Super-high magnification dermoscopy can aid the differential diagnosis between melanoma and atypical naevi.

BACKGROUND: Dermoscopy is the most widely used noninvasive imaging technique for the clinical diagnosis of melanoma (MM). Super-high (× 400) magnification dermoscopy (D400) has recently been developed; compared with traditional dermoscopy, it can reveal additional features, down to the identification of single melanocytes in the skin. OBJECTIVES: To evaluate which structures are visible at D400 and to compare them in atypical naevi and MMs. METHODS: A prospective observational multicentre study was conducted. We enrolled patients who were identified as having atypical melanocytic skin lesions by clinical and/or × 20 magnification dermoscopy (D20) examination, and who were assigned to either excision or follow-up. Lesions were imaged by videodermoscopy at D20 and D400. The presence of pigmented cells and their features were assessed at D400. RESULTS: In total, there were 79 patients with 57 naevi and 31 MMs. Of the total 88 lesions, 63 (71.6%) were given a histological diagnosis, while the others were followed up for ≥ 12 months, during which they showed no change and were all diagnosed as naevi. Pigmented cells were identified in > 90% of the lesions at D400. Compared with naevi, MMs had a higher frequency of scattered, large, irregular (in shape and size), dendritic/roundish, violet/blue pigmented cells under D400 (P < 0.001). Moreover, dots (P < 0.01), out-of-focus blue structureless areas (P < 0.01) and vessels (P < 0.001) were also more frequent in MMs than in naevi at D400. CONCLUSIONS: This study showed that D400 can reveal many elements not otherwise visible in traditional D20 dermoscopy, such as pigmented cells and their morphology, which could be useful for the diagnosis of MM.

A virtuous diagnostic and therapeutic roadmap triggered by a motivated and skilful urinary sediment examination.

In this paper we describe how an accurate urinary sediment examination, which revealed the presence of a severe 2,8-dihydroxyadenine crystalluria, opened the way to an articulate and successful diagnostic and therapeutic roadmap for a rare and potentially severe renal disease.

"Daisy-like" crystals: A rare and unknown type of urinary crystal.

BACKGROUND: Crystals are well known structures of urinary sediment, most of which are identified by the combined knowledge of crystal morphology, birefringence features at polarized light, and urine pH. In this paper, we report on a cohort of subjects whose urine contained a very rare type of crystal, which we first described in 2004 and which, based on its peculiar morphology, we define as "daisy-like crystal" (DLcr). METHODS: Reports on DLcr were spontaneously sent to our laboratory over a 10.5-year period by different laboratory professionals and by one veterinary clinician who, in their everyday work, had come across DLcr. After the examination of DLcr images submitted, a number of other information were requested and partly obtained. RESULTS: DLcr were found in 9 human beings in 7 different laboratories, located in 4 countries (Italy, Belgium, Croatia, France). DLcr were found mostly in female (8/9), at all ages (3.5 to 93years), mostly in alkaline urine (pH6.0 to 7.5), at variable specific gravity values (1.010 to 1.030), either as isolated particles (2/8) or in association with other crystals (5/8) and/or leucocytes or bacteria (3/8). In addition, DLcr were found in the urine of a 1-year-old dog, examined in a veterinary clinic of Czech Republic. In 3 cases, DLcr were identified by manual microscopy, while in 7 cases by automated urine sediment analyzers. CONCLUSIONS: This paper confirms the possible presence in the urine of DLcr. However, further cases are needed to clarify their frequency, clinical meaning, and composition.