Potential range of the invasive fish rotan (Perccottus glenii) in the Holarctic

Rotan Perccottus glenii is one of the most widespread alien invasive freshwater fish in Eurasia. We reviewed the mechanisms of its dispersion, identified the potential range and regarded these results in the light of possible prevention of further expansion. Our analysis was based on 970 presence records and 198 absence records from both invaded and native parts of the range. Since 1916 invasion dynamics of rotan have been driven by episodic anthropogenic translocations, followed by spontaneous expansion within river networks, and secondary translocations. Maxent species distribution models with independent validations showed that rotan distribution in Eurasia has climatic limitations; rotan have already invaded most areas with high climatic suitability in the Palearctic, but some regions of North Eurasia and North America, where rotan is currently absent, have high climatic suitability and may be vulnerable to invasion in the future. Rotan's high invasiveness, lack of geographical barriers and absence of reliable methods to prevent spread present a very high risk of expansion within appropriate climate limits in Europe. Our analysis shows that the long-term invasion dynamics of an invasive freshwater species may depend on climate variables rather than on river basin borders. Species distribution models, based on large scale environmental layers, can be useful to understand the invasion risk for other freshwater species restricted to shallow aquatic habitats

Surgical treatment of isolated aseptic acetabular loosening of the hip joint

Aseptic acetabular loosening is one of the most common complications of primary hip arthroplasty Its treatment is possible in the volume of replacement of only the endoprosthesis cup with the preservation of a stable correctly oriented femoral component. The sequence of actions consists of provision of access to the acetabulum component and its replacement, after which the necessary offset is selected by changing the size of the head and installing a new pair of friction. Currently, the vast majority of the installed heads during the primary and revision hip replacement have a standard size forthe cone of the femoral component 12/14mm. According to the observations, in 3% of cases, there are femoral components with non-standard cone sizes 11/13 mm, usually established 7-8 years ago. The absence of heads forthe necessary cone leads to the need to replace the stable correctly oriented femoral component, which is accompanied by an increase in the time of intervention, the volume of intraoperative blood loss and the risk of intraopera-tive peri-prosthetic fracture. We represent the clinical case of a 75-year-old patient with a dislocation of the acetabular component and a stable correctly oriented femoral component, which during the audit intervention due to the lack of heads for an irregular cone size, total replacement of the components was made.</p

The use of clinical analysis of movements in evaluation of motor functional status of patients after total hip replacement

Aim: to estimate functional status of coxarthrosis in patients requiring total hip replacement of the two hip joints. Material and methods. The biomechanical examination of 94 patients with bilateral primary coxarthrosis before and after total hip replacement was performed using clinical stabilometric software complex. The ability to perceive the mechanical load during standing and walking was evaluated at different stages of the treatment. The difference between the samples was estimated with the use of Mann — Whitney U-test. The rank correlation of biomechanical parameters was measured by Spearman coefficient. Results. It was revealed that the most responsive indicators are the transfer period, the first and second periods of double support and the deviation of the center of pressure relative to the average position in the frontal plane. Conclusion. After surgical treatment there was observed some improvement: the-left-and-right-step asymmetry decrease, rhythm rate increase, improved ability to maintain body balance, jog reactions increase