Aqueous extract of Costus arabicus inhibits calcium oxalate crystal growth and adhesion to renal epithelial cells.

Costus arabicus L. (C. arabicus) is a plant used in Brazilian folk medicine to treat urolithiasis; however, its mechanism of action is unclear.

Controlled metabolic diet reduces calcium oxalate supersaturation but not oxalate excretion after bariatric surgery.

Objective: To identify the effect of a controlled metabolic diet on reducing urinary calcium oxalate (CaOx) supersaturation in subjects with hyperoxaluric nephrolithiasis after potentially malabsorptive forms of bariatric surgery.

Methods: Subjects with a history of CaOx kidney stones and mild hyperoxaluria after bariatric surgery (n = 9) collected baseline 24-hour urine samples while consuming a free choice diet. They were then instructed to consume a controlled diet low in oxalate (70-80 mg/d), normal in calcium (1000 mg/d), and moderate in protein before 2 final 24-hour urine collections.

Isolation, propagation, and analysis of biological nanoparticles.

Calcifying biologic nanoparticles (NPs) have been implicated as nucleation points for a number of -pathologic events that include vascular calcification and the formation of kidney stones. In order to study these potential relationships, reproducible isolation of well-characterized biologic NPs is a necessity. Our group has isolated and propagated calcifying NPs from several human tissues and renal stones.

A fibrinogen-based precision microporous scaffold for tissue engineering.

Fibrin has been long used as an effective scaffolding material to grow a variety of cells and tissue constructs. It has been utilized mainly as a hydrogel in varying concentrations to provide an environment in which suspended cells work to rearrange the fibers and lay down their own extracellular matrix. For these fibrin hydrogels to be useful in many tissue-engineering applications, the gels must be cultured for long periods of time in order to increase their mechanical strength to the levels of native tissues.

Delivery of non-viral gene carriers from sphere-templated fibrin scaffolds for sustained transgene expression.

Delivery of safe and controlled levels of biomimetic cues to govern host response and reorganization is a fundamental component in the design of tissue engineering scaffolds. Non-viral gene delivery is an approach that exploits the cell machinery to produce proteins while avoiding genomic DNA incorporation. We describe a method to integrate polymeric non-viral gene carriers (polyplexes) within a novel three-dimensional, sphere-templated fibrin scaffold suitable for soft tissue engineering applications.