Dyskeratosis congenita: a rare case report.

Dyskeratosis congenita (DKC) is a rare genetic disorder characterized by lacy reticular skin hyperpigmentation, bone marrow failure, nail dystrophy, and oral leukoplakia. To the best of our knowledge, only around 200 cases were reported in the medical literature, and in this report, we present another distinctive case from Syria. This case report describes a male patient with generalized reticular pigmentation and abnormal nails since childhood. The patient reported a history of recurrent urethral stenosis and corneal density. Dermoscopic examination revealed pigmented lines arranged in a netlike pattern. Histopathological findings were nonspecific. Hematological values were unremarkable. A contrast CT scan revealed changes in the bladder wall. The final diagnosis of Dyskeratosis Congenita was made based on the clinical criteria. This disorder can present with additional cutaneous manifestations and systemic complications. Treatment are generally prescribed to maintain bone marrow function, based on the fact that it is the major cause of death. Regular monitoring and screening for associated conditions are recommended.

Effect of surface type on structural and optical properties of Ag nanoparticles formed by dewetting.

Integration of an array of Ag nanoparticles in solar cells is expected to increase light trapping through field enhancement and plasmonic scattering. Requirement of Ag nanoparticle decoration of cell surfaces or interfaces at the macro-scale, calls for a self-organized fabrication method such as thermal dewetting. Optical properties of a 2D array of Ag nanoparticles are known to be very sensitive to their shape and size. We show that these parameters depend on the type of the substrate used. We observe that the average nanoparticle size decreases with increasing substrate thermal conductivity and nanoparticle size distribution broadens with increasing surface roughness.