Simran Chaurasia

Scopus Publications

Novel Pharmaceutical Interventions for Drug Targeting in Parkinson’s Disease
Simran Chaurasia, Sakshi Sharma Dogra, Md Sadique Hussain, Rajesh Kumar, Navneet Khurana
Current Drug Therapy, 2026
Parkinson's Disease (PD) presents as a neurodegenerative disorder characterized by a gradual decline in brain function, typically advancing slowly over time in most individuals. However, as the disease evolves and impacts the Gastrointestinal Tract (GIT), the window for effective treatment response often becomes narrower for many patients. Recent advancements in medical science have spurred improvements in drug delivery, primarily through the development of enhanced oral formulations or the exploration of alternative administration routes, such as intestinal infusion, transcutaneous delivery, and inhaled levodopa. Among the recent oral formulation breakthroughs is IPX066, a novel formulation combining immediate and extended-release Carbidopa-Levodopa (CD/LD). Another notable example is levodopa-carbidopa intestinal gel, an authorized treatment involving the direct infusion of LD/CD suspension into the brain. Concurrent investigations are assessing the effectiveness of the 'accordion pill' (AP09004), an Extended-release (ER) LD/CD mixture designed to retain within the GIT for an extended period. Additionally, other formulations in various stages of clinical trials include ND0612, a proprietary liquid formulation intended for the purpose of subcutaneous delivery using a compact patch-pump apparatus, and CVT-301, a levodopa aerosol solution distinguished by its prompt initiation of therapeutic effects. However, several other promising formulations, such as DM-1992 and XP21279, have been terminated. This study aimed to thoroughly examine the pharmacokinetics, clinical effectiveness, and possible adverse reactions linked to innovative medication formulations that are now accessible or being developed for treating PD.
A Comprehensive Review on Drug Therapies and Nanomaterials used in Orthodontic Treatment
Nitasha Chauhan, Mohit Kumar, Simran Chaurasia, Yogesh Garg, Shruti Chopra, Amit Bhatia
Current Pharmaceutical Design, 2023
Orthodontic treatment typically requires an extended duration of 1-2 years to complete the treatment. Accelerating the rate of tooth movement during orthodontic treatment is essential for shortening the overall treatment duration. After the completion of orthodontic treatment, a prominent concern arises in the form of orthodontic relapse, where the teeth tend to revert to their original positions. This issue affects approximately 60% of the global population, underscoring the importance of implementing effective measures to address orthodontic relapse. An approach in this regard involves the targeted administration of herbal and synthetic drugs applied directly to the specific area of interest to facilitate tooth movement and prevent orthodontic relapse. Apart from this, researchers are investigating the feasibility of utilizing different types of nanoparticles to improve the process of orthodontic tooth movement. In recent years, there has been a noticeable increase in the number of studies examining the effects of various drugs on orthodontics. However, the currently available literature does not provide significant evidence relating to orthodontic tooth movement. In this review, the authors provide valuable information about the drugs and nanomaterials that are capable of further enhancing the rate of orthodontic tooth movement and reducing the risk of orthodontic relapse. However, a notable hurdle remains, i.e., there is no marketed formulation available that can enhance orthodontic tooth movement and reduce treatment time. Therefore, researchers should try herbal-synthetic approaches to achieve a synergistic effect that can enhance orthodontic tooth movement. In this nutshell, there is an urgent need to develop a non-invasive, patient-compliant, and cost-effective formulation that will provide quality treatment and ultimately reduce the treatment time. Another critical issue is orthodontic relapse, which can be addressed by employing drugs that slow down osteoclastogenesis, thereby preventing tooth movement after treatment. Nevertheless, extensive research is still required to overcome this challenge in the future.
Plant based Bioavailability Enhancers
Sweta Patel, Shruti Chopra, Simran Chaurasia, Maryam Sarwat
Current Pharmaceutical Design, 2022
Many of the synthetic and herbal drugs, despite their notable in vitro findings, demonstrate insignificant in vivo activity, the majority of the time due to poor bioavailability. As per Biopharmaceutical Classification System (BCS), one of the main concerns is low solubility and/or permeation of drugs resulting in reduced absorption and poor bioavailability. To overcome these issues, various strategies have been adopted, including the use of permeation enhancers which are also known as bioenhancers. Bioenhancers are synthetic or natural compounds that increase the bioavailability of drugs and nutrients such as vitamins, amino acids, minerals, etc., into the systemic circulation and at the site of action for exhibiting improved therapeutic action. By improving bioavailability, bioenhancers can reduce drug dose, decrease the treatment period, and circumvent the problem of drug resistance. Although numerous studies have reported the application of synthetic bioenhancers, plant based bioenhancers can serve as a better alternative owing to their natural origin. Literature reviews have revealed that plant-based bioenhancers have been used in a wide variety of antibiotics, antiviral, and anti-cancer therapeutics. These can be categorized based on their sources and mechanism of action. This review will provide a systematic and detailed overview of the various plant based bioenhancers and their applications.

Simran Chaurasia

RESEARCH, TEACHING, or OTHER INTERESTS

Scopus Publications