The level of tumor necrosis factor alpha (TNF-alpha) is increased in patients with congestive heart failure and may play an important role in the development and progression of heart failure. Two types of TNF receptor (TNF-RI and TNF-RII) are expressed in virtually every cell and have different biologic roles. Soluble forms of the two receptors (sTNF-RI and sTNF-RII) have been identified as extracellular domain fragments. Serum levels of TNF-alpha, sTNF-RI and sTNF-RII were measured in 66 patients with heart failure and 27 control subjects using an enzyme-linked immunosorbent assay (ELISA). Hemodynamic variables, norepinephrine, atrial natriuretic peptide (ANP), and brain natriuretic peptide (BNP) were evaluated. TNF-alpha was significantly higher in patients with heart failure than in controls subjects (9.4 +/- 1.4 vs 4.8 +/- 0.8 pg/ml; p < 0.05). sTNF-RI and -RII were significantly increased in relation to the severity of heart failure (control subjects, 0.66 +/- 0.04 and 1.97 +/- 0.15 ng/ml; NYHA class II, 1.10 +/- 0.08 and 2.28 +/- 0.12 ng/ml; NYHA class III, 1.63 +/- 0.22 and 3.00 +/- 0.24 ng/ml; NYHA class IV, 2.78 +/- 0.46 and 4.52 +/- 0.62 ng/ml, respectively). In 9 patients whose clinical symptoms improved after treatment, the levels of sTNF-RI and -RII decreased by 17.3 +/- 5.7% (p < 0.05) and 22.1 +/- 6.9% (p < 0.05), respectively. There were significant positive correlations between sTNF-RI and -RII and mean pulmonary pressure (r = 0.69 and r = 0.61; p < 0.001) and mean capillary wedge pressure (r = 0.65 and r = 0.54; p < 0.001 and p < 0.01, respectively), but not with left ventricular end-diastolic volume or ejection fraction (NS). sTNF-RI and -RII were also significantly positively correlated with plasma levels of norepinephrine (r = 0.75 and r = 0.50; p < 0.001 and p < 0.05), ANP (r = 0.72 and r = 0.70; p < 0.001), and BNP (r = 0.60 and r = 0.60; p < 0.001). In conclusion, soluble TNF receptors are increased in proportion to the severity of congestive heart failure and may reflect the current status of congestive heart failure rather than the level of left ventricular dysfunction.
Toxic epidermal necrolysis (TEN) is an acute life-threatening condition, characterized by erosion of the mucous membranes, extensive detachment of the epidermis, and severe constitutional symptoms. Pulmonary complications of TEN are reported as rare, but are one of the most common causes of death. Our report focuses on an unusual case of toxic epidermal necrolysis which showed multiple bronchial obliteration during the chronic phase of the disease. Biopsied tissue of the obliterated bronchi demonstrated non-specific granulation. To improve the obliterated ventilatory function, we tried to reopen the bronchial obliteration using a balloon catheter under the guidance of fibreoptic bronchoscopy, however rapid restenosis of the bronchi ensued.
The diastolic and systolic pressure of one ventricle is increased by an increase in volume and/or pressure of the opposite ventricle; however, a mechanism for the ventricular interaction remains unclear. We hypothesized that the shape change of one ventricle elicited by the opposite ventricle would lead to resetting of the regional length, which may explain the ventricular interaction. We used 15 cross-circulated isovolumically contracting canine hearts in which both ventricular volumes were independently controlled. Diastolic regional segment area was calculated by multiplying circumferential and longitudinal lengths on right ventricular free wall (RVFW; n = 6), interventricular septum (IVS; n = 11), and left ventricular (LV) FW (n = 12). The regional area at relatively small volumes of both ventricles were expressed as 100%. With constant RV volume, increasing LV from 7 to 19 ml increased RV diastolic and systolic pressures by 2.7 and 5.5 mmHg, respectively. Conversely, increasing RV volume increased LV diastolic and systolic pressures by 2.3 and 7.5 mmHg, respectively. Increasing LV volume increased RVFW regional area from 121.0 to 124.6% (P < 0.01) and increased IVS regional area from 103.3 to 108.7% (P < 0.01), whereas the RV volume was held constant. Increasing RV volume also increased LVFW and IVS regional areas from 109.9 to 111.6% (P < 0.01) and from 106.8 to 108.9% (P < 0.05), respectively. Ventricular shape change elicited by ventricular interaction will increase the regional wall area, even though the volume of the chamber is unchanged. The increase in the regional area alters the position of the tissue on its resting and active length-tension relations and, thus, leads to enhancement of the chamber pressure.
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