Publications by authors named "Mojtaba Farahani"

Background: In this study, the effect of Pezzer (as a Pezzer catheter) and three-way Foley catheters, used for suprapubic catheterization after open prostatectomy, was investigated in terms of early incidence of painful bladder spasms.

Materials And Methods: In this single-blind clinical trial study, 160 patients diagnosed with LUTS/BPH were placed in two groups of 80 Pezzer catheter (Pezzer(size 28)) and three-way Foley catheters (size 24) for suprapubic catheterization. The evaluated variables in this study are age, prostate weight, narcotics dose, Spasm frequency, International Prostate Symptom Score (IPSS), visual analogue scale (VAS), catheterization period.

View Article and Find Full Text PDF

Recent advances in cell and biofabrication technologies have contributed to the development of complex human organs. In particular, several skin substitutes are being generated using tissue engineering and regenerative medicine (TERM) technologies. However, recent studies mainly focus on the restoration of the dermis and epidermis layers rather than the regeneration of a fully functional innervated skin organ.

View Article and Find Full Text PDF

The ability to create complex three-dimensional cellular models that can effectively replicate the structure and function of human organs and tissues in vitro has the potential to revolutionize medicine. Such models could facilitate the interrogation of developmental and disease processes underpinning fundamental discovery science, vastly accelerate drug development and screening, or even be used to create tissues for implantation into the body. Realization of this potential, however, requires the recreation of complex biochemical, biophysical, and cellular patterns of 3D tissues and remains a key challenge in the field.

View Article and Find Full Text PDF

Biomaterials are considered a substantial building block for tissue engineering, regenerative medicine, and drug delivery. Despite using both organic and inorganic biomaterials in these fields, polymeric biomaterials are the most promising candidates because of their versatility in their characteristics (i.e.

View Article and Find Full Text PDF

Non-oral long-acting drug delivery systems (LADDS) encompass a range of technologies for precisely delivering drug molecules into target tissues either through the systemic circulation or via localized injections for treating chronic diseases like diabetes, cancer, and brain disorders as well as for age-related eye diseases. LADDS have been shown to prolong drug release from 24 h up to 3 years depending on characteristics of the drug and delivery system. LADDS can offer potentially safer, more effective, and patient friendly treatment options compared to more invasive modes of drug administration such as repeated injections or minor surgical intervention.

View Article and Find Full Text PDF

The universal increase in the number of patients with nonhealing skin wounds imposes a huge social and economic burden on the patients and healthcare systems. Although, the application of traditional wound dressings contributes to an effective wound healing outcome, yet, the complexity of the healing process remains a major health challenge. Recent advances in materials and fabrication technologies have led to the fabrication of dressings that provide proper conditions for effective wound healing.

View Article and Find Full Text PDF