Active clinical trials for "Cytomegalovirus Infections"

Our central hypothesis is that screening newborn infants who either fail their newborn hearing test or have a diagnosis of small for gestational age (SGA) will lead to better identification of infants with congenital CMV infection and enhanced rates of therapeutic intervention. This has the potential to significantly improve outcomes for infants with this common viral infection. This particular cohort of patients have not been well studied locally or regionally. In addition, in view of current legislation that will be effective in January, 2016 this is a timely project that will provide preliminary data for future statewide recommendations around CMV testing of newborn infants. This will be a pilot/feasibility study to obtain preliminary data for an Illinois Department of Public Health (IDPH) Title V grant. Although not guaranteed, preliminary discussions with the IDPH are highly encouraging giving the statewide interest in this topic.

The purpose of this study is to document the developments associated with puberty and determine if any of the children who previously participated in another research study have been diagnosed with cancer. The previous study was a Collaborative Antiviral Study Group (CASG) protocol entitled "Evaluation of Ganciclovir (DHPG) for the Treatment of Symptomatic Congenital Cytomegalovirus Infections." One of the medications used in this study to treat cytomegalovirus (CMV), ganciclovir, has been known to cause cancer and affect the development of gonads (ovaries in females and testes in males) when administered to animals. Children, 9-14 years old, who participated in the previous research study, will participate in this study for 1 day. Subjects will be evaluated by an endocrinologist and will have the following procedures performed: a complete physical examination, a single blood sample collected, an x-ray of the left wrist.

This study will evaluate immune responses against cytomegalovirus (CMV). About 80 percent of adults have been exposed to this virus. CMV typically remains dormant (inactive) in the body, causing no problems. In people with immune suppression, however, the virus can become reactivated and cause life-threatening pneumonia. The knowledge gained from this study may be useful in developing ways to improve immune responses to CMV in stem cell transplant recipients. Healthy normal volunteers between 18 and 65 years of age who have been exposed to cytomegalovirus are eligible for this study. Candidates will be screened with a medical history and blood tests. Those enrolled will provide a 30-milliliter (6-tablespoon) blood sample once a week for 4 weeks and a final sample 2 months later. The blood will be used to design a test to detect immune responses against CMV and determine the differences in these responses among healthy individuals.

To examine markers of underlying chronic inflammation and infection as potential risk factors for future myocardial infarction (MI), stroke (CVA), and venous thromboembolism (VTE) in plasma samples collected at baseline from healthy participants in the Physicians' Health Study (PHS).

Cytomegalovirus is a herpesviridae whose prevalence in general population is between 50 to 80%. In immunocompetent individuals, CMV remains latent in a number of cells, without any pathological consequence. Immunosuppression may reactivate the virus causing either a CMV-active infection or a CMV disease with attributable symptoms. In Intensive Care Unit (ICU), 6 to 30 % of critically ill patients without classical immunosuppression, as those suffering from septic shock, present CMV reactivation. Our aim is to study the risk factors for developing viremia or CMV disease in ICU patients in septic shock without previous immunodepression and determine the relationship between viral reactivation and this acquired immunity alteration.

Human cytomegalovirus (HCMV) is the leading cause of neonatal viral infection and can have a significant impact on the neurosensory development of newborns and especially preterm infants. HCMV infection may result from maternal-fetal transmission during pregnancy or postnatal transmission. While congenital HCMV infection affects about 2-5% of very preterm infants, the risk of postnatal infection, particularly through breast milk, is much higher in this population (prevalence of about 20%). Many learned societies wonder about the interest to inactivate HCMV (by freezing or pasteurization) in breast milk in order to reduce or eliminate contamination of these children. However, freezing is relatively inefficient to reduce contamination and pasteurization drastically alters the nutritional quality of the milk. Therefore, a systematic preventive treatment of breast milk for very preterm infants is not currently recommended. An alternative approach could consist in detecting HCMV in breast milk to target at-risk situations. This detection can be performed by PCR but its cost and the time required to obtain the result prohibits its use for a mass detection. Currently, viral status of breast milk is not explored in practice and, depending on the health centers, breastfeeding is continued as such or milk is systematically inactivated.The main objective of VIRUMILK is to study the feasibility of the CMV detection in breast milk from lactating mothers with a biochip.The ultimate goal is to prevent postnatal HCMV infection of preterm newborns less than 33 weeks.

Human cytomegalovirus (CMV) is the leading cause of neonatal viral infection and can have a significant impact on the neurosensory development of newborns and especially premature infants. CMV infection can result from materno-fetal transmission during pregnancy (congenital infection) or postnatal transmission. The prevalence of congenital CMV infection in the newborn is estimated to be between 0.1 and 0.5%. Among the newborns in utero infected by CMV, it is estimated that 10-15% will present symptoms at birth (hypoacousia / unilateral or bilateral deafness, microcephaly, chorioretinitis, psychomotor retardation, etc.) and 0.5% of them will die. 20% of infected infants, mainly symptomatic newborns, suffer permanent sequelae, mainly loss of hearing. Many asymptomatic children at birth will present hearing loss and other delayed neurological complications. A progressive neurosensory hearing loss may develop for 13-15% of asymptomatic newborns at birth. Deafness is bilateral in 50% of cases, severe in more than 50% of cases, and its occurrence is often delayed. The hearing loss has a significant impact on the future life of the child, mainly on language acquisition and school performance. A systematic CMV screening is not currently recommended at birth due to the frequency of asymptomatic forms, difficulty in fetal diagnosis and prognosis, lack of consensus for preventive and curative treatment of the infection. New treatments are being evaluated and encouraging results could revive the debate. PCR from urine is the gold standard for the diagnosis of CMV infection. Urine collection is not systematic in newborns and its realization can sometimes be difficult. On the other hand, in children at risk (hypotrophy, prematurity, infectious risks, fetal distress or respiratory distress at birth), gastric aspiration is systematically performed at birth to overcome obstruction of the upper aero-digestive tract, to prevent oesophageal atresia, to avoid inhalation by reflux and sometimes to make a bacteriological diagnosis. Our hypothesis is that this liquid could be used for the detection of CMV infection without adding any invasive action in newborns. Ultimately, gastric aspirate could allow for routine CMV screening in children at risk and thus allow for appropriate care by nursing staff.The occurrence of immediate or delayed sensory sequelae in these children would be then limited.

The purpose of this study is to determine whether Cytomegalovirus (CMV) reactivation in ANCA-associated vasculitis (AAV) patients can be effectively and safely reduced using an antiviral agent (valaciclovir) and whether this in turn improves the function of the immune system thereby also improving the body's ability to fight other infections. The primary hypothesis is that repeated episodes of CMV reactivation in AAV patients drive the expansion and functional impairment of CMV-specific T-cells, with increased susceptibility to infection. Inhibition of CMV replication with valaciclovir will block further stimulation of CMV specific T-cells and increase the functional capacity of the immune system.

RATIONALE: White blood cells that have been treated in the laboratory may kill cells that are infected with cytomegalovirus. PURPOSE: This phase I trial is studying how well cytotoxic T cells work in treating patients who have undergone donor stem cell transplant and have cytomegalovirus infections.

Cytomegalovirus (CMV) is the most common cause of congenital infection, with approximately 0.5% of pregnant women being infected during pregnancy. CMV transmission to the fetus occurs in about one third of women who are infected in first trimester. Babies infected before birth are at risk for serious neurological complications such as intellectual disability, seizures, deafness, and even death. Most couples facing a diagnosis of congenital cytomegalovirus infection in their unborn baby focus heavily on the predicted neurological outcome for their child. To date, methods to assess brain development in fetuses have been mainly limited to detecting structural brain abnormalities by ultrasound. However, these ultrasound signs may not become apparent until very late in pregnancy, and some neurological disability is not accompanied by any structural brain changes. More research on methods of predicting neurodevelopmental outcome independent of structural brain malformations before third trimester is urgently needed. The purpose of this study is to investigate a new method of studying the health of unborn babies using amniotic fluid. Amniocentesis is often performed after maternal CMV infection to diagnose fetal infection. Prior research by Dr Hui has demonstrated that cell free RNA in amniotic fluid can provide meaningful information from multiple organs including the fetal brain. The investigators propose to collect and analyse a small sample of amniotic fluid to detect which genes are turned "on" or "off" (gene expression) in a fetus that has a congenital CMV infection, compared to those without any infection. The genes that are differentially expressed in CMV infected fetuses will then be analysed to provide information on the broad physiological processes that are altered due to the infection ("functional analysis") and identify neurodevelopmental gene transcripts of interest for future studies ("biomarker discovery").