Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

At a glance: The ONWARDS insulin icodec trials

A round-up of the ONWARDS phase 3 clinical trials evaluating the novel weekly insulin icodec in people with diabetes.
ADVANCED SEARCH
Log in
Top
BMC Medical Imaging
Published in: BMC Medical Imaging 1/2018

Open Access 01-12-2018 | Research article

Ultrasound point shear wave elastography of the pancreas: comparison of patients with type 1 diabetes and healthy volunteers – results from a pilot study

Authors: Sophie Püttmann, Janina Koch, Jochen Paul Steinacker, Stefan Andreas Schmidt, Thomas Seufferlein, Wolfgang Kratzer, Julian Schmidberger, Burkhard Manfras

Published in: BMC Medical Imaging | Issue 1/2018

Login to get access

Abstract

Background

The aims of this study were to establish shear wave elastography of the pancreas by comparing measurements in patients with type 1 diabetes (T1D) and healthy volunteers and to consider whether this method could contribute to the screening or prevention of T1D.

Methods

This pilot study included 15 patients with T1D (10 men, 5 women) and 15 healthy volunteers (10 men, 5 women) as controls. Measurements were performed with a Siemens Acuson S3000 (Siemens Healthcare, Erlangen, Germany) using a 6C1 convex transducer and the Virtual Touch™ tissue quantification (VTQ) method.

Results

The mean shear wave velocity of the head of the pancreas was 1.0 ± 0.2 m/s (median: 1.1 m/s) for the study group and likewise 1.0 ± 0.2 m/s (median: 0.9 m/s) for the control group. Velocities of 1.2 ± 0.2 m/s (median: 1.2 m/s) were measured in the body of the pancreas in both groups. There was a significant difference between the values obtained in the tail of the pancreas: patients 1.1 ± 0.1 m/s (median: 1.0 m/s) versus controls 0.9 ± 0.1 m/s (median: 0.8 m/s) (p = 0.0474). The mean value in the whole pancreas of the study group was not significantly above that of the control group: 1.1 ± 0.1 m/s (median: 1.0 m/s) versus 1.0 ± 0.1 m/s (median: 1.0 m/s) (p = 0.2453).

Conclusions

Sonoelastography of the pancreas revealed no overall difference between patients with T1D and healthy volunteers. Patients with T1D showed higher values only in the tail segment. Future studies need to determine whether specific regional differences can be found in a larger study population.
Literature
1.
Bendas A, Rothe U, Kiess W. Trends in incidence rates during 1999-2008 and prevalence in 2008 of childhood type 1 diabetes mellitus in Germany – model-based national estimates. PLoS One. 2015;10:1–12.CrossRef
2.
Noble JA. Genetics of the hla region in the prediction of type 1 diabetes. Curr Diab Rep. 2011;11:533–42.CrossRef
3.
D’Onofrio M, Crosara S, De Robertis R, Canestrini S, et al. Elastography of the pancreas. Eur J Radiol. 2014;83:415–9.CrossRef
4.
Kawada N, Tanaka S, Uehara H, Ohkawa K, et al. Potential use of point shear wave elastography for the pancreas: a single center prospective study. Eur J Radiol. 2014;83:620–4.CrossRef
5.
Yashima Y, Sasahira N, Isayama H, Kogure H, et al. Acoustic radiation force impulse elastography for noninvasive assessment of chronic pancreatitis. J Gastroenterol. 2012;47:427–32.CrossRef
6.
He Y, Wang H, Li XP, Zheng J-J, et al. Pancreatic elastography from acoustic radiation force impulse imaging for evaluation of diabetic microangiopathy. Am J Roentgenol. 2017;209:775–80.CrossRef
7.
Sağlam D, Bilgici MC, Kara C, Yılmaz GC, et al. Acoustic radiation force impulse elastography in determining the effects of type 1 diabetes on pancreas and kidney elasticity in children. Am J Roentgenol. 2017;209:1–7.CrossRef
8.
Bluestone J, Herold K, Eisenbarth G. Genetics, pathogenesis and clinical interventions in type 1 diabetes. Nature. 2010;464:1293–300.CrossRef
9.
Foulis A, Stewart J. The pancreas in recent-onset type 1 (insulin-dependent) diabetes mellitus: insulin content of islets, insulitis and associated changes in the exocrine acinar tissue. Diabetologia. 1984;26:456–61.CrossRef
10.
Rajput R, Ram M, Maheshwari S, Goyal RK, et al. Pancreatic imaging by ultrasonography in type 1 diabetes mellitus. Int J Diabetes Metab. 2001;9:75–80.
11.
Kerner W, Brückel J. Definition, Klassifikation and Diagnostik des Diabetes mellitus. Diabetologie. 2014;9:96–9.CrossRef
12.
Kawada N, Tanaka S. Elastography for the pancreas: current status and future perspective. World J Gastroenterol. 2016;22:3712–24.CrossRef
13.
Chantarojanasiri T, Hirooka Y, Kawashima H, Ohno E, et al. Age-related changes in pancreatic elasticity: when should we be concerned about their effect on strain elastography? Ultrasonics. 2016;69:90–6.CrossRef
14.
Stumpf S, Jaeger H, Graeter T, Oeztuerk S, et al. Influence of age, sex, body mass index, alcohol, and smoking on shear wave velocity (p-swe) of the pancreas. Abdom Radiol. 2016;41:1310–6.CrossRef
15.
Harada N, Ishizawa T, Inoue Y, Aoki T, et al. Acoustic radiation force impulse imaging of the pancreas for estimation of pathologic fibrosis and risk of postoperative pancreatic fistula. J Am Coll Surg. 2014;219:887–94.CrossRef
16.
Roche EF, McKenna AM, Ryder KJ, Brennan AA, et al. Is the incidence of type 1 diabetes in children and adolescents stabilising? The first 6 years of a national register. Eur J Pediatr. 2016;175:1913–9.CrossRef
17.
Zechner D, Knapp N, Bobrowski A, Radecke T, et al. Diabetes increases pancreatic fibrosis during chronic inflammation. Exp Biol Med. 2014;239:670–6.CrossRef
18.
Ghosh AK, Quaggin SE, Vaughan DE. Molecular basis of organ fibrosis: potential therapeutic approaches. Exp Biol Med. 2013;238:461–81.CrossRef
19.
Rodriguez-Calvo T, Ekwall O, Amirian N, Zapardiel-Gonzalo J, et al. Increased immune cell infiltration of the exocrine pancreas: a possible contribution to the pathogenesis of type 1 diabetes. Diabetes. 2014;63:3880–90.CrossRef
20.
Gilbeau JP, Poncelet V, Libon E, Derue G, et al. The density, contour, and thickness of the pancreas in diabetics: ct findings in 57 patients. Am J Roentgenol. 1992;159:527–31.CrossRef
21.
Cecil RL. A study of the pathological anatomy of the pancreas in ninety cases of diabetes mellitus. J Exp Med. 1909;11:266–90.CrossRef
22.
Philippe M-F, Benabadji S, Barbot-Trystram L, Vadrot D, et al. Pancreatic volume and endocrine and exocrine functions in patients with diabetes. Pancreas. 2011;40:359–63.CrossRef
23.
Xie J, Zou L, Yao M, Xu G, et al. A preliminary investigation of normal pancreas and acute pancreatitis elasticity using virtual touch tissue quantification (vtq) imaging. Med Sci Monit. 2015;21:1693–9.CrossRef
24.
Goertz RS, Schuderer J, Strobel D, Pfeifer L, et al. Acoustic radiation force impulse shear wave elastography (arfi) of acute and chronic pancreatitis and pancreatic tumor. Eur J Radiol. 2016;85:2211–6.CrossRef
25.
Mateen MA, Muheet KA, Mohan RJ, Rao PN, et al. Evaluation of ultrasound based acoustic radiation force impulse (arfi) and esie touch sonoelastography for diagnosis of inflammatory pancreatic diseases. J Pancreas. 2012;13:36–44.
26.
Llamoza-Torres C, Fuentes-Pardo M, Álvarez-Higueras F, Alberca-de-Las-Parras F, et al. Usefulness of percutaneous elastography by acoustic radiation force impulse for the non-invasive diagnosis of chronic pancreatitis. Rev Esp Enferm Dig. 2016;108:450–6.CrossRef
27.
D’Onofrio M, De Robertis R, Crosara S, Poli C, et al. Acoustic radiation force impulse with shear wave speed quantification of pancreatic masses: a prospective study. Pancreatology. 2016;16:106–9.CrossRef
28.
D’Onofrio M, Gallotti A, Martone E, Mucelli RP. Solid appearance of pancreatic serous cystatheoma diagnosed as cystic at ultrasound acoustic radiation force impulse imaging. J Pancreas. 2009;10:543–6.
29.
Hirooka Y, Kuwahara T, Irisawa A, Itokawa F, et al. JSUM ultrasound elastography practice guidelines: pancreas. J Med Ultrason. 2015;42:151–74.CrossRef
Metadata
Title
Ultrasound point shear wave elastography of the pancreas: comparison of patients with type 1 diabetes and healthy volunteers – results from a pilot study
Authors
Sophie Püttmann
Janina Koch
Jochen Paul Steinacker
Stefan Andreas Schmidt
Thomas Seufferlein
Wolfgang Kratzer
Julian Schmidberger
Burkhard Manfras
Publication date
01-12-2018
Publisher
BioMed Central
Published in
BMC Medical Imaging / Issue 1/2018
Electronic ISSN: 1471-2342
DOI
https://doi.org/10.1186/s12880-018-0295-z

Other articles of this Issue 1/2018

BMC Medical Imaging 1/2018 Go to the issue

Research article

Differentiation of orbital lymphoma and idiopathic orbital inflammatory pseudotumor: combined diagnostic value of conventional MRI and histogram analysis of ADC maps

Case report

Tonsillar Plasmacytoma: clues on magnetic resonance imaging

Research article

Daily routine versus on-demand chest radiograph policy and practice in adult ICU patients- clinicians’ perspective

Research article

A prospective study to evaluate the intra-individual reproducibility of bone scans for quantitative assessment in patients with metastatic prostate cancer

Research article

Radial scars/complex sclerosing lesions of the breast: radiologic and clinicopathologic correlation

Study protocol

Structural and functional brain changes in perimenopausal women who are susceptible to migraine: a study protocol of multi-modal MRI trial