The Effect of Ptellofemoral Pain Syndrome on the Hip and Knee Neuromuscular Control on Dynamic Postural Control Task

Goto, Shiho

28 September 2009

No description available.

Sports Medicine

patellofemoral pain

PFPS

PFP

knee valgus

electromyography

EMG

gluteus medius

gluteus maximus

vsutus medialis

VMO

frontal plane

dynamic postural control

star excursion balance test

SEBT

Nové operační řešení u morbus Perthes pomocí anteromediální redukční osteotomie hlavice / Anteromedial wedge reduction osteotomy as a new surgical procedure in treatment of Morbus Perthes

Burian, Michal

January 2017

Morbus​ ​Perthes​ ​(LCP)​ ​is​ ​an​ ​idiopathic​ ​defect​ ​in​ ​the​ ​blood​ ​flow​ ​of​ ​the​ ​proximal femoral​ ​epiphysis,​ ​where​ ​morphological​ ​and​ ​functional​ ​pathologies​ ​of​ ​the​ ​hip​ ​joint occur.​ ​Unfavorable​ ​prognostic​ ​factors​ ​include​ ​aspheric​ ​and​ ​incongruent​ ​hip,​ ​often manifested​ ​by​ ​the​ ​appearance​ ​of​ ​hinge​ ​abduction.​ ​The​ ​head​ ​is​ ​no​ ​longer​ ​remodeling after​ ​"golden"​ ​period​ ​of​ ​remodellation.​ ​Anteromedial​ ​Wedge​ ​Reduction​ ​Osteotomy (AWRO)​ ​is​ ​a​ ​new​ ​surgical​ ​method​ ​to​ ​improve​ ​the​ ​shape​ ​and​ ​reduce​ ​the​ ​femoral head​ ​and​ ​thus​ ​extend​ ​the​ ​life​ ​of​ ​a​ ​significantly​ ​altered​ ​hip​ ​joint. We​ ​evaluated​ ​10​ ​patients​ ​after​ ​the​ ​AWRO​ ​and​ ​established​ ​3​ ​hypotheses,​ ​in​ ​the clinical​ ​part​ ​of​ ​the​ ​study.​ ​1st​ ​hypothesis​ ​"AWRO​ ​leads​ ​to​ ​the​ ​reshape​ ​of​ ​the​ ​head" was​ ​confirmed​ ​following​ ​the​ ​Stulberg's​ ​classification.​ ​2nd​ ​hypothesis​ ​"AWRO​ ​leads to​ ​a​ ​reduction​ ​in​ ​the​ ​mediolateral​ ​diameter​ ​of​ ​the​ ​head",​ ​was​ ​confirmed​ ​by​ ​measuring the​ ​capitodiaphyseal​ ​index,​ ​which​ ​was​ ​reduced​ ​in​ ​all​ ​femoral​ ​heads​ ​after​ ​AWRO. The​ ​3rd​ ​hypothesis​ ​"Harris​ ​Hip​ ​Score​ ​improved​ ​in​ ​medium-term​ ​follow​ ​up​...

The Effect of Carbon and Plastic Ankle-Foot Orthoses (AFOS) on Knee Muscle Activity During Varied Walking Conditions

Behbehani, Reem

10 August 2022

No description available.

Biomechanics

Mechanical Engineering

Physical Education

Philosophy

Physical Therapy

AFO

Ankle foot orthosis

EMG

Electromyography

Knee

Muscles

biomechanics

carbon fiber AFO

Plastic AFO

treadmill

Rectus Femoris

vastus medialis

vastus lateralis

biceps femoris

semitendinosus

physical therapy

Squeezing the Muscle : Compression Clothing and Muscle Metabolism during Recovery from High Intensity Exercise

Sperlich, B., Born, D. -P, Kaskinoro, K., Kalliokoski, K. K., Laaksonen, Marko

January 2013

The purpose of this experiment was to investigate skeletal muscle blood flow and glucose uptake in m. biceps (BF) and m. quadriceps femoris (QF) 1) during recovery from high intensity cycle exercise, and 2) while wearing a compression short applying ~37 mmHg to the thigh muscles. Blood flow and glucose uptake were measured in the compressed and non-compressed leg of 6 healthy men by using positron emission tomography. At baseline blood flow in QF (P = 0.79) and BF (P = 0.90) did not differ between the compressed and the non-compressed leg. During recovery muscle blood flow was higher compared to baseline in both compressed (P&lt;0.01) and non-compressed QF (P&lt;0.001) but not in compressed (P = 0.41) and non-compressed BF (P = 0.05; effect size = 2.74). During recovery blood flow was lower in compressed QF (P&lt;0.01) but not in BF (P = 0.26) compared to the non-compressed muscles. During baseline and recovery no differences in blood flow were detected between the superficial and deep parts of QF in both, compressed (baseline P = 0.79; recovery P = 0.68) and non-compressed leg (baseline P = 0.64; recovery P = 0.06). During recovery glucose uptake was higher in QF compared to BF in both conditions (P&lt;0.01) with no difference between the compressed and non-compressed thigh. Glucose uptake was higher in the deep compared to the superficial parts of QF (compression leg P = 0.02). These results demonstrate that wearing compression shorts with ~37 mmHg of external pressure reduces blood flow both in the deep and superficial regions of muscle tissue during recovery from high intensity exercise but does not affect glucose uptake in BF and QF. © 2013 Sperlich et al. / <p>:doi 10.1371/journal.pone.0060923</p>