Objective: The aim of this study was to evaluate the effect of hemiplegia on diaphragmatic movements using motion-mode ultrasonography. Methods: 23 hemiplegic patients who were diagnosed with a single-hemisphere lesion (mean age 60.5 years; 13 males and 10 females) and a control group of 20 patients (13 males and 7 females) were all evaluated by ultrasonography. Ultrasonography recordings were made of the amplitude of diaphragmatic movement during spontaneous and deep breathing. The patients underwent lung function tests. Results: When the hemiplegic and control groups were compared, the forced vital capacity, forced expired volume in 1 s, maximum inspiratory pressure and maximum expiratory pressure values were significantly lower in the groups with right and left hemiplegia (p,0.05). When a comparison was made between the right hemiplegic group and the control group and between the left hemiplegic group and the control group in terms of diaphragmatic excursions, for both groups, no significant difference was determined between the movements of the right hemidiaphragm during spontaneous and deep breathing and those of the left hemidiaphragm in spontaneous respiration. In contrast, for both hemiplegic groups, a significant decrease was noted in the movements of the left hemidiaphragm in deep respiration. Conclusion: The diaphragm is both contralaterally innervated and ipsilaterally innervated, and innervation exhibits marked variations from person to person. This provides an explanation for varying diaphragmatic movements in hemiplegic cases during deep respiration.
AIM: The aim of this study was to evaluate the association between an increase in arterial stiffness and the development of left ventricular hypertrophy in essential hypertension patients. MATERIALS AND METHODS: One hundred forty essential hypertension patients were included in the study. Patients were divided into two groups based on echocardiographic measurements; with left ventricular hypertrophy (n=70) and without left ventricular hypertrophy (n = 70). The criterion for hypertrophy was accepted as an intraventricular septum and posterior wall thickness in diastole of 11 mm or above. Aortic stiffness values of the patients groups were measured noninvasively by arteriography through the brachial artery. Pulse wave velocity (PWV) measurements were used as indicators of arterial stiffness. RESULTS: When compared to the group without left ventricular hypertrophy, elevated systolic blood pressure, mean blood pressure, and pulse pressure were located in the left ventricular hypertrophy group at a signifi cant level (p > 0.01). A statistically signifi cant difference was not observed in the diastolic blood pressure and pulse measurements of the groups. Pulse wave velocity, the indicator of arterial stiffness, was elevated to a signifi cant degree in the left ventricular hypertrophy group (p > 0.01). While a positive correlation was found between pulse wave velocity and left ventricle mass index, microalbuminuria, high sensitive C-reactive protein (Hs-CRP), and left ventricle enddiastolic volume, a negative correlation was found between pulse wave propagation velocity and left ventricle E/A. CONCLUSIONS: In conclusion, pulse wave analysis is a valuable method for predicting cardiac hypertrophy in essential hypertension (Tab. 6, Ref. 25). Text in PDF www.elis.sk.
In patients enduring penetrating trauma in the close vicinity of major vascular structures, a detailed history-taking and physical examination should be performed along with auscultation. The endovascular approach may represent the initial choice of management because of its lower rate of complications, noninvasive nature, decreased in-hospital costs, and decreased loss of work productivity. However, surgery is still unavoidable option in a significant proportion of patients who are either hemodynamically unstable, contraindicated for endovascular treatment, or in whom endovascular treatment was unsuccessful.
The time from cardiac catheterization to cardiac surgery is not a risk factor for the development of postoperative acute kidney injury even in patients with other risk factors. Surgical intervention should not be delayed in emergency or urgent cases. The optimization of renal function seems to be the correct strategy in clinically stable patients with risk factors for acute kidney injury.
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