View clinical trials related to Birth Weight.
Filter by:Premature very low birth weight (VLBW) infants were placed in two groups matched for birth age. The control group received traditional joint compression exercises designed to decrease bone density loss. Exercises lasted approximately 10 minutes each day 5 days a week. The experimental group were placed in a "prepod", an elastic fabric pod shaped garment or sack on entry into the study and remained in the pod essentially 24 hours a day, with brief breaks for bathing, parental skin to skin experiences,etc. An ultrasound of the left tibia was done on entrance into the study at 31 to 32 weeks gestation and again at completion of the study 4 weeks later. Results showed that experimental infants in pods had slightly less bone density loss than their peers receiving traditional therapy. An incidental finding was that the experimental infants in pods had a significantly shorter length of stay.
In the proposed study the investigators will develop an early prenatal preventive intervention targeting anxiety and conduct a randomized controlled trial in Pakistan to test its efficacy in reducing generalized anxiety disorder and major depression in mothers in late pregnancy and the postnatal period. Investigators will evaluate the impact of the intervention on fetal and infant growth restriction as well as examine how the impact of the intervention is mediated (to elucidate mechanisms) and/or modified (to help optimize future adaptations of the program) by various social factors. A cost-effectiveness evaluation will shed light on the costs and benefits of intervention components in relation to outcomes, enabling policy-makers and public health planners to scale up this intervention according to resource budgeting requirements.
Vitamins A, D, and E play important roles in humans, such as vision function, immune function, bone metabolism, cell growth and differentiation and oxidation resistance. Deficiencies in these vitamins will result in a high prevalence of cardiovascular disease, infection, bone diseases, etc. Preterm infants, especially very low birth weight infants, are at risk of vitamin deficiency. Intravenous perfusion is the most common and widely used method to supply vitamins for the specific population in early life. However, the current dose of vitamin supplied by intravenous perfusion whether can meet the need of growth and development is not sure and the appropriate dose for preterm infants is still uncertain. The purpose of this study is to investigate whether current dose of fat-soluble vitamin supplementation is enough for very low birth weight infants, the safety of high dose of fat-soluble vitamin supplementation, and compare the differences of prevalence of common complications, such as bronchopulmonary dysplasia, patent ductus arteriosus, sepsis, anemia, and neural development between these two groups.
The management protocols, clinical practices, equipment, infrastructure, and key personnel in NICU are unchanged during the study period. The data collected by each center are transmitted to the office of the principal investigator (Dr Lin) at China Medical University Hospital. Primary outcome is death or attention deficit and hyperactivity disorder (ADHD) and ASD.
Background: 1. Burden: Hypertensive disorders of pregnancy, including preeclampsia, complicate up to 10% of pregnancies worldwide, constituting one of the greatest causes of fetal growth restriction, preterm birth, low birth weight, perinatal mortality, and maternal morbidity and mortality. In Bangladesh, 24% of all maternal deaths are directly attributed to hypertensive causes. Conventional antenatal care practice often delays in or misses diagnosing hypertension in pregnancy, which makes the women vulnerable to its adverse consequences. 2. Knowledge gap: Although there are randomised controlled trials (RCT) of efforts directed at preventing development of hypertension in pregnancy or reducing its complications, there have been no published RCTs of the intervention focusing on regular monitoring of weight gain and blood pressure among pregnant women who are at risk of developing hypertension in pregnancy or its complications to ensure early diagnosis, and thereby optimizing the perinatal outcomes through prompt referral and management. 3. Relevance: To undertake an RCT of intervention to optimize adverse consequences in hypertension in pregnancy raises important practical concerns including: commitment of the enrolled women, the need to make a decision regarding participation due to longer duration of intervention and adherence to protocol. Investigators aim to perform this study to address whether an RCT of the intervention in individual patients is an appropriate trial design, and is feasible. Objectives: 1. To evaluate the accuracy of Salu Health Gauge device in measuring blood pressure. 2. To test the design, feasibility, acceptability and fidelity of a future definitive randomized controlled trial focusing on regular monitoring of weight gain and continuous self-monitoring of blood pressure among pregnant women who are at risk of developing hypertension in pregnancy. Methods: The study will be completed in two steps: 1) the validation of Salu Health Gauge and 2) the pilot trial. The study will be conducted in Matlab, Bangladesh. Salu Health Gauge device will be validated according to the European Society of Hypertension International Protocol revision 2010 (ESH-IP revision 2010) in general adult population (including men and non-pregnant women) as well as in specific groups such as adolescents and pregnant women. The pilot trial is designed as a prospective, two-arm, parallel, and open-label randomized controlled external pilot trial. Eligible participants (pregnant women at risk of developing hypertension in pregnancy) will be individually randomized 1:1 to the intervention arm who will use a wearable device (Salu Health Gauge) from 20 weeks of gestation up to termination of pregnancy alongside conventional antenatal and postnatal care or the control arm who will receive conventional antenatal and postnatal care only. In Matlab, a woman is diagnosed as pregnant by HDSS field staff by 12-16 weeks of gestation and is enlisted. The investigators will obtain this list from HDSS and conduct baseline interviews to identify pregnant women at risk of developing hypertension in pregnancy. Outcome measures/variables: 1. Feasibility outcomes: Recruitment rate, Retention rate, compliance, Acceptability etc. 2. Clinical outcomes: gestational weight gain, birth weight, adverse consequence of hypertension in pregnancy (episodes or occurrence and when), blood pressure profile of high-risk pregnancies, prevalence of specific risk factors for hypertension in pregnancy 3. Serious adverse events
Hypothermia in preterm infants during the immediate postnatal phase is associated with morbidity and mortality and remains an unresolved, worldwide challenge. A list of interventions, including adequate room temperature, use of infant warmers, polyethylene bags/wrap, pre-heated mattresses, caps and heated and humidified gases, to prevent thermal loss at birth in very preterm infants has been recommended, but a certain percentage of very preterm infants are hypothermic at the time of the neonatal intensive care unit (NICU) admission suggesting that further measures are needed. The thermal servo-controlled systems are routinely used in the NICU to accurately manage the patients' temperature, but their role during the immediate postnatal phase has not been previously assessed. We hypothesized that using a thermal servo-control system at delivery could prevent heat loss during this delicate phase and increase the percentage of very low birth weight infants (VLBWI) in the normal thermal range (temperature 36.5-37.5°C) at NICU admission. The aim of this study will be to compare two modes of thermal management (with and without the use of a thermal servo-controlled system) for preventing heat loss at birth in VLBWI infants.
Low blood pressure is a common problem in the premature newborn and can affect over 30% of all Extremely Low Gestational Age Neonates (ELGAN) babies delivered less than 28 weeks completed. Neonatal clinicians assess the hemodynamic status of the infant using clinical signs and physiological parameters including heart rate, blood pressure, capillary refill time, urine output and laboratory parameters (base deficit and lactate). While urine output and laboratory parameters do not provide real-time assessment of the hemodynamic status, heart rate and capillary refill time could be non-specific, inaccurate and observer-dependent, respectively. Blood pressure (BP) continues to be used as a common physiological marker for cardiovascular state in neonates.However, there is increasing amount of evidence that monitoring blood pressure alone is not enough to ensure adequate systemic and cerebral perfusion and oxygenation. Indeed, preterm babies may have "low blood pressure" triggering pharmacological treatment while still maintaining adequate systemic flow- especially cerebral and other organ perfusion as shown by other noninvasive measures like targeted neonatal echocardiography (TNE) and near infrared spectroscopy (NIRS). Using mean BP alone as the indication of treatment of neonatal cardiovascular compromise without taking into consideration the status of tissue perfusion may lead to unnecessary exposure of neonates to vasoactive medication. This medication can be potentially harmful to these extremely vulnerable patients. Analysis of a large neonatal database has demonstrated that treatment of hypotension was associated with an increase in serious brain injury. This held true even after the blood pressure was included in the regression mode, suggesting that it is treatment of hypotension, rather than the presence of hypotension which is harmful. The common interventions, fluid boluses followed by inotropes, could as well be harmful. Observational data has shown an association of fluid boluses with intracranial bleeding and in animal models intraventricular haemorrhage after hypotension can be induced by rapid volume infusion. Fluctuations in blood pressure when inotropes are introduced are well known and could also trigger haemorrhage. Current standard approaches to evaluation and treatment of transitional circulatory problems in the preterm infant may be harmful. Therefore it is essential that these approaches are adequately investigated. This research study is trying to find out if having a detailed hemodynamic understanding using a multimodal assessment consisting of Targeted Neonatal Echocardiogram, Cerebral NIRS and clinical-biochemical data, will result in less inotrope use in ELGAN population during the first 72hours of transitional period.
The purpose of this two-arm investigation is to determine if growth patterns of very low birth weight infants (VLBW) (birth weight 750-1500 grams) fed human milk (maternal or donor) supplemented with a human milk-based fortifier grow according to established guidelines and maintain adequate micronutrient levels.
Preterm birth, or birth before 37 weeks' gestation, is increasingly common, occurring in 8 percent of pregnancies in Canada. Preterm birth is associated with many health complications, particularly when the birth happens before 29 weeks' gestation. At this gestational age, the lungs are not fully developed and it is not uncommon for infants to have problems breathing at the time of birth. One complication that can arise is when an infant stops breathing and needs to be resuscitated. When preterm babies need to be resuscitated doctors must take special care because of the small infant size and the immaturity of the brain and lungs. Oxygen is used to resuscitate babies who need it, but unfortunately there is disagreement about the best oxygen concentration to use. Oxygen concentration is important because both too much and too little oxygen can cause brain injury. This research aims to fill this knowledge gap by participating in an international clinical trial to compare the effects of resuscitating babies less than 29 weeks' gestational age with either a low oxygen concentration or a high oxygen concentration. The oxygen concentrations have been selected using the best available knowledge. This will be a cluster randomized trial where each participating hospital will be randomized to either 30 or 60 percent oxygen for the recruitment of 30 infants, and afterwards randomized to the other group for the recruitment of another 30 infants. After the trial, the investigator will determine whether the babies resuscitated with low oxygen or those resuscitated with high oxygen have better survival and long-term health outcomes. This research fills a critical knowledge gap in the care of extremely preterm babies and will impact their survival both here in Canada and internationally.
Background Risk factors for cardiometabolic diseases have their onset in infancy. Comorbidities such as overweight, abdominal obesity, hypertension, insulin resistance and elevated triglycerides have been observed in childhood with a tendency to persist into adult life. Furthermore, this situation has generated an increase in morbidity and mortality rates due to chronic non-communicable diseases. One approach to decrease the impact of cardiometabolic diseases is the intervention with exercise training (strength and aerobic capacity), where an important role of protein intake plays a role in influencing the performance of strength training, due to the greater utilization of low-energy protein compared to aerobic exercise. In children, a better tolerance was reported in muscle strength exercises, with at least one supervised training session per week with moderate intensity (20 minutes of physical activity). Currently, there is no consensus on the minimum time required to intervene and achieve significant changes in the metabolic profile of adolescents and children. Objective To evaluate the relationship between weight at birth and adaptations to aerobic exercise and muscular strength, and its effects on metabolic risk, body composition and physical capacity. Methodology An experimental study with individual analysis per participant would be perform. The sample will include a 12 to 17-year-old adolescent population. It will consist of two phases. The intervention will be based on moderate strength, power and resistance training programs, and/or moderate aerobic capacity exercise in circuit steps. The workouts will be done two times a week, approximately 30 to 40 minutes including warm-up, stretching and cooling. All participants personal and family history data would be collected and blood samples would be taken. Potential results Within the expected results, the protocol wants to implement a new methodology of physical capacity training. Furthermore, the protocol will evaluate if related cardiometabolic risk factors with the intervention would improve in target patients at risk of developing cardiometabolic diseases to identify them and prevent the occurrence of these pathologies in adult life.