ABSTRACT
We report a case of intra-abdominal seminoma in an undescended testis, focusing on the radiological clues for diagnosis on computed tomography. A 49-year-old man visited our hospital with a palpable abdominal mass and underwent abdominopelvic computed tomography. Computed tomography demonstrated an ovoid, mildly enhanced, well-defined mass measuring 21 × 16 × 9 cm in the small bowel mesentery mimicking a mass of mesenteric origin. However, a vascular structure was observed in the left posterior aspect of the mass. The vascular structure originated from the inferior posterior part of the mass and ran cranially. The artery subsequently united to the aorta, and the vein united to the left renal vein. We identified the artery and vein as the testicular artery and vein, respectively. We also noted the absence of a left spermatic cord in the left inguinal canal. Therefore, we concluded that the mass originated from the left undescended testis. The patient underwent surgery, and the mass was removed with the testicular vessels; the resected testicular vein was mostly filled with thrombus. On pathological examination, the mass was confirmed to be a seminoma in the undescended testis.
ABSTRACT
Microfibers produced using electrospinning and microfluidics-based technologies have been developed as a powerful tool in tissue engineering applications such as drug delivery and scaffolds. The applications of these fibers, however, have been limited because of the hazardous solvents used to make them, difficulties in controlling the pore sizes of their membrane forms, and downscaling the size of the fiber. Nevertheless, extending the use of these fibers, for example in the production of a free-standing porous membrane appropriate for cell-based research, is highly needed for tissue engineering, organ-on-a-chip, and drug delivery research and applications. Here, we fabricated a free-standing porous membrane by using a novel method that involved simultaneously spinning multiple strands of submicron-thick 'noodle-like' fibers. In addition to the novelty of the single noodle fiber in overcoming the size-reducing limitations of conventional microfluidic spinning methods, these fibers can hence form the units of 'noodle membranes' whose pores have sizes that the convention electrospinning method cannot achieve. We confirmed the potential of the noodle membrane to serve as a free-standing porous membrane in two simple experiments. Also, we found that noodle membranes have an advantage in loading different amounts of different materials in itself that it was also shown to be of use as a new type of scaffold for complex tissue regeneration. Therefore, the proposed noodle membrane can be an effective tool in tissue engineering applications and biological studies.
Subject(s)
Membranes, Artificial , Microfluidics/methods , Nanofibers/chemistry , Animals , Cell Culture Techniques , Mice , Nanofibers/ultrastructure , Particle Size , PorosityABSTRACT
This study aimed to test the reliability and validity of the Korean version of McGill Quality of Life Questionnaire (MQOL-K) for use with 140 palliative care patients in Korea. Our results confirmed the suitability of using the 16 questions of the questionnaire clustered into four domains (physical, psychological, existential and support) as in the original version of the MQOL, although the distribution of items among the domains differed somewhat from the original. The MQOL-K demonstrated moderate to high internal consistency (Cronbach's alpha, 0.62-0.90), convergent validity without scaling error, and a good concurrent validity with European Organization for Research and Treatment of Cancer Quality of Life Questionnaire-Core 30, sense of dignity, and general health perception. In addition, we tested the clinical validity of the MQOL-K using a known group comparison to quantify sensitivity. Regression results indicated that the existential and psychological domains had independent effects on the overall quality of life of patients in Korea. Therefore, the MQOL-K is deemed suitable for assessing the quality of life in a Korean palliative care setting.