View clinical trials related to Fasciitis, Plantar.
Filter by:The primary aim of this clinical experiment is to compare, in terms of pain relief measured using the 10-cm visual analog scale (VAS) pain score (5-7), the clinical results of ultrasound-guided injection (USGI) versus anatomic topography-guided injection (ATGI) of corticosteroid for the treatment of proximal PF. Secondary aims will be to compare foot-related quality of life, as measured using the Foot Function Index (FFI)and the Bristol Foot Score (BFS), between the injection groups, and also to compare the pre-injection to late-term post-injection thickness of the plantar fascia as measured in the nested USGI group.
While human body receives large external force or motions, minor injuries to the soft tissues will be produced and will lead to acute or chronic inflammation reactions. Plantar fasciitis is the most common foot diseases in normal population. Plantar fascia is a tight band-like soft tissue that crosses between the bony surfaces of the bottom of the foot with thick ligament-like structure substantially. Various reasons will induce the happening of plantar fasciitis including native bone structure, aging, athletic motions and injuries. Indeed, diagnosis of chronic heel pain remains challenging due to the complex structures of the foot. Therefore, it is widely accepted that diagnostic imaging such as ultrasound and computed tomography offer important orthopedic information for clinical assessments of soft tissues and bone. Even though there is no single treatment shows the highest level of evidence for plantar fasciitis, wearing of insoles or orthotics are highly suggested for clinical therapy. Common custom-made insoles are manufactured with polymeric materials based on standing foot-pressure distribution. However, this method strongly depends on experience of doctors or physical therapists and usually time-consuming. In addition, modern medical researches tend to combine the information of both soft (pressure distribution) and hard (orthopedic) tissues for designing of orthotics and other medical assistive devices because of the complicity of the limb motion and structures. Therefore, investigators aim at developing integrated 3D system that provides a 3D limb data model with high-resolution appearance scanning and orthopedic information for designing of medical assistant devices. This model composes of 3D surface scanning, 3D bony structure scanning, and soft tissues characteristic mechanical properties. By developing this system, the 3D model is also highly applicable to the other parts of human assistant devices. It will bring the enormous impact to the associated medical field and create excellent economic value.
A Randomized Controlled Pilot Trial Comparing Extracorporeal Shock Wave Therapy with Platelet Rich Plasma versus Extracorporeal Shock Wave Therapy in a High Demand Cohort with Resistant Plantar Fasciitis
The primary objective of this study is to evaluate the safety and efficacy of collagen injection in patients with plantar fasciitis
Plantar fasciitis is the classic and most common type of heel pain. Considering the costs for health care and the temporary disability not only for work, plantar fasciitis results in a substantial (and at least partially unnecessary) burden for the Swiss health care system and national economics. Nonoperative treatment is the mainstay of treating plantar fasciitis. However, so far no treatment has proven to be superior to others, and there is national and international lack of consensus of how to treat plantar fasciitis best. The investigators believe that the BTX-A injection in the gastrocnemius and the soleus muscles is currently the most promising non-operative approach, because it is considered to treat the disease at its origin (temporary weakening of the tight triceps surae muscle) as opposed to simply alleviate the symptoms (e.g. plantar cortisone and other injections, ESWT). However, to date there is no evidence in the literature that compares the new, promising technique of BTX-A injection into the gastroc-soleus complex to a sham (saline) injection and to the gold standard steroid injection at the plantar fascia insertion site. With the intended study, this gap is going to be closed.
Extracoporeal shock wave therapy(ESWT) was perfomed on the plantar fascia of chornic plantar fasciitis patients. Pre-ESWT and post-ESWT pain intensity, sonography and sonoelastrography of the plantar fascia was checked. Our hypothesis is that the plantar fascia stiffness increased after ESWT as clinical symptom improves.
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 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
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.