There are about 2459 clinical studies being (or have been) conducted in New Zealand. 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.
Osteoporosis is a systemic disease characterized by a reduction in bone mineral density (BMD) and qualitative alteration of the skeleton, resulting in increased bone fragility and fracture risk. The epidemiological impact of osteoporosis is extremely high. Proper diagnosis and clinical management of osteoporosis are critical to reducing the incidence of fragility fractures and preventing their complications. The diagnosis is generally confirmed by instrumental analysis of bone mineral density. The standard method is X-ray bone densitometry (DXA), which allows diagnosis based on criteria defined by the World Health Organization (WHO) by virtue of the T-score. DXA is a relatively quick and inexpensive examination with low exposure to ionizing radiation. However, this method has limitations in detecting fracture risk, and in addition, not all patients are properly referred for DXA services, which, among other things, require specific criteria to be reimbursed by the National Health System. Currently, computed tomography (CT) scanning is the most widely used three-dimensional diagnostic modality in clinical practice, and the number of investigations performed in high-income countries is continuously growing. Quantitative assessment of bone mineral density by CT is possible by proper calibration of the machine for the purpose of converting the CT numbers (or Hounsfield units) measured by the scanner into BMD units.
This study will assess the serum uric acid lowering effect and safety of AR882 in gout patients at two doses compared to placebo over 12 months
This is the second single ascending dose study of L608 in healthy participants and is being conducted to evaluate the safety of L608 with higher dose levels, starting from 20 μg and escalating up to a planned maximum dose of 110 μg.
This feasibility study is a prospective, single arm study evaluating the Tandem Freedom system in adults with type 1 diabetes. Existing Control-IQ technology users will use Control-IQ technology at home for a 1 week run-in, then will use Tandem Freedom in a supervised hotel setting for 3 days/nights.
Patients with hydrocephalus have an abnormal build-up of fluid around the brain and need a tube surgically implanted to drain that fluid. Patients and their caregivers live with the constant fear that the tube will block. Warning symptoms include irritability, headaches and vomiting. Unfortunately, there is no way of telling when fluid build-up is causing a rise in brain pressure and potentially impeding blood flow to the brain (life threatening) except for a brain scan in hospital and possibly hospitalisation. The investigators want to improve the lives of patients with hydrocephalus. They have developed a tool for parents and caregivers to monitor the pressure in the brain remotely via a sensor placed alongside the drainage tube. The device has been shown to be safe and to give reliable brain pressure readings using a large animal model (sheep). This study is a first-in-human safety study to show it is safe for patient use.
This is a pilot study in healthy adult subjects to evaluate the safety and tolerability of AVT16 after administration of a single intravenous administration. Pharmacokinetics and immunogenicity of AVT16 will also be evaluated.
This study is designed to assess safety, tolerability, and pharmacokinetics (PK) of single ascending dose (SAD) of ABI-5366 in Part A in healthy participants and multiple-ascending doses (MAD) of ABI-5366 in Part B in participants seropositive for Herpes Simplex Virus Type 2 (HSV-2) with recurrent genital herpes. Effect of food will also be evaluated in Part A.
The goal of this clinical trial is to test a new type of pacemaker in heart failure patients following a heart bypass operation. The new pacemaker restores respiratory sinus arrhythmia which is a natural pattern where the heart rate increases when the participants breathe in and slows down when participants breathe out. The main questions the trial aims to answer are: - Is the new type of pacemaker safe? - Does the new type of pacemaker improve how patients' hearts work (also known as cardiac output)? Participants will have a range of tests before their operation and during their recovery in hospital while participants have the new type of pacemaker in place, and will be monitored very closely. Participants will also receive a phone call 1 month after their surgery. Researchers will compare the new type of heart pacing against standard treatment to see if it is as safe, and if it is any better for patients.
Gastric peroral endoscopic myotomy (GPOEM) is a minimally-invasive procedure that involves dividing the pylorus, to enhance gastric emptying in gastroparesis patients. This is a single-arm, multi-centre, prospective observational study to determine the clinical utility of Gastric Alimetry in predicting GPOEM treatment outcomes. The investigators further aim to develop a clinical decision rule to inform patient selection. Gastric Alimetry will be conducted <1 month prior to GPOEM. All subjects will then be followed up for 12 months.
This study is prospective, non-randomized, single-arm,first in human study to evaluate the safety and feasibility of the Versa Vascular System for intervention in adults with severe tricuspid regurgitation who are not surgical candidates.