7): 2143–2151.
PubMed
Melis M, Kaemmerer D, de Swart J, et al. Localization of Radiolabeled Somatostatin Analogs in the Spleen. Clin Nucl Med. 2016; 41(2): e111–e114.
CrossRefPubMed
Reubi JC, Horisberger U, Kappeler A, et al. Localization of receptors for vasoactive intestinal peptide, somatostatin, and substance P in distinct compartments of human lymphoid organs. Blood. 1998; 92(1): 191–197.
PubMed
Boy C, Heusner TA, Poeppel TD, et al. 68Ga-DOTATOC PET/CT and somatostatin receptor (sst1-sst5) expression in normal human tissue: correlation of sst2 mRNA and SUVmax. Eur J Nucl Med Mol Imaging. 2011; 38(7): 1224–1236.
CrossRefPubMed
Ferone D, Pivonello R, Kwekkeboom DJ, et al. Immunohistochemical localization and quantitative expression of somatostatin receptors in normal human spleen and thymus: Implications for the in vivo visualization during somatostatin receptor scintigraphy. J Endocrinol Invest. 2012; 35(5): 528–534.
CrossRefPubMed
Aguila MC, Dees WL, Haensly WE, et al. Evidence that somatostatin is localized and synthesized in lymphoid organs. Proc Natl Acad Sci U S A. 1991; 88(24): 11485–11489.
CrossRefPubMed
Reubi JC, Schaer JC, Markwalder R, et al. Distribution of somatostatin receptors in normal and neoplastic human tissues: recent advances and potential relevance. Yale J Biol Med. 1997; 70(5-6): 471–479.
PubMed
Kwekkeboom D, Krenning E. Somatostatin receptor imaging. Seminars in Nuclear Medicine. 2002; 32(2): 84–91.
CrossRef
van Essen M, Krenning EP, Kam BLR, et al. Peptide-receptor radionuclide therapy for endocrine tumors. Nat Rev Endocrinol. 2009; 5(7): 382–393.
CrossRefPubMed
Miederer M, Seidl S, Buck A, et al. Correlation of immunohistopathological expression of somatostatin receptor 2 with standardised uptake values in 68Ga-DOTATOC PET/CT. Eur J Nucl Med Mol Imaging. 2009; 36(1): 48–52.
CrossRefPubMed
Gabriel M, Oberauer A, Dobrozemsky G, et al. 68Ga-DOTA-Tyr3-octreotide PET for assessing response to somatostatin-receptor-mediated radionuclide therapy. J Nucl Med. 2009; 50(9): 1427–1434.
CrossRefPubMed
Reisinger I, Bohuslavitzki KH, Brenner W, et al. Somatostatin receptor scintigraphy in small-cell lung cancer: results of a multicenter study. J Nucl Med. 1998; 39(2): 224–227.
PubMed
Kwekkeboom D, Krenning E, Kho G, et al. Somatostatin receptor imaging in patients with sarcoidosis. European Journal of Nuclear Medicine and Molecular Imaging. 1998; 25(9): 1284–1292.
CrossRef
Becker W, Marienhagen J, Scheubel R, et al. Octreotide scintigraphy localizes somatostatin receptor-positive islet cell carcinomas. Eur J Nucl Med. 1991; 18(11): 924–927.
CrossRefPubMed
Benevento A, Dominioni L, Carcano G, et al. Intraoperative localization of gut endocrine tumors with radiolabeled somatostatin analogs and a gamma-detecting probe. Semin Surg Oncol. 1998; 15(4): 239–244, doi: 10.1002/(sici)1098-2388(199812)15:4<239::aid-ssu11>3.0.co;2-4.
PubMed
Płachcińska A, Mikołajczak R, Kozak J, et al. Comparative analysis of 99mTc-depreotide and 99mTc-EDDA/HYNIC-TOC thorax scintigrams acquired for the purpose of differential diagnosis of solitary pulmonary nodules. Nucl Med Rev Cent East Eur. 2006; 9(1): 24–29.
PubMed
Kowalski J, Henze M, Schuhmacher J, et al. Evaluation of positron emission tomography imaging using [68Ga]-DOTA-D Phe(1)-Tyr(3)-Octreotide in comparison to [111In]-DTPAOC SPECT. First results in patients with neuroendocrine tumors. Mol Imaging Biol. 2003; 5(1): 42–48.
CrossRefPubMed
Gabriel M, Decristoforo C, Kendler D, et al. 68Ga-DOTA-Tyr3-octreotide PET in neuroendocrine tumors: comparison with somatostatin receptor scintigraphy and CT. J Nucl Med. 2007; 48(4): 508–518.
CrossRefPubMed
Buchmann I, Henze M, Engelbrecht S, et al. Comparison of 68Ga-DOTATOC PET and 111In-DTPAOC (Octreoscan) SPECT in patients with neuroendocrine tumours. Eur J Nucl Med Mol Imaging. 2007; 34(10): 1617–1626.
CrossRefPubMed
Balon HR, Brown TLY, Goldsmith SJ, et al. Society of Nuclear Medicine. The SNM practice guideline for somatostatin receptor scintigraphy 2.0. J Nucl Med Technol. 2011; 39(4): 317–324.
CrossRefPubMed
Pettinato C, Sarnelli A, Di Donna M, et al. 68Ga-DOTANOC: biodistribution and dosimetry in patients affected by neuroendocrine tumors. Eur J Nucl Med Mol Imaging. 2008; 35(1): 72–79.
CrossRefPubMed
Samnegård H, Tydén G, Thulin L, et al. Effect of somatostatin on regional splanchnic blood flows in man. Angiographic studies. Acta Chir Scand Suppl. 1980; 500: 71–73.
PubMed
Lebtahi R, Cadiot G, Marmuse JP, et al. False-positive somatostatin receptor scintigraphy due to an accessory spleen. J Nucl Med. 1997; 38(12): 1979–1981.
PubMed
Kulkarni HR, Prasad V, Kaemmerer D, et al. High uptake of (68)Ga-DOTATOC in spleen as compared to splenosis: measurement by PET/CT. Recent Results Cancer Res. 2013; 194: 373–378.
CrossRefPubMed
Reindl O, Loidl A, Franz B, et al. Pitfall in follow-up imaging of pancreatic neuroendocrine tumor by somatostatin receptor PET. Neuro Endocrinol Lett. 2013; 34(4): 273–274.
PubMed
Svensson J, Hagmarker L, Magnander T, et al. Radiation exposure of the spleen during (177)Lu-DOTATATE treatment and its correlation with haematological toxicity and spleen volume. EJNMMI Phys. 2016; 3(1): 15.
CrossRefPubMed
Kulkarni HR, Prasad V, Schuchardt C, et al. Is there a correlation between peptide receptor radionuclide therapy-associated hematological toxicity and spleen dose? Recent Results Cancer Res. 2013; 194: 561–566.
CrossRefPubMed
Giesel FL, Stefanova M, Schwartz LH, et al. Impact of peptide receptor radionuclide therapy on the 68Ga-DOTATOC-PET/CT uptake in normal tissue. Q J Nucl Med Mol Imaging. 2013; 57(2): 171–176.
PubMed
Kratochwil C, Mavriopoulou E, Rath D, et al. Comparison of 68Ga-DOTATOC biodistribution in patients with and without spleenectomy. Q J Nucl Med Mol Imaging. 2015; 59(1): 116–120.
PubMed
Haug AR, Rominger A, Mustafa M, et al. Treatment with octreotide does not reduce tumor uptake of (68)Ga-DOTATATE as measured by PET/CT in patients with neuroendocrine tumors. J Nucl Med. 2011; 52(11): 1679–1683.
CrossRefPubMed
Soresi E, Bombardieri E, Chiti A, et al. Indium-111-DTPA-octreotide scintigraphy modulation by treatment with unlabeled somatostatin analogue in small-cell lung cancer. Tumori. 1995; 81: 125–127.
Janson ET, Kälkner KM, Eriksson B, et al. Somatostatin receptor scintigraphy during treatment with lanreotide in patients with neuroendocrine tumors. Nucl Med Biol. 1999; 26(8): 877–882.
CrossRefPubMed
Dörr U, Wurm K, Höring E, et al. Diagnostic reliability of somatostatin receptor scintigraphy during continuous treatment with different somatostatin analogs. Horm Metab Res Suppl. 1993; 27: 36–43.
PubMed
Kumar G, Dhull VS, Karunanithi S, et al. ⁶⁸Ga-DOTANOC PET/CT mimicking renal dynamic scan: lack of physiological uptake in the spleen of a newborn and the pituitary gland in congenital hyperinsulinism. Rev Esp Med Nucl Imagen Mol. 2014; 33(6): 382–383.
CrossRefPubMed
Kratochwil C, Stefanova M, Mavriopoulou E, et al. SUV of [68Ga]DOTATOC-PET/CT Predicts Response Probability of PRRT in Neuroendocrine Tumors. Mol Imaging Biol. 2015; 17(3): 313–318.
CrossRefPubMed
Haug AR, Auernhammer CJ, Wängler B, et al. 68Ga-DOTATATE PET/CT for the early prediction of response to somatostatin receptor-mediated radionuclide therapy in patients with well-differentiated neuroendocrine tumors. J Nucl Med. 2010; 51(9): 1349–1356.
CrossRefPubMed
Prasad V, Baum RP. Biodistribution of the Ga-68 labeled somatostatin analogue DOTA-NOC in patients with neuroendocrine tumors: characterization of uptake in normal organs and tumor lesions. Q J Nucl Med Mol Imaging. 2010; 54(1): 61–67.
PubMed
MacDonald A, Burrell S. Infrequently performed studies in nuclear medicine: Part 1. J Nucl Med Technol. 2008; 36(3): 132–43; quiz 145.
CrossRefPubMed
Massey MD, Stevens JS. Residual spleen found on denatured red blood cell scan following negative colloid scans. J Nucl Med. 1991; 32: 2286–2287.