Comparison of coronary artery lesion complexity and body component parameters measured by TANITA.

Introduction: Obesity is one of the main reversible causes of coronary artery disease. Aim: To investigate the relationship between body component measurements calculated with TANITA and SYNTAX score (SXscore), which indicates coronary complexity. Material and methods: 200 acute subendocardial myocardial infarction patients were included in our study. Body component measurements were made with the TANITA BC-601 device. After coronary angiography, patients were divided into two groups: high SXscore (≥ 22) and low-medium SXscore (< 22). Results: When the high SXscore group (50 patients) was compared with the low medium SXscore group (150 patients); for waist height ratio (p = 0.001), total fat weight (p = 0.001), total fat percentage (p = 0.006), total water percentage (p = 0.001), trunk fat percentage (p = 0.001), internal fat (p = 0.001) and metabolic age (p < 0.001), a statistical difference was found. In the correlation analysis, a correlation was detected between high SXscore and the waist height ratio (p = 0.042), trunk fat percentage (p = 0.047), internal fat (p < 0.001) and metabolic age (p = 0.009). ROC curve analysis for prediction of high SXscore detection; the cut-off value for internal fat and metabolic age was found to be 13.5-60.5 with 60-64% sensitivity and 61.3-62.7% specificity. Conclusions: We demonstrated the relationship between parameters such as internal fat, trunk fat percentage and metabolic age calculated by TANITA and SXscore, which is the coronary complexity score. We recommend that patients with high values detected during TANITA measurements be followed more carefully in terms of primary preventive medicine.

It is both possible and safe to perform coronary angiography through the same radial artery, after retrograde recanalization of radial artery occlusion, following a previous coronary angiography.

INTRODUCTION: Radial artery occlusions (RAOs) impose an important problem that limit transradial interventions. In this study, we represent that it is possible to perform interventions through occluded radial arteries. METHOD: Twenty-five patients with RAO who had retrograde flow shown by doppler ultrasonography were enrolled into our study. After preparing the radial region, the radial artery was accessed with a puncture needle. A 0.014″ guidewire was introduced into the brachial artery via the radial artery with the aid of balloon back up. Lesion was predilated with a drug coated peripheral balloon, and a sheath was placed at the end. RESULTS: Radial artery recanalization could be established in 22 of 25 cases and coronary angiography could be performed from those occluded radial arteries. Neither the occlusion duration nor the caliber of the radial artery had any effect on the success rate of recanalization attempts. Two patients had a hematoma because of the intervention and there were no other complications.The patency rates at 1 month follow up have been only 33.4%, too much lower than we expected. DISCUSSION AND CONCLUSION: In patients with RAO because of a previous angiographic intervention via their radial arteries may be reintervened from their occluded radial artery safely and effectively. So, our procedure is not intended for neither the recanalization nor keeping the patency of the radial artery, but suitable for those patients in whom other routes of intervention are not wanted.

High-yield electrofusion of biological cells based on field tailoring by microfabricated structures.

The authors present the use of electric-field constriction created by a microfabricated structure to realise high-yield electrofusion of biological cells. The method uses an orifice on an electrically insulating wall (orifice plate) whose diameter is as small as that of the cells. Owing to the field constriction created by the orifice, we can induce the controlled magnitude of membrane voltage selectively around the contact point, regardless of the cell size. The field constriction also ensures 1:1 fusion even when more than two cells are forming a chain at the orifice. A device for electrofusion has been made with a standard SU-8 lithography and PDMS molding, and real-time observation of the electrofusion process is made. Experiments using plant protoplasts or mammalian cells show that the process is highly reproducible, and the yield higher than 90% is achieved.