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Query: UNIPROT:P50502 (
Hip
)
7,003
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
An in-season adductor muscle strain may be debilitating for the athlete. Furthermore, an adductor strain that is treated improperly could become chronic and career threatening. Any one of the six muscles of the adductor group could be involved. The degree of injury can range from a minor strain (Grade I), where minimal playing time is lost, to a severe strain (Grade III) in which there is complete loss of muscle function. Ice hockey and soccer players seem particularly susceptible to adductor muscle strains. In professional ice hockey players throughout the world, approximately 10% of all injuries are groin strains. These injuries, which have been linked to hip muscle
weakness
, previous injuries to that area, preseason practice sessions and level of experience, may be preventable if such risk factors can be addressed before each season.
Hip
-strengthening exercises were shown to be an effective method of reducing the incidence of adductor strains in one closely followed National Hockey League ice hockey team. Despite the identification of risk factors and strengthening intervention for ice hockey players, adductor strains continue to occur throughout sport. Clinicians feel an active training programme, along with completely restoring the strength of the adductor muscle group, is the key to successful rehabilitation. Surgical intervention is available if nonoperative treatment fails for 6 months or longer. Adductor release and tenotomy was reported to have limited success in athletes.
...
PMID:Adductor muscle strains in sport. 1192 60
Hip
dislocations remain an intractable problem in patients with soft tissue impairment, particularly in those with muscle
weakness
around the hip, such as those who have undergone revision total hip arthroplasty (THA). At the authors' hospital, postoperative dislocations were observed in 10 of 154 hips between January 1985 and June 1988. Five hips required re-replacement. Conventional measures to prevent or treat post-THA dislocations have been anti-dislocation pants for soft fixation and a cast or abduction-forcing braces for firm fixation. However, the anti-dislocation pants for soft fixation were not as effective as indicated by the above 10 postoperative dislocations. The firm fixation techniques are considered to cause a reduction in muscle strength, causing psychological stress and poor activity of daily living (ADL). The authors devised a soft brace for easy application and prepared its test model to prevent muscle weakening, allow stability of the hip during rotation and avoid restrictions in ADL. This brace was applied to a patient who had 3 dislocations in a short period after being discharged who sustained a postoperative dislocation and achieved good results.
...
PMID:A test model of hip brace for prevention of dislocation after total hip arthroplasty (Zetton Band). 1256 74
This study investigated the kinetic strategy and compensatory mechanisms during self-ambulatory gait in children with lumbo-sacral myelomeningocele. Thirty-one children with mid-lumbar to low-sacral myelomeningocele who walked without aids and 21 control children were evaluated by three-dimensional gait analysis. Joint moments in all planes at the hip and knee and sagittal moments at the ankle, as well as joint power and work done at all three joints, were analyzed. Joint moment capacity lost due to plantarflexor and dorsiflexor
weakness
was provided instead by orthotic support, but other joints were loaded more to compensate for the
weakness
at the ankles and restricted ankle motion. Subjects with total plantarflexor and dorsiflexor paresis and strength in the hip abductors had more knee extensor loading due to plantarflexor
weakness
and dorsiflexion angle of the orthotic ankle joint. The subjects with orthoses also generated more power at the hip to supplement the power generation lost to plantarflexor
weakness
and fixed ankles. The most determinant muscle whose paresis changes gait kinetics was the hip abductor.
Hip
abductor
weakness
resulted in a characteristic pattern where the hips displayed an eccentric adduction moment, mediating energy transfer into the lower limbs, and the hips replaced the knees as power absorbers in early stance. Joint moment, power and work analyses complement a kinematic analysis to provide a complete picture of how children who have muscle paresis recruit stronger muscle groups to compensate for weaker ones.
...
PMID:Kinetics of compensatory gait in persons with myelomeningocele. 1553 30
The objective of this study was to measure adaptations in landing strategy during single-leg hops following thigh muscle fatigue. Kinetic, kinematic, and electromyographic data were recorded as thirteen healthy male subjects performed a single-leg hop in both the unfatigued and fatigued states. To sufficiently fatigue the thigh muscles, subjects performed at least two sets of 50 step-ups. Fatigue was assessed by measuring horizontal hopping ability following the protocol. Joint motion and loading, as well as muscle activation patterns, were compared between fatigued and unfatigued conditions. Fatigue significantly increased knee motion (p = 0.012) and shifted the ankle into a more dorsiflexed position (p = 0.029).
Hip
flexion was also reduced following fatigue (p = 0.042). Peak extension moment tended to decrease at the knee and increase at the ankle and hip (p = 0.014). Ankle plantar flexion moment at the time of peak total support moment increased from 0.8 (N x m)/kg (SD, 0.6 [N x m]/kg) to 1.5 (N x m)/kg (SD, 0.8 [N x m]/kg) (p = 0.006). Decreased knee moment and increased knee flexion during landings following fatigue indicated that the control of knee motion was compromised despite increased activation of the vastus medialis, vastus lateralis, and rectus femoris (p = 0.014, p = 0.014, and p = 0.017, respectively). Performance at the ankle increased to compensate for
weakness
in the knee musculature and to maintain lower extremity stability during landing. Investigating the biomechanical adaptations that occur in healthy subjects as a result of muscle fatigue may give insight into the compensatory mechanisms and loading patterns occurring in patients with knee pathology. Changes in single-leg hop landing performance could be used to demonstrate functional improvement in patients due to training or physical therapy.
...
PMID:Effect of fatigue on single-leg hop landing biomechanics. 1729 21
Hip
loading affects bone remodeling and implant fixation. In this study, we have analyzed the effect of subject-specific modeling of hip geometry on muscle activation patterns and hip contact forces during gait, using musculoskeletal modeling, inverse dynamic analysis and static optimization. We first used sensitivity analysis to analyze the effect of isolated changes in femoral neck-length (NL) and neck-shaft angle (NSA) on calculated muscle activations and hip contact force during the stance phase of gait. A deformable generic musculoskeletal model was adjusted incrementally to adopt a physiological range of NL and NSA. In a second similar analysis, we adjusted hip geometry to the measurements from digitized radiographs of 20 subjects with primary hip osteoarthrosis. Finally, we studied the effect of hip abductor
weakness
on muscle activation patterns and hip contact force. This analysis showed that differences in NL (41-74 mm) and NSA (113-140 degrees ) affect the muscle activation of the hip abductors during stance phase and hence hip contact force by up to three times body weight. In conclusion, the results from both the sensitivity and subject-specific analysis showed that at the moment of peak contact force, altered NSA has only a minor effect on the loading configuration of the hip. Increased NL, however, results in an increase of the three hip contact-force components and a reduced vertical loading. The results of these analyses are essential to understand modified hip joint loading, and for planning hip surgery for patients with osteoarthrosis.
...
PMID:Subject-specific hip geometry affects predicted hip joint contact forces during gait. 1834 45
Claudication is the most common symptomatic manifestation of peripheral arterial disease (PAD), producing significant ambulatory compromise. The purpose of this study was to use advanced biomechanical gait analysis to determine the gait alterations occurring in claudicating patients both before and after onset of claudication pain in their legs.
Hip
, knee, and ankle joint moments were measured in claudicating patients (age: 64.46+/-8.47 years; body mass: 80.70+/-12.64kg; body height: 1.72+/-0.08m) and were compared to gender-age-body mass-height-matched healthy controls (age 66.27+/-9.22 years; body mass: 77.89+/-10.65kg; body height: 1.74+/-0.08m). The claudicating patients were evaluated both before (pain-free (PF) condition) and after (pain condition) onset of claudication pain in their legs. Thirteen symptomatic PAD patients (26 claudicating limbs) with bilateral intermittent claudication (IC) and 11 healthy controls (22 control limbs) were tested during level walking at their self-selected speed. Compared to controls, PAD hip and ankle joints demonstrated significant angular kinematics and net internal moment changes. Alterations were present both in PF and pain conditions with several of them becoming worse in the pain condition. Both PF and pain conditions resulted in significantly reduced peak hip extensor moment (5.62+/-1.40 and 5.63+/-1.33% BWxBH, respectively) during early stance as compared to controls (7.53+/-1.16% BWxBH). In the pain condition, PAD patients had a significantly reduced ankle plantar flexor moment (7.56+/-1.41% BWxBH) during late stance as compared to controls (8.65+/-1.27% BWxBH). Furthermore, when comparing PF to pain conditions, there was a decreased peak plantar flexor moment (PF condition: 8.23+/-1.37 vs. pain condition: 7.56+/-1.41% BWxBH) during late stance. The findings point to a
weakness
in the posterior compartment muscles of the hip and calf as being the key factor underlying the PAD gait adaptations. Our findings establish a detailed baseline description of the changes present in PAD patient's joint angles and moments during walking. Since IC is primarily a gait disability, better understanding of the abnormalities in joint and muscle function will enhance our understanding of the gait impairment and may lead to novel, gait-specific treatments.
...
PMID:Bilateral claudication results in alterations in the gait biomechanics at the hip and ankle joints. 1858 53
Internal snapping often resolves with conservative treatment but persistent significant symptoms may require surgical treatment. Different surgical approaches have been suggested in the literature with varying results. We describe a modified surgical approach for internal snapping of hip in adults with good results. Patients who failed conservative treatment for internal snapping over 11/2 years were included. A skin crease incision was made just lateral to the ASIS in supine position. The psoas tendon was reached sub-periosteally along the internal iliac surface and a hole was made in periosteum. Then the tendon was hooked into the wound and divided releasing its musculotendinous junction. The patients were allowed to mobilise as able in the postoperative period. There were 8 snapping hips (7 patients, 6 females) with average age of 30 years (17-51 yrs). The mean follow-up was 11 months. The average duration of symptoms before operation was 4.5 years (range 2-10 years). Painful symptomatic clicking was relieved in all patients. Two patients felt slight
weakness
of hip flexion. One patient had temporary neuropraxia of lateral cutaneous nerve of thigh. The diagnosis is made by ultrasound or examination for a palpable click. Surgical correction of snapping is considered after failure of conservative treatment. Different extrapelvic (medial and iliofemoral) and intrapelvic extraperitoneal approaches have been described with varying results. With our slightly modified intrapelvic and subperiosteal approach through oblique inguinal incision in adults, psoas muscle release at musculotendinous junction seems a safe and effective method and could be used as an alternative surgical approach for treatment of internal snapping of hip in adults.
Hip
Int
PMID:Clinical outcome following a modified approach for psoas lengthening for coxa saltans in adults. 1919 60
Mannosidosis is an extremely rare genetic disease occurring due to deficiency of the lysosomal enzyme, alpha-mannosidase. Patients with this disorder often suffer from musculoskeletal abnormalities and muscular
weakness
leading to joint destruction and severe morbidity along with other major systems involvement. We present here such a case of a 27-year-old male that highlights the challenges in management of hip joint destruction secondary to Mannosidosis.
Hip
Int
PMID:Cemented total hip arthroplasty in a patient with alpha-mannosidosis: a case report. 1946 74
Forty-six consecutive patients with 57 congenitally dislocated hips were treated with open reduction and femoral or acetabular procedures as indicated. Patient age ranged from 12 to 36 months at the time of surgery. We evaluated the outcome of 38 of the 46 patients (83%) with 47 hips (83%) at a mean follow-up of 18 years, 9 months (range, 13 years, 7 months to 24 years, 7 months) after all patients had reached skeletal maturity.Using Severin's radiographic classification, 24 hips (52%) were rated as class I, 12 (26%) as class II, 8 (17%) as class III, 2 (4%) as class IV, and 0 as class V. The mean Iowa
Hip
Score was 92 points. One patient had significant abductor
weakness
and a Trendelenburg gait. The mean leg-length discrepancy was <1 cm. Disturbance in growth of the proximal aspect of the femur occurred in 10 hips (22%).In our experience, open reduction of the congenitally dislocated hip in children aged 1 to 3 years, combined with femoral or acetabular procedures, leads to successful clinical and radiographic results in most cases. These patients have an opportunity for normal hip function during childhood and the potential for a straightforward reconstructive procedure should they develop severe degenerative hip arthrosis.
...
PMID:Surgical treatment of developmental hip dislocation in children aged 1 to 3 years: a mean 18-year, 9-month follow-up study. 2034 70
3D analysis of the gait of children with Duchenne muscular dystrophy (DMD) was the topic of only a few studies and none of these considered the effect of gait velocity on the gait parameters of children with DMD. Gait parameters of 11 children with DMD were compared to those of 14 control children while considering the effect of gait velocity using 3D biomechanical analysis. Kinematic and kinetic gait parameters were measured using an Optotrak motion analysis system and AMTI force plates embedded in the floor. The data profiles of children with DMD walking at natural gait velocity were compared to those of the control children who walked at both natural and slow gait velocities. When both groups walked at similar velocity, children with DMD had higher cadence and shorter step length. They demonstrated a lower hip extension moment as well as a minimal or absent knee extension moment. At the ankle, a dorsiflexion moment was absent at heel strike due to the anterior location of the center of pressure. The magnitude of the medio-lateral ground reaction force was higher in children with DMD. Despite this increase, the hip abductor moment was lower.
Hip
power generation was also observed at the mid-stance in DMD children. These results suggest that most of the modifications observed are strategies used by children with DMD to cope with possible muscle
weakness
in order to provide support, propulsion and balance of the body during gait.
...
PMID:Gait patterns comparison of children with Duchenne muscular dystrophy to those of control subjects considering the effect of gait velocity. 2059 84
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