18 Clinical Trials for Various Conditions
Twin-twin transfusion syndrome (TTTS) is a complication affecting 10-15% of monochorionic, diamniotic (MCDA) twin pregnancies. Unevenly distributed blood flow across a shared placental circulation results in a volume-restricted donor twin and a volume-overloaded recipient twin, and TTTS has high perinatal morbidity and mortality without treatment. Differential donor and recipient findings in TTTS can be observed upon ultrasound evaluation. TTTS is classified according to the Quintero staging system, which evaluates amniotic fluid volumes, fetal bladders, Doppler study of the umbilical artery and ductus venosus, and for the presence of hydrops or death. However, due to seemingly complex and variable disease pathophysiology, the Quintero system cannot predict outcomes on a case-by-case basis. Prior studies have associated fetal renal artery Doppler ultrasound measurements with amniotic fluid volume in singleton pregnancies. In fetuses with placental insufficiency, adaptive circulatory changes maintain adequate oxygen delivery to vital organs such as the heart, brain, and adrenals, with a consequent deprivation to splanchnic organs. In the fetal kidney, as vascular resistance increases during hypoxia, renal perfusion decreases proportionately. These changes are reflected in renal artery Doppler findings. As these same adaptations are believed to occur in donor twins, renal artery Doppler studies may also be of value in the TTTS evaluation. This study plans to perform renal artery Doppler assessments in MCDA twins complicated by TTTS, and compare them to measurements in gestational-age equivalent MCDA twins without TTTS. If findings differ significantly, it would support further investigation into the use of renal artery Doppler studies for the evaluation of complicated MCDA twins.
The investigators hypothesize that treatment of twin-twin transfusion syndrome (TTTS) using sequential laser photocoagulation of communicating vessels (SQLPCV) over the predominant method, selective laser photocoagulation of communicating vessels (SLPCV), may provide vascular stability to the donor fetus. The primary objective is to evaluate the perinatal outcome, specifically, donor intrauterine survival of TTTS managed by SQLPCV vs. SLPCV in a prospective, randomized trial.
Patients undergo a detailed ultrasound examination to rule out the presence of congenital anomalies, and to assess the hemodynamic status of the fetuses. Patients with confirmed TTTS will be considered candidates for the trial. Patients will be counseled about the risks and benefits of all treatment options and will be free to choose any treatment option. They will then be asked to sign an informed consent. The procedure will be performed under local anesthesia. After a 2-3 mm skin incision, and under ultrasound guidance, the trocar will be introduced in the amniotic cavity of the Recipient twin. The communicating vessels will be located endoscopically and will be lasered with YAG laser energy. An accessory port may be required in some cases. The procedure will be monitored both endoscopically and sonographically. The presence of fetal heart activity will be noted often during the procedure. An amniodrainage of the larger sac may be performed at the time of the procedure. The patient will remain hospitalized 1-3 days and will undergo an ultrasound assessment on the first post operative day. Patients will undergo a weekly ultrasound examination for four weeks after the initial therapeutic procedure. Sonographic parameters to evaluate will include: maximum vertical pocket of fluid in each sac, visualization of the fetal bladders, absence or presence of hydrops, and Doppler studies of the umbilical artery, umbilical vein, ductus venosus, and middle cerebral artery. After delivery babies will be assessed by their corresponding neonatologists or pediatricians. Infants admitted to the neonatal intensive care unit will be followed through their discharge. Evidence of neurological or cardiac morbidity will be sought in each twin. If either of these complications is suspected, evaluation by pediatric neurology or pediatric cardiology will be requested. Babies will be followed up for neonatal, infant and childhood morbidity or mortality. It is requested that all placentas be delivered fresh to Tampa General Hospital in an icebox container for assessment. Placentas will be discarded after analysis.
This is a study to compare two treatments (amnioreduction vs. selective fetoscopic laser photocoagulation \[SFLP\]) in patients with severe twin to twin transfusion syndrome.
Each year world-wide, 2.5 million fetuses die unexpectedly in the last half of pregnancy, 25,000 in the United States, making fetal demise ten-times more common than Sudden Infant Death Syndrome. This study will apply a novel type of non-invasive monitoring, called fetal magnetocardiography (fMCG) used thus far to successfully evaluate fetal arrhythmias, in order to discover potential hidden electrophysiologic abnormalities that could lead to fetal demise in five high-risk pregnancy conditions associated with fetal demise.
The purpose of this study is to evaluate the safety and efficacy of the investigational fetoscopes used in patients undergoing fetoscopic selective laser photocoagulation for complicated monochorionic-diamniotic pregnancies.
This multicenter open-label randomized controlled trial is set up to evaluate the effect of fetoscopic laser surgery on the gestational age at birth for monochorionic twin pregnancies diagnosed with twin anemia-polycythemia sequence. Half op the patients will be treated with fetoscopic laser surgery, while the other half will be managed with standard treatment. The hypothesis is that fetoscopic laser therapy will improve neonatal outcome by prolonging pregnancy.
The objective of this trial is to compare both strategies (Expectative Vs Fetoscopic laser surgery) for patients with stage 1 TTTS and favorable obstetrical parameters in an international randomized controlled trial. This trial will answer an important question and will help in the management and tailoring of surgical indications in stage 1 TTTS.
The purpose of this study is to evaluate whether the entry technique surgeons use to get inside the uterus to perform fetoscopic laser photocoagulation for twin-to-twin transfusion syndrome has an effect on the rates of chorioamniotic membrane separation.
The purpose of this study is to evaluate the use of diode laser photocoagulation of the communicating vessels in twin-to- twin transfusion syndrome (TTTS) with respect to maternal, fetal and neonatal outcomes.
Humanitarian use device (HUD): Use of the fetoscopy instrument sets for selective laser photocoagulation in the treatment of Twin to Twin Transfusion Syndrome (TTTS).
Twins who share a placenta but have two separate sacs of amniotic fluid (monochorionic-diamniotic) are at risk of developing twin-to-twin transfusion syndrome (TTTS). TTTS results from anastomoses in the placenta that lead to unequal sharing of blood, causing abnormal blood flow to the twins. The donor twin may have low fluid levels, poor growth, and anemia. The recipient twin can have high fluid levels, high red blood cell counts, heart failure, and hydrops. Having TTTS, especially if there is demise of one twin or if disease is severe enough to warrant laser photocoagulation of the anastomotic sites, puts the surviving fetuses at risk for brain injury due to hypoxia, ischemia, or reperfusion injuries. Magnetic Resonance Imaging (MRI) is superior to ultrasound at detecting subtle cerebral injuries. An MRI scoring scale has been developed for use in very low birth weight infants that has been shown to correlate with neurodevelopmental outcomes, but it has not been tested in this patient population. Our center's guidelines recommend fetal MRI prior to intervention, at 32 weeks gestational age, and on the infants at term corrected gestational age. Infants who were treated for TTTS in utero are seen in Nursery Follow-up Clinic at 4 months of age, 8 months of age, and for Bayley Scales evaluations at 15-18 months of age and at 2-3 years of age. The purpose of this study is to correlate brain MRI score with neurodevelopmental outcomes in survivors of TTTS that have either required fetal surgical intervention or had demise of their cotwin. The investigators predict that more severe white and gray matter injury as determined by the Woodward/Inder grading scale will be positively associated with worse neurodevelopmental outcomes.
This is a randomized trial for patients that are diagnosed with Twin-Twin Transfusion Syndrome (TTTS) who are receiving a fetoscopic laser surgery to evaluate the effectiveness and safety of a laparotomy closure.
The purpose of this study is to evaluate the efficacy of KARL STORZ curved fetoscope (11508AAK) and its straight version (11506AAK) for laser photocoagulation of placental anastomoses in patients with an anterior placenta and Twin to Twin Transfusion Syndrome (TTTS).
The ZTWINS registry study is an observational, prospective, multi-center study observing women carrying a twin pregnancy who receive snp-based non-invasive prenatal screening and zygosity assessment as part of their medical care.
Researchers are using Myocardial performance index (MPI) to assess fetal cardiac function before, during, and after fetal surgery in order to gain more knowledge about fetal cardiac function in high risk pregnancies and the relationship to outcomes of fetal surgical interventions.
In this research study, the investigators want to learn more about the role of new innovative surgical devices, the Karl Storz Curved and Straight Fetoscopes for in-utero surgery. A fetoscope is like a small telescope that can see inside of the uterus (womb) during minimally invasive surgery. The curved scope is used for patients with an anterior placenta (front of uterus), while the straight scope is used for patients with a posterior placenta (back of uterus). The scopes will be used to assist in procedures involving fetoscopic laser photocoagulation (FLP), which is a minimally invasive surgery that uses a small camera (fetoscope) to locate abnormal blood vessel connections in the placenta and seal them off using laser energy. These fetoscopes will be utilized in the diagnosis and management of various fetal conditions that can arise during pregnancy. Outcome data will be reported in a descriptive statistical analysis. The investigators will assess the surgical outcomes, short and long-term morbidity, complications, and gestational age of participants in order to evaluate the benefit of using these devices.
The purpose of this study is to collect and analyze data regarding natural history, indications for fetal interventions, and maternal and fetal/neonatal outcomes associated with complicated monochorionic twin pregnancy.