Application value of imaging examinations in the diagnosis of small hepatocellular carcinoma / 中华消化外科杂志

ABSTRACT

Objective:To investigate the application value of contrast-enhanced ultra-sound, enhanced computed tomography (CT) and enhanced magnetic resonance imaging (MRI) in the diagnosis of small hepatocellular carcinoma.Methods:The clinical diagnositic trial was con-ducted. The clinicopathological data of 145 patients with small hepatocellular carcinoma who were admitted to the First Affiliated Hospital of Amy Medical University from January 2019 to June 2021 were collected. There were 121 males and 24 females, aged from 26 to 78 years, with a median age of 54 years. All patients were examined with contrast-enhanced ultrasound, enhanced CT and enhanced MRI, and underwent surgical resection of liver lesions within one month. Observation indicators (1) postoperative histopathological examinations of patients with small hepatocellular carcinoma; (2) examination of small hepatocellular carcinoma by contrast-enhanced ultrasound, enhanced CT and enhanced MRI; (3) imaging features of small hepatocellular carcinoma in the contrast-enhanced ultrasound, enhanced CT and enhanced MRI; (4) enhancement mode distribution of small hepatocellular carcinoma in the arterial, portal and delayed phases of contrast-enhanced ultrasound, enhanced CT and enhanced MRI; (5) the efficacy of contrast-enhanced ultrasound, enhanced CT and enhanced MRI in the diagnosis of small hepatocellular carcinoma. Measurement data with normal distribution were represented as Mean± SD, and measurement data with skewed distribution were represented as M(range). Count data were described as absolute numbers or percentages, and comparison between groups was conducted using the Cochran′s Q test or the chi-square test. The sensitivity, specificity and accuracy were used to analyze the efficacy of contrast-enhanced ultrasound, enhanced CT and enhanced MRI in the diagnosis of small hepatocellular carcinoma. Results:(1) Postoperative histopathological examinations of patients with small hepatocellular carcinoma. There were 154 lesions detected in the postoperative histopathological examinations for the 145 small hepatocellular carcinoma patients, with the tumor diameter as (2.2±0.6)cm. (2) Examination of small hepatocellular carcinoma by contrast-enhanced ultrasound, enhanced CT and enhanced MRI. There were 153, 154 and 154 lesions detected in contrast-enhanced ultrasound, enhanced CT and enhanced MRI for the 145 patients with small hepatocellular carcinoma, respectively, with the detection rate as 99.35%(153/154), 100.00%(154/154) and 100.00%(154/154), showing no significant difference among the 3 imaging examination methods ( Q=2.00, P>0.05). (3) Imaging features of small hepatocellular carcinoma in the contrast-enhanced ultrasound, enhanced CT and enhanced MRI. Of the 153 lesions reported in contrast-enhanced ultrasound for patients with small hepatocellular carcinoma, 140 lesions showed "fast-in and fast-out" enhancement, 12 lesions showed "fast-in and slow-out" enhancement and 1 lesion showed isoenhancement in arterial phases and hypoenhancement in portal and delayed phase. Of the 154 lesions reported in enhanced CT for patients with small hepatocellular carcinoma, 112 lesions showed "fast-in and fast-out" enhancement, 13 lesions showed "fast-in and slow-out" enhancement, 14 lesions showed isoenhancement in arterial phase and hypoenhancement in portal and delayed phases, 5 lesions showed rim-like hyperenhancement in arterial phase and hypoenhancement in portal and delayed phases, 5 lesions showed hypoenhancement in the three phases, 3 lesions showed hyperenhancement in the three phases, 1 lesion showed isoenhancement in the three phases and 1 lesion showed isoenhancement in arterial and portal phases and hypoenhancement in delayed phase. Of the 154 lesions reported in enhanced MRI for patients with small hepatocellular carcinoma, 134 lesions showed "fast-in and fast-out" enhancement, 1 lesion showed "fast-in and slow-out" enhancement, 8 lesions showed isoenhancement in arterial phase and hypoenhance-ment in portal and delayed phases, 5 lesions showed rim-like hyperenhancement in arterial phase and hypoenhancement in portal and delay phases, 2 lesions showed rim-like hyperenhancement in the three phases, 1 lesion showed hyperenhancement in the three phases, 1 lesion showed hypoenhancement in the three phases, 1 lesion showed isoenhancement in arterial and portal phases and hypoenhancement in delayed late phase, 1 lesion showed edge delay enhancement in the three phases. (4) Enhancement mode distribution of small hepatocellular carcinoma in the arterial, portal and delayed phases of contrast-enhanced ultrasound, enhanced CT and enhanced MRI. Of the 153 lesions reported in contrast-enhanced ultrasound for patients with small hepatocellular carcinoma, there were 152 lesions with hyperenhancement and 1 lesion with iso or hypoenhance-ment in the arterial phase, there were 55 lesions with hyper or isoenhancement and 98 lesions with hypoenhancement in the portal venous phase, there were 12 lesions with hyper or isoenhancement and 141 lesions with hypoenhancement in the delayed phase. Of the 154 lesions reported in enhanced CT for patients with small hepatocellular carcinoma, there were 133 lesions with hyperen-hancement signal and 21 lesions with iso or hypoenhancement in the arterial phase, there were 53 lesions with hyper or isoenhancement and 101 lesions with hypoenhancement in the portal phase, there were 17 lesions with hyper or isoenhancement and 137 lesions with hypoenhancement in the delayed phase. Of the 154 lesions reported in enhanced MRI for patients with small hepatocellular carcinoma, there were 143 lesions with hyperenhancement and 11 lesions with iso or hypoenhance-ment in the arterial phase, there were 29 lesions with hyper or isoenhancement and 125 lesions with hypoenhancement in the portal phase, there were 5 lesions with hyper or isoenhancement and 149 lesions with hypoenhancement in the delayed phase. There were significant differences in the enhancement mode distribution of lesions in the arterial, portal and delayed phases among contrast-enhanced ultrasound, enhanced CT and enhanced MRI ( χ2=19.47, 13.21, 6.92, P<0.05). (5) The efficacy of contrast-enhanced ultrasound, enhanced CT and enhanced MRI in the diagnosis of small hepatocellular carcinoma. Of the 153 lesions reported in contrast-enhanced ultrasound for patients with small hepatocellular carcinoma, there were 3 lesions misdiagnosed according to the postoperative histopathological examinations. Of the 154 lesions reported in enhanced CT and enhanced MRI for patients with small hepatocellular carcinoma, there were 7 lesions and 2 lesions misdiagnosed according to the postoperative histopathological examinations, respectively. Lesions misdiagnosed in one imaging examination method were correctly diagnosed in the other two imaging examination methods. The sensitivity, specificity, accuracy were 97.4%, 63.0%, 92.3% for contrast-enhanced ultrasound in the diagnosis of small hepatocellular carcinoma. The above indica-tors were 95.5%, 63.0%, 90.6% for enhanced CT and 98.7%, 63.0%, 93.4% for enhanced MRI in the diagnosis of small hepatocellular carcinoma. There was no significant difference in the sensitivity and accuracy among the 3 imaging examination methods ( Q=2.92, 0.00, 1.81, P>0.05). Conclusion:Contrast-enhanced ultrasound, enhanced CT and enhanced MRI all have good diagnostic value in diagnosis of small hepatocellular carcinoma, and they complement each other.