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Filter by:A phase 2a, open-label study to evaluate the safety, tolerability, and clinical activity of ABI-009 (nab-sirolimus) in patients with genetically-confirmed Leigh or Leigh-like syndrome
Neonatal respiratory distress syndrome (RDS) remains a major respiratory disorder for the increasing preterm population, and its incidence has been confirmed to be increased gradually with decreased gestational age. Previous studies demonstrated incidences of 90% at 24 weeks', 80% at 28 weeks', 57% at 30-31 weeks', and 25% at 35-36 weeks' gestational age(GA). However, these figures were mainly performed in the pre-neonatal acute respiratory distress syndrome (ARDS) era, in which ARDS was usually considered as RDS, and surfactant was therefore used repeatedly. In fact, no studies have indicated beneficial effects of surfactant for adult and pediatric ARDS, and therefore, its exact action for neonatal ARDS was needed to be further elucidated. In 2017, the international ARDS collaborative group provided the first consensus definition for neonatal ARDS, and the exact incidence of neonatal ARDS and mortality were unknown.
Given the popularity that LISA technique has gainig in worldwide neonatal units, the lack of evidence regarding its premedication is becoming even more relevant to provide the best care to premature infants. Objective of this clinical trial is to establish the best premedication for LISA procedure considering neonatal pain assessed with premature infants pain scale, salivary cortisol levels as an indicator of stress and crSO2 values as indicators of cerebral oxygenation. Moreover, we aim to verify if sucrose 24% given orally is an effective tool for pain management in preterm neonates also in more invasive procedure, comparable to pharmacological treatment.
Design and protocol of PCO fasting research: This study is a pilot prospective, single-blinded (to the health assessor), randomized controlled trial conducted at the In Vitro Fertilization ( IVF) center of the Department of Obstetrics & Gynecology, Kasr El-Ainy Hospital, Cairo University, Egypt, from October 2018 to September 2019, to determine the clinical effect of fasting on ICSI outcomes in PCOS patients. Ethical committee approval was obtained. The study will include 100 infertile patients with PCOS diagnosed according to Rotterdam criteria of PCOS and who are candidates for ICSI cycle. Women with diabetes, thyroid disorder or other endocrine dysfunctions, uterine abnormalities were excluded. All patients are informed about the study and consent is given by those who accept to participate. Careful history taking include infertility type, duration , cause, obstetric history, medical and surgical history and demographic distribution is taken. Full physical examination and 2 dimensional (2D) transvaginal sonography (TVS) are done on day 2 to 5 of menses to assess antral follicle count, uterus and adnexa . Body mass index (BMI) and waist/hip ratio (WHR) are calculated, Blood samples are taken for Fasting insulin , fasting plasma glucose, Homeostatic model assessment (HOMA index), lipid profile and hormonal profile are done. All 100 participants will be randomized withdrawing closed envelopes for each patient into group A and group B . Group (A): patients will have periodic fasting for 4 weeks prior to the treatment cycle. The fasting method involves daily fasts of 14-16hours and restrict eating to an 8-10 hour "eating window" as 2-3 or more meals of balanced diet. Group (B): no fasting, patients will have usual balanced diet as 3 meals and 2 snacks all over the day. Both groups should take adequate water and non calorie beverages intake daily (2-3 liters) Subjects are instructed to wait for spontaneous menses, or to be prescribed progestins orally (as Norethisterone 5mg) twice daily for 21 days starting from the fifth day of menses. Patients should continue taking oral metformin 500-1000 mg daily, until confirmation of pregnancy. The next visit is scheduled on day 2 of next cycle when transvaginal ultrasound is done to confirm that endometrial thickness <5mm, no ovarian cyst by ultrasound. Body mass index (BMI) and waist/hip ratio (WHR) are calculated. Blood samples are taken for Fasting insulin , fasting plasma glucose, Homeostatic model assessment (HOMA) index, lipid profile ( Triglycerides (TGs), total cholesterol, High density Lipoprotein (HDL), Low density Lipoprotein (LDL), free and total testosterone , Sex Hormone Binding Globulin (SHBG), Free Androgen index (FAI), AntiMullerian Hormone (AMH), Basal Follicle Stimulating Hormone (FSH), Luteinizing Hormone (LH), Estradiol (E2),and then antagonist protocol is followed. Gonadotropins as Intramuscular (I.M.) injections of 150-300 (International units) I.U. of highly purified Human Menopausal Gonadotropins daily (Merional, 75 I.U. /vial, IBSA). and Urofollitropin or highly purified human follicle stimulating hormone(Fostimon®, 75 I.U. /vial, IBSA) are give in a ratio of 1:1.The dose is adjusted according to the age, BMI, Antral follicle count (AFC), serum levels of AMH, FSH and ovarian response. Fixed antagonist protocol is given and follow up until embryo transfer(ET). Quantitative ß- HCG in serum after is done after 14 days of embryo transfer.TVS is performed to detect clinical pregnancy at 6-7 weeks of gestation. Primary outcome is clinical pregnancy rate per cycle. Secondary outcomes include Body mass index (BMI) and waist/hip ratio (WHR), fasting insulin , fasting plasma glucose, Homeostatic model assessment (HOMA) index, lipid profile and other ICSI outcomes.
We will get the impact of mirabegron on psychological distress, urethra and bladder blood flow and c reactive protein.
Before birth, the placenta (a structure with many blood vessels attached to the inside of your womb) and the umbilical cord (the umbilical cord is attached to the placenta) are sending oxygen and nutrients from the mother's blood through the umbilical cord to the baby. After a baby is born the cord is clamped and babies have to start breathing and support themselves. At the moment when a baby with congenital heart disease is born they will have their cord clamped immediately (this is called immediate cord clamping (ICC)). After ICC the clinical team will start to help a baby transition by carefully monitoring their oxygen saturation (give oxygen if needed), provide warmth, and dry and stimulate. Several animal studies have shown that clamping the cord right after birth might causes the baby to miss the benefits of receiving blood from the umbilical cord / placenta. Delayed Cord Clamping (DCC) is when the baby stays attached to the cord for a longer time. Studies show that DCC has many benefits especially for a newborn baby, such as higher iron storage, less need for blood transfusions, and improved circulation. This can be done while the baby is breathing on its own or while we help you baby breath (this is called resuscitation). This study aims to examine whether DCC while providing resuscitation in infants with CHD is helpful compared to immediate cord clamping. Prior to the birth of your baby, a sealed envelope will be opened and your baby will be randomly assigned to either the DCC with resuscitation group or the ICC group. 40 babies will be enrolled into this study, 20 in each group. In the DCC group, the umbilical cord will be clamped after 120 seconds during which time your baby will receive the care he/she requires by the NICU team. In the ICC group, the umbilical cord will be clamped immediately and he/she will be brought over the resuscitation bed to be cared for by the same team.
Extracorporeal shock wave is a novel treatment for peripheral nerve entrapment. This study was designed to compare the efficacy of focused and radial extracorporeal shock wave for carpal tunnel syndrome.
The investigators are investigating the effectiveness of a wearable multisite transcranial magnetic stimulation (mTMS) device that can deliver stimuli at multiple cortical sites simultaneously or sequentially for the treatment of Tourette Syndrome.
Failure to adequately diagnose and treat patients with functional popliteal artery entrapment syndrome (PAES) leads to continued pain, loss of function and poor quality of life for many patients nationwide. Currently, the primary treatment for functional PAES involves muscle resection, sometimes involving large segments of muscle, which itself can lead to functional impairment. As such, a less invasive treatment for functional PAES is desirable. The focus of this work is to determine whether Botulinum toxin type A (BTX-A) injections into the gastrocnemius muscle can lessen the mechanical forces placed on the popliteal artery by the involved muscle, thereby improving symptoms caused by impaired distal blood flow.
This open-label Phase I study aims to define the recommended dose for further clinical development the NKR-2 treatment administered concurrently with AZA in treatment-naïve AML/MDS patients not candidates for intensive chemotherapy or hematopoietic stem cell transplantation. This Phase I study is divided into three sequential cohorts evaluating three different dose-levels of NKR-2 (1x108, 3x108 and 1x109 NKR-2 per injection) using a 3+3 design evaluate. Further patients will be enrolled at the RecD to reach 9 evaluable patients in total at the RecD. The study consists of a screening phase, a treatment administration phase and a follow-up phase divided into treatment follow-up (TFU) and long-term safety follow-up (LTSFU). For each patient who received at least one NKR-2 administration, the overall study duration will be 15 years after first NKR-2 administration.