Background:Comorbidity has been noted as a potential barrier to proper adherence to antihypertensive medications.Objectives:We decided to investigate whether comorbidity could significantly affect adherence of Iranian patients with hypertension to their medication regimen.Patients and Methods:Two hundred and eighty consecutive hypertensive patients were interviewed in 4 cities of Iran. The 8-item Morisky medication adherence scale (MMAS-8) (validated in Persian) was used to assess medication adherence. This scale determines adherence by scores as lower than 6 (low adherence), 6 or 7 (moderate adherence), and 8 (high adherence). Comorbidity was considered as any concomitant medical condition, which necessitates the patient to take medicine for a minimum of 6 months prior to the interviews.Results:The most common comorbid conditions were ischemic heart disease (65 patients, 23.2%), diabetes mellitus (55 patients, 19.6%), and dyslipidemia (51 patients, 18.2%). Mean (± SD) MMAS-8 score in comorbid group was 5.68 (± 1.85) and in non-comorbid hypertensive patients, it was 5.83 (± 1.91) (P = 0.631). Mean (± SD) number of comorbidities was 1.53 (± 0.75) in low adherence group compared to 1.54 (± 0.77) in moderate/high adherers (P = 0.98). With increasing the number of comorbid diseases, the proportion of patients with high adherence decreased successively from 20% in those with no comorbid disease to 14.1% in those with one or two comorbid conditions, and finally 11.1% in those with 3 to 5 comorbid conditions.Conclusions:With increasing the number of comorbid conditions, the proportion of patients with high adherence decreases. In our opinion, this finding is a useful clinical note for healthcare providers when managing patients with hypertension who have other medical problems at the same time.
Evaluation of Longitudinal Tissue Velocity and Deformation Imaging in Akinetic Nonviable Inferobasal Segments of Left Ventricular Myocardium by Dobutamine Stress Echocardiography
Aim: To study tissue velocity imaging (TVI) and strain rate imaging (SRI) indices in akinetic nonviable and normal left ventricular (LV) inferobasal segment and effect of dobutamine infusion onthese indices in nonviable segments. Methods: The study population consisted of two groups: 25 patients (mean age 60.75 ± 8.69 years) with left ventricular akinetic inferobasal nonviable segment determined by dobutamine stress echocardiography (DSE) and 14 normal coronaries (mean age 56.67 ± 11.90 years) with normal echocardiography as control group. The following TVI and SRI parameters were measured in patient and control group: ejection phase velocity (Sm [cm/sec]), peak systolic strain (ST [%]), and strain rate (SR [per second])). Results: Ejection fraction was significantly lower in patient group (29.40% ± 5.46% vs. 55.00% ± 3.39%; P < 0.001). Several differences were observed in patients with nonviable inferobasal segments compared to control group: Sm was reduced (3.58 ± 1.08 cm/sec vs. 5.56 ± 1.28 cm/sec; P < 0.001); SR and ST were significantly decreased (−0.39 ± 0.20/second vs. −1.44 ± 0.64/second, and −3.86% ± 4.12% vs. −17.64% ± 7.44%, respectively; P < 0.001 in both). The range of SR for nonviable segments (−0.04 to −0.77/second) did not overlap with that of the normal segments (−0.80 to −3.0/second). This range for Sm and ST overlapped with those of the normal segments. Conclusion: All TVI and SRI parameters are reduced in akinetic nonviable inferobasal compared with normal segments. According to findings of this study, resting strain rate has a potential to discriminate nonviable inferobasal from normal segments. (ECHOCARDIOGRAPHY, Volume 26, August 2009) tissue velocity imaging, strain rate imaging, dobutamine stress echocardiography, tissue Doppler imagingThe tissue velocity imaging (TVI), strain, and strain rate imaging (SRI) are different tissue Doppler imaging-based modalities for providing quantitative assessment of myocardial regional systolic and diastolic functions. Because velocity imaging is confounded by influence from velocities in other segments, the strain and strain rate imaging have been introduced to measure regional shortening fraction and shortening rate, respectively. 1-3 It has been rec-
Exosomes are spherical bilayer membrane vesicles with an average diameter of 40–100 nm. These particles perform a wide range of biological activities due to their contents, including proteins, nucleic acids, lipids, lncRNA, and miRNA. Exosomes are involved in inflammation induction, oxidative stress and apoptosis, which can be effective in endothelial dysfunction. Due to the induction of mentioned processes in the endothelial cells, the intercellular connections are destroyed, cell permeability increases and finally cell efficiency decreases and functional defects occur. Cardiovascular disease (CVDs) are of consequences of endothelial dysfunction. Thus by identifying the exosome signaling pathways, which induce inflammation, oxidative stress, and apoptosis, endothelial dysfunction and subsequently CVDs can be reduced; exosomes can be used for appropriate target therapy.
Early diagnosis of cardiac involvement in systemic lupus erythematosus via global longitudinal strain (GLS) by speckle tracking echocardiography
Introduction: Systemic lupus erythematosus (SLE) myocarditis occurs in between 5% and 10% of patients with lupus. Global longitudinal strain (GLS) via speckle tracking echocardiography can detect cardiac involvement in patients suffering from SLE. We decided to determine the echocardiographic features and subsequent early diagnosis of cardiac involvement in patients with SLE utilizing the GLS index via speckle tracking echocardiography. Methods: In this cross-sectional study, we compared female patients with SLE of at least 2 years’ duration and healthy controls in terms of the left ventricular (LV) GLS via speckle tracking echocardiography. After data collection in both groups, the GLS index and the ejection fraction were evaluated. Results: We analyzed and compared the LV echocardiographic parameters of 33 patients with SLE (mean age=25.45±0.63 years) with those of 35 healthy controls (mean age=27±0.45 years). The apical 2-chamber view indicated a significant decrease in the LV GLS in the case group by comparison with the healthy controls (P=0.005). The LV GLS in the apical 3-chamber view was significantly lower in the case group than in the control group (P=0.006). The LV GLS in the apical 4-chamber view revealed no significant difference between the case and healthy control groups (P=0.2). While there was a significant difference between the case and control groups visà- vis the LV GLS (P=0.02), the LV ejection fraction measured with the Simpson method showed no significant difference between the 2 groups (P=0.96). Conclusion: GLS speckle tracking echocardiography is a noninvasive method with diagnostic and prognostic values; it may, therefore, be a sensitive marker for the diagnosis of myocarditis and other cardiac involvements in patients with SLE.
issue Doppler imaging has introduced different techniques, allowing regional quantification of the myocardium. This quantification is possible by measuring the velocity, total deformation, and rate of deformation in every individual segment of the myocardium. 1,2 One of these methods is tissue velocity imaging, by which the total amount of tissue movement during systole can be displayed in color to show overall systolic function in one map. 3,4 This method is influenced by overall heart motion and the myocardial tethering effect.Masoumeh Lotfi-Tokaldany, MD, MPH, Shala Majidi, MD, Farahnaz Nikdoust, MD, Zahra Savand Roomi, MD, Mahmood Sheikhfathollahi, PhD, Hakimeh Sadeghian, MD Received April 24, 2012, ORIGINAL RESEARCHObjectives-To quantify the normal peak mean systolic velocities and strain rate parameters in the left ventricle (LV) and right ventricle (RV) and define their regional differences in normal adult hearts.Methods-Sixty-nine healthy volunteers (42% male; mean age ± SD, 30.03 ± 5.35 years) underwent color tissue Doppler and strain rate imaging. The first and second peak mean systolic velocities, peak strain, and strain rate in the systolic ejection phase were determined for 16 LV segments, the apex (17th segment), and 3 RV free wall segments.Results-The first peak mean systolic velocity was measurable in less than 50% of segments in the inferior and septal (-posterior) walls and RV free wall and in greater than 70% of segments of the other LV walls. The first and second peak mean systolic velocities of all LV walls and the RV free wall decreased significantly from the basal to apical region (P < .001).The strain and strain rate in the lateral and anterior walls decreased significantly from base to apex, whereas the anteroseptal and posterior walls were homogeneous. The strain rate in the inferior wall increased remarkably from base to apex, whereas it decreased significantly from the mid level to the apex. The strain in the RV was homogeneous, whereas the strain rate decreased significantly from the mid level to the apex. The apex (17th segment) showed the lowest value for each of the study parameters.Conclusions-Longitudinal velocities decreased from base to apex, whereas deformation measurements did not show uniform patterns in LV walls and the RV free wall. In most cases, there are 1 peak systolic velocity in the inferior and septal (-posterior) walls and 2 peak systolic velocities in the other 4 LV walls.
Introduction: In light of previous studies reporting the significant effects of preeclampsia on cardiac dimensions, we sought to evaluate changes in the left ventricular (LV) systolic and diastolic functions in patients with preeclampsia with a view to investigating changes in cardiac strain. Methods: This cross-sectional study evaluated healthy pregnant women and pregnant women suffering from preeclampsia who were referred to our hospital for routine healthcare services. LV strain was measured by 2D speckle-tracking echocardiography. Results: Compared with the healthy group, echocardiography in the group with preeclampsia showed a significant increase in the LV end-diastolic diameter (47.43 ± 4.94 mm vs 44.84 ± 4.30 mm; P = 0.008), the LV end-systolic diameter (31.16 ± 33.3 mm vs 29.20 ± 3.75 mm; P = 0.008), and the right ventricular diameter (27.93 ± 1.71 mm vs 24.53 ± 23.3; P = 0.001). The mean global longitudinal strain was -18.69 ± 2.8 in the group with preeclampsia and -19.39 ± 3.49 in the healthy group, with the difference not constituting statistical significance (P = 0.164). The mean global circumferential strain in the groups with and without preeclampsia was -20.4 ± 12.4 and -22.68 ± 5.50, respectively, which was significantly lower in the preeclampsia group (P = 0.028). Conclusion: The development of preeclampsia was associated with an increase in the right and left ventricular diameters, as well as a decrease in the ventricular systolic function, demonstrated by a decline in global circumferential strain.
Introduction: Coronary angiography can be complicated by some major complications such as stroke. Case Presentation: We describe a patient who presented with hemiparesia. He had undergone coronary angiography on his right and left coronary arteries as well as his left ventricle (LV) via the radial artery access 10 days earlier using a 6-French Tiger catheter. Transthoracic echocardiography showed a large (36 × 25 mm) inhomogeneous mobile mass attached to the apicoseptal LV segment. His serum protein S was low (60% [normal = 77 -140%]), while his protein C was normal and lupus anticoagulant was negative. During hospitalization, he developed severe abdominal pain, for which mesenteric ischemia was diagnosed. First, he underwent surgery for the resection of the infarcted intestinal segments. Then cardiac surgery was done to remove the mass. The mass was diagnosed as a thrombus. After the surgery, the general condition of the patient deteriorated and blood culture showed acinetobacter septicemia. Finally, he died due to sepsis. A review of his coronary angiography revealed that after the contrast media had left the LV, there was still dye at the contact point between the tip of the catheter and the LV, which was compatible with the location of thrombus formation. Conclusions: Trauma induced by the tip of the catheter at the contact location with the LV wall in a patient with mild hypercoagulable state accounted for intracardiac thrombosis formation and its embolization to the brain and intestines.
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