View clinical trials related to Fasciitis, Plantar.
Filter by:A prospective study will be conducted to evaluate the diagnostic performance of SMI, gray scale US, color Doppler US and Power Doppler US.
This study aimed to investigate the efficacy of different physical therapy protocols in the treatment of chronic plantar fasciitis patients. Patients in this study were randomly assigned into 3 groups. Group A received ultrasound therapy protocol, group B received radial shock wave therapy protocol and group C received a combination of both ultrasound therapy and radial shock wave therapy protocol. All patients were also received a traditional physical therapy program. Foot function was evaluated by foot function index and ankle dorsiflexion range of motion was measured by Baseline® bubble inclinometer at the baseline and 4 weeks after treatment
As off-the-counter foot orthoses are readily available and have an economic advantage, they are increasingly being used by healthcare professionals to treat mechanical foot pains in place of custom foot orthosis. However, there is a lack of available evidence to determine if a plain off-the-counter foot orthosis that aims to contours to the foot or a specifically optimized off-the-counter foot orthosis utilizing the type of orthotic design proposed by Abbasian and Pomeroy is more effective in the management of mechanical foot pains in the Subtle Cavus foot type. This study proposal seeks to fill the gap in this area. Primary Aim: To investigate the effectiveness of specifically optimized off-the-counter foot orthosis designed for the Subtle Cavus foot type in improving patient reported outcomes in patients with mechanical foot pains when compared to plain off-the-counter foot orthosis. Primary Null Hypothesis: There is no difference in pain and functional scores reported by patients between specifically optimized off-the-counter foot orthosis and plain off-the-counter foot orthosis in patients with mechanical foot pains at four, eight and twelve weeks of intervention. In our study, the Subtle Cavus foot refers to the flexible idiopathic forefoot-driven Pes Cavus that can be clinically recognised with a positive "Peek a Boo" sign, inverted hindfoot position in weight bearing stance and Positive Coleman Block Test as reported by Manoli and Graham in 2005. Also, for our study, mechanical foot pains are limited to clinically diagnosed Plantar Fasciitis, Achilles Tendinopathy, Peroneal Strain or Metatarsalgia: Plantar Fasciitis is clinically diagnosed using the following history and physical examination findings: - Plantar medial heel pain /or pain along the plantar fascia: most noticeable with initial steps after a period of inactivity but also worse following prolonged weight bearing - Heel pain /or pain along the plantar fascia precipitated by a recent increase in weightbearing activity - Pain with palpation of the proximal insertion of the plantar fascia /or along the band of plantar fascia structure Achilles Tendinopathy is clinically diagnosed using the following history and physical examination findings: Midportion Achilles Tendinopathy: - Self-reported localized pain and perceived stiffness in the Achilles tendon following a period of inactivity (eg, sleep, prolonged sitting) lessen with an acute bout of activity and may increase after the activity. - Symptoms are frequently accompanied by Achilles tendon tenderness. - Pain located 2 to 6 cm proximal to the Achilles tendon insertion that began gradually and pain with palpation of the midportion of the tendon to diagnose midportion Achilles tendinopathy Insertional Achilles Tendinopathy: - Self-reported pain that is aggravated by activity and stiffness that is associated with prolonged periods of rest. - Pain and tenderness with palpation within the distal 2 cm of the Achilles tendon. - Redness and swelling over area of Achilles Tendon insertion over posterior heel Peroneal Strain is clinically diagnosed using the following history and physical examination findings: - Pain and swelling posterior to the lateral malleolus - Pain with active eversion and dorsiflexion against resistance - May have a history of chronic lateral ankle pain and instability - Pain and tenderness with palpation along the course of the peroneal tendons Metatarsalgia is clinically diagnosed using the following history and physical examination findings: - Self-reported pain during the propulsive phase of gait. The pain is localized underneath the prominent metatarsal heads - The plantar soft tissue can be swollen and inflamed. - Presence of hyperkeratosis over tender areas may be present - Pain and tenderness with palpation of plantar metatarsophalangeal joints Secondary Aim: To investigate the effectiveness of specifically optimized off-the-counter foot orthosis designed for the Subtle Cavus foot type in improving patient reported outcomes in patients with mechanical foot pains pre- and post-intervention. Secondary Null Hypothesis: There is no difference in pain and functional scores reported by patients after introduction of specifically optimized off-the counter foot orthosis pre- and post-intervention at initial to four, initial to eight and initial to twelve weeks of intervention.
Plantar fasciitis is inflammation of plantar fascia.The main symptom of plantar fasciitis manifests itself as localized pain in the inner area of the foot and increases in intensity after long periods of standing or resting. Its etiology is multifactorial and risk factors include overweight, female gender, physical exercise (impact sports), biomechanical imbalances of the foot and possible dysfunction of the functional twin-ankle-plantar system.Generally speaking, conservative measures are recommended as initial treatment for plantar fasciitis, and in situations where these are ineffective, corticosteroids are sometimes administered. At the local level, the route of administration can be by infiltration or iontophoresis.Iontophoresis consists of administering a drug through the skin by applying an electric current locally. This technique can be considered as a safe and effective method within the SLTF (Transcutaneous Drug Delivery Systems). It consists of introducing ions through the skin by means of electricity using a direct current, with an electrode carrying a positive charge (anode) and a negative charge (cathode). Its administration is produced thanks to the repulsive force to carry the compound through the skin by means of galvanic current. This study aims to assess whether treatment with iontophoresis in subjects with plantar fasciitis can show a more positive evolution in pain after a 6-week treatment period (treatment frequency: 1 time per week) versus ultrasound (3 times per week) for 6 weeks.
To investigate whether the use of prefabricated Orthotics in shoes, in combination with the use of indoor comfort sandals with built-in arch support, benefits the treatment of plantar fasciitis more than the sole use of prefabricated Orthotics in shoes alone.
Plantar fasciitis is characterized by localized pain at the insertion site of the plantar fascia on the calcaneus. The pain worsens in the morning with the first step of the foot, after resting or at the beginning of a workout, it can increase after intense activity and persist even when it stops. The first-line plantar fasciitis treatment is conservative. Although few studies have currently evaluated the effectiveness of physical therapy, it appears that the combination of several techniques is more effective than any technique used in isolation. The objective of this study is to know the results of two manual therapy treatments in terms of pain and functionality with a direct action on the plantar fascia. Patients diagnosed with plantar fasciitis will be recruited. They will be randomly assigned into two intervention groups: Group 1 will receive a direct treatment on the plantar fascia and posterior aspect of the leg to relax and elongate the tissues. It will consist of manual therapy of the foot and ankle, treatment of the trigger points of the soleus muscle and plantar square, and also massage, and passive stretching and group 2 will receive a placebo treatment with superficial massage. The intervention consists of a weekly session for 4 weeks, evaluations will be carried out at the beginning of treatment, at the end of the treatment and a follow-up one month. The evaluations will consist of ankle goniometry, pain, lower limb functionality dynamic balance, function and daily activities and ankle ability scale and pain on pressure.
Plantar fasciitis, often described as overloading of the plantar fascia, is the most common cause of heel pain in adults. It is characterized by a sharp pain along the medial aspect of the heel, which is worse with the first step taken in the morning or at the beginning of an activity and decreases as the person warms up. The etiology of plantar fasciitis is multifactorial and not well understood. Poor biomechanics and changes in the structure of the foot can lead to repeated micro-trauma at the beginning of the plantar fascia, causing inflammation and degeneration. Plantar fasciitis is more common in sedentary individuals and athletes and those participating in running sports. Other risk factors associated with plantar fasciitis include reduced ankle dorsiflexion, increased body mass index (BMI), and work-related weight loss activities. Current treatments for plantar fasciitis, such as plantar fascia stretching exercises, strapping, extracorporeal shock wave therapy, nonsteroidal anti-inflammatory drugs (NSAIDs), arch braces, and heel pads are mainly aimed at reducing inflammation. Corticosteroid injections are usually reserved for refractory plantar fasciitis after conservative noninvasive attempts have failed. It has been shown to effectively reduce heel pain in patients with plantar fasciitis. The strong anti-inflammatory effect of corticosteroids can speed up the process of pain relief. In our study, we aimed to compare the effectiveness of USG and palpation guidance blind steroid injection in patients diagnosed with plantar fasciitis.
Physical treatment with focused shock waves is effective in the treatment of tendonitis. Food supplements could facilitate the healing of tendinopathies when combined with shock wave therapy.
To assess feasibility and determine preliminary efficacy of Fascial Distortion Model (FDM) for plantar heel pain (PHP) in a pilot study. The FDM is a hands on direct technique that is non-invasive and has been shown in preliminary studies to be effective in treating musculoskeletal (MSK) injuries. Study participants will be Active Duty Service Members (SM) in the Fort Gordon catchment area.
Plantar fasciitis is inflammation of plantar fascia. It arises from degeneration and chronic inflammation. Treatment of plantar fasciitis contains conservative methods like rest, body weight control, stretching exercise, non-steroidal anti-inflammatory drugs and arch supports. ESWT has commonly been used for the treatment of plantar fasciitis. The shock waves can be radial or focused. The aim of this study was to evaluate the effectiveness of the adjuvant use of plantar orthoses in the process of plantar fasciitis when extracorporeal shock waves are applied. The hypothesis porposed was that the use of extracorporeal shock waves together with the use of custom foot orthotics improves the symptoms produced by plantar fasciitis. This study is planned as double-blind, randomized controlled trial. Participants are randomly allocated to two groups: the ESWT group and the custom foot orthotics and ESWT group. Radial ESWT will be applied in this study. The people receiving the therapy and the people assessing the outcomes are blinded . Both group will recieve ESWT one session per week for three weeks. Each session will last for 2-5 minutes. The primary outcome measure of this study is change in heel pain of affected side assessed using Visual Analog Scale. The secondary outcome measure is Roles y Maudsley scores. The primary endpoint of this study is to determine a decrease in pain score according to Visual Analog Scale.