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PANKREAS YAĞLANMASININ VÜCUT ADİPOZ DOKU DAĞILIMI İLE İLİŞKİSİNİN BİLGİSAYARLI TOMOGRAFİDE KANTİTATİF YÖNTEMLERLE DEĞERLENDİRİLMESİ

Year 2021, Volume: 22 Issue: 4, 267 - 271, 01.07.2021
https://doi.org/10.18229/kocatepetip.749367

Abstract

AMAÇ: Pankreas yağlanması, yağ hücrelerinin pankreas dokusuna infiltrasyonu ile oluşan histopatolojik bir durumdur. Bu çalışmada pankreas yağlanmasının bilgisayarlı tomografide kantitatif yöntemlerle subkutan ve visseral yağlı doku miktarı, bel çevresi, yaş, cinsiyet ve karaciğer yağlanması ile arasındaki ilişkiyi değerlendirmeyi amaçladık.
GEREÇ VE YÖNTEM: Üriner sistem taşı veya travma nedeniyle kontrastsız bilgisayarlı tomografi (BT) çektirmiş hastalar retrospektif olarak tarandı. Bilinen pankreas hastalığı olanlar ile diabetes mellitus öyküsü olanlar çalışmaya dahil edilmedi. Çalışmaya toplam 287 yetişkin olgu dahil edildi. İş istasyonundan pankreas, karaciğer ve dalağın Hounsfield Ünite (HU) cinsinden ortalama dansiteleri hesaplandı. Tüm hastaların visseral ve subkutan yağ dokusu miktarı lumber 3 ve 4 vertebra (L3/4) orta düzeyinden tek kesitte bir yazılım programı olan Aquarius, ToshibaMedical systems ile cm2 cinsinden, aynı seviyeden bel çevresi uzunluğu mm olarak ölçüm yapılarak değerlendirildi. Yağlı pankreası olan ve olmayan olgularda bulgular uygun istatistik yöntemlerle korelasyonları değerlendirildi.
BULGULAR: Çalışamaya dahil edilen olguların %70’inde pankreas yağlanması tespit edildi. Pankreas yağlanması olan ve olmayan olgular karşılaştırıldığında subkutan yağlı doku miktarı ve cinsiyetle arasında anlamlı farklılık saptanmadı (sırasıyla p=0,681 ve p= 0,070). Pankreas yağlanması olanlarda total ve visseral yağlı doku miktarı belirgin fazla olarak izlendi. Karaciğer yağlanması toplam 40 olguda izlenmiş olup pankreas yağlanması olan olguların %16.4’ünde KC yağlanması vardı. Pankreas ve karaciğer yağlanması arasında anlamlı ilişki saptanmadı (p=0,064).
SONUÇ: Pankreas yağlanması olanlarda ortalama dansite en güçlü negatif korelasyonu visseral yağlı doku miktarı ile göstermiştir. Ortalama visseral yağlı doku miktarı pankreas yağlanması olanlarda anlamlı derece yüksek izlenmiştir. Çalışmamızın sonuçları pankreas yağlanmasının en çok visseral yağlı doku artışı ile ilişkili olabileceğini göstermektedir. Bu nedenle bilgisayarlı tomografide basit kantitatif yöntemlerle bel çevresi ve visseral yağ doku miktarı artmış ileri yaş olgularda pankreas yağlanması açısından değerlendirilmesi gerektiğini düşünmekteyiz.

Supporting Institution

YOK

References

  • 1. Van Herpen NA, Schrauwen-Hinderling VB. Lipid accumulation in non-adipose tissue and lipotoxicity. Physiol Behav 2008;94(2):231-41.
  • 2. Van Geenen EJ, Smits MM, Schreuder TCMA, et al. Nonalcoholic fatty liver disease is related to nonalcoholic fatty pancreas disease. Pancreas 2010;39:1185–90.
  • 3. Zyromski NJ, Mathur A, Gowda GAN, et al. Nuclear magnetic resonance spectroscopy-based metabolomics of the fatty pancreas: implicating fat in pancreatic pathology. Pancreatology 2009;9:410–9.
  • 4. Pinnick KE, Collins SC, Londos C, et al. Pancreatic ectopic fat is characterized by adipocyte infiltration and altered lipid composition. Obesity (Silver Spring) 2008;16:522–30.
  • 5. Mathur A. Nonalcoholic fatty pancreas disease. HPB (Oxford) 2007;9(4):312-8.
  • 6. Saisho Y, Butler AE, Meier JJ, et al. Pancreas volumes in humans from birth to age one hundred taking into account sex, obesity, and presence of type-2 diabetes. Clin Anat 2007;20:933–42.
  • 7. Kim SY, Kim H, Cho JY, et al. Quantitative assessment of pancreatic fat by using unenhanced CT: pathologic correlation and clinical implications. Radiology 2014;271:104–12.
  • 8. Lee JS, Kim SH, Jun DW, et al. Clinical implications of fatty pancreas: Correlations between fatty pancreas and metabolic syndrome. World J Gastroenterol 2009;15:1869-75.
  • 9. Kawamoto S, Soyer PA, Fishman EK, et al. Nonneoplastic liver disease: evaluation with CT and MR imaging. RadioGraphics 1998;18:827–48.
  • 10. Park SH, Kim PN, Kim KW, et al. Macrovesicular hepatic steatosis in living donors: use of CT for quantitative and qualitative assessment. Radiology 2006;239:105–12.
  • 11. Ozbulbul NI, Yurdakul M, Tola M. Does the visceral fat tissue show better correlation with the fatty replacement of the pancreas than with BMI? Eurasian J Med 2010;42:24–27.
  • 12. Dağdeviren M, Altay M, Nalbant E. Pancreatic steatosis: diagnosis and clinical significance. Journal of Contemporary Medicine 2017;7:1-6.
  • 13. Fraulob JC, Ogg-Diamantino R, Fernandes-Santos C, et al. A mouse model of metabolic syndrome: insulin resistance, fatty liver and non-alcoholic fatty pancreas disease (NAFPD) in C57BL/6 mice fed a high fat diet. J Clin Biochem Nutr 2010;46:212–23.
  • 14. Eva M, Ryckman Eva M, Summers Ronald M, et al. Visceral Fat Quantification in Asymptomatic Adults using Abdominal CT: Is it Predictive of Future Cardiac Events?. Abdom Imaging 2015;40(1):222–6.
  • 15. Aktürk Y, Özbal Güneş S. Computed tomography assessments of pancreatic steatosis in association withanthropometric measurements: A retrospective cohort study. Archives of Clinical and Experimental Medicine 2018;3(2):63-6.
  • 16. Kulalı F, Emir SE, Semiz–Oysu A, et al. The Role of magnetic resonance ımaging for evaluation of pancreatic lipomatosis after bariatric surgery. Haseki Tıp Bülteni 2019;57:304-9.
  • 17. Lesmana CR, Pakasi LS, Inggriani S, et al. Prevalence of nonalcoholic fatty pancreas disease (NAFPD) and its risk factors among adult medical check-up patients in a private hospital: a large cross sectional study. BMC Gastroenterol 2015;15:174.

EVALUATION OF THE RELATIONSHIP BETWEEN PANCREATIC STEATOSIS AND BODY ADIPOSIS TISSUE DISTRIBUTION IN COMPUTERIZED TOMOGRAPHY BY QUANTITATIVE METHODS

Year 2021, Volume: 22 Issue: 4, 267 - 271, 01.07.2021
https://doi.org/10.18229/kocatepetip.749367

Abstract

OBJECTIVE: Pancreatic steatosis is a condition caused by histopathological infiltration of fat cells in the pancreatic tissue. In this study, we evaluated the relationship between pancreatic steatosis and the amount of subcutaneous adipose tissue, visceral tissue quantity, waist circumference, age, sex, and fatty liver values with quantitative computed tomography.
MATERIAL AND METHODS: In this study, images of the patient who underwent unenhanced computed tomography (CT) for urinary stones or trauma were retrospectively analyzed. Patients with known pancreatic disease and a history of diabetes mellitus were not included. A total of 287 adult cases were included in the study. The average densities of the pancreas, liver, and spleen in Hounsfield Units (HU) were calculated from the workstation. Visceral and subcutaneous adipose tissue in cm2 and waist circumference in mm were measured in all patients using Aquarius, Toshiba Medical system software from a single section passing through the mid-level of the lumbar 3 and 4 (L3/4) vertebrae. Correlations of the findings were evaluated using appropriate statistical methods in patients with and without a fatty pancreas.
RESULTS: In 70% of the cases included in the study, pancreatic steatosis was detected. When the patients with and without pancreas steatosis were compared, there was no significant difference between the amount of subcutaneous fatty tissue and gender (p = 0.681 and p = 0.070, respectively). The amount of total and visceral fatty tissue was significantly higher in those with pancreatic steatosis. Fatty liver was detected in a total of 40 cases. 16.4% of patients with pancreatic steatosis had liver steatosis. There was no significant relationship between pancreatic and liver steatosis (p=0.064).
CONCLUSIONS: Pancreatic density showed a strong negative correlation with the amount of visceral adipose tissue in patients with pancreatic steatosis. The visceral average amount of fatty tissue was observed significantly higher in patients with pancreatic steatosis. The results of our study indicate that the visceral adipose tissue increase may be associated with increased pancreatic steatosis. Therefore, we believe that the quantitative computed tomography method should be used elderly patients with increased waist circumference and visceral adipose tissue with simple quantitative methods in terms of pancreatic steatosis.

References

  • 1. Van Herpen NA, Schrauwen-Hinderling VB. Lipid accumulation in non-adipose tissue and lipotoxicity. Physiol Behav 2008;94(2):231-41.
  • 2. Van Geenen EJ, Smits MM, Schreuder TCMA, et al. Nonalcoholic fatty liver disease is related to nonalcoholic fatty pancreas disease. Pancreas 2010;39:1185–90.
  • 3. Zyromski NJ, Mathur A, Gowda GAN, et al. Nuclear magnetic resonance spectroscopy-based metabolomics of the fatty pancreas: implicating fat in pancreatic pathology. Pancreatology 2009;9:410–9.
  • 4. Pinnick KE, Collins SC, Londos C, et al. Pancreatic ectopic fat is characterized by adipocyte infiltration and altered lipid composition. Obesity (Silver Spring) 2008;16:522–30.
  • 5. Mathur A. Nonalcoholic fatty pancreas disease. HPB (Oxford) 2007;9(4):312-8.
  • 6. Saisho Y, Butler AE, Meier JJ, et al. Pancreas volumes in humans from birth to age one hundred taking into account sex, obesity, and presence of type-2 diabetes. Clin Anat 2007;20:933–42.
  • 7. Kim SY, Kim H, Cho JY, et al. Quantitative assessment of pancreatic fat by using unenhanced CT: pathologic correlation and clinical implications. Radiology 2014;271:104–12.
  • 8. Lee JS, Kim SH, Jun DW, et al. Clinical implications of fatty pancreas: Correlations between fatty pancreas and metabolic syndrome. World J Gastroenterol 2009;15:1869-75.
  • 9. Kawamoto S, Soyer PA, Fishman EK, et al. Nonneoplastic liver disease: evaluation with CT and MR imaging. RadioGraphics 1998;18:827–48.
  • 10. Park SH, Kim PN, Kim KW, et al. Macrovesicular hepatic steatosis in living donors: use of CT for quantitative and qualitative assessment. Radiology 2006;239:105–12.
  • 11. Ozbulbul NI, Yurdakul M, Tola M. Does the visceral fat tissue show better correlation with the fatty replacement of the pancreas than with BMI? Eurasian J Med 2010;42:24–27.
  • 12. Dağdeviren M, Altay M, Nalbant E. Pancreatic steatosis: diagnosis and clinical significance. Journal of Contemporary Medicine 2017;7:1-6.
  • 13. Fraulob JC, Ogg-Diamantino R, Fernandes-Santos C, et al. A mouse model of metabolic syndrome: insulin resistance, fatty liver and non-alcoholic fatty pancreas disease (NAFPD) in C57BL/6 mice fed a high fat diet. J Clin Biochem Nutr 2010;46:212–23.
  • 14. Eva M, Ryckman Eva M, Summers Ronald M, et al. Visceral Fat Quantification in Asymptomatic Adults using Abdominal CT: Is it Predictive of Future Cardiac Events?. Abdom Imaging 2015;40(1):222–6.
  • 15. Aktürk Y, Özbal Güneş S. Computed tomography assessments of pancreatic steatosis in association withanthropometric measurements: A retrospective cohort study. Archives of Clinical and Experimental Medicine 2018;3(2):63-6.
  • 16. Kulalı F, Emir SE, Semiz–Oysu A, et al. The Role of magnetic resonance ımaging for evaluation of pancreatic lipomatosis after bariatric surgery. Haseki Tıp Bülteni 2019;57:304-9.
  • 17. Lesmana CR, Pakasi LS, Inggriani S, et al. Prevalence of nonalcoholic fatty pancreas disease (NAFPD) and its risk factors among adult medical check-up patients in a private hospital: a large cross sectional study. BMC Gastroenterol 2015;15:174.
There are 17 citations in total.

Details

Primary Language Turkish
Subjects Clinical Sciences
Journal Section Articles
Authors

Furkan Kaya 0000-0001-8619-7593

Ayberk Beral This is me 0000-0002-4586-4860

Ahmet Oğuzhan Türker This is me 0000-0002-2517-1186

İsmail Akyürek This is me 0000-0003-3518-1844

Nihan Tezcan This is me 0000-0002-5953-6964

Ahmet Penbe This is me 0000-0002-7314-3921

Kadir Bozok This is me 0000-0003-4854-1458

Publication Date July 1, 2021
Acceptance Date September 14, 2020
Published in Issue Year 2021 Volume: 22 Issue: 4

Cite

APA Kaya, F., Beral, A., Türker, A. O., Akyürek, İ., et al. (2021). PANKREAS YAĞLANMASININ VÜCUT ADİPOZ DOKU DAĞILIMI İLE İLİŞKİSİNİN BİLGİSAYARLI TOMOGRAFİDE KANTİTATİF YÖNTEMLERLE DEĞERLENDİRİLMESİ. Kocatepe Tıp Dergisi, 22(4), 267-271. https://doi.org/10.18229/kocatepetip.749367
AMA Kaya F, Beral A, Türker AO, Akyürek İ, Tezcan N, Penbe A, Bozok K. PANKREAS YAĞLANMASININ VÜCUT ADİPOZ DOKU DAĞILIMI İLE İLİŞKİSİNİN BİLGİSAYARLI TOMOGRAFİDE KANTİTATİF YÖNTEMLERLE DEĞERLENDİRİLMESİ. KTD. July 2021;22(4):267-271. doi:10.18229/kocatepetip.749367
Chicago Kaya, Furkan, Ayberk Beral, Ahmet Oğuzhan Türker, İsmail Akyürek, Nihan Tezcan, Ahmet Penbe, and Kadir Bozok. “PANKREAS YAĞLANMASININ VÜCUT ADİPOZ DOKU DAĞILIMI İLE İLİŞKİSİNİN BİLGİSAYARLI TOMOGRAFİDE KANTİTATİF YÖNTEMLERLE DEĞERLENDİRİLMESİ”. Kocatepe Tıp Dergisi 22, no. 4 (July 2021): 267-71. https://doi.org/10.18229/kocatepetip.749367.
EndNote Kaya F, Beral A, Türker AO, Akyürek İ, Tezcan N, Penbe A, Bozok K (July 1, 2021) PANKREAS YAĞLANMASININ VÜCUT ADİPOZ DOKU DAĞILIMI İLE İLİŞKİSİNİN BİLGİSAYARLI TOMOGRAFİDE KANTİTATİF YÖNTEMLERLE DEĞERLENDİRİLMESİ. Kocatepe Tıp Dergisi 22 4 267–271.
IEEE F. Kaya, A. Beral, A. O. Türker, İ. Akyürek, N. Tezcan, A. Penbe, and K. Bozok, “PANKREAS YAĞLANMASININ VÜCUT ADİPOZ DOKU DAĞILIMI İLE İLİŞKİSİNİN BİLGİSAYARLI TOMOGRAFİDE KANTİTATİF YÖNTEMLERLE DEĞERLENDİRİLMESİ”, KTD, vol. 22, no. 4, pp. 267–271, 2021, doi: 10.18229/kocatepetip.749367.
ISNAD Kaya, Furkan et al. “PANKREAS YAĞLANMASININ VÜCUT ADİPOZ DOKU DAĞILIMI İLE İLİŞKİSİNİN BİLGİSAYARLI TOMOGRAFİDE KANTİTATİF YÖNTEMLERLE DEĞERLENDİRİLMESİ”. Kocatepe Tıp Dergisi 22/4 (July 2021), 267-271. https://doi.org/10.18229/kocatepetip.749367.
JAMA Kaya F, Beral A, Türker AO, Akyürek İ, Tezcan N, Penbe A, Bozok K. PANKREAS YAĞLANMASININ VÜCUT ADİPOZ DOKU DAĞILIMI İLE İLİŞKİSİNİN BİLGİSAYARLI TOMOGRAFİDE KANTİTATİF YÖNTEMLERLE DEĞERLENDİRİLMESİ. KTD. 2021;22:267–271.
MLA Kaya, Furkan et al. “PANKREAS YAĞLANMASININ VÜCUT ADİPOZ DOKU DAĞILIMI İLE İLİŞKİSİNİN BİLGİSAYARLI TOMOGRAFİDE KANTİTATİF YÖNTEMLERLE DEĞERLENDİRİLMESİ”. Kocatepe Tıp Dergisi, vol. 22, no. 4, 2021, pp. 267-71, doi:10.18229/kocatepetip.749367.
Vancouver Kaya F, Beral A, Türker AO, Akyürek İ, Tezcan N, Penbe A, Bozok K. PANKREAS YAĞLANMASININ VÜCUT ADİPOZ DOKU DAĞILIMI İLE İLİŞKİSİNİN BİLGİSAYARLI TOMOGRAFİDE KANTİTATİF YÖNTEMLERLE DEĞERLENDİRİLMESİ. KTD. 2021;22(4):267-71.

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