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Hand Deformities, Congenital clinical trials

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NCT ID: NCT06142370 Enrolling by invitation - Anomaly; Hand Clinical Trials

The Prevalence of the Linburg-Comstock Variation

LCV
Start date: May 7, 2022
Phase: N/A
Study type: Interventional

The purpose of this study is to explore the physical exam characteristics of patients referred to orthopedic surgeons with a diagnosis of thumb carpometacarpal (CMC) arthritis. CMC osteoarthritis of the thumb is one of the most common degenerative conditions of the hand in 11% of men and 33% of women (Gillis et al., 2011). Patients with CMC arthritis may experience pain, decreased range of motion, loss of grip and pinch strength, often limiting participation in activities of daily living (Bertozzi et al., 2014). In 1979, two physicians identified a variation of a tendinous connection in the wrist between the tip of the index finger and the tip of the thumb known as the Linburg-Comstock variation (LCV) (Linburg & Comstock, 1979). The prevalence of the LCV varies respectively from 13-66% in both males and females (Erić et al., 2019). A physical examination of patients with LCV reveals concurrent flexion of the flexor digitorum profundus to the index finger and flexor pollicis longus. The study aims to gain more insight into patients diagnosed with CMC arthritis through clinical examination for LCV to consider an association of the diagnoses. Currently, there is no evidence surrounding patients with symptomatic CMC arthritis and LCV. The hypothesis is that there is an association between symptomatic CMC arthritis and LCV. Patients with a LCV may then be more likely to develop painful CMC arthritis.

NCT ID: NCT05528744 Recruiting - Genetic Disease Clinical Trials

Delineating the Molecular Spectrum and the Clinical, Imaging and Neuronal Phenotype of Chopra-Amiel-Gordon Syndrome

Start date: August 27, 2022
Phase:
Study type: Observational [Patient Registry]

The purpose of this study is to establish a registry of individuals with confirmed or suspected Chopra-Amiel-Gordon Syndrome (CAGS) to learn more about the range of symptoms, changes in the structure of the brain seen on imaging, and learning difficulties that individuals with this disorder may experience. The investigators will obtain medical history, family history, MRI records, patient photographs, and genetic test results from individuals with confirmed or suspected CAGS. A subset of participants will also undergo a standardized neurobehavioral assessment. This data will be maintained on a secure research database. Sample collection will be offered to participants for the functional testing and the generation of iPSC cell lines, for neuronal reprogramming and phenotyping.

NCT ID: NCT04564430 Recruiting - Trigger Finger Clinical Trials

Clonidine for Tourniquet-related Pain in Children

CLOTCH
Start date: March 1, 2021
Phase: Phase 4
Study type: Interventional

This study is designed as a randomized, placebo-controlled, double-blinded, clinical trial with two parallel groups. This study investigates the association between a single dose of the drug, Clonidine, and the total amount of opioid administered under and 24 hours after surgery in children undergoing orthopedic limb surgery with the use of tourniquet. The investigators hypothesize that administration of clonidine to children undergoing limb surgery with the use of inflatable tourniquets would reduce post-procedural pain. This study is a pilot to obtain an effect size. Based on this the investigators will calculate a sample size for the main trial enabling us to reach a power of 0.8 with a significans level of 0.05.

NCT ID: NCT01619644 Completed - Clinical trials for Rubinstein-Taybi Syndrome

Rubinstein-Taybi Syndrome: Functional Imaging and Therapeutic Trial

RUBIVAL
Start date: April 2012
Phase: Phase 2
Study type: Interventional

An exploratory phase 2 therapeutic trial in children from 6 to 21, RTS carriers, randomized to be treated either with sodium valproate with the usual pediatric dosage (30 mg/kg/j), or by placebo for one year. The investigator would like to include children because they could best profit from it due to their neuronal plasticity as CBP and EP300 take effect through neuronal and synaptic plasticity. The therapeutic effect of sodium valproate in RTS patients will be assessed thanks to a clinical approach (learning and memory neuropsychological evaluation, fine motor skills assessment by pointing), to a biological approach (histone acetylation functional tests), and to imaging (morphological and functional MRI).

NCT ID: NCT01416090 Completed - Clinical trials for Congenital Hand Deformities

Syndactyly Repair: Comparison of Skin Graft and No Skin Graft Techniques

Start date: July 2004
Phase:
Study type: Observational

Syndactyly is a relatively common congenital abnormality of the hand occurring approximately 1 out of 2500 live births (1). It can be simple, meaning only skin and soft tissues are shared, or complex, meaning the bone or nail parts are shared. In any case, it is a fact that there is not enough skin surrounding the two finger segment to be utilized to cover two separate fingers. This can also be proven by simple geometry. Therefore, it has always been taught to residents and explained to numerous patients' families that addition of skin graft is required for a proper syndactyly release. Without it, skin flaps would be too tight, causing some necrosis and significant scarring along the finger and particularly in the web space, causing an unsatisfactory functional and cosmetic result requiring revision.

NCT ID: NCT01409980 Completed - Clinical trials for Phalanx of Supernumerary Digit of Hand

Triphalangeal Thumbs in the Pediatric Population: Long Term Outcomes Following Surgical Intervention

Start date: July 2011
Phase: N/A
Study type: Observational

A triphalangeal thumb is a thumb with three phalanges. The thumb often appears long and fingerlike, and can sometimes be in the same plane as the other fingers. Anatomically, the extra phalanx can have different shapes. Several classification systems have been used, but the simplest and most often used is the Wood (1976) classification by the shape of the extra phalanx. If the extra phalanx is triangularly shaped it is classified as a type I. Type II has a rectangular shaped extra phalanx but it has not developed as a full phalanx. Type III is a full extra phalanx.