There are about 5618 clinical studies being (or have been) conducted in India. The country of the clinical trial is determined by the location of where the clinical research is being studied. Most studies are often held in multiple locations & countries.
Antioxidant qualities have been attributed to wheatgrass and tulsi formulation. Free radicals are unstable molecules created by the body during metabolism and exposure to environmental pollutants. Antioxidants are chemicals that can help stop or reduce cell damage caused by these unstable molecules. Oxidative stress, which is brought on by free radicals, has been connected to a number of health issues, including chronic inflammation, cardiovascular disease, cancer, and ageing. Wheatgrass is a rich source of vitamins, minerals, amino acids, and chlorophyll, which have been shown to have antioxidant and anti-inflammatory effects. Tulsi, also known as holy basil, is an herb that has been used in Ayurvedic medicine for centuries and has been found to have antioxidant, anti-inflammatory, and immunomodulatory properties. Several studies have investigated the antioxidant properties of wheatgrass and tulsi formulation. For instance, a study published in the Journal of Food Science and Technology in 2015 found that wheatgrass extract had significant antioxidant activity, as measured by its ability to scavenge free radicals and reduce lipid peroxidation in vitro.
The role of Dapagliflozin in the improvement in CKD in both diabetic and non-diabetic patients has been evaluated in the past. SGLT2i have also been found to be beneficial in NAFLD patients in improving the liver function parameters. It is also known that cirrhotic patients are at a higher risk of developing CKD at 1 year when compared to non cirrhotics. With this study we aim to study the role Dapagliflozin in cirrhotic patients in reducing the development of CKD, its impact on cirrhotic cardiomyopathy and its role in improvement of metabolic profile and liver related outcomes.
Untreated periodontal infection may result in transient bacteremia and toxaemia which may be the cause of adverse systemic events, leading to various systemic disorders. Amongst all the systemic diseases, cardiovascular disease has been recognized as a major systemic inflammatory condition that present similarities with periodontal disease. Increased systemic biomarkers of inflammation associated with periodontal disease have been interpreted as a mechanistic link between periodontitis and cardiovascular diseases. Genetic factors are also known to play a pivotal role in influencing the inflammatory and immune response. Genetic polymorphisms are alterations in the DNA sequence found in general population. Most forms of periodontitis represent a life-long account of interactions between the genome and the environment. The previous literature has stated a strong association of genetic polymorphisms in periodontitis and coronary artery diseases. Identifying these polymorphisms can potentially lead to a better understanding of the mechanisms modulating the expression of inflammatory mediators as well as provides potential therapeutic targets in the prevention of periodontal disease. Two such novel polymorphisms have gained attention recently, namely the Dickkopf-3 and complement factor H polymorphisms. Dickkopf-3 belongs to Dickkopf family of glycoproteins. Dickkopf-3 has been mainly investigated in oncology for its role as a tumor suppressor gene and as a therapeutic target in several types of human carcinomas. Recently, Dickkopf-3 gained attention as an emerging biomarker for cardiovascular and renal diseases. Dickkopf-3 has shown to play a role in pathophysiology of arterial wall thickening and abnormality implicated in atherosclerosis. However, genetic polymorphism of Dickkopf-3 rs11544814 and complement factor H rs10737680 its protein levels have never been investigated in subgingival plaque samples of periodontitis patients with coronary artery disease specifically before and after non-surgical therapy. This may further improve our understanding of the influence of this polymorphism on the above mentioned systemic diseases.
The primary goal of the study is to identify incidence and risk factors for PPMV in pediatric patients undergoing liver transplantation.
Endoscopy is the diagnostic modality for most gastroduodenal diseases. During endoscopy mucus and foam may actually interfere with the visibility of the stomach mucosa. So the mixture of mucolytic ( N-acetyl cysteine) and anti-foaming agents ( simethicone) agents may disperse the bubbles and mucus in the stomach and enhance gastric visibility. This unique combination drink given 20-30 minutes prior to endoscopy is absolutely safe. There are previous studies from India, which was retrospective study. So, we have planned to conduct this randomized controlled trial on this issue. Adult patients undergoing diagnostic endoscopy will be randomized and one group (100 patients) will be given the combination drink whereas another group 9100 patients) will undergo an endoscopy after overnight fasting only, as a placebo drink may actually hamper the endoscopic visibility. Our primary outcome, gastric visibility will be assessed using a standard visibility scoring system.
Pediatric acute liver failure (PALF) is associated with very high mortality and morbidity with native liver survival varying between 21 to 75%.Hyperammonemia manifesting as hepatic encephalopathy and causing cerebral edema isresponsible for poor neurological outcome in ALF. Ammonia lowering measures have led to improvement in HE and higher native liver survival. L-ornithine L-aspartate (LOLA), a salt of natural amino-acids ornithine and aspartate, is an importantammonia scavenging drug. It acts as a substrate for urea cycle in liver and also converts ammonia to glutamine in perivenous hepatocytes as well as in the muscles.This drug has been shown to reduce ammonia and improve hepatic encephalopathy in cirrhoticadults.However, the issue with this drug is that the glutamine formed can reconvert to ammonia by the action of glutaminase, possibly, the reason why it failed to show decrease in ammonia and improvement in native liver survival in a randomized controlled trial in adult ALF. In western countries, ornithine phenylacetate has been used where ornithine converts ammonia to glutamine and phenylacetate then binds to this glutamine to form phenylacetylgutamine and eliminates it. Therapeutic plasma exchange (TPE), both high volume and standard volume has been shown to improve native liver survival in adults with ALF and is the standard of care in management of ALF and a grade 1 recommendation by all eminent liver societies.TPE leads to decreased ammonia. Although rate of ammonia formation is multiple times higher than rate of ammonia removal by plasmapheresis, this ammonia reduction is an indirect effect of glutamine removal by TPE. Glutamine, thus, acts as a reservoir for clearance of ammonia (in muscles and perivenous hepatocytes).In contrast to adults, the response to therapeutic plasma exchange has not been as encouraging inchildren, yet, most centers continue to use it based on recommendations in adults. Based on the knowledge that LOLA converts ammonia to glutamine and TPE clears glutamine from plasma, the investigators hypothesize that LOLA would act in synergestic way with TPE to lower ammonia levels, resulting in improvement in HE and better native liver survival in pediatric ALF. The goal of this clinical trial is to compare L-ornithine L-aspartate and therapeutic plasma exchange versus plasma exchange alone in lowering ammonia and improving outcomes in patients with pediatric acute liver failure.
The goal of this clinical trial is to compare the survival outcomes, morbidity and cost-effectiveness of sentinel node biopsy versus limited elective neck dissection in node-negative early oral cancers. The main questions it aims to answer are: - Survival outcomes - Morbidity outcomes - Cost-effectiveness Participants will either undergo sentinel node biopsy followed by completion neck dissection if sentinel node is reported to be metastatic (SNB) or limited elective neck dissection where level IIb will be cleared only if level IIa is metastatic (limited END). The study will compare the outcomes in the two cohorts.
According to WHO, more than 230 million major surgical procedures are carried out under general anaesthesia each year worldwide. Despite important technological advances, airway management remains a major challenge in anaesthesiology. Data from large perspective studies on current incidence of major peri-intubation adverse events are lacking in the anaesthesia setting, especially on outcomes such as peri-intubation cardiovascular collapse, severe hypoxemia, and cardiac arrest. These events are more common in case of difficulties with airway management so that first pass intubation failure significantly increase the risks. Moreover, it has been documented that even transient hypotension during general anaesthesia, may have long-term consequences and may be associated with a worse outcome in patients undergoing non-cardiac surgery. The primary aim of the study is to assess the current incidence of major peri-intubation adverse events during anaesthesia in patients undergoing elective or emergency surgery and in the setting of nonoperating room anesthesia. The secondary aim is to assess the current practice of airway management during anesthesia worldwide. STARGATE Study will be a large international observational study recruiting all consecutive adult (≥ 18 years old) patients undergoing general anesthesia in operating room and outside operating room. Primary outcome will be a composite of cardiovascular collapse, cardiac arrest and severe hypoxemia.
Study population: All the consecutive patients of cirrhosis who are diagnosed to have large gastric varices without prior history of bleeding from GV, who came to OPD or endoscopy in Hepatology department of ILBS will be evaluated for inclusion. Study design: Prospective interventional study. The study will be conducted in the Department of Hepatology ILBS. Study period: 1.0 years Sample size: 60 This is a pilot RCT, and we decided to enroll 30 patients in each arm.
Periodontitis is a chronic inflammatory disease mainly caused by the oral microbial biofilm. It involves the periodontal supporting tissues mainly features gum inflammation, alveolar bone resorption, periodontal pocket formation, and tooth loosening but also induces various systemic diseases, which seriously affect the physical and mental health of patients. The response to periodontal infection is mediated by various intracellular signalling pathways leading to the production of numerous bio-molecules. Vitronectin is a multifunctional protein with a multiple binding domain that interacts with a variety of plasma and cell proteins. It belongs to the group of adhesive glycoproteins that is involved in various functions including complement activation, blood coagulation, binding to proteoglycans, and modification of the matrix. Among the various cystatins expressed in serum and saliva, Fetuin-A, an another protein is produced majorly by healthy hepatic and adipose tissues. Fetuin-A has been recognized as a multifunctional molecule related to its role in metabolic processes, insulin resistance, regulation of adipogenesis and mineralization throughout the body. The study aims to determine the expression of Vitronectin and Fetuin-A as potential pro-inflammatory and anti-inflammatory biomarkers respectively. These protein molecules can further play a role as putative risk indicators in periodontitis subjects with and without coronary artery disease following non-surgical therapy.