Clinical Trials Logo

Biomechanics clinical trials

View clinical trials related to Biomechanics.

Filter by:
  • Recruiting  
  • Page 1

NCT ID: NCT05733377 Recruiting - Diagnostic Imaging Clinical Trials

Non-invasive Imaging Technique for the Study of Lordosis in Pregnant Women and Its Relationship to Birth Outcome

Start date: July 15, 2022
Phase:
Study type: Observational

The study consists of collecting measurement data of the rachis in pregnant women and the subsequent outcome of her delivery. This will make it possible to validate a non-invasive imaging technique through software that can be used to study this anatomical curve proposing a new measurement method for the angle of lordosis. Finally, with the research data, the investigators will try to find a correlation between these variables (angle of lordosis and delivery outcome.

NCT ID: NCT05009433 Recruiting - Depression Clinical Trials

HIIT vs MICT During Pregnancy and Health and Birth Outcomes in Mothers and Children

HIIT MAMA
Start date: June 24, 2021
Phase: N/A
Study type: Interventional

Regular exercise during pregnancy and postpartum leads to health benefits for mother and child. Inactivity during pregnancy and after delivery is now treated as risky behavior. Physically active pregnant women significantly less often suffer from, among others, gestational diabetes, excessive weight gain, lipids disorders, hypertension, preeclampsia, depressive symptoms, functional and structural disorders, including stress urinary incontinence, back pain or diastasis recti abdominis (DRA). Prenatal physical activity reduces the risk of premature delivery and miscarriage, fetal macrosomia, complications in labor or the risk of metabolic disorders in children. High-intensity interval training (HIIT) has become one of the most popular trends in the fitness sector. The effectiveness of HIIT on a number of health indicators has been proven in various populations but limited data are available on HIIT during pregnancy. The first hypothesis is that the HIIT, implemented during pregnancy and after childbirth, as a stronger exercise stimulus, will have a better impact on selected biological and psychological parameters of mothers, as well as on selected health parameters of their children, compared to the MICT (moderate intensity continuous training). Therefore, it promises better preventive effects on pregnancy complications and ailments as well as non-communicable diseases occurring in these populations. In the second hypothesis, it was assumed that HIIT and MICT implemented during pregnancy and after childbirth, tailored to the specific needs of the perinatal period, will not differ in the effectiveness of maintaining normal functional parameters in women, including prevention of urinary incontinence, back pain, DRA, etc. Pregnant women who apply for the study will be divided into three groups: those attending the HIIT, MICT or educational programs. During the study, the participants will be under standard obstetric care. As comparative groups, non-pregnant women will be also recruited. The investigators will collect data on selected biological, functional and psychological parameters in the study women at each trimester of pregnancy, during the puerperium and one year after childbirth. The data from the medical documentation on the course of childbirth and the assessment of the new-born, as well as the results of preventive examinations in the study women's children aged one, two, four and six years will be also analyzed.

NCT ID: NCT04854356 Recruiting - Biomechanics Clinical Trials

Blood Flow Restriction During High-intensity Interval Exercise

Start date: April 1, 2021
Phase: N/A
Study type: Interventional

The study is a randomized controlled trial aimed to compare the effects of blood flow restriction (BFR) in different phases (i.e., exercise versus interval) during high-intensity interval exercise (HIIE) on aerobic capacity, anaerobic capacity, isokinetic knee strength, lower limb biomechanics during single-leg landing and cycling economy among healthy adult males. Participants were randomized to three groups. Intervention was conducted for 12 weeks with 2 sessions per week. During intervention, all groups conducted HIEE on cycle ergometer with or without BFR. Assessments were conducted before the intervention, on the 6th week of intervention and after the intervention. Assessments included physical characteristics, aerobic and anaerobic capacity, lower limb biomechanics during single-leg landing and isokinetic knee strength.