PubMed Kapalı Erişimli Yayınlar

Permanent URI for this collectionhttps://hdl.handle.net/11727/10764

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Author: search.filters.author.Haberal, Kemal Murat

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    Use of Computed Tomography Volumetry to Assess Liver Weight in Patients With Cirrhosis During Evaluation Before Living-Donor Liver Transplant
    (2021) Haberal, Kemal Murat; Rahatli, Feride Kural; Turnaoglu, Hale; Ozgun, Gonca; Coskun, Mehmet; 0000-0002-8211-4065; 0000-0002-4226-4034; 0000-0002-0781-0036; 0000-0001-5630-022X; 30398100; R-9398-2019; AAL-9808-2021; AAK-8242-2021; AAM-4120-2021
    Objectives: Computed tomography liver volumetry has been widely used to detect total and segmental liver volume in living-donor liver transplantation. However, use of this technique to evaluate the cirrhotic liver remains unclear. In this study, we evaluated the accuracy of freehand computed tomography volumetry to assess total liver volume by comparing weights of total hepatectomy specimens in patients with cirrhosis. For our analyses, we considered the density of a cirrhotic liver to be 1.1 kg/L. Materials and Methods: Liver volume was measured using a freehand computed tomography technique in 52 patients with cirrhosis from different causes and who had no solid lesions before transplant. Measurements were made with a 16-slice multidetector computed tomography scanner (Siemens Somatom Sensation 16, Erlangen, Germany). For volumetric measurements, 10-mm-thick slices with 10-mm reconstruction intervals were preferred. Total hepatectomy weights of explant livers and computed tomography volumetry data were compared. Results: We excluded 3 cirrhotic patients with Budd-Chiari syndrome due to wide variations in scatterplot results. In the 49 patients included in the final analyses, average estimated liver volume by computed tomography was 721 +/- 398 mL and actual cirrhotic liver weight was 727.8 +/- 415 g. No significant differences were shown between these measurements. A simple regression analysis used to analyze correlations between estimated liver volume by computed tomography and real cirrhotic liver weight showed correlation of 0.957 (P < .001). When computed tomography liver volumetry as the independent variable and cirrhotic liver weight as dependent variable were considered, regression analyses showed R-2 = 0.915. Conclusions: Freehand computed tomography liver volumetry can be confidently used to evaluate liver volume in cirrhotic liver patients similar to use of this technique to estimate actual weights in normal livers. This technique can also be valuable during pretransplant and liver resection evaluations to ensure a more successful outcome.
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    Liver Stiffness Measurements Using Acoustic Radiation Force Impulse in Recipients of Living-Donor and Deceased-Donor Orthotopic Liver Transplant
    (2021) Haberal, Kemal Murat; Turnaoglu, Hale; Ozdemir, Adnan; Uslu, Nihal; Reyhan, Asuman Nihan Haberal; Moray, Gokhan; Haberal, Mehmet; 0000-0002-8211-4065; 0000-0002-3462-7632; 28836931; R-9398-2019; AAJ-8097-2021
    Objectives: The aim of this study was to evaluate the diagnostic efficiency of the acoustic radiation force impulse (Siemens Medical Solutions, Erlangen, Germany) elastography in assessment of fibrosis in orthotopic liver transplant patients. Materials and Methods: We enrolled 28 orthotopic liver transplant patients (5 deceased and 23 living donors), whose biopsy decision had been prospectively given clinically. Ten acoustic radiation force impulse elastographic measurements were applied before the biopsy or within 3 days after the biopsy by 2 radiologists. After the core tissue needle biopsy, specimens of all patients were analyzed according to the modified Ishak scoring system. Measurements of acoustic radiation force impulse elastography and pathology specimen results were compared. Results: From 28 biopsies, fibrosis scores of 4 biopsies were evaluated as F0 (14.3%), 16 as F1 (57.1%), 4 as F2 (14.3%), and 4 as F3 (14.3%). Mean results of acoustic radiation force impulse measurements were calculated as 1.4 +/- 0.07 in F0, 1.74 +/- 0.57 in F1, 2.19 +/- 0.7 in F2, and 2.18 +/- 0.35 in F3. There were no significant correlations of mean acoustic radiation force impulse values between the F0 versus F1 (P =.956) and F0 versus F2 stages (P =.234). A statistically significant correlation of mean acoustic radiation force impulse values was found between the F0 and F3 fibrosis stages (P =.046). Conclusions: Acoustic radiation force impulse imaging is a promising screening test for detecting significant liver fibrosis (>= F3 in modified Ishak) in living- donor or deceased-donor orthotopic liver transplant recipients.
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    Acoustic Radiation Force Impulse Elastography Findings of Achilles Tendons in Patients on Chronic Hemodialysis and in Renal Transplant Patients
    (2021) Rahatli, Feride Kural; Turnaoglu, Hale; Haberal, Kemal Murat; Kirnap, Mahir; Fidan, Cihan; Sayin, Cihat Burak; Uslu, Nihal; Haberal, Mehmet; 0000-0002-8211-4065; 0000-0002-9093-1524; 0000-0002-9093-1524; 30398098; R-9398-2019; F-5830-2019; F-5830-2019
    Objectives: The Achilles tendon, which is composed of tendinous parts of gastrocnemius and soleus muscles, is the strongest and the largest tendon in the human body. Chronic renal disease can lead to reduced physical activity and exercise capacity. Spontaneous rupture of the Achilles tendon can occur in patients with chronic renal failure, with recurrent microtraumas, hypoxia, and chronic acidosis as predisposing factors. Here, we assessed and compared the elastographic findings in the Achilles tendon using acoustic radiation force impulse elastography in patients on chronic hemodialysis, in renal transplant patients, and in healthy volunteers. Materials and Methods: Our study included 25 patients on chronic hemodialysis, 25 renal transplant patients, and 25 healthy individuals (control group). The thickness and shear wave velocity of the Achilles tendons were measured bilaterally by ultrasonography and acoustic radiation force impulse elastography. Results: The mean shear wave velocity was 3.67 m/s in the right and 3.64 m/s in the left Achilles tendon in the hemodialysis group. In the renal transplant group, the mean shear wave velocity was 4.29 and 4.25 m/s for the right and left Achilles tendon, respectively. In the control group, the mean shear wave velocity was 6.68 and 6.59 m/s, respectively for the right and left Achilles tendon. A statistically significant difference in shear wave velocities was shown among the groups (P<.05). Conclusions: Achilles tendons in patients with chronic renal failure and on hemodialysis were softer than in renal transplant patients and softer than in the control group. Chronic tendinopathy causes softening of the tendon. In the renal transplant group, stiffness of the Achilles tendon was increased versus the hemodialysis group but still softer than the control group, which could be explained as a positive clinical effect of renal transplant. Acoustic radiation force impulse elastography is an objective, easy, and noninvasive method to assess Achilles tendinopathy.
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    Assessment of Parotid and Submandibular Glands With Shear Wave Elastography Following Radioactive Iodine Therapy for Papillary Thyroid Carcinoma
    (2019) Rahatli, Feride Kural; Turnaoglu, Hale; Iyidir, Ozlem Turhan; Kirnap, Nazli Gursoy; Haberal, Kemal Murat; Aydin, Erdinc; Uslu, Nihal; 0000-0001-5305-6807; 0000-0002-8211-4065; 30027680; K-7904-2019; R-9398-2019; ABC-5258-2020
    Objectives Papillary thyroid carcinoma (PTC) is the most common thyroid malignancy. Radioactive iodine (RAI) therapy is used for remnant ablation following thyroidectomy. Side effects such as dysphagia, xerostomia, and sialoadenitis may occur. We aimed to determine the differences in the parotid and submandibulary glands between healthy patients and patients with PTC who had undergone RAI therapy and have dry mouth symptoms using both shear wave elastography and ultrasonography. Methods We enrolled 30 patients with PTC who had undergone RAI therapy following surgery and 30 healthy controls. Ultrasonography and shear wave elastography of submandibular and parotid glands were performed. The volume of the submandibular glands and the thickness of parotid glands were determined. Ten independent measurements were obtained from each gland, with the region of interest placed at different points on the glands. The mean shear wave velocities (SWVs) were calculated and compared between the patients and controls. Results In the PTC group, there was a significant reduction in the volume of the submandibular glands (P < .05) and in the thickness of the parotid glands (P < .05) compared with the control group. The mean SWVs of the parotid glands and submandibular glands were significantly higher in the PTC group compared with the control group (P < .0001). The SWVs of the parotid glands were higher than the SWVs of the submandibular glands (P < .0001). Conclusions Shear wave elastography could be a noninvasive and easy assessment method of parotid and submandibular glands in patients who had undergone RAI therapy and experience dry mouth.
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    Is Unenhanced Computed Tomography Reliable in the Assessment of Macrovesicular Steatosis in Living Liver Donors?
    (2019) Haberal, Kemal Murat; Turnaoglu, Hale; Reyhan, Asuman Nilhan Haberal; 31666000
    Objectives: In this retrospective study, we aimed to determine the diagnostic value of unenhanced computed tomography in the assessment of macro vesicular steatosis in potential living liver transplant donors by using biopsy as a reference standard. Materials and Methods:This retrospective study was approved by our institutional review board, and all included patients provided written informed consent. Our study group included 181 donor candidates (mean age of 35.9 +/- 9.3 y) who underwent unenhanced computed tomography and subsequent needle biopsy (mean period after scan of 12.74 d) in the right hepatic lobe (at least 2 samples per patient). Histologic degree of macrovesicular steatosis was determined. A radiologist with 10 years of experience assessed steatosis of the right hepatic lobe by using 2 methods: (1) a 4-point visual grading system that used attenuation comparison between the liver and hepatic vessels and (2) the liver attenuation index, which was calculated with region of interest measurements of hepatic attenuation. We used statistical analyses to compare accuracy in the diagnosis of macrovesicular steatosis. Results: Our study population was divided into 3 groups according to histologic steatosis grade. Group 1 consisted of 157 candidates with 0% to 5% steatosis, group 2 consisted of 11 candidates with 6% to 15% steatosis, and group 3 consisted of 13 candidates with 16% to 100% steatosis. Mean liver attenuation (in Hounsfield units standard deviation) was 58.93 +/- 5.07 for group 1, 47.8 +/- 4.17 for group 2, and 39.11 +/- 6.5 for group 3. Significant differences in liver attenuation were observed between groups using one-way analyses of variance (F = 107 307; P < .01). For visual grading, correlation coefficient for computed tomography was 0.959. Conclusions: Unenhanced computed tomography to assess liver attenuation represents an objective and noninvasive means for detection of hepatic steatosis. This method can prevent unnecessary biopsies.