10 Clinical Trials for Various Conditions
Out-of-hospital cardiac arrest (CA) is a leading public health problem causing nearly one third of a million deaths annually in the US, accounting for half of all cardiovascular deaths and surpassing deaths from stroke, heart failure, and breast and lung cancer combined. Twenty to fifty percent of CA patients (pts) can be resuscitated initially but many die before hospital discharge or suffer permanent neurologic damage. Therapeutic hypothermia (TH) improves survival and neurological outcomes. Despite aggressive, targeted post arrest management, including TH, approximately 50% of pts die before leaving the hospital due to global ischemia-reperfusion injury (IRI) known as the "post arrest syndrome", 1 which is a sepsis-like state characterized by elevated markers of cellular inflammation and injury. It is believed that TH works by decreasing the body's basal metabolic rate (BMR) and attenuating the systemic inflammatory response (SIR). However, specific triggers of the intense pro-inflammatory response are unclear. This "gap" in knowledge must be closed to identify targeted therapy to decrease IRI and improve outcomes. Blood flow to the gut is decreased markedly and intestinal tissue becomes ischemic during CA and CPR, particularly when vasoconstrictor drugs such as epinephrine, are given. IRI of the intestine increases intestinal permeability leading to intestinal microbial translocation and endotoxin release that can stimulate and perpetuate systemic inflammation and cause subsequent multi-organ dysfunction. Endotoxin also increases body temperature and energy expenditure and may attenuate TH induced reductions in BMR and hence, decrease efficacy. The purpose of this novel pilot study is to detect systemic endotoxin release following CA in humans and determine association with cytokine activation, and BMR alterations during TH.
The lack of blood flow to the small intestine causes mesenteric ischemia. Using a Superconducting QUantum Interference Device (SQUID) which measures the magnetic field of the small intestine, we are hoping to identify abnormalities without surgical intervention.
The lack of blood flow to the small intestine causes mesenteric ischemia. Using a Superconducting QUantum Interference Device (SQUID) which measures the magnetic field of the small intestine, we are hoping to identify abnormalities without surgical intervention.
The goal of this phase 1 double blind, randomized controlled trial is to determine the safety of chondroitin sulfate supplementation in the neonates with necrotizing enterocolitis. The main questions the study aims to answer are: Is chondroitin sulfate safe to administer in the neonatal NEC population, and will it have a beneficial profile in the short term intestinal and long term neurodevelopmental sequelae of NEC? Researchers will compare all cause mortality, progression to surgery, systemic inflammatory markers, and long term neurodevelopmental outcomes in those NEC patients who receive chondroitin sulfate compared to those who receive milk or formula placebo.
There is no bedside imaging technique that can quantify dynamic bowel perfusion with high soft tissue contrast and sensitivity in necrotizing enterocolitis (NEC). Our goal is to assess the feasibility of utilizing contrast-enhanced ultrasound (CEUS) in bedside monitoring of bowel perfusion in NEC. Patients with suspected or diagnosed NEC will be recruited for the study. Following parental consent, the subject will undergo CEUS, performed separately from any clinically indicated conventional US, in the ICU. Subjects will be scanned with CEUS at two different time-points (at the time NEC is first suspected or diagnosed and at time of MRI scan). The CEUS scans will be interpreted by the sponsor-investigator. The study will be conducted at one site, The Children's Hospital of Philadelphia. It is expected that up to 100 subjects will be enrolled per year, for up to two years, for a total enrollment of up to 200 subjects.
This study is a non invasive study to see if 100% oxygen therapy will help to resolve an intestinal obstruction.
Even though the lower part of the body does receive some blood supply during Cardiopulmonary Bypass(CPB) surgery, it may not be enough. As a result of this lowered blood supply, there are complications associated with CPB and clamping of the aorta. These include complications with the stomach, intestines and kidneys. The hypotheses of this study are that increased lower body perfusion during aortic arch reconstruction will decrease intestinal ischemia and the incidence of necrotizing enterocolitis, improve renal function in the postoperative period, and shorten both intensive care unit and hospital length of stay. The purpose of this research study is to provide the lower part of the body and its organs with possibly more blood supply with a modified form of cardiopulmonary bypass and see if this additional blood supply helps to decrease complications of the kidney, stomach and intestines.
This is a research study to determine if a particular method of providing nutrition improves the clinical outcomes of patients in the intensive care unit (ICU) who have undergone abdominal surgery and would require nutrition delivered via the bloodstream (called total parenteral nutrition or TPN). The nutrition method we are testing is a structured nutrition delivery plan that involves tube feeding, oral nutrition supplements, and the use of a device (called an indirect calorimeter or IC) to measure calorie needs. This study will also use two devices to measure fat and muscle mass to examine changes during hospitalization. Subjects will be followed throughout hospitalization where nutrition status and fat and muscle mass will be closely monitored. Study activities will begin within 72 hours of a patient's abdominal surgery. TPN (total parenteral nutrition, a method of feeding that bypasses the usual process of eating and digestion) will be started, a non-invasive method of assessing calorie needs (indirect calorimetry (IC)) will be started, a urine sample will be collected to help assist in protein needs, and fat/muscle mass will be measured using bioelectrical impedance analysis (BIA), and an ultrasound. This is a minimal risk study and all products/devices used are non-invasive and FDA-approved. Indirect calorimetry and urine sample collection will be conducted every 3 days during the stay in the Intensive Care Unit - ICU, then every 5 days until hospital discharge. BIA and muscle ultrasound will be conducted every 7 days during ICU stay, then every 14 days until hospital discharge.
The main goal of this study is to describe the trends in the incidence rate of internal hernia presentation after different modifications of the mesenteric closure technique after primary laparoscopic Roux-en-Y gastric bypass (RYGB) surgery from 1997-2009.
The purpose of this study is to investigate the relationship between gut microbiome (bacteria in the gut), inflammation and the injured brain. It has been established that bacteria in the gut play key roles in digestion, nutrition absorption and immune response of the entire body. Human intestinal bacteria composition in the gut has been associated with several stroke risk factors including obesity, insulin resistance, diabetes and hypertension. If we can establish a relationship between gastrointestinal microbial community composition and ischemic stroke outcomes could lead to dietary interventions in the future to improve recovery after a stroke.