Abstract
The analysis of synovial fluid is an important method in diagnosing and handling septic arthritis. To achieve a quick diagnosis could be a great advantage in the therapy. The differential scanning calorimetry (DSC) proved to be a useful technique in the differential diagnosis of tumors using blood plasma or sera. The aim of this paper is to show up some characteristic thermal parameters in the diagnosis of different grades of arthritis, which are in good agreement with the severity of disease checked by conventional X-ray supported grading. To follow the effect of different bacterial strains, the synovial fluids were inoculated by three types of bacterial strains (with 103–105 CFU mL−1 concentrations) at 37 °C and stored trough 24 h. After that, they were denatured in 20–90 °C temperature range with 0.3 K min−1 scanning rate. The change in the maximum denaturation temperature (Tm) and calorimetric enthalpy (∆H) monitored the severity of sepsis and depended on the type of bacteria. The proliferation characteristics of bacteria should be strain specific. The synovial fluid samples inoculated with the most frequently occurring bacteria were monitored in isotherm mode (isoperibol calorimeter) at 37 °C up to the end of the proliferation. The isoperibolic scans clearly demonstrated specific, concentration-dependent representative curves in case of each bacterium (duration of proliferation, maximum of proliferation rates, etc.). Therefore, thermal analysis of human synovial fluid samples by DSC or isoperibolic calorimetry could be a useful tool in the staging of osteoarthritis and the diagnostics of septic arthritis.
Highlights
In the twentieth century, with the advancement of medical science, the development of biochemical, biophysical, and electronic backgrounds brought new and more modern health care products, drugs, and technologies essential to healing
In the sample collection patients with non-inflammatory Synovial fluid (SF) production as well as traumatic cartilage damage and osteoarthritis treated patients were selected. It was taking into account the Kellgren–Lawrence and modified Kellgren–Lawrence radiological classification systems [22] (Table 1); this way achieved samples were from osteoarthritis patients of varying degrees of severity (Gr-I–IV)
In case of Escherichia coli and Staphylococcus epidermidis bacteria, we have found three well separable phases
Summary
With the advancement of medical science, the development of biochemical, biophysical, and electronic backgrounds brought new and more modern health care products, drugs, and technologies essential to healing. In primary care as well as in hospital clinics with advanced clinical background, medical diagnostic devices and advanced surgical equipment have become commonplace in daily practice. Continuous innovation in Department of Traumatology and Hand Surgery, Clinical Center, Medical School, University of Pécs, Ifjúság str. The appearance of microorganisms (bacteria, fungi, viruses) in the musculoskeletal structures, including the joints, can lead to a serious condition that can endanger the integrity of the joint and bone and the patient’s life
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