Effects of almitrine on respiration in unanesthetized newborn rabbits

We previously demonstrated that almitrine, a peripheral chemoreceptor stimulant, increased tidal volume (VT), expired minute ventilation (VE), and respiratory frequency (f) and decreased inspiratory (TI) and expiratory time (TE) in sleeping adult cats. We now hypothesized that almitrine would induce an increase in ventilation in a young animal model. Respiration was studied by the barometric method in 11 unanesthetized New Zealand White rabbit pups between 3 and 6 days of age. Recordings were made in 0.21 FIO2 at base line and after cumulative intraperitoneal infusions of almitrine (2.5, 5.0, and 7.5 mg/kg). The chamber pressure deflection (proportional to VT after appropriate calculation) was computer sampled at 200 Hz. At least 100 breaths for each dose in each animal were analyzed. We found that a 7.5-mg/kg intraperitoneal dose of almitrine increased f to 135 +/- 9% (SE) of base line and decreased TE and TI to 72 +/- 8% and 79 +/- 8% of base line, respectively. Changes in VE, VT/TI, and VT were not significant. Recognizing that apnea is associated with inadequate ventilation and a prolonged TE (failure of the "inspiratory on-switch"), these results, particularly the increase in f and decrease in TE, suggest that almitrine might be useful in treating apnea in preterm infants.     

Ventilatory effect of an adenosine analogue in unanesthetized rabbits during development

The effect of an adenosine analogue N6-L-(R-phenylisopropyl)adenosine (R-PIA) on respiration was studied in rabbit pups (1-8 days old). Respiration was monitored by a noninvasive barometric method during natural sleep. The adenosine analogue was given by an indwelling intraperitoneal catheter. R-PIA given in a dose of 0.1 mumol/kg (380 micrograms/kg) body wt caused a decrease of the ventilation. The respiratory decrease could be reversed or prevented by pretreatment with theophylline (10 mg/kg). R-PIA caused a considerably more pronounced effect in 1- to 3-day-old animals than in 8-day-old animals. This effect was seen both when the ambient temperature was held at 28 (P less than 0.01) and 32 degrees C (P less than 0.05). Determination of R-PIA receptors in whole brains of rabbit pups of various ages showed that R-PIA bound with higher affinity to membranes from newborn animals (Kd 0.53 nM) than older animals (Kd 0.7-1.26). Since adenosine is released during hypoxia, it may be involved in "hypoxic depression" of respiration in neonates and apnea of prematurity. This might also explain the potent therapeutic effect of the adenosine antagonist theophylline on recurrent apnea in preterm infants.     

Long-term clearance of liquid and protein from the lungs of unanesthetized sheep

We measured the removal of 100 ml of autologous serum from the air spaces and lungs of unanesthetized, spontaneously breathing sheep at 4, 12, and 24 h. In the first 4 h, there was a rapid clearance of the liquid volume (8.3%/h), similar to our results in anesthetized ventilated sheep (Matthay et al., J. Appl. Physiol. 53: 96-104, 1982). However, liquid removal progressively slowed to 3.3 and 1.4%/h at 12 and 24 h, respectively. In contrast, protein clearance (as measured by 125I-albumin instilled with the serum) was monoexponential and slow (1%/h). The slowing of liquid clearance appears to be a function of the rising protein osmotic pressure of the residual protein in the air spaces (protein concentration doubled in 24 h). Because protein solutions are chemotactic for neutrophils, we quantified the movement of liquid from the extracellular space into the alveolar compartment with a plasma protein tracer (131I-albumin), so that our final calculation of alveolar liquid clearance would take into account bidirectional movement of liquid across the alveolar barrier. The corrected values for net liquid clearance are slightly faster (less than 10% of the instilled volume).     

Hyaluronan affects protein and collagen synthesis by in vitro human skin fibroblasts

Given the importance of hyaluronan (HA) for the homeostasis of connective tissues during embryogenesis and aging and its role in tissue repair, the aim of the present study was to examine the effect of exogenous HA on the synthesis of total protein, collagen and HA by in vitro human dermal fibroblasts. With differences between different cell strains, HA, at concentrations between 0.5 and 1 microM, induced a significant decrease in total protein synthesised and secreted into the medium compared to controls (P < 0.05), and particularly in collagen (-40%; P < 0.05). The ratios between collagen types I and III and between collagen types V and I were normal. Pulse and chase experiments showed that protein degradation was normal. The presence of exogenous HA did not affect HA synthesis. Data strongly indicate that a relatively high concentration of HA in the extracellular space, such as during development and in the first phases of tissue repair, would partially limit the deposition of the extracellular matrix, and of collagen in particular. This would suggest a role for HA in delaying tissue differentiation during embryogenesis and in preventing fibrosis and scar formation in fetus and in the early phases of wound healing.     

Indomethacin does not potentiate renovascular constriction during hypercapnia in unanesthetized rabbits

The role of prostanoids in regulation of the renal circulation during hypercapnia was examined in unanesthetized rabbits. Renal blood flow (RBF) was determined with 15 μm radioactive microspheres during normocapnia (PaCO₂ 30 mmHg) and hypercapnia (PaCO₂ 60 mmHg), before and after intravenous administration of indomethacin (10 mg/kg) or vehicle (n=6 for each group). Arterial blood pressure was not different among the 4 conditions in each group. RBF was 438±61 and 326 ± 69 (P<0.05) ml/min per 100 g during normocapnia and hypercapnia, respectively, before indomethacin, and following administration of indomethacin, RBF was 426 ± 59 ml/min per 100 g during normocapnia and 295 ± 60 ml/min per 100 g during hypercapnia (P<0.05). In the vehicle group, RBF was 409±74 and 226±45(P<0.05) ml/min per 100 g during normocapnia and hypercapnia, respectively, before vehicle; and following administration of vehicle, RBF was 371±46 ml/min per 100 g during normocapnia and 219 ± 50 (P<0.05) per 100 g during hypercapnia. RBF during normocapnia was not affected by administration of indomethacin or vehicle. The successive responses to hypercapnia were not different within the indomethacin and vehicle groups, and the second responses to hypercapnia were not different between the two groups. These findings suggest that prostanoids do not contribute significantly to regulation of the renal circulation during normocapnia and hypercapnia in unanesthetized rabbits.     

Indomethacin does not potentiate renovascular constriction during hypercapnia in unanesthetized rabbits

The role of prostanoids in regulation of the renal circulation during hypercapnia was examined in unanesthetized rabbits. Renal blood flow (RBF) was determined with 15 micron radioactive microspheres during normocapnia (PaCO2 congruent to 30 mmHg) and hypercapnia (PaCO2 congruent to 60 mmHg), before and after intravenous administration of indomethacin (10 mg/kg) or vehicle (n = 6 for each group). Arterial blood pressure was not different among the 4 conditions in each group. RBF was 438 +/- 61 and 326 +/- 69 (P less than 0.05) ml/min per 100 g during normocapnia and hypercapnia, respectively, before indomethacin, and following administration of indomethacin, RBF was 426 +/- 59 ml/min per 100 g during normocapnia and 295 +/- 60 ml/min per 100 g during hypercapnia (P less than 0.05). In the vehicle group, RBF was 409 +/- 74 and 226 +/- 45 (P less than 0.05) ml/min per 100 g during normocapnia and hypercapnia, respectively, before vehicle; and following administration of vehicle, RBF was 371 +/- 46 ml/min per 100 g during normocapnia and 219 +/- 50 (P less than 0.05) ml/min per 100 g during hypercapnia. RBF during normocapnia was not affected by administration of indomethacin or vehicle. The successive responses to hypercapnia were not different within the indomethacin and vehicle groups, and the second responses to hypercapnia were not different between the two groups. These findings suggest that prostanoids do not contribute significantly to regulation of the renal circulation during normocapnia and hypercapnia in unanesthetized rabbits.     

Hyaluronan injection affects neither osteoarthritis progression nor loading of the OA knee in dogs

We previously reported that intraarticular injections of hyaluronan (HA), administered prophylactically to dogs in whom knee osteoarthritis had been induced by transection of the anterior cruicate ligament, did not significantly modify the intraarticular pathology but decreased the proteogylcan concentration of the articular cartilage by as much as 30%. Because the cartilage proteoglycan concentration is directly related to the stiffness of the tissue, these results raised the possibility that intraarticular HA therapy could exacerbate OA. In the present study, using a different HA formulation, with a longer interval between intraarticular HA injection and examination of joint tissues, we found that neither prophylactic nor therapeutic administration of HA had an effect on the severity of OA pathology, the magnitude of vertical ground reaction forces generated by the unstable hind limb (a surrogate for joint pain), or the cartilage proteoglycan concentration. The data suggest that the suppression of proteoglycan synthesis induced by HA is temporary and fully reversible and that HA injections do not result in overloading of the OA extremity. A significant correlation was noted between the severity of chondropathy and the magnitude of the vertical ground reaction forces generated by the unstable limb.     

Regional extravascular and interstitial lung water in normal dogs

We measured the regional distribution of pulmonary extravascular and interstitial water to examine the possibility that regional differences in microvascular pressure or tissue stress may cause regional differences in lung water. We placed chloralose-anesthetized dogs in an upright (n = 6) or supine (n = 7) position for 180 min. We injected 51Cr-labeled EDTA to equilibrate to the extracellular space and 125I-labeled albumin to equilibrate with plasma. At the end of the experiment, the lungs were removed, passively drained of blood, and inflated before rapid freezing. Lungs were divided into horizontal slices, and extravascular, interstitial, and plasma water, red cell volume, and dry lung weight were determined for each slice. We found that regional extravascular and interstitial water were constant throughout the lungs in both groups and that there were no significant differences between upright and supine dogs. There were no significant differences in hematocrit between slices. We conclude that gravity and body position have no measurable effect on either the total size of the extravascular and interstitial compartments or their regional distribution.