There are about 3491 clinical studies being (or have been) conducted in Singapore. 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.
The aim of this study is to compare the 1-year total body weight loss outcomes for Class 1 and Class 2 Obesity patients who have undergone endoscopic sleeve gastroplasty (ESG) in contrast to medical treatment with glucagon-like peptide-1 (GLP-1) analogues.
Preoperative anxiety and acute post-operative pain are common and have been associated with the development of chronic post-surgical pain and longer hospitalisation. Pharmacological interventions to combat anxiety and pain come with their attendant adverse effects. Therefore, non-pharmacological strategies- Virtual Reality (VR) has gained popularity to improve overall the perioperative experience for patients. Our overall aim is to develop and evaluate the use of a VR-based prototype to reduce pre-operative anxiety and post-operative acute pain intensity in our local patient population. Our primary aim is to reduce preoperative anxiety as measured by a reduction in Visual Analogue Score-Anxiety (VAS-A) by a mean of 2.5 points pre-post VR intervention. Our secondary aims are to reduce post-operative acute pain and to achieve more than 50% good to excellent self-reported satisfaction on our VR prototype.
Knee osteoarthritis (KOA) is one of the largest and fast-growing causes of pain, impaired mobility, and poor quality of life in the elderly worldwide. Despite a significant increase in Traditional Chinese Medicine (TCM) utilisation, in particular acupuncture, as first or second-line treatment among local KOA patients, there exists a lack of high-quality evidence on its efficacy and local practice guidelines for TCM use in KOA tailored to our specific population demographic. HarmoKNEE trial aims to address these gaps by evaluating the short and medium-term clinical and cost-effectiveness of TCM acupuncture with far-infrared heat therapy in addition to standard care, compared to standard care alone. Through a robust process and economic evaluation, the investigators aim to inform evidence-based practice for KOA patients in Singapore to facilitate the large-scale implementation of a comprehensive and holistic model of care which harmonises elements from Western medicine and TCM. The investigators hypothesize that acupuncture with heat therapy as an adjunct to standard care is clinically more effective than standard care alone. This will be a multi-centre pragmatic, parallel-arm, single-blinded, effectiveness-implementation hybrid randomised control trial. KOA patients will be randomised to either the control arm (standard care only) or intervention arm (biweekly sessions of acupuncture with heat therapy over 6 weeks, in addition to standard care). A mixed-method approach through an embedded process evaluation will facilitate large scale implementation. An economic evaluation will be performed to evaluate financial sustainability
During hospitalisations, older inpatients commonly face issues such as immobility, loss of independence, and functional decline. This leads them down the cascade of dependency with consequent increased risk of adverse outcomes, institutionalisation as well as higher post-acute care costs. The investigators hypothesize that by implementing a mobility intervention in the inpatient setting, patients would be able to maintain their function upon discharge and avoid the cascade of dependency. As such, the investigators aim to do this by implementing and evaluating a mobility intervention, while optimising reversible factors affecting mobility among inpatients admitted to a geriatric unit in Singapore. The investigators will also examine the cost impact of a mobility focused model of care and also adopt the effectiveness-implementation hybrid Type 2 design where both effectiveness and implementation spheres are tested simultaneously.
Aging, genetics and environmental factors contribute to multiple changes on the surface of the skin. These present with pigmentation, volume loss, loss of elasticity and loss of collagen. Altogether, areas of the face becomes "crepey", with resulting rhytids and an obvious appearance of thin and fragile skin. These are typically dermal manifestations of elastin and collagen loss resulting in a collective term of loss of "skin quality". Current treatments to improve these changes involve the use of skincare, chemical peels, as well as more invasive repeated treatments such as microneedling and laser resurfacing. These commonly require repeated treatments and several days of downtime. More recently, treatment with a hybrid preparation of high and low-molecular weight complexes that are thermally cross-linked (Profhilo) has been suggested to stimulate collagen and elastin formation, thereby resulting in improvement in skin quality.
The investigators propose a pilot study to determine if autologous platelet-rich plasma (PRP) improves ovarian reserves and In-vitro fertilisation (IVF) outcomes in women with diminished ovarian reserve / premature ovarian insufficiency.
This pilot feasibility study aims to set the foundation to investigate the applicability of QPOP drug selection followed by CURATE.AI-guided dose optimisation of the selected azacitidine combination therapy for solid tumours using CURATE.AI within the current clinical setting. QPOP will identify drug interactions towards optimal efficacy and cytotoxicity from the pre-specified drug pool based on ex vivo experimental data from the individual participant's tissue sample model. With these drug interactions, QPOP will identify the optimal drugs for the specific participant whose biopsy provided the cells for the ex vivo experimentation. Subsequently, CURATE.AI will be used to guide dosing for the selected combination therapy for that participant. Individualised CURATE.AI profiles will be generated based on each participant's response to a set of drug doses. Subsequently, the personalised CURATE.AI profile will be used to recommend the efficacy-driven dose. CURATE.AI will operate only within the safety range for each drug pre-specified for each participant. This pilot feasibility study will inform the investigators on the logistical and scientific feasibility of performing a large-scale randomised controlled trial (RCT) with the selected azacitidine combination therapy regimens and response markers. A secondary objective is to collect toxicity and efficacy data using established and exploratory response markers within and in-between cycles as exploratory outcomes.
The investigators hypothesize that the addition of bevacizumab and pembrolizumab to induction cisplatin and gemcitabine is tolerable and improves metabolic complete response (mCR), relapse free survival (RFS) and overall survival (OS) compared to induction cisplatin and gemcitabine in patients with locally advanced nasopharyngeal cancer (NPC)
CAR-T is a pioneering cancer treatment which has found success in some cancers. This treatment is made first by taking blood cells from the patient. Then in the lab, an artificial protein - a Chimeric Antigen Receptor (CAR), is grafted on the surface of immune cells. The modified cells, which are readministered to the patient, have enhanced abilities to target and destroy cancers than unmodified immune cells. Currently approved CAR-T can only be used autologously. i.e. the patient will receive CAR-T treatment made from their own cells. This is because current CAR-T treatment uses αβ T cells - a type of immune cell which are largely non-transferable between individual human beings due to the high risk of Graft-versus-Host Disease. However, autologous CAR-T comes with many limitations. A lengthy, manufacturing process follows after the patient donates their own blood, accompanied by a high risk of manufacturing failure, which can be attributed to the cell quality from cancer patients undergoing stressful anti-cancer therapy. CytoMed Therapeutics pioneers a new CAR-T treatment (CTM-N2D) which may confer some benefit over current CAR-T treatment. CTM-N2D uses a subtype of immune cell -- γδ T cell. Secondly, the CAR on CTM-N2D targets a surface antigen called NKG2DL which are commonly present in many cancer. These two features may confer a safer product profile, of better quality and may be efficacious in cancers where previous CAR-T treatments has not. The phase I clinical trial of CTM-N2D will be conducted at the National University Hospital, Singapore. The objective of this clinical trial is to determine the optimal dose of CTM-N2D, and to investigate its safety and tolerability. The subjects of the clinical trial will also be investigated for their tumour response to CTM-N2D. CTM-N2D has undergone preclinical studies. Relevant data from other clinical trials are also used to infer the expected outcome, and strategies of management of this clinical trial. The institution's ethical review board must give its approval before the study may begin. An independent Data Safety Monitoring Board monitors the safety aspect of this trial.
This prospective, single-site, single arm pilot study aims to assess the efficacy of Pulsed Electromagnetic Field (PEMF) exposure in the reduction of the decline in muscle strength, function and bone mineral density (BMD) in osteosarcopenia.