Search Results
Plantar heel pain is often managed through podiatric and physical therapy interventions. Numerous differential diagnoses may be implicated in patients presenting with plantar heel pain; however, symptoms are often attributed to plantar fasciitis. Abductor hallucis, flexor digitorum brevis, and quadratus plantae share proximal anatomic attachment sites and mechanical function with the plantar fascia. Although these plantar intrinsic muscles each perform isolated digital actions based on fiber orientation and attachment sites, they function collectively to resist depression of the lateral and medial longitudinal arches of the foot. Overuse injury is the primary contributing factor in tendinopathy. The close anatomic proximity and mechanical function of these muscles relative to the plantar fascia suggests potential for proximal plantar intrinsic tendinopathy as a result of repetitive loading during gait and other weightbearing activities. To date, this diagnosis has not been proposed in the scientific literature. Future studies should seek to confirm or refute the existence of proximal plantar intrinsic tendinopathic changes in patients with acute and chronic plantar heel pain through diagnostic imaging studies, analysis of lactate concentration in pathologic versus nonpathologic tendons, and response to specific podiatric and physical therapy interventions germane to tendinopathy of these muscles.
Background:
Magnetic resonance imaging (MRI) is both sensitive and specific in the diagnosis of osteomyelitis, and it is an important imaging modality in preoperative planning of resection of infected bone. In many cases, however, the extent of osseous infection is evident on plain radiographs, and little additional information is gained from the MRI. The goal of this study was to assess the accuracy of radiographs against MRIs in assessing the spread of suspected osteomyelitis from one phalanx to another or to a metatarsal.
Methods:
A medical record review was performed, and 14 patients with 16 toes confirmed to have osteomyelitis involving one or more phalanges were included in the study. An investigator blinded to the MRI findings interpreted the extent of osseous involvement based solely on the radiographic and clinical presentation. The accuracy of the radiographic interpretation was then calculated against the MRI findings.
Results:
In 14 of the 16 toes (87.5%), whether osteomyelitis had spread from one bone to another was determined based on the radiographic and clinical presentation. In one toe, the radiograph did not adequately depict osteomyelitis in adjacent infected bone. In one more toe, the radiograph depicted features of osteomyelitis in uninfected bone.
Conclusions:
In a large percentage of patients, the phalanges affected by osteomyelitis had visible findings on the radiograph, and operative planning could have been based on the radiograph alone.
Background
Morton's neuroma is a perineural fibrosis of an intermetatarsal plantar nerve. Burning, numbness, paresthesia, and tingling down the interspaces of involved toes may also be experienced. Taking into account all of this information, we designed a prospective open-label study to evaluate the efficacy of pulsed radio frequency on Morton's neuroma.
Methods
Twenty patients with Morton's neuroma were experiencing symptomatic neuroma pain in the foot not relieved by routine conservative treatment. All of the patients had been evaluated by a specialized orthopedist and were offered pulsed radio frequency as a last option before having surgery. Initially, pain level (numerical rating scale), successful pain control (a ≥50% pain decrease was accepted as successful pain control), comfort when walking (yes or no), and satisfaction level (satisfied or not satisfied) were evaluated.
Results
We found a decrease in the pain level in 18 of 20 patients, successful pain control in 12, and wearing shoes and walking without pain in 16. Overall, satisfaction was rated as excellent or good by 12 patients with Morton's neuroma in this series.
Conclusions
This evidence indicates that ultrasound-guided pulsed radio frequency is a promising treatment modality in the management of Morton's neuroma pain.
Anthropometric Foot Changes During Pregnancy
A Pilot Study
Background:
Women’s feet change during pregnancy owing to hormonal and anatomical changes, thus having a strong influence on the decrease in their quality of life during pregnancy. This preliminary study aimed to value the anthropometric and positional changes that affect their feet.
Methods:
Ten pregnant women were measured during their gestational period to analyze the anthropometric changes in their feet from the 12th week of pregnancy. We examined the changes that occured in foot length, forefoot width, arch of the foot height, and the fixed position of the foot by using the Foot Posture Index, and we analyzed three intervals corresponding to pregnancy weeks 12, 24, and 34.
Results:
The most significant finding, with a reliability rate of 95%, is the decrease in internal arch height, which descends 0.65 mm (0.0394 inches) on average at the final stage of the pregnancy period. This change happened in 18 of the feet analyzed, tending toward pronation according to the measure provided by the Foot Posture Index, with a change of 3.78 points on this scale.
Conclusions:
The foot of the pregnant woman tends to flatten during gestational weeks 12 to 34, taking a more pronated posture, and the anthropometric changes in late pregnancy result in increases in foot length and forefoot width, changes that seem to be moderate. (J Am Podiatr Med Assoc 103(4): 314–321, 2013)
Background:
The present study was conducted in an attempt to obtain consistent similarities among histologic findings of surgically excised neuromas. Secondly, we looked for a correlation between the presence of a neuroma with certain comorbidities.
Methods:
A total of 22 specimens with a preoperative diagnosis of Morton’s neuroma were sent to the pathology laboratory, and evaluation was performed by a single pathologist.
Results:
Degenerative changes were seen in 59% of the specimens. Patient age showed trends toward affecting nerve fibrosis, nerve diameter, vessel obstruction, and degenerative changes. The most frequent comorbidity was hypertension, seen in 44% of the participants.
Conclusions:
Significant histologic similarities among results were not seen; however, certain trends were discovered. Degenerative changes were appreciated in most specimens. Definite histologic findings of neuroma recur, but difficulty in consistent reproducibility may be related to factors such as age, sex, and comorbidities. (J Am Podiatr Med Assoc 103(3): 218–222, 2013)
Protein S Deficiency and Lower-Extremity Arterial Thrombosis
Complicating a Common Presentation
A 42-year-old woman presented to the emergency department with progressive painful discoloration of the digits of her right foot and symptoms previously diagnosed as neuroma. She was admitted to the hospital for dorsalis pedis arterial occlusion and ischemic foot pain. Despite attempts to restore perfusion to the right leg, ischemia of the right foot persisted and progressed to digital gangrene. The patient subsequently required right transmetatarsal amputation and eventually below-the-knee amputation. After extensive inpatient vascular and hematologic work-up of this otherwise healthy woman, test results revealed that she had protein S deficiency, hepatitis C, and human immunodeficiency virus type 1. In addition to describing this patient’s evaluation and treatment, we review protein S deficiency, including its correlation with human immunodeficiency virus type 1 infection and laboratory diagnosis. This case promotes awareness of protein S deficiency and serves as a reminder to the physician treating patients with vascular compromise and a history of human immunodeficiency virus type 1 to include protein S deficiency in the differential diagnosis. (J Am Podiatr Med Assoc 97(2): 151–155, 2007)
Osteoporosis is an asymptomatic disease until a fracture occurs. The prevalence of osteoporosis will rise with the aging of the population. Recent advances have led to more efficacious treatment options. Targeted screening, educating patients about preventive strategies, and providing appropriate treatment for those at high risk will allow physicians to reduce the enormous morbidity and mortality associated with osteoporosis. (J Am Podiatr Med Assoc 94(2): 187-193, 2004)
Plantar heel pain syndrome, which has a multifactorial and widely disputed etiology, affects more than 2 million people annually. A survey was conducted of members of the American Academy of Podiatric Sports Medicine about their strategies for managing plantar heel pain syndrome, especially the role of injectable corticosteroids. The respondents tended to be experienced (10–24 years in practice) podiatric physicians with a concentration in sports medicine. They reported that for early-stage plantar heel pain syndrome they generally recommend avoidance of wearing flat shoes and walking barefoot (92%), use of over-the-counter arch supports and heel cushions (90%), regular stretching of the calf muscles (88%), strapping of the foot (75%), cryotherapy applied directly to the affected part of the foot (67%), and nonsteroidal anti-inflammatory drug therapy (60%). When these measures fail to relieve heel pain, most of the responding podiatric physicians recommend using custom orthotic devices (60%) and corticosteroid injections (60%) as intermediate therapy. Surgical plantar fasciotomy (88%), cast immobilization (77%), and extracorporeal shockwave therapy (69%) are generally recommended as late-stage therapy for resistant cases. A staged approach seems to yield the best results in treatment of this common condition. (J Am Podiatr Med Assoc 97(1): 68–74, 2007)
New drugs and tissue replacements are currently being approved and integrated into treatment regimens for chronic wounds. This article focuses on a standardized procedure for the use of specific growth factor, a recombinant human platelet-derived growth factor (rhPDGF-BB) manufactured for topical administration. The recommendations made in this article may not reflect product recommendations made by the manufacturer of the drug. Clinicians must be able to support any off-label indication for use of a product. (J Am Podiatr Med Assoc 92(1): 7-11, 2002)
Ultrasound-guided Plantar Fascia Release Technique
A Retrospective Study of 46 Feet
Background: Ultrasound-guided plantar fascia release offers the surgeon clear visualization of anatomy at the surgical site. This technique uses small arthroscopic dissecting instruments through a 0.5-cm incision, allowing the surgeon to avoid the larger and more tissue-disruptive incision that is traditionally used for plantar heel spur resection and plantar fascia releases.
Methods: Forty-one patients (46 feet) were selected for the study. The mean patient age was 47 years. Twenty-nine were considered obese with a body mass index greater than 30 kg/m2. Patients were functionally and subjectively evaluated 4 weeks after surgery using the American Orthopedic Foot and Ankle Society Ankle and Hindfoot Rating Scale.
Results: Results from the study show a significant improvement (P = .05 confidence level) 4 weeks postoperatively for the 41 patients (46 feet), compared to their preoperative condition. The mean pretest score was 33.6 (range 10–52); this score improved to 88.0 (range 50–100), 4 weeks postoperatively. There were no postoperative infections or complications.
Conclusions: The ultrasound-guided plantar fascia release technique is a practical surgical procedure for the relief of chronic plantar fascia pain because the surgeon is able to clearly visualize the plantar fascia by ultrasound. In addition, there is minimal disruption to surrounding tissue because small instruments are passed through a small 0.5-cm incision. The traditional open method of heel spur surgery, in contrast, uses a larger skin incision of 3 to 5 cm, followed by larger instruments to dissect to the plantar fascia. (J Am Podiatr Med Assoc 99(3): 183–190, 2009)
