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ABSTRACT: BACKGROUND: A recent study from our laboratory has demonstrated improved range of motion in the toes of broiler chickens afflicted with pyogenic flexor tenosynovitis when treated with local antibiotic and corticosteroid injections, without surgical drainage. However, the use of corticosteroids as an adjunct treatment raised peer concern, as steroids are thought to have deleterious effects on tendon strength. The purpose of this study was to compare the tensile strength of the aforementioned steroid treated tendons, to a group of tendons administered with the current standard treatment: systemic antibiotics, surgical drainage and no corticosteroids. METHODS: Twenty-three tendons' structural and material properties were investigated (fifteen receiving the standard treatment, eight receiving the steroid treatment). The measurements from each group were interpreted via Student's unpaired t-test and a post-hoc power analysis. RESULTS: The steroid treated tendons did demonstrate a trend toward decreased mechanical properties when compared with the standard treatment group, but the results were not statistically significant. CONCLUSIONS: Treatment of septic tenosynovitis with local corticosteroid and local antibiotic injections resulted in better digital motion, without a significant loss of tendon strength, over a twenty-eight day recovery period.
Journal of Orthopaedic Surgery and Research 10/2012; 7(1):34.
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ABSTRACT: Flexor tendon sheath infections of the hand must be diagnosed and treated expeditiously to avoid poor clinical outcomes. Knowledge of the sheath's anatomy is essential for diagnosis and to help to guide treatment. The Kanavel cardinal signs are useful for differentiating conditions with similar presentations. Management of all but the earliest cases of pyogenic flexor tenosynovitis consists of intravenous antibiotics and surgical drainage of the sheath with open or closed irrigation. Closed irrigation may be continued postoperatively. Experimental data from an animal study have shown that local administration of antibiotics and/or corticosteroids can help lessen morbidity from the infection; however, additional research is required. Despite aggressive and prompt antibiotic therapy and surgical intervention, even otherwise healthy patients can expect some residual digital stiffness following flexor tendon sheath infection. Patients with medical comorbidities or those who present late with advanced infection can expect poorer outcomes, including severe digital stiffness or amputation.
The Journal of the American Academy of Orthopaedic Surgeons 06/2012; 20(6):373-82. · 2.66 Impact Factor
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ABSTRACT: Many similarities exist between pyogenic flexor tenosynovitis and other closed-space infections such as septic arthritis. Previous studies have demonstrated that corticosteroids in conjunction with antibiotics considerably improve treatment outcomes in patients with septic arthritis. Using a chicken model, we investigated whether or not corticosteroids in combination with antibiotics and/or surgical drainage could minimize the loss of range of motion typically associated with pyogenic flexor tenosynovitis.
We inoculated the flexor tendon sheath of the right long toe of broiler chickens with Staphylococcus aureus (American Type Culture Collection 29523 NA) (6 × 10(9) colony-forming units/mL) and twenty-four hours later administered one of six treatments to groups of fourteen or fifteen chickens. Treatment combinations included systemic or intrasynovial antibiotics, surgical drainage with catheter irrigation or no surgical drainage, and local corticosteroid injections or no corticosteroid injections. Measurements of active digital flexion at the proximal and middle interphalangeal joints were performed before inoculation and treatment and at seven, fourteen, and twenty-eight days after treatment. Flexion measurements were compared between groups as well as with similar measurements in the contralateral, uninfected, control long toe.
At twenty-eight days, two of three groups treated with locally administered corticosteroids and the group treated with intrasynovial antibiotics alone (without surgery) regained significantly more active flexion in comparison with chickens treated with systemic antibiotics and surgical drainage (the current standard of care). Pooled data revealed that the corticosteroid-treated groups regained significantly more active flexion at all post-treatment time points.
Our data support the hypothesis that adding locally administered corticosteroids to the treatment regimen for pyogenic flexor tenosynovitis in a chicken model can significantly decrease loss of motion resulting from the infection. Furthermore, locally administered antibiotics may be effective for the treatment of pyogenic flexor tenosynovitis.
The Journal of Bone and Joint Surgery 10/2010; 92(16):2653-62. · 3.27 Impact Factor
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ABSTRACT: Many therapeutic and diagnostic modalities such as intraarticular injections, arthrography and ankle arthroscopy require introduction of fluid into the ankle joint. Little data are currently available in the literature regarding the maximal volume of normal, nonpathologic, human ankle joints. The purpose of this study was to measure the volume of normal human ankle joints.
A fluoroscopic guided needle was passed into nine cadaveric adult ankle joints. The needle was connected to an intracompartmental pressure measurement device. A radiopaque dye was introduced into the joint in 2 mL boluses, while pressure measurements were recorded. Fluid was injected into the joint until three consecutive pressure measurements were similar, signifying a maximal joint volume.
The mean maximum ankle joint volume was 20.9 +/- 4.9 mL (range, 16-30 mL). The mean ankle joint pressure at maximum volume was 142.2 +/- 13.8 mm Hg (range, 122-166 mm Hg). Two of the nine samples showed evidence of fluid tracking into the synovial sheath of the flexor hallucis longus tendon.
Maximal normal ankle joint volume was found to vary between 16-30 mL. This study ascertains the communication between the ankle joint and the flexor hallucis longus tendon sheath. Exceeding maximal ankle joint volume suggested by this study during therapeutic injections, arthrography, or arthroscopy could potentially damage the joint.
Indian Journal of Orthopaedics 01/2009; 43(1):72-5. · 0.50 Impact Factor
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ABSTRACT: One proposed mechanism of tendon lengthening is the "sliding fibril" hypothesis, in which tendons lengthen through the sliding of discontinuous fibrils after release of decorin-fibronectin interfibrillar bonds. The pentapeptide NKISK has been reported to inhibit the binding of decorin, a proteoglycan on the surface of collagen fibrils, to fibronectin, a tissue adhesion molecule, which are thought to play a role in interfibrillar binding. Prior investigations have demonstrated that NKISK produces in vivo tendon lengthening. This study investigates the effect of potential clinically applicable NKISK injection regimens in an in vivo model. One hundred and thirteen male Sprague-Dawley rats were divided into 15 different treatment groups, each receiving percutaneous patellar tendon injections of NKISK, QKTSK (a "nonsense" pentapeptide), or PBS of varying volumes, concentrations, and injection schedules. Following sacrifice, the patellar tendon lengths were measured in all groups, and biomechanical testing was performed with comparisons made to the contralateral, untreated control limbs. Tendon lengthening was significantly greater (p < or = 0.05) in nearly all NKISK-treated tendons as compared to PBS- and QKTSK-treated tendons and was dose-dependent. Measured lengthening was less in rats whose sacrifice was delayed following the final injection of NKISK, which likely indicates recontraction of lengthened tendons, but they remained significantly longer than the controls. Biomechanical testing did not reveal significant differences in ultimate load, modulus, stiffness, or displacement. This study demonstrates that NKISK given in clinically plausible dosing regimens produces dose-dependent tendon lengthening in an in vivo setting with minimal effects on the mechanical properties of the treated tendons.
Journal of Orthopaedic Research 08/2008; 26(7):971-6. · 2.81 Impact Factor
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ABSTRACT: Intra-articular fractures of the second through fifth metacarpal bases are uncommon injuries but can result in serious morbidity if improperly managed. These injuries usually occur because of forced flexion of the wrist with simultaneous extension of the arm, as occurs with a punch or a fall. As there are few large series of reports for these injuries, there is no consensus in the current literature on the most appropriate treatment for them. Whereas some authors have reported successful results after closed reduction, many recommend open reduction with internal fixation to ensure the integrity of the tendinous insertions of the extensor carpi radialis longus, extensor carpi radialis brevis, and extensor carpi ulnaris. This article reviews the case reports and case series extant in the literature concerning intra-articular fractures of the bases of the second through fifth metacarpals, and it provides important diagnostic and management considerations for these injuries.
The Journal Of Hand Surgery 05/2008; 33(4):573-83. · 1.35 Impact Factor
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ABSTRACT: To test wound debridement efficacy and soft tissue damage produced by high-pressure pulsatile lavage (HPPL), suction irrigation, and bulb syringe irrigation.
Randomized trial in an in vitro model.
Medical school orthopaedic department.
No patients were used in this study.
Beef flank steaks (100-g +/- 10-g) were divided into 8 test groups and incised uniformly. Four test groups were contaminated with 2 g of rock dust and 4 were not. The specimens were then treated as follows: nothing (control), bulb irrigation, suction irrigation, or HPPL.
Runoff from the irrigation was collected, filtered, lyophilized, and ashed to allow for quantitative determination of organic and inorganic material removed from the wound by each irrigation method. Digital photographs of the tissue samples were subjected to blinded grading on a scale of 1 to 5 to assess macroscopic soft tissue damage.
Qualitatively, tissue samples treated with HPPL consistently received worse grades for tissue damage than samples in any other experimental group. Quantitative soft tissue damage analysis revealed that significantly more organic material was removed from samples treated with HPPL (141.3 +/- 58.9 mg) than those treated with bulb syringe (50.7 +/- 28.6 mg) or suction irrigation (108.7 +/- 174.5 mg). Surprisingly, significantly less inorganic contaminant was removed from tissue samples treated with HPPL (1549.6 +/- 77.3 mg) than those treated with bulb syringe (1834.9 +/- 39.1 mg) or suction irrigation (1827 +/- 39.4 mg).
There has been some concern regarding damage produced by HPPL. According to our quantitative soft tissue damage data, tissue treated by HPPL was damaged significantly more than tissue treated with bulb syringe or suction irrigation. Our qualitative tissue damage grade data showed that HPPL treated test groups appeared more damaged than other irrigation groups. Surprisingly, HPPL removed significantly less inorganic contaminant than other debridement methods, and it is proposed that HPPL may drive some contaminants deeper into the tissue rather than removing them. This study seems to support the concept that suction and sharp debridement, as practiced by most surgeons, may remove foreign bodies well without the use of HPPL.
Journal of Orthopaedic Trauma 03/2006; 20(2):83-8. · 2.13 Impact Factor
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ABSTRACT: This study tests the bone debridement efficacy and damage to cancellous bone produced by different wound irrigation methods.
Cancellous bone slices of bovine distal femurs (3 cm x 3 cm) were divided into eight test groups and scored with a saw in a latticed pattern. Four test groups were contaminated with 1.0 g rock dust and four were not. The specimens were then treated as follows: no treatment (control), bulb irrigation, brush-suction irrigation, or high-pressure pulsatile lavage (HPPL). Runoff from the irrigation was collected, filtered, lyophilized, and ashed to allow for quantitative determination of organic and inorganic material removed from the bone by each irrigation method. The bone samples were subjected to blinded grading on two five-point scales to assess: 1) macroscopic tissue damage and 2) amount of contaminant remaining following treatment.
Significantly more (P < or = 0.05) mean organic material was removed from samples treated with HPPL (744.8 +/- 120.0 mg) than with bulb syringe (115.2 +/- 11.9 mg) or brush-suction irrigation (95.1 +/- 9.2 mg). Brush-suction irrigation removed statistically significantly more (P < or = 0.05) of the 1.0 g of initial inorganic contaminant (937.7 +/- 6.3 mg) than bulb syringe irrigation (866.2 +/- 30.1 mg), while HPPL (900.2 +/- 19.0 mg) did not.
Past studies have shown HPPL to damage both soft tissue and bone structure. The tissue damage that HPPL produces has been accepted in the past in exchange for its presumed superiority in contaminant removal. In this study, HPPL damaged samples more than other irrigation methods by removing significantly more organic material from them. However, HPPL and bulb syringe removed a statistically similar amount of inorganic contaminant, while brush-suction irrigation removed a significantly greater amount of inorganic contaminant than bulb syringe. It is proposed that HPPL may drive some contaminants deeper into the tissue rather than removing them, rendering HPPL not only more deleterious to bone structure and healing, but also less efficacious at removing contaminant than brush-suction irrigation.
Journal of Orthopaedic Trauma 20(10):692-8. · 2.13 Impact Factor
