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Meningomyelocele clinical trials

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NCT ID: NCT03315637 Recruiting - Hydrocephalus Clinical Trials

Fetal Endoscopic Surgery for Spina Bifida

FESSB
Start date: January 2015
Phase: N/A
Study type: Interventional

This study aims to assess the feasibility to perform a fetoscopic prenatal repair of an open neural tube defect, and secondly to assess the maternal, fetal and neonatal outcomes.

NCT ID: NCT03061084 Recruiting - Spina Bifida Clinical Trials

Prospective Cohort of Transitional Urology Patients

Start date: August 27, 2015
Phase:
Study type: Observational

A transitional Urology database was created in parallel with National Spina Bifida registry to follow patients with complex congenital urogenital anomalies and be able to prospectively evaluate them. The investigators obtained the standardized questionnaires to collect long-term data regarding patients' genitourinary status including urine and fecal continence, sexuality, fertility, and pelvic health.

NCT ID: NCT02227407 Recruiting - Spinal Cord Injury Clinical Trials

Reciprocating Gait Orthoses for Paraplegia Patients

UPGO
Start date: August 2013
Phase: N/A
Study type: Interventional

Ambulation would bring many physiological and psychological benefits and getting up and walking has been a dream for paraplegia patients.The reciprocating gait orthoses (RGOs) for paraplegics particularly draws research attentions because it mimics human gait pattern.But, the high energy consumption and low walking speeds caused the frequent abandonment or the low utilization of the reciprocating gait orthoses.To improve the design reducing the energy expenditure, it requires biomechanical analysis of the pathological gait such that the gait deviations and energy consuming mechanisms can be identified and remedial means can be implemented. The investigators hypotheses will include that there would exist an energy saving mechanism of human reciprocating locomotion based on the principle of conservation of mechanical energy.Secondly, kinematic and kinetic gait determinants could be derived from the energy saving mechanism. Finally, the control of knee joint coordinating with the hip joint movements would facilitate the gait progression and further reduce the energy consumption. The objective of this clinical trial is to evaluate the gait of paraplegic patients with reciprocating gait orthoses and to support the investigators research in biomechanical analysis, design and control of reciprocating gait orthoses for paraplegia patients. An experiment to study the pathological gait of paraplegia patients with an existing reciprocating gait orthosis will be carried out.