View clinical trials related to Fasciitis, Plantar.
Filter by:The plantar fascia is an inelastic, broad band of tissue on the plantar or undersurface of the foot. Plantar fasciitis is an inflammation of the plantar fascia that causes heel and foot pain. The current standard orthopaedic management of plantar fasciitis begins with nonsurgical treatment modalities. Surgical treatment of plantar fasciitis is indicated only if nonsurgical means fail. A newer method of treating plantar fasciitis before resorting to surgery is the use of Botulinum Toxin or Xeomin (incobotulinum toxin A, Merz USA). Treatment of plantar fasciitis with Xeomin is important, as there are limited studies on the subject to date. The purpose of this study is to examine the long-term results of using Xeomin to treat plantar fasciitis in one physician's (J.A.) practice at Rothman Institute Orthopaedics through a placebo-controlled, randomized, double-blinded study.
The purpose of this study is to determine whether the AmnioFix Injectable human amniotic membrane is effective in the treatment of recalcitrant plantar fasciitis.
Plantar fasciitis presents clinically as pain in the inner heal, which is the result of degeneration of the plantar fascia, an arch supporting ligament of the foot. It manifests predominantly in those subjected to sustained weight bearing or repetitive pounding activities. Plantar fasciitis is the most common cause of inferior foot pain. Although most cases resolving within 6 months, traditional treatment regiments such as orthotics and physiotherapy are occasionally unsuccessful in treating this limitation leading to chronic symptoms (Neufeld & Cerrato, 2008; Rompe, 2009; Roxas, 2005). Platelets are central players in clotting, inflammation and the wound healing response. Research has shown the potential of platelet rich plasma to accelerate wound healing in a variety of conditions including maxillo-fascial and plastic surgery, chronic wound healing and orthopaedics. Autologous Conditioned Plasma (ACP) is a novel treatment that may accelerate the healing of injured tissue. Treatment with ACP involves taking a blood sample from the patient, isolating the platelets and injecting them back into that patient at the injury site
The purpose of this study is to compare the Ankle Dorsiflexion Dynasplint System (DS) to static night splint for the reduction of pain from Plantar Fasciitis (Fasciopathy).
The hypothesis to be tested is that the use of total contact insoles for six months reduces foot pain, improves function and quality of life of patients diagnosed with plantar fasciitis.
The purpose of our study is to determine whether one injection with plasma into the origin of the plantar fascia is an effective treatment of plantar fasciitis. 90 patients will be randomized into three groups. 30 patients will be treated with one plasma injection, 30 patients will be treated with one injection with saline and 30 patients will do physiotherapy and use heel cups. The two groups who receive injections will do the same physiotherapy and use heel cups, as the conservatively treated group. Both groups randomized to receive an injection will have a 10 ml blood sample taken from their cubital vein. The sample is centrifuged for 5 minutes at 5000 rpm. No additives are added. 3 ml of plasma i obtained, and the syringe i blinded. Is the patient randomized to receive an injection with saline, a similar syringe is blinded with 3 ml of saline. The injection into to the origin of the plantar fascia i done 10 minutes after the sample of blood is obtained. The content of the syringe i blinded to both the investigator and the patient. The injection i performed from the medial aspect of the heel under guidance of ultrasound. No local/systemic analgetic is used. The content of the syringe is spread using peppering technique into the origin of the plantar fascia. Patients will do questionnaires at inclusion and after 1, 2, 3, 6 and 12 months. The questionaires will be Foot Function Index and SF-36 as well as questions about their use of analgetics, use of heel cups and intensity of their physiotherapy
Background: Plantar fasciitis (PF) is a common problem that tends to attack about 10% of the population during life. This is a degenerative condition of the plantar fascia at its insertion at the bottom of the heel. Pain appears mainly on the first steps in the morning or after prolonged lack of weight bearing. The pain intensity can be very high and this can cause functional limitations and reduce quality of life. Despite the high prevalence of the PF, treatment is controversial and not supported by extensive research. Review of the previous studies on various treatments, mentioned steroid injections, shock waves, night splint, orthotics, heel padding and stretching exercises. Limitation of ankle dorsi flexion is a common finding and thought to be a contributing factor to the development of pathology. So far, this issue had been addressed mainly by soft tissue therapy techniques to improve ankle range of motion in patients with PF. Only one study (Joshua et al 2009) evaluated the effect of ankle joint mobilizations of PF. However, in this study mobilizations were part of complex therapy and therefore the effect of treatment cannot be attributed solely to them. The purpose of this study is to evaluate the effectiveness of ankle and mid-foot joints mobilization on pain and function of patients with PF. The hypothesis is that manual mobilizations of ankle and midfoot joints in addition to conventional physical therapy will improve pain and function significantly more than conventional treatment, in patients with PF. Methods: 50 patients, age 18-75 with a diagnosis of PF that meet the inclusion criteria will be recruited and randomly divided into two groups. Both groups will receive commonly accepted physical therapy treatment that includes stretching exercise of the plantar fascia and triceps surae muscles and ultrasound therapy at the site of symptoms. The study group will receive in addition manual mobilizations to the ankle and midfoot joints. The procedures will take place at the physiotherapy clinic Bat-Yamon of General Health Services and will last four weeks, twice a week.
Plantar fasciopathy is a chronic condition affecting both sedentary populations, individuals in the workplace who must stand for prolonged periods of time, and athletes. It can be disabling. There is no single accepted treatment course that is recommended in the literature. The use of pulsed radio-frequency electromagnetic (PRFE) devices has been proposed as a treatment option in chronic soft-tissue injury due to its ability to reduce pain and inflammation. The proposed study will investigate the efficacy of the use of a PRFE device for the treatment of chronic heel pain using a double blind randomized placebo controlled design study.
Patients with Fascititis plantaris, Achillodynie, Periarthropathia humerosacpularis calcarea or Epikondylopathia humeri /radii get the shock wave therapy in our clinic as planned. During our study the investigators want to ask for pain, pain reduction and function.
Excessive repetitive loading concentrating upon plantar fascia is considered as the most influential factor in plantar fasciitis development. Abnormal foot structure may lead to high risk of plantar fasciitis. However, the biomechanical factor that may cause plantar fasciitis has not been thoroughly investigated. Orthotic device is a common treatment used for plantar fasciitis. However, there is no direct and quantitative data, such as stress and strain distribution of plantar fascia for patient with foot orthosis during gait. Therefore, the aim of this three-year project study is to investigate the biomechanical mechanism of different foot structures and to understand the biomechanical response of plantar fascia during stance phase of gait cycle by dynamic finite element analysis, gait analysis as well as plantar pressure measurement. In addition, the efficacy of foot orthoses will be evaluated by the same research process. The hypotheses are that flat foot and high arch foot may result in higher stress and strain upon plantar fascia during gait; the foot orthosis, such as total contact insole, carbon fiber plate and rocker bottom sole, would reduce stress and strain distribution around the calcaneal medial tuberosity; rigid and curved geometric bottom will be able to relief plantar fascia stretching during push-off phase.