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Underlying Bone (underlying + bone)

Distribution by Scientific Domains
Medical Sciences60%

Selected Abstracts

The impact of joint bleeding and synovitis on physical ability and joint function in a murine model of haemophilic synovitis

HAEMOPHILIA, Issue 1 2008
C. MEJIA-CARVAJAL
Summary., Haemophilia is a congenital disorder that commonly results in musculoskeletal bleeding and orthopaedic complications. After an acute joint haemorrhage, an increase in intra-articular pressure and inflammation cause pain, swelling and limited motion. Blood in the joint space provokes a proliferative disorder known as haemophilic synovitis. Overgrowth of the synovial membrane causes mechanical dysfunction. Eventually, there is destruction of the articular surface and underlying bone. The aim of this project was to test the hypothesis that a minimum number of haemarthroses negatively impacts on joint function and that this would be reflected by decreased physical performance of experimental animals. Mice deficient in factor VIII coagulant activity were trained to ambulate on a rotating rod then injured three times at weekly intervals. Their ability to walk was then compared to a group of uninjured mice. Cohorts of mice were killed after 1, 2 or 3 months and the knee joints examined by gross and histological methods. The results supported the following conclusions: (i) haemophilic mice can be trained to ambulate on a rotating rod; (ii) acute hemarthrosis temporarily impairs their ability to ambulate and (iii) following recovery from acute injury, mice developing synovitis demonstrated inferior physical ability compared to mice not developing synovitis. This is the first description of a quantitative assay to monitor joint function in experimental animals and should be useful to evaluate the efficacy of new therapies developed to prevent and treat bleeding and to test strategies to counter the devastating effects of synovitis. [source]

Cranial fasciitis of childhood

INTERNATIONAL JOURNAL OF DERMATOLOGY, Issue 2 2003
Margarita Larralde MD
A 2-month-old boy was seen at our pediatric dermatology department with a history of a tumoral lesion of the scalp since his birth. On examination he had a single, ovoid, firm, 2 × 1.8-cm painless subcutaneous mass on the temporal left calvarium, covered by normal skin (Fig. 1). It had experienced explosive growth in the preceding 2 weeks. There was no history of previous trauma in the area. The remainder of the examination was normal. Roentgenographic studies of the skull revealed a soft-tissue mass without involvement of the underlying bone. Ultrasonography of the lesion showed it to be an echolucid tumor. With the presumed diagnosis of dermoid cyst we sent the patient for surgical removal. At surgery, the lesion did not have the typical surgical appearance of a cyst. The histopathologic exam of the specimen was interpreted as cranial fasciitis of childhood (Fig. 2). Immunohistochemistry showed diffuse positivity for vimentin and muscle actin. After 1 year the patient is free of lesions. Figure 1. Lesion at the temporal left calvarium Figure 2. Proliferation of loosely arranged spindle cells in a loose myxoid stroma (H&E stain, × 40) [source]

Influence of a standardized closed soft tissue trauma on resistance to local infection.

JOURNAL OF ORTHOPAEDIC RESEARCH, Issue 2 2003
An experimental study in rats
Abstract Purpose: The etiology of local posttraumatic infection in the locomotor system depends on the amount, virulence and pathogenicity of the inoculated microorganisms and the local/systemic host damage due to the type and extent of the accident or iatrogenic trauma. The relative effect of these factors remains unclear. In particular, it is still unclear today whether,in presence of microorganisms,soft tissue damage and its pathophysiological consequences lead to infection after soft tissue trauma, or whether the bacterial contamination is the primarily cause for posttraumatic infection. The aim of the project was to gain information on the consequences of a soft tissue injury in terms of resistance to local infection. Since clinical populations are too heterogeneous, the problem was investigated in a standardized, reduced (no surgery or implants) experimental in vivo model. Method: In female Sprague-Dawley-rats with a standardized closed soft tissue trauma to the tibialis anterior muscle (group I: n = 13) or without (group II: n = 13), we compared the incidence of local infection after a pairwise local, percutaneously injected bacterial challenge with various concentrations of Staphylococcus aureus (2 × 104 -2 × 106 colony forming units, CFU). The standardized closed soft tissue trauma was created by application of a specially designed, computer controlled impact device. The contaminated soft tissue and the underlying bone were removed under sterile conditions after five days and quantitatively evaluated for bacterial growths. Infection was defined as positive bacterial growth at the soft tissue and/or bone. A stepwise experimental design with an ,up-and-down" dosage technique was used to adjust the bacterial challenge in the area of the ID50 (50% infection dose). Statistical evaluation of the difference between the infection rates of both groups was performed by two-sided fisher exact test (p<0.05). Results: The overall infection rate was 46%. For the group with soft tissue trauma the ID50 was 1.32 × 105 CFU and 1.05 × 106 CFU for the group without soft tissue trauma. The infection rate was 69% (9 of 13 animals) for the group with soft tissue trauma and 23% (3 of 13 animals) for the group without soft tissue trauma. This difference is statistically significant (p = 0.047). Conclusions: The infection rate after a standardized closed soft tissue injury was significantly higher and the ID50 lower than without soft tissue trauma. Our results demonstrate that in presence of microorganisms it is not primarily the bacterial contamination but rather the soft tissue damage and its pathophysiological consequences resulting in decreased infection resistance that secondarily lead to infection. © 2002 Orthopaedic Research Society. Published by Elsevier Science Ltd. All rights reserved. [source]

Hyaluronan-based polymers in the treatment of osteochondral defects

JOURNAL OF ORTHOPAEDIC RESEARCH, Issue 5 2000
Luis A. Solchaga
Articular cartilage in adults has limited ability for self-repair. Some methods devised to augment the natural healing response stimulate some regeneration, but the repair is often incomplete and lacks durability. Hyaluronan-based polymers were tested for their ability to enhance the natural healing response. It is hypothesized that hyaluronan-based polymers recreate an embryonic-like milieu where host progenitor cells can regenerate the damaged articular surface and underlying bone. Osteochondral defects were made on the femoral condyles of 4-month-old rabbits and were left empty or filled with hyaluronan-based polymers. The polymers tested were ACP sponge, made of crosslinked hyaluronan, and HYAFF-11 sponge, made of benzylated hyaluronan. The rabbits were killed 4 and 12 weeks after surgery, and the condyles were processed for histology. All 12-week defects were scored with a 29-point scale, and the scores were compared with a Kruskall-Wallis analysis of variance on ranks. Untreated defects filled with bone tissue up to or beyond the tidemark, and the noncalcified surface layer varied from fibrous to hyaline-like tissue. Four weeks after surgery, defects treated with ACP exhibited bone filling to the level of the tidemark and the surface layer was composed of hyaline-like cartilage well integrated with the adjacent cartilage. At 12 weeks, the specimens had bone beyond the tidemark that was covered with a thin layer of hyaline cartilage. Four weeks after surgery, defects treated with HYAFF-11 contained a rim of chondrogenic cells at the interface of the implant and the host tissue. In general, the 12-week defects exhibited good bone fill and the surface was mainly hyaline cartilage. Treated defects received significantly higher scores than untreated defects (p < 0.05), and ACP-treated defects scored significantly higher than HYAFF-11-treated defects (p < 0.05). The introduction of these hyaluronan-based polymers into defects provides an appropriate scaffolding and favorable microen-vironment for the reparative process. Further work is required to fully assess the long-term outcome of defects treated with these polymers. [source]

Mycobacterium ulcerans infection diagnosed by polymerase chain reaction

JOURNAL OF PAEDIATRICS AND CHILD HEALTH, Issue 3 2002
FM Russell
Abstract: Mycobacterium ulcerans infection is the third most important mycobacterial infection world-wide affecting immunocompetent individuals and causes chronic progressive skin ulcers. It has been described in many different regions world-wide. The diagnosis of M. ulcerans infection is often delayed because the diagnosis is difficult to make when new cases appear outside known endemic areas. However, molecular methods are now available to diagnose and distinguish M. ulcerans from other mycobacteria, allowing rapid diagnosis. Presented here is the case of a previously well girl from Townsville, Queensland, with extensive M. ulcerans infection involving the elbow joint, triceps tendon and underlying bone. Rapid diagnosis by polymerase chain reaction confirmed M. ulcerans infection. This is the first known case of M. ulcerans infection from Townsville in over 25 years, highlighting the changing epidemiology of this disease. [source]