View clinical trials related to Pediatrics.
Filter by:The aim of this study is to estimate blood pressure in pediatric patients using a non-invasive electrocardiogram (ECG), photoplethysmograph (PPG), and an accelerometer on the chest.
Background: The Medical Helpline 1813 in Copenhagen, Denmark handles acute, non-life threatening medical emergencies. Approx. 200,000 calls/year concern children, and about 30% are referred to a pediatric urgent care center. However, most of these children have very mild symptoms, which require neither treatment nor tests, merely parental guidance. Initial assessment; triage, of children on the phone is difficult, especially when the operator does not know the child or family, and when it is difficult to describe the symptoms in medical terms. This may result in too many not-so-sick children and too few more severely sick children getting sent to hospital. Many parents are very worried about their sick child, but it is not known if this worry can be integrated in the triage process. Purpose: It will be studied if triage by video calls; video triage; provide greater security for parents and call operators so that more children can stay at home after medical guidance, causing at least 10% fewer visits to pediatric urgent care centers. The degree of worry of the parents will also be registered. Method: Children aged 3 months to 5 years with fever will be triaged by either video or telephone every other day, to compare the results between these to otherwise similar groups. Operators and parents answer surveys about their experiences. Yield: Video triage can "give eyes to the operators" and revolutionize telephone triage. The study may result in fewer children referred to hospitals, more appropriate use of resources and better experiences for the families.
Background: Most adult women with irregular periods of unknown cause report symptoms dating back to early adolescence. This study aims to learn how girls' periods change in the 2 years after their first period. We are also looking at girls who may have a condition called PCOS. This will help researchers learn what healthy puberty looks like and how they can spot signs of hormone problems early on. Objective: To learn how long it takes girls to develop regular menstrual cycles after their first period. Eligibility: Healthy girls ages 8-14 who either (1) haven't had their first period but show signs of puberty, such as breast development and hair in the genital area; or (2) had their first period in the past 6 months Girls at risk for PCOS age 8-14 who have a mom or sister with PCOS Girls with irregulat menstrual cycles age 11-17.5 To compare with the girls, we are looking at women >=18-34 years old with PCOS, Healthy women >= 18-34 years old without PCOS Design: Both parents or guardians must allow their daughter to participate. They must attend all study visits with her. Participants will first be screened by phone. Those who qualify will be screened in person. They will have a physical exam. They will give blood and urine samples. They will have an ultrasound of their abdomen. They will fill out questionnaires. They will sit in a BOD POD for 6 minutes: This is an egg- shaped machine that takes body measurements. They have the option to provide DNA samples. Participants will have sets of visits at home or at the clinic about every 6 months. The number of visits in each set will depend on their menstrual cycle. Then they will have a final visit. Visits will include repeats of the screening tests. There are additional parts that participants may choose to be involved in depending on how involved they want to be. At home, participants will collect their urine daily to measure hormones. They will keep a diary of their periods. Adults: Women with known PCOS will complete the same Screening Visit as the girls and will collect dried urine specimens at home for 8 weeks; The Healthy control women group will complete the same Screening Visit as the girls and collect dried urine specimens at home for 2 menstrual cycles.
There is some debate over the best treatment for anterior-superior iliac spine (ASIS) avulsion fractures although conservative treatment can be applied when there are no neurological symptoms. Open reduction and internal fixation can be performed for dislocations exceeding 1.5 cm, or in patients requiring a short period of convalescence, although a second operation is subsequently required to extract osteosynthetic material. In this paper, we introduce the use of absorbable screws as a new fixation material for the second round of surgery.
Non-invasive brain stimulation (NIBS) is a safe, painless way to improve brain function. It is used for many conditions, including to help children with disabilities. However, it can be challenging to apply NIBS in very young children and infants. A new, simple form of NIBS called transcranial static magnetic field stimulation (tSMS) is a promising tool for early brain stimulation. tSMS in adults has been shown to be safe, tolerable and have the desired effects on brain activity when applied to the motor cortex of the brain. However, how tSMS affects on motor function is not understood. This research will use tSMS to target the motor cortex which is responsible for voluntary movement. The study will determine if tSMS can improve motor learning in healthy children. It is hypothesized that application of tSMS on the right motor cortex will decrease excitability of the motor cortex and will lead to improved motor learning in the right hand. tSMS has the potential to become a safe, inexpensive, home-based way to enhance personalized rehabilitation for disabled children.
To study the predictive value of ultrasonographic (USG) parameters in the form of anteroposterior diameter , calyceal dilatation , calyx-to-parenchyma ratio , renal length , renal width , pelvis-to-cortex ratio (PCR) and parenchymal thickness versus renographic parameters in the form of T1/2 , differential renal function (DRF) and Tissue tracer transit (TTT) for early detection of children at risk of recurrent obstruction post unilateral pyeloplasty.
Laryngeal Mask Airway (LMA) is widely used in pediatric surgical patients. The manufacturer recommends the size of LMA to be used in children should be based on actual body weight but this method has several limitations. To overcome these concerns, various alternatives have been tried by different researchers, one of them is external ear size for LMA size selection. Investigators therefore would like to know whether the external ear size based method can be used for LMA size selection in pediatric surgical patients in Pakistan.
The study investigators will recruit paramedics in many Emergency Medical Services (EMS) in Switzerland to prepare direct intravenous (IV) emergency drugs during a standardized simulation-based pediatric out-of-hospital cardiac arrest scenario. According to randomization, each paramedic will be asked to prepare sequentially 4 IV emergency drugs (epinephrine, midazolam, dextrose 10%, sodium bicarbonate 4.2%) following either their current conventional methods or by the aim of a mobile device app. This app is designed to support drug preparation at pediatric dosages. In a previous multicenter randomized trial with nurses, the investigators reported the ability of this app to significantly reduce in-hospital continuous infusion medication error rates and drug preparation time compared to conventional preparation methods during simulation-based resuscitations. In this trial, the aim was to assess this app during pediatric out-of-hospital cardiopulmonary resuscitation with paramedics.
The purpose of this study is to compare intraoperative papaverine plus heparin to heparin alone for prevention of arterial spasm and maintenance of patency of peripheral arterial catheters during surgery in pediatric patients. The hypothesis is that periodic, intraoperative small-volume boluses of diluted papaverine plus heparin in peripheral arterial catheters of pediatric patients will prevent arterial spasm and help maintain patency of arterial catheters during general anesthesia.
This study evaluates the effect of recombinant human erythropoietin (rHuEPO) on the neovascularization of pediatric moyamoya disease patients. rHuEPO will be administrated during perioperative period of the first revascularization surgery. Primary outcome (Incidence of Good postoperative MCA territory revascularization by cerebral angiography) will be evaluated after 3-6 month of revascularization surgery.