Abstract
Giriş:
Çalışmamızın amacı, abdominal çok kesitli bilgisayarlı tomografi (ÇKBT) incelemesi yapılan hasta popülasyonunda çölyak arter(ÇA), süperior mezenterik arter(SMA) ve renal arter (RA) anatomisindeki varyasyonları saptamaktır.
Gereç ve Yöntem:
Çeşitli nedenlerle abdominal ÇKBT incelemesi yapılan toplam 100 hasta geriye dönük olarak değerlendirilerek ÇA, SMA ve RA varyasyonlarının sıklığı araştırılmıştır.
Bulgular:
100 vakanın 80’inde (%80) normal ÇA anatomisi izlenmiştir. En sık rastlanan ÇA varyasyonu gastro-splenik trunkus (%12) olarak saptanmıştır. Normal SMA, 100 olgunun 83’ünde gözlendi. SMA'nın en sık varyasyonu 12 olgu (%12) ile SMA'dan orjin alan replase sağ hepatik arterdir. İki yüz böbrekten
177 böbrekte (%84) tek ana RA normal dallanma paterni varken, bunlardan 9 (%4.5) böbrekte erken dallanma gözlendi. Ekstrarenal RA ise 23 (%11.5) böbrekte gözlendi. Bu 21 böbrekte aksesuar (%10.5) hiler arter mevcutken, 2 tanesinde superior polar arter (%1) izlendi.
Sonuç:
ÇKBT anjiyografi abdominal vasküler anatomi ve varyasyonların değerlendirilmesinde kullanılacak oldukça güvenilir, invaziv olmayan ve günümüzde rahat ulaşılabilir bir görüntüleme metodudur.
Keywords
References
- 1. Prokop M. Multislice CT angiography. Eur J Radiol 2000;36:86-96.
- 2. Duddalwar VA. Multislice CT angiography in vascular imaging and intervention. Br J Radiol 2004;77:S27-38.
- 3. Catalano OA, Singh AH, Uppot RN, et al. Vascular and biliary variants in the liver: implications for liver surgery. Radiographics 2008;28:359-78.
- 4. Winston CB, Lee NA, Jarnagin WR, et al. CT angiography for delineation of celiac axis and superior mesenteric artery variants in patients undergoing hepatobiliary and pancreatic surgery. AJR Am J Roentgenol 2007;189:W13-9.
- 5. Williams PL, Warwick R, Dyson M, et al: Gray's Anatomy, 37th Ed, Edinburgh, Churchill Livingstone; 1989.
- 6. Moore M.K. Çeviri Editörleri: Yıldırım M., Okar İ., Dalçık H.: İnsan Embriyolojisi Klinik Yönleri ile,1. baskı, İstanbul; 2002: 380-394.
- 7. Chen H, Yano R, Emura S, et al. Anatomic Variation of The Celiac Trunk with Special Reference to Hepatic Artery Patterns. Ann Anat. 2009; 191.399–407.
- 8. Vandamme JPJ, Bonte J. The Branches of The Celiac Trunk. Acta anat. 1985; 122:110–4.
- 9. Göktay AY, Seçil M. Çölyak Trunkus ve Hepatik Arterlerin Normal Dallanma Varyasyonları: Anjiografik Bulgular. Tanısal ve Girişimsel Radyoloji. 2001; 7: 226–31.
- 10. Yang Y, Jiang N, Lu MQ, et al. Anatomical Variation of The Donor Hepatic Arteries:Analysis of 843 Cases. Nan Fang Yi Ke Da Xue Xue Bao. 2007; 27:1164-6.
- 11. Uzun A, Ulcay T, Kosif R, Baş O, Emirzeoğlu M. Anomalies of number and orıgın of the renal artery: case report and review of the literature. J. Urol. 2002;28:452-7.
- 12. Özkan U, Oğuzkurt L, Tercan F, Kızılkılıç O, Koç Z, Koca N. Renal artery origins and variations: Angiographic Evaluation of 855 Consecutive Patients. Diagn Interv Radiol. 2006;12:183-18.
- 13. Satyapal K.S,Haffejee A.A,Singh B, Ramsaroop L, Robbs J.V,Kalidden I.M. Additional renal arteries. Surg Radiol Anat. 2001;23:33-8.
- 14. Benedetti E, Troppmann C, Gillingham K, David E.R, Sutherland, William D, Payne, Dunn L.D, Matas J.A, Najarian S.J, Gruessner G.W.R. Short- and Long-Term Outcomes Kidney transplants with multiple renal arteries. Ann. of Surgery. 1995; 221:406-14.
- 15. Cuxart M, Picazo M, Matas M, Canalias J, Nadal C, Falcó J. Arterial hypertension and stenosis of the accessory renal artery. Nefrologia 2007;27:509-10. 16. Ferrari R, De Cecco CN, Lafrate F, et al. Anatomical variations of coeliac trunk and the mesenteric arteries evaluated with 64-row CT angiography: Radiol Med 2007;112:988-98. 17. Song SY, Chung JW, Yin YH, et al. Celiac axis and common hepatic artery variations in 5002 patients: Systemic Analysis with Spiral CT and DSA. Radiology 2010;255:278-88.
- 18. Sampaio F.J.B, Passos M. Renal arteries: anatomic study for surgical and radological practise. Surg radiol anat. 1992;14:113-7.
- 19. Bordei P,Şapte E, Iliescu D, Double Renal arteries originating from the aorta. Surg Radiol Anat. 2004;26:474–9.
Abstract
Aim:
The aim of this study was to determine the ratio of variations observed in the anatomy of the celiac artery( CA), superior mesenteric artery(SMA), and renal artery (RA) by screening a patient population who underwent abdominal multi-detector computed tomography angiography.
Materials and Methods:
A total of 100 patients who underwent abdominal multi-detector computed tomography angiography
for various reasons were analyzed retrospectively and the prevalence of the variations observed in the CA, SMA, and RA were determined.
Results:
A normal anatomy of the celiac artery was determined in 80 of the 100 cases (80%).The most common CA variation was gastro-splenic trunk (12%). We determined normal SMA anatomy in 83 of the total 100 cases (83%). The most common variation of SMA was a replaced right hepatic artery originating from the SMA in 12 cases (12%). While a single RA with normal branching pattern was observed in 177 kidneys (% 84) in 200 kidneys, early branching of RA was observed in 9 (4.5%) kidneys. Extrarenal RA was observed in 23 (11.5%) kidney. Twenty-one of extrarenal RA (10.5%) were a hilar artery and 2(%1) of these were superior polar artery.
Conclusion:
Multi-detector computed tomography angiography is a highly reliable, noninvasive imaging method for the evaluation of abdominal vascular anatomy and its variations.
References
- 1. Prokop M. Multislice CT angiography. Eur J Radiol 2000;36:86-96.
- 2. Duddalwar VA. Multislice CT angiography in vascular imaging and intervention. Br J Radiol 2004;77:S27-38.
- 3. Catalano OA, Singh AH, Uppot RN, et al. Vascular and biliary variants in the liver: implications for liver surgery. Radiographics 2008;28:359-78.
- 4. Winston CB, Lee NA, Jarnagin WR, et al. CT angiography for delineation of celiac axis and superior mesenteric artery variants in patients undergoing hepatobiliary and pancreatic surgery. AJR Am J Roentgenol 2007;189:W13-9.
- 5. Williams PL, Warwick R, Dyson M, et al: Gray's Anatomy, 37th Ed, Edinburgh, Churchill Livingstone; 1989.
- 6. Moore M.K. Çeviri Editörleri: Yıldırım M., Okar İ., Dalçık H.: İnsan Embriyolojisi Klinik Yönleri ile,1. baskı, İstanbul; 2002: 380-394.
- 7. Chen H, Yano R, Emura S, et al. Anatomic Variation of The Celiac Trunk with Special Reference to Hepatic Artery Patterns. Ann Anat. 2009; 191.399–407.
- 8. Vandamme JPJ, Bonte J. The Branches of The Celiac Trunk. Acta anat. 1985; 122:110–4.
- 9. Göktay AY, Seçil M. Çölyak Trunkus ve Hepatik Arterlerin Normal Dallanma Varyasyonları: Anjiografik Bulgular. Tanısal ve Girişimsel Radyoloji. 2001; 7: 226–31.
- 10. Yang Y, Jiang N, Lu MQ, et al. Anatomical Variation of The Donor Hepatic Arteries:Analysis of 843 Cases. Nan Fang Yi Ke Da Xue Xue Bao. 2007; 27:1164-6.
- 11. Uzun A, Ulcay T, Kosif R, Baş O, Emirzeoğlu M. Anomalies of number and orıgın of the renal artery: case report and review of the literature. J. Urol. 2002;28:452-7.
- 12. Özkan U, Oğuzkurt L, Tercan F, Kızılkılıç O, Koç Z, Koca N. Renal artery origins and variations: Angiographic Evaluation of 855 Consecutive Patients. Diagn Interv Radiol. 2006;12:183-18.
- 13. Satyapal K.S,Haffejee A.A,Singh B, Ramsaroop L, Robbs J.V,Kalidden I.M. Additional renal arteries. Surg Radiol Anat. 2001;23:33-8.
- 14. Benedetti E, Troppmann C, Gillingham K, David E.R, Sutherland, William D, Payne, Dunn L.D, Matas J.A, Najarian S.J, Gruessner G.W.R. Short- and Long-Term Outcomes Kidney transplants with multiple renal arteries. Ann. of Surgery. 1995; 221:406-14.
- 15. Cuxart M, Picazo M, Matas M, Canalias J, Nadal C, Falcó J. Arterial hypertension and stenosis of the accessory renal artery. Nefrologia 2007;27:509-10. 16. Ferrari R, De Cecco CN, Lafrate F, et al. Anatomical variations of coeliac trunk and the mesenteric arteries evaluated with 64-row CT angiography: Radiol Med 2007;112:988-98. 17. Song SY, Chung JW, Yin YH, et al. Celiac axis and common hepatic artery variations in 5002 patients: Systemic Analysis with Spiral CT and DSA. Radiology 2010;255:278-88.
- 18. Sampaio F.J.B, Passos M. Renal arteries: anatomic study for surgical and radological practise. Surg radiol anat. 1992;14:113-7.
- 19. Bordei P,Şapte E, Iliescu D, Double Renal arteries originating from the aorta. Surg Radiol Anat. 2004;26:474–9.
Details
| Primary Language | Turkish |
|---|---|
| Subjects | Clinical Sciences |
| Journal Section | Articles |
| Authors | |
| Publication Date | August 28, 2018 |
| Published in Issue | Year 2017 Volume: 2 Issue: 2 |
