ABSTRACT
Introduction: The objective of this study was to observe the patterns of different arteries that supply the kidneys. The kidney has a segmental distribution of arteries. The kidneys are divided into five vascular segments. The arteries that arise from the aorta above or below the main renal artery and reach the hilum are called accessory renal arteries. They are persistent embryonic lateral splanchnic arteries. Accessory renal arteries may arise from the celiac or superior mesenteric arteries, near the bifurcation or from the common iliac arteries. The present study has attempted to find out accessory, and aberrant arteries to kidneys with review of literature. Materials and Methods: The study was done on 52 kidneys randomly selected from cadavers that were used for the purpose of teaching in the department of Anatomy at P.E.S Medical College. The kidneys were removed from the cadavers en-block with the arteries and veins intact. The renal artery was observed for its pattern of branching. Observations and Discussion: The pre-hilar branching pattern was absent only in six kidneys out of the 52 kidneys selected. The branches given before entering the hilum were either in the form of a fork pattern or a ladder pattern in the remaining 46 kidneys. The fork pattern wherein the branches arose from a single point was found in 42 kidneys. The ladder patterns were seen in two posterior segment arteries and two anterior segment arteries. The anterior division often showed the fork patterns which were either duplicate or triplicate outside the hilum more proximally, with further division into duplicate or triplicate terminal branches closer to the hilum but significantly outside.
ABSTRACT
Objective To explore the application value of dynamic vascular patterns(DVP) curve and parameter figure in the focal liver lesions by contrast-enhanced ultrasound(CEUS).Methods 83 cases of focal liver lesions diagnosed by pathologically or clinically that had undergone CEUS were analyzed by SonoLiver software.Then DVP parametric images were constructed and the time-intensity curve (TIC) parameters were calculated by TIC and DVP curve.Results Rise time(RT),time to peak(TTP),maximum intensity(IMAX),mean transit (mTT),slope of rise,and the absolute value for slope of half down between malignant and benign lesions groups indicated statistically significant difference (P <0.05).94.9% of type Ⅰ was malignant lesions and 100% Ⅳ type was benign lesions.The four types of DVP curve(Ⅰ,Ⅱ,Ⅲ,Ⅳ)in malignant and benign lesions were 72.5%,13.7%,13.7%,0 and 6.2%,43.8%,31.2%,18.8%,respectively.The proportion and characteristic of DVP parametric images and DVP curves in malignant and benign lesions groups were consistent.Conclusions DVP curve and parametric images of CEUS can demonstrate the difference of flow perfusion static between lesions area and surrounding liver parenchyma dynamically and directly.These are new qualitative indexes of the differential diagnosis in focal liver lesions.
ABSTRACT
Amelanotic melanoma is a subtype of malignant melanoma that lacks clinically visible pigmentation. The absence of recognizable pigmentation obscures the clinical hallmark of the more typical form of malignant melanoma. Because it mimics various non-pigmented benign and malignant skin diseases, clinicians have difficulty diagnosing this lesion. An incorrect or delayed diagnosis can result in a worse outcome because the prognosis of melanoma depends on the tumor thickness and tissue invasion at the time of diagnosis. Therefore, early diagnosis is crucial for treating amelanotic melanoma. Dermoscopy is a useful non-invasive technique for diagnosing not only pigmented skin lesions, but also non-pigmented skin lesions because this modality can visualize vascular structures that are not discernible to the naked eye. Analyzing the dermoscopic vascular structures of amelanotic melanoma helps make an early diagnosis. We report here on a case of amelanotic melanoma for which the diagnosis was aided by performing dermoscopy as an adjuvant tool.