Your search keyword '"Neta Kutner"' showing total 4 results

1. Engineering Long‐Releasing Hollow‐like or Condensed Progesterone Hormone Microcrystals with Controlled Polymorphism

Author

Merna Shaheen‐Mualim, Edwar Odeh, Neta Kutner, Muhammad Hijazi, and Shady Farah

Subjects

controlled release, crystals engineering, hollow‐like crystals, hormones, localized delivery, progesterone, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Progesterone is an endogenous steroid hormone involved in the menstrual cycle, pregnancy, and embryogenesis of humans and other species. Progesterone crystallization techniques have previously reported. Among these techniques, solvent crystallization and different solvent:anti‐solvent systems are considered. Herein, the selective development of either hollow‐like or condensed progesterone microcrystals in elevated yield with controlled polymorphism, habit, and release is described for the first time. For the hollow microcrystals, isopropyl alcohol (IPA) and double‐deionized water (DDW) system is developed as solvent:anti‐solvent, while acetonitrile (AcN) and DDW system are developed for the condensed microcrystals. The microcrystals obtained from both developed crystallization systems are thoroughly investigated with varied microscopic techniques, including brightfield and scanning electron microscopy (SEM), thermal analysis by differential scanning calorimetry (DSC), and crystallography by powder X‐ray diffraction (PXRD) and single XRD, and have been compared. Results show that the crystals of the IPA:DDW crystallization system are hollow and exhibit several habits, whereas the microcrystals of the AcN:DDW crystallization system are more condensed. However, both systems are found to have a wide crystal size distribution of one stable polymorph and are thus highly useful for tunable release. More importantly, these microcrystals exhibit elongated and slow release for 14 days under an expedited release conditions model, indicating suitability for long‐term and potential localized release applications.

Published

2024

2. The emerging potential of crystalline drug‐polymer combination for medical applications

Author

Merna Shaheen‐Mualim, Neta Kutner, and Shady Farah

Subjects

Polymers and Plastics

Published

2022

3. Disinfectants Role in the Prevention of Spreading the COVID-19 and Other Infectious Diseases – The Need for Functional Polymers!

Author

Konda Reddy Kunduru, Neta Kutner, Eid Nassar‐Marjiya, Merna Shaheen‐Mualim, Luna Rizik, and Shady Farah

Subjects

Polymers and Plastics

Abstract

The spreading of coronavirus through droplets and aerosols of an infected person is a well-known mechanism. The main protection methods from this virus are using disinfectants/sanitizers, face masks, keeping social distance, and vaccination. With the rapid mutations of the virus accompanied by its features and contagions changing, new advanced functional materials development is highly needed. The usage of disinfectants/sanitizers in excess generates poisonous effects among the general public. Effective and simultaneously, human-friendly sanitizers or disinfectants are required to prevent the poisoning and the associated issues. They minimize the toxic effects of the currently available materials by rapid action, high potential, long-term stability, and excellent biocompatible nature. Here, we summarize the available antiviral materials, their features, and their limitations. We highlight the need to develop an arsenal of advanced functional antiviral polymers with intrinsic bioactive functionalities or released bioactive moieties in a controlled manner for rapid and long-term actions for current and future anticipated viral outbreaks.

Published

2022

4. Recent Advances for Improving Functionality, Biocompatibility, and Longevity of Implantable Medical Devices and Deliverable Drug Delivery Systems (Adv. Funct. Mater. 44/2021)

Author

Shady Farah, Konda Reddy Kunduru, Luna Rizik, and Neta Kutner

Subjects

Biomaterials, Materials science, Biocompatibility, Deliverable, media_common.quotation_subject, Drug delivery, Electrochemistry, Longevity, Nanotechnology, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, media_common

Published

2021