View clinical trials related to Kidney Stone.
Filter by:In clinical practice, many patients are not able to modify their habits to achieve a high level of diuresis and fluid intake and therefore are at an elevated risk for stone recurrence. The investigators think that Ure-Na (osmotic agent) taking could help to increase urine volume and decrease urine concentration, which would be of benefit in the prevention of kidney stones.
The purpose of this study is to determine if adding a spinal block (medicine that will numb parts of the body to block pain) along with standard pain control at the incision site will decrease the need for narcotics for pain management and decrease the percentage of patients requiring hospital admission for pain control during postoperative , in-hospital, care after a percutaneous nephrolithotomy (PCNL) (surgery to remove kidney stones), commonly called PERC.
The purpose of this study is to compare over the counter and alternative prescription urinary alkalinizing agents to slow release potassium citrate in their ability to modify urinary parameters associated with stone formation.
Kidney stone is a common urological disease. Percutaneous nephrolithotomy (PCNL) is an important method for the treatment of kidney stones. The accuracy of puncture positioning affects the PCNL stone free rate and intraoperative/postoperative complications. Currently, PCNL puncture positioning methods are mainly X-ray-guided or ultrasound-guided. The main disadvantage of X-ray is the lack of soft tissue imaging, and the problem of low puncture accuracy. Although ultrasound is a commonly used real-time imaging tool, the image is not intuitive enough, and the puncture path is deviated from actual requirements . In order to improve the accuracy of PCNL puncture, this study intends to import CT images of both kidneys into a novel ultrasound machine through an image fusion system to achieve CT-ultrasound image fusion, and to simulate the puncture route to guide the PCNL puncture process. The study is mainly divided into two parts: (1) For patients with kidney stones who are planning to undergo PCNL, perform a preoperative simulated CT-ultrasound fusion examination to further clarify the condition of the kidney stones and simulate and optimize the puncture route; (2) Apply CT- Ultrasound fusion precise positioning to guide the intraoperative PCNL puncture process. On the basis of traditional ultrasound images, the CT-ultrasound fusion image display is added to provide the optimal puncture route to explore the effectiveness and safety of CT-ultrasound fusion precise positioning in PCNL puncture.
This protocol seeks to determine if weight reduction with the Optifast VLCD program leads to reduced contribution of endogenous oxalate synthesis to the urinary oxalate pool in obese calcium oxalate stone formers.
Randomized comparison of patient outcomes following fluoroscopic guided PCNL versus ultrasound-guided PCNL.
This study consists of having subjects, those with calcium oxalate kidney stones as well as healthy controls, consume low and oxalate enriched diets to investigate the role of oxalate on crystalluria (the presence of crystals in urine), immunity and infection.
The purpose of this basic research study is to determine the contribution of endogenous ascorbic acid (AA) turnover to urinary oxalate excretion in both normal BMI and obese adult non-stone formers and calcium oxalate stone formers. The studies proposed will use diets of known nutrient composition, a stable isotope of ascorbic acid (13C6-AA) and mass spectrometric techniques to quantify ascorbic acid turnover to oxalate.
The desire to reduce complications related to percutaneous access and morbidity related to tract size has led researchers to evaluate PCNL using smaller-caliber instruments. In this context, mini-PCNL has emerged. Its efficacy and safety have been demonstrated at the cost of a lower stone-free rate. The effectiveness of existing Ho: YAG lasers is limited by the need for manual removal of stone fragments and mobilization of them due to the lack of a simultaneous aspiration system. Consequently, this has been associated with long surgical times to achieve stone-free status. This requires multiple insertions and extractions of the nephroscope to facilitate the recovery of all fragments. This repeated step can cause the safety rails to be inadvertently removed or the sheaths to be disinserted. Sometimes compromising surgical results. Faced with this situation, the search for better and more efficient energy sources still continues. With this, modern lithotripters have emerged that combine energy sources and work more efficiently than any of them independently and, consequently, improve stone removal. Cyberwand ™ (Olympus, Tokyo, Japan), Swiss Lithoclast® Master / Select (EMS SA, Switzerland / Boston Scientific, Marlborough, MA, USA) and Shockpulse-SE ™ (Olympus, Tokyo, Japan) are some examples; although they have their own set of advantages, none have proven to be superior to any other. As previously discussed, ballistic-ultrasonic lithotripsy combines ultrasonic and ballistic energy together with a suction system with encouraging results in terms of a shorter lithotripsy time and the respective economic impact of fewer surgical events and less operating time required for the stone removal. Therefore, it is convenient to make a comparison between the results of lithotripsy with Ho: YAG laser energy and lithotripsy with LithoClast Trilogy EMS; and thereby determine which is the most effective method in the resolution of kidney stones through a miniaturized percutaneous tract.
To analyze and compare the puncture success rate, puncture fluoroscopy time and intraoperative puncture complications of two different puncture techniques; fluoroscopic bi-planar (0-30º) versus newly reported bi-planar (0-90º) technique in PCNL.