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30.05.2016 | Contrast Media

Using 80 kVp on a 320-row scanner for hepatic multiphasic CT reduces the contrast dose by 50 % in patients at risk for contrast-induced nephropathy

verfasst von: Narumi Taguchi, Seitaro Oda, Daisuke Utsunomiya, Yoshinori Funama, Takeshi Nakaura, Masanori Imuta, Sadahiro Yamamura, Hideaki Yuki, Masafumi Kidoh, Kenichiro Hirata, Tomohiro Namimoto, Masahiro Hatemura, Noriyuki Kai, Yasuyuki Yamashita

Erschienen in: European Radiology | Ausgabe 2/2017

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Abstract

Objectives

We evaluated the effects of a low contrast material (CM) dose protocol using 80-kVp on the image quality of hepatic multiphasic CT scans acquired on a 320-row CT scanner.

Methods

We scanned 30 patients with renal insufficiency (eGFR < 45 mL/min/1.73 m²) using 80-kVp and a CM dose of 300mgI/kg. Another 30 patients without renal insufficiency (eGFR > 60 mL/min/1.73 m²) were scanned with the conventional 120-kVp protocol and the standard CM dose of 600mgI/kg. Quantitative image quality parameters, i.e. CT attenuation, image noise, and the contrast-to-noise ratio (CNR) were compared and the visual image quality was scored on a four-point scale. The volume CT dose index (CTDI_vol) and the size-specific dose estimate (SSDE) recorded with the 80- and the 120-kVp protocols were also compared.

Results

Image noise and contrast enhancement were equivalent for the two protocols. There was no significant difference in the CNR of all anatomic sites and in the visual scores for overall image quality. The CTDI_vol and SSDE were approximately 25–30 % lower under the 80-kVp protocol.

Conclusion

Hepatic multiphase CT using 80-kVp on a 320-row CT scanner allowed for a decrease in the CM dose and a reduction in the radiation dose without image quality degradation in patients with renal insufficiency.

Key Points

• The 80-kVp CT protocol enabled reduction of contrast dose by 50 %

• The 80-kVp CT protocol reduced the radiation dose by 25–33 %

• There was no degradation in the image quality of the 80-kVp protocol

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UW Environmental Health and Safety (2015) ALARA Program, Radiation Safety Manual. Available at: https://www.ehs.washington.edu/manuals/rsmanual/7alara.pdf [accessed Feb. 1, 2016]

McDonald JS, McDonald RJ, Carter RE, Katzberg RW, Kallmes DF, Williamson EE (2014) Risk of intravenous contrast material-mediated acute kidney injury: a propensity score-matched study stratified by baseline-estimated glomerular filtration rate. Radiology 271:65–73CrossRefPubMed

Davenport MS, Khalatbari S, Dillman JR, Cohan RH, Caoili EM, Ellis JH (2013) Contrast material-induced nephrotoxicity and intravenous low-osmolality iodinated contrast material. Radiology 267:94–105CrossRefPubMedPubMedCentral

McDonald RJ, McDonald JS, Bida JP et al (2013) Intravenous contrast material-induced nephropathy: causal or coincident phenomenon? Radiology 267:106–118CrossRefPubMed

McDonald JS, McDonald RJ, Comin J et al (2013) Frequency of acute kidney injury following intravenous contrast medium administration: a systematic review and meta-analysis. Radiology 267:119–128CrossRefPubMed

Davenport MS, Cohan RH, Khalatbari S, Ellis JH (2014) The challenges in assessing contrast-induced nephropathy: where are we now? AJR Am J Roentgenol 202:784–789CrossRefPubMed

Tao SM, Wichmann JL, Schoepf UJ, Fuller SR, Lu GM, Zhang LJ (2015) Contrast-induced nephropathy in CT: incidence, risk factors and strategies for prevention. Eur Radiol. doi:10.1007/s00330-015-4155-8

Davenport MS, Khalatbari S, Cohan RH, Ellis JH (2013) Contrast medium-induced nephrotoxicity risk assessment in adult inpatients: a comparison of serum creatinine level- and estimated glomerular filtration rate-based screening methods. Radiology 269:92–100CrossRefPubMedPubMedCentral

Davenport MS, Khalatbari S, Cohan RH, Dillman JR, Myles JD, Ellis JH (2013) Contrast material-induced nephrotoxicity and intravenous low-osmolality iodinated contrast material: risk stratification by using estimated glomerular filtration rate. Radiology 268:719–728CrossRefPubMed

10.

Nyman U, Almen T, Aspelin P, Hellstrom M, Kristiansson M, Sterner G (2005) Contrast-medium-Induced nephropathy correlated to the ratio between dose in gram iodine and estimated GFR in ml/min. Acta Radiol 46:830–842CrossRefPubMed

11.

Stacul F, van der Molen AJ, Reimer P et al (2011) Contrast induced nephropathy: updated ESUR Contrast Media Safety Committee guidelines. Eur Radiol 21:2527–2541CrossRefPubMed

12.

Nakayama Y, Awai K, Funama Y et al (2005) Abdominal CT with low tube voltage: preliminary observations about radiation dose, contrast enhancement, image quality, and noise. Radiology 237:945–951CrossRefPubMed

13.

Oda S, Utsunomiya D, Funama Y et al (2012) A hybrid iterative reconstruction algorithm that improves the image quality of low-tube-voltage coronary CT angiography. AJR Am J Roentgenol 198:1126–1131CrossRefPubMed

14.

Nakaura T, Nakamura S, Maruyama N et al (2012) Low Contrast Agent and Radiation Dose Protocol for Hepatic Dynamic CT of Thin Adults at 256-Detector Row CT: Effect of Low Tube Voltage and Hybrid Iterative Reconstruction Algorithm on Image Quality. Radiology 264:445–454CrossRefPubMed

15.

Oda S, Utsunomiya D, Funama Y et al (2012) Evaluation of deep vein thrombosis with reduced radiation and contrast material dose at computed tomography venography: clinical application of a combined iterative reconstruction and low-tube-voltage technique. Circ J 76:2614–2622CrossRefPubMed

16.

Utsunomiya D, Oda S, Funama Y et al (2010) Comparison of standard- and low-tube voltage MDCT angiography in patients with peripheral arterial disease. Eur Radiol 20:2758–2765CrossRefPubMed

17.

Yamamura S, Oda S, Imuta M et al (2016) Reducing the Radiation Dose for CT Colonography: Effect of Low Tube Voltage and Iterative Reconstruction. Acad Radiol 23:155–162CrossRefPubMed

18.

Yamamura S, Oda S, Utsunomiya D et al (2013) Dynamic computed tomography of locally advanced pancreatic cancer: effect of low tube voltage and a hybrid iterative reconstruction algorithm on image quality. J Comput Assist Tomogr 37:790–796CrossRefPubMed

19.

Cheng C, Zhao L, Wolanski M et al (2012) Comparison of tissue characterization curves for different CT scanners: implication in proton therapy treatment planning. Transl Cancer Res 1:236–246

20.

Matsuo S, Imai E, Horio M et al (2009) Revised equations for estimated GFR from serum creatinine in Japan. Am J Kidney Dis 53:982–992CrossRefPubMed

21.

Van der Molen AJ, Joemai RM, Geleijns J (2012) Performance of longitudinal and volumetric tube current modulation in a 64-slice CT with different choices of acquisition and reconstruction parameters. Phys Med 28:319–326CrossRefPubMed

22.

Boone J, Strauss K, Cody Dea (2011) Size-specific dose estimates (SSDE) in pediatric and adult body CT examinations. Report of AAPM Task Group 204. College Park, Md: American Association of Physicists in Medicine. Available at: https://www.aapm.org/pubs/reports/RPT_204.pdf. Accessed 25 May 2016

23.

Waaijer A, Prokop M, Velthuis BK, Bakker CJ, de Kort GA, van Leeuwen MS (2007) Circle of Willis at CT angiography: dose reduction and image quality--reducing tube voltage and increasing tube current settings. Radiology 242:832–839CrossRefPubMed

24.

Schindera ST, Nelson RC, Mukundan S Jr et al (2008) Hypervascular liver tumors: low tube voltage, high tube current multi-detector row CT for enhanced detection--phantom study. Radiology 246:125–132CrossRefPubMed

25.

Nakayama Y, Awai K, Funama Y et al (2006) Lower tube voltage reduces contrast material and radiation doses on 16-MDCT aortography. AJR Am J Roentgenol 187:W490–W497CrossRefPubMed

26.

Iida H, Noto K, Mitsui W, Takata T, Yamamoto T, Matsubara K (2011) New method of measuring effective energy using copper-pipe absorbers in X-ray CT. Nihon Hoshasen Gijutsu Gakkai Zasshi 67:1183–1191CrossRefPubMed

27.

Mori S, Nishizawa K, Ohno M, Endo M (2006) Conversion factor for CT dosimetry to assess patient dose using a 256-slice CT scanner. Br J Radiol 79:888–892CrossRefPubMed

28.

Funama Y, Awai K, Nakayama Y et al (2005) Radiation dose reduction without degradation of low-contrast detectability at abdominal multisection CT with a low-tube voltage technique: phantom study. Radiology 237:905–910CrossRefPubMed

29.

Silva AC, Lawder HJ, Hara A, Kujak J, Pavlicek W (2010) Innovations in CT dose reduction strategy: application of the adaptive statistical iterative reconstruction algorithm. AJR Am J Roentgenol 194:191–199CrossRefPubMed

30.

Sagara Y, Hara AK, Pavlicek W, Silva AC, Paden RG, Wu Q (2010) Abdominal CT: comparison of low-dose CT with adaptive statistical iterative reconstruction and routine-dose CT with filtered back projection in 53 patients. AJR Am J Roentgenol 195:713–719CrossRefPubMed

31.

Volders D, Bols A, Haspeslagh M, Coenegrachts K (2013) Model-based iterative reconstruction and adaptive statistical iterative reconstruction techniques in abdominal CT: comparison of image quality in the detection of colorectal liver metastases. Radiology 269:469–474CrossRefPubMed

32.

Shuman WP, Chan KT, Busey JM et al (2014) Standard and reduced radiation dose liver CT images: adaptive statistical iterative reconstruction versus model-based iterative reconstruction-comparison of findings and image quality. Radiology 273:793–800CrossRefPubMed

33.

Nakaura T, Awai K, Maruyama N et al (2011) Abdominal dynamic CT in patients with renal dysfunction: contrast agent dose reduction with low tube voltage and high tube current-time product settings at 256-detector row CT. Radiology 261:467–476CrossRefPubMed

34.

Buls N, Van Gompel G, Van Cauteren T et al (2015) Contrast agent and radiation dose reduction in abdominal CT by a combination of low tube voltage and advanced image reconstruction algorithms. Eur Radiol 25:1023–1031CrossRefPubMed

35.

Noda Y, Kanematsu M, Goshima S et al (2015) Reducing iodine load in hepatic CT for patients with chronic liver disease with a combination of low-tube-voltage and adaptive statistical iterative reconstruction. Eur J Radiol 84:11–18CrossRefPubMed

36.

Yu MH, Lee JM, Yoon JH et al (2013) Low tube voltage intermediate tube current liver MDCT: sinogram-affirmed iterative reconstruction algorithm for detection of hypervascular hepatocellular carcinoma. AJR Am J Roentgenol 201:23–32CrossRefPubMed

37.

Lv P, Liu J, Chai Y, Yan X, Gao J, Dong J (2016) Automatic spectral imaging protocol selection and iterative reconstruction in abdominal CT with reduced contrast agent dose: initial experience. Eur Radiol. doi:10.1007/s00330-016-4349-8

38.

Chen CM, Chu SY, Hsu MY, Liao YL, Tsai HY (2014) Low-tube-voltage (80 kVp) CT aortography using 320-row volume CT with adaptive iterative reconstruction: lower contrast medium and radiation dose. Eur Radiol 24:460–468CrossRefPubMed

39.

Oda S, Utsunomiya D, Yuki H et al (2015) Low contrast and radiation dose coronary CT angiography using a 320-row system and a refined contrast injection and timing method. J Cardiovasc Comput Tomogr 9:19–27CrossRefPubMed

40.

From AM, Bartholmai BJ, Williams AW, Cha SS, McDonald FS (2008) Mortality associated with nephropathy after radiographic contrast exposure. Mayo Clin Proc 83:1095–1100CrossRefPubMed

41.

Committee on Drugs and Contrast Media. American College of Radiology, (ACR) Website. Manual on contrast media, v. 10. Available at: http://www.acr.org/~/media/ACR/Documents/PDF/QualitySafety/Resources/Contrast%20Manual/2015_Contrast_Media.pdf [accessed Feb. 1, 2016]

42.

Shiwaku K, Anuurad E, Enkhmaa B et al (2004) Overweight Japanese with body mass indexes of 23.0–24.9 have higher risks for obesity-associated disorders: a comparison of Japanese and Mongolians. Int J Obes Relat Metab Disord 28:152–158CrossRefPubMed

43.

Itatani R, Oda S, Utsunomiya D et al (2013) Reduction in radiation and contrast medium dose via optimization of low-kilovoltage CT protocols using a hybrid iterative reconstruction algorithm at 256-slice body CT: phantom study and clinical correlation. Clin Radiol 68:e128–e135CrossRefPubMed

44.

Utsunomiya D, Yanaga Y, Awai K et al (2011) Baseline incidence and severity of renal insufficiency evaluated by estimated glomerular filtration rates in patients scheduled for contrast-enhanced CT. Acta Radiol 52:581–586CrossRefPubMed

Titel: Using 80 kVp on a 320-row scanner for hepatic multiphasic CT reduces the contrast dose by 50 % in patients at risk for contrast-induced nephropathy
verfasst von: Narumi Taguchi
Seitaro Oda
Daisuke Utsunomiya
Yoshinori Funama
Takeshi Nakaura
Masanori Imuta
Sadahiro Yamamura
Hideaki Yuki
Masafumi Kidoh
Kenichiro Hirata
Tomohiro Namimoto
Masahiro Hatemura
Noriyuki Kai
Yasuyuki Yamashita
Publikationsdatum: 30.05.2016
Verlag: Springer Berlin Heidelberg
Erschienen in: European Radiology / Ausgabe 2/2017
Print ISSN: 0938-7994
Elektronische ISSN: 1432-1084
DOI: https://doi.org/10.1007/s00330-016-4435-y

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Using 80 kVp on a 320-row scanner for hepatic multiphasic CT reduces the contrast dose by 50 % in patients at risk for contrast-induced nephropathy

Abstract

Objectives

Methods

Results

Conclusion

Key Points

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Abstract

Objectives

Methods

Results

Conclusion

Key Points

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