Regional hemodynamics in patients with femoral shaft nonunions treated with combined external fixation and intramedullary nail

Objective The purpose of the study was to explore peripheral hemodynamics in patients with femoral shaft nonunions treated with combined external fixation and intramedullary nail. Material and methods Two groups of patients were identified. Group I included 11 patients with a deformity at the apex of nonunion treated with consecutive combined osteosynthesis. Group II consisted of 15 patients with nonunions and femoral shortening treated with synchronous combined distraction-compression osteosynthesis. Methods of examination comprised duplex ultrasound of veins and paraosseous vessels at the regeneration site (HITACHI HI Vision Avius), USDG (ANGIO-PLUS, Moscow) and tetrapolar rheovasography (RVG) of lower limbs (Rheograph RGPA-6/12, Taganrog). Results and discussion Volumetric blood flow of the femur and tibia measured postoperatively with RVG showed no differences in the intact and operated limb whatever technique was applied. In all patients, major blood flow was recorded at stages of combined fixation and Ilizarov fixation, linear systolic velocity and pulsatility index were not significantly different from normal and intact limb values, hemodynamic criteria of vasoconstriction of major vessels were not identified. The steal syndrome of distal segments due to functional bypass was observed in patients with unstable metal constructs and did not aggravate after surgical treatment in Group I. Duplex ultrasound scan of the femoral shaft cortical bone showed expressed arterial and venous color map in all patients with high peripheral indices reflecting vascular tone and measuring PI = 12 ± 3.5; RI = 0.9 ± 0.1. Conclusion No significant hemodynamic changes were detected in major arteries during treatment of patients with femoral nonunions using combined techniques of external fixation and intramedullary nail. Vasodilatation of veins recorded during treatment of patients with femoral nonunions using combined techniques of external fixation and intramedullary nail was determined as a risk factor for venous thromboembolism. A local increase in the arterial and venous paraosseous blood flow was recorded at the cortical site of nonunion with combined intramedullary osteosynthesis

Tibial lengthening in achondroplasia patients aged 6–9 years as the first stage of growth correction

Background Height increase and improvement of body proportions for achondroplasia patients normally require two or more stages of reconstructive treatment to be followed by rehabilitation between lengthening periods, and growth correction can take a significant part of life in the cohort of patients. What is the best age to start growth correction is an important question. The purpose of this paper was to present an argument for arranging the first stage of growth correction in achondroplasia patients aged 6–9 years based on the structural and functional muscle evaluation of tibiae to be lengthened. Material and methods Achondroplasia patients aged 6–9 years (n = 30) were examined preoperatively, during distraction, fixation and at 1.5 to 2 years of frame removal. Tibial lengthening was produced monofocally and bifocally. Contractile force of the dorsal and plantar flexion muscles of the foot was measured with dynamometer. Ultrasonography of tibial muscles was performed with HITACHI ultrasound imaging device (Japan). Results Achondroplasia patients aged 6–9 year who underwent tibial lengthening of at least 50% of the initial length developed neuropathy in 2.6 % of cases and soft tissue inflammation in 5.6 % of cases. Characteristic muscle striation of m. tibialis anterior and m. extensor digitorum longus appeared to restore at 1.5 to 2 years of tibial lengthening with clear contouring of the intermuscular septa and retained contractile force of the muscles. The contractile force restored to 96.15 % of preoperative level in the anterior tibial muscles, and to 101.92 % in the posterior muscles. Conclusion The comprehensive clinical, ultrasonographic and dynamometric evaluation of tibial muscles presented a good argument for tibial lengthening in achondroplasia patients aged 6–9 years. Regained muscle striation and spare capacity of m. tibialis anterior and extensor digitorum longus, the restored force of the anterior tibial muscles to 96.15 % of the preoperative level suggested the possibility for the next stage of growth correction