View clinical trials related to Balance.
Filter by:The effects of balanced posture and postural changes have been evaluated in specific populations with different factors that can affect body postures and balance, such as age, musculoskeletal system, and other metabolic diseases. Studies on postural kyphosis and balance involvement are very few in the literature especially in the health population. Of the few studies that have evaluated kyphosis and balance, most are limited by small sample size and the exclusion of men. Many have focused primarily on the geriatric population. The determination that the effect of thoracic kyphosis posture on trunk biomechanical alignment may be related to balance may contribute to new treatment recommendations in this area. The aim of this study is to investigate whether the thoracic kyphosis posture has an effect on static balance.
It was aimed to determine the relationship between post-stroke imagination ability, balance, and functionality, and to compare the motor imagery skills of those who had stroke with compatible healthy individuals.
Individuals with HTLV-1 secondary myelopathy (HAM/TSP) may have motor and sensory alterations, which may result in reduced functional performance and consequent risk of falls. The aim of the study is to verify the therapeutic effect of a Pilates exercise program on functional performance and risk of falls, when compared to task-oriented training, of people with HAM / TSP. This is a randomized, crossover clinical trial performed with individuals with HAM / TSP who are attended at a referral center who is able to perform gait whether or not to use a walking aid. Amputees, with psychiatric disorders, rheumatic or orthopedic diseases and other associated neurological disorders, which could influence the balance and functional mobility, as well as pregnant women, were excluded. Participants will be submitted to the initial evaluation of functional mobility, balance, gait balance, fatigue, gait endurance, sphincter changes and questioned about the occurrence of falls in the last three months and will answer a semi-structured questionnaire about their conjugality. They will be allocated randomly to two groups. One will perform the Pilates Method protocol and the other task-oriented training. The first group, called test-control group (GTC), will initiate the protocol with exercises of the Pilates method; the control-test group (GCT) will initiate the task-oriented training protocol. A p <0.05 will be considered a statistically significant difference.
Brief Summary: Cognition and balance are known to decline during the aging process. Cognitive performance is essential for functional independence and determines whether an individual can perform instrumental daily living activities (e.g., finances, driving, independent living). Balance is critical for participation in everyday life activities. Impaired balance increases fall risk, and subsequent injury increased caregiver dependency and decreased independence. The purpose of this study is to investigate the outcomes of 24 sessions of online mobility and cognitive training (35 minutes/session, 3x/week, 8-12 weeks) for community-based older adults. The exercise program is progressively challenging and emphasizes balance, cardiovascular conditioning, attention, and working memory. The primary outcomes of interest are cognitive performance and balance changes, with secondary outcomes relating to self-efficacy, resilience, and physical activity.
This is a study to determine if smartphone use affect posture control in adolescents.
It has been shown that movements of the upper extremity during walking are associated with lower extremity mobility. For example, when walking at a slow pace, the swing frequency of the arms is 2: 1 compared to the legs, while the limb frequency decreases to 1: 1 as the walking speed increases. That is, in order to walk fast, the lower extremity takes advantage of the acceleration of the upper extremity [1]. It is known that the muscles of the shoulder girdle also support this oscillating movement in the upper extremity during walking. Thus, it is thought that blocking or restricting shoulder girdle and arm movements during walking increases energy expenditure and heart rate, decreases gait stability, and decreases stride length and walking speed [2,3]. However, the possible effects that the upper limb can aid in movement include decreasing vertical displacement of the center of mass, decreasing angular momentum or decreasing ground reaction moment, and increasing walking stability [2-4]. In these studies that restrict arm swing, methods such as crossing the arms on the chest [5], holding the arm in a sling or pocket [6], or fixing the arms to the trunk with a bandage [7] were used. Studies have generally been conducted on healthy individuals or on the biomechanical model, and arm swing during walking has not been investigated in pathologies with only upper extremity involvement (upper extremity fractures, Juvenile Idiopathic Arthritis) without any problems with lower extremity and/or walking. This study is aimed to reveal the effects of decreased upper extremity functionality on walking and balance.
Research about the balance in pregnant women who perform water exercise and those who do not engage in any type of sporting activity. The initial objectives are to know if there is an improvement in the balance in women who perform aquatic exercise reviewed at the end of pregnancy versus those who do not, through the use of a podiatric platform. This experimental randomized controlled study (RCT) will be carried out in sports centers and / or public or private municipal swimming pools in the south of Galicia The recruitment of passive pregnant women (control group) will be carried out in the health center of Pontevedra Virxe da Peregrina in the first visit to the midwife in the 10th and 12th week of gestation, while the recruitment of the active pregnant women (group experimental 1 and experimental group 2) in the teaching centers of the aquatic exercise sessions in the same weeks of gestation. The women of the three groups will have a low-risk normoevolutive pregnancy and will be studied in the first and third trimesters. The instruments that will be used to obtain data will be through an initial questionnaire, a platform and study of stability through the center of gravity and base of podiatric support. The plan for analyzing the data will be done through SPSS 17.0.
Evaluate the results of the implementation of a multicomponent exercise program (16 weeks) for elder community dwelling population on their functionality (via cognitive, balance and mobility status).
Background Balance and jumping mechanisms are important to prevent injuries in sports such as handball, which require immediately change of direction, jumping and landing strategy. Strong proximal stability is required for accurate jump performance and stability. Objective To investigate the relationship between gluteus medius strength and static, dynamic balance, horizontal and vertical jump performance. Design Prospective field trial study. Setting: Elite women handball players in Turkish Handball Super League. Patients (or Participants): Forty-two elite women handball players from Turkish Handball Super League were included in this study. Interventions (or assessment of risk factors) The Lafayette Hand-Held Dynamometer was used to determine the strength of the gluteus medius. Single leg hop (SLH) test was used for horizontal jump and Lafayette Vertimetric device was used for vertical jump (VJ) evaluation. Y Balance Test (YBT) was used for the dynamic balance with direction of anterior, posteriomedial, posteriolateral and Standing Stork Test (SST) with eyes closed for the measurement of static balance. Main outcome measurements Gluteus medius strength with hand dynamometer compared with YBT, SST, VJ and SLH tests.
The purposes of this study is to examine balance, muscle strength, and mobility in relation with non-motor symptoms (NMSs) in patients with Parkinsosn's Disease (PD). NMSs have been shown to be the key determinant of health-related quality of life (HRQoL) and have a greater effect on HRQoL compared to motor symptoms.Despite a growing literature on NMSs, there are few data on the association between NMSs and motor phenotypes of PD, and they have usually focused only on specific domains of NMSs, such as cognition, mood/anxiety issues, or sleep disorders. When literature is examined, there is no study which examines balance, muscle strength, and mobility in relation with NMSs in patients with PD.For all these reasons, we think that balance, muscle strength, mobility, and NMSs in patients with PD are worse than those of the healthy individuals and that there is a relationship between NMSs and motor symptoms.