The influence of Ca2+ antagonists on the ciliary activity of the guinea pig trachea

Pharmacological management of allergic rhinitis in the elderly: safety issues with oral antihistamines

An increasing number of elderly persons in our society experience allergic rhinoconjunctivitis. Different agents are used in the pharmacological treatment of allergic rhinitis, with histamine H1 receptor antagonists (antihistamines) being the most frequently prescribed class. However, drug therapy of aged persons differs to a degree from that in other age groups primarily because of quantitative pharmacotherapeutic problems. The main problems are co-morbidities and polymedication, which may lead to drug-drug interactions. H1 receptor antagonists block the action of histamine at specific receptors and are available for both topical and systemic administration. First-generation H1 receptor antagonists are lipophilic and therefore may cross the blood-brain barrier; they also lack specificity for the H1 receptor. Second-generation H1 receptor antagonists have reduced capacity to cross the blood-brain barrier and greater specificity for the H1 receptor. Use of first-generation H1 receptor antagonists in the elderly should be considered carefully because of the large number of adverse effects and potential for interactions with these agents. Second-generation H1 receptor antagonists such as desloratadine, levocetirizine and ebastine provide good selective H1 receptor blockade without anticholinergic or alpha-adrenoceptor antagonist activity. Furthermore, they inhibit proinflammatory cytokines and are safe. Second-generation H1 receptor antagonists also offer therapeutic possibilities in patients with severe liver and/or renal dysfunction.

Alteration of loosely bound calcium in the guinea pig organ of Corti after treatment with diltiazem as calcium channel blocker

After oral administration of the organic calcium channel blocker diltiazem to guinea pigs for 7 days, calcium ions were precipitated with potassium antimonate in the cochleae. The spatial distribution of the precipitates was studied by energy-filtering transmission electron microscopy and the amount of the ultrastructural reaction products formed was determined semiquantitatively by an image processing system. Compared with untreated control ears, the number of the formed precipitates was reduced drastically in the inner hair cells after diltiazem treatment. In addition, electron microscopic analysis revealed that the number of calcium precipitates attached at the basolateral membrane of the outer hair cells was clearly reduced when compared with untreated control specimens. A large number of histochemical reaction products could be identified in the basilar membrane and were also observed in the untreated control specimens. The spatial distribution of the calcium precipitates in the lamina reticularis was not affected by diltiazem treatment and calcium precipitates could be identified within different cell membranes. The techniques used was considered to be helpful for identifying calcium channels ultrastructurally in intact undissected tissues and to support light microscopic analyses and patch-clamp electrophysiological measurements.

Respiratory epithelium exposed to sulfur dioxide--functional and ultrastructural alterations

The value of morphological investigations of airway mucosa should be compared to a functional method when estimating the toxicity of airborne pollutants. In 34 guinea pig tracheas, mucociliary activity was measured using a modified light beam reflex method before and following exposure to sulfur dioxide for 30 minutes in concentrations ranging between 7.5 and 37.5 mg/m3. Exposure to air served as a control. Simultaneously, specimens were taken for light and electron microscopy. Mucociliary activity decreased from 8.4 +/- 2.9 Hz (control exposure) to 4.0 +/- 2.9 Hz following exposure to 7.5 mg/m3, to 3.4 +/- 2.7 Hz at 15 mg/m3 sulfur dioxide, to 1.8 +/- 2.2 Hz at 22.5 mg/m3 sulfur dioxide, to 1.5 +/- 1.8 Hz at 30 mg/m3 sulfur dioxide, and to 2.0 +/- 1.2 Hz at 37.5 mg/m3 sulfur dioxide, respectively (P < .01). Despite a 56% decrease in mucociliary activity, only minor morphological alterations were observed following exposure to 7.5 mg/m3 sulfur dioxide. However, following exposure to 15 mg/m3 sulfur dioxide or higher, structural alterations of respiratory mucosa such as epithelial sloughing, intracellular edema and mitochondrial swelling, widened intercellular space, and ciliary cytoplasmic extrusions were found. Thus measurement of mucociliary activity proved to be a more sensitive indicator of airway toxicity than structural investigations alone.

Effect of exogenous ATP and physical stimulation on ciliary function impaired by bacterial endotoxin

The effects of exogenous ATP and physical stimulation on ciliary beat depressed by lipopolysaccharide from Pseudomonas aeruginosa were studied in cell culture. Both the ciliary beat frequency (CBF) and the amplitude (CBA) of human respiratory cells in monolayer cell cultures were studied by using a differential interference microscope equipped with a high speed video. Both the ATP and the physiol stimulation stimulated temporarily the depressed CBF and CBA. In both groups the CBF and CBA increased in 1 min to the initial level and then gradually decreased to the level before the stimulation. The duration of the ATP stimulation on the CBF (10.1 +/- 1.8 min) and CBA (10.1 +/- 2.3 min) were significantly better than the duration of physical stimulation on CBF (8.0 +/- 1.8 min) and CBA (6.8 +/- 1.6 min). However, the areas under the CBF/CBA curves (from the beginning of stimulation until the initial level of CBF or CBA was reached again) did not differ significantly. After the removal of the bacterial toxin the CBF was restored to the initial level. In the present study the adenosine receptor antagonist could not prevent the ciliostimulative effect of exogenous ATP combined with the physical stimulation. Both exogenous ATP and physical stimulation have a clear but temporary stimulative effect on the ciliary beat depressed by bacterial toxin, ATP being slightly more effective. It seems that the effects of ATP are not mediated by adenosine receptors.