Effects of positive end-expiratory pressure on hepatic blood flow and performance

Positive end-expiratory pressure (PEEP) may impair extrapulmonary organ function. However, the effects of PEEP on the liver are unclear. We tested the hypothesis that at a constant cardiac output (CO), PEEP does not induce changes in hepatic blood flow (QL) and parenchymal performance. In splenectomized, close-chested canine preparations (group I, n = 6), QL was derived as hepatic outflow using electromagnetic flow probes (QLemf), and hepatic performance was defined by extraction and clearance of indocyanine green (ICG). In a noninvasive model (group II, n = 7), the effects of PEEP on hepatic performance alone were similarly analyzed. Measurements were taken during intermittent positive-pressure ventilation (IPPV1), after addition of 10 cmH2O PEEP to IPPV (PEEP1), during continued PEEP but after return of CO to IPPV1 levels by intravascular volume infusions (PEEP2), and after removal of both PEEP and excess blood volume (IPPV2). Phasic inspiratory decreases in QLemf present during positive-pressure ventilation were not increased during either PEEP1 or PEEP2. Mean QLemf decreased proportionately with CO during PEEP1 (P less than 0.05), but was restored to IPPV1 levels in a parallel fashion with CO during PEEP2. The ICG pharmacokinetic responses to PEEP were complex, with differential effects on extraction and clearance. Despite this, hepatic performance was not imparied in either group. we conclude that global QL reductions during PEEP are proportional to PEEP-induced decreases in CO and are preventable by returning CO to pre-PEEP levels by intravascular volume infusions. However, covarying changes in blood volume and hepatic outflow resistance may independently modulate hepatic function.     

Cardiac Output and Its Interorgan Distribution in Mammals at Rest

A review is presented on published equations connecting the cardiac output per minute (COM) with the body weight (BW) in mammals with different BW under the conditions of the relative motor rest. The entire series of these animals with the BW from several grams to many tons is well described by the equation -BW^0.75, in which the coefficient changes parabolically by increasing to the smallest and largest animals. According to it, the BW increase from 20 g to 70 kg is accompanied by an 8-fold decrease of the specific COM from 72 to 9 ml/min × 100 g. As judged from publications, this COM decrease is accompanied by changes of its interorgan distribution. The volume rate of the blood flow (per 100 g of the organ) is preserved in kidney, decreases approximately 3 times in heart and organs of v. hepatica, remaining higher in heart, and decreases markedly in skin (14 times), in skeleton (18 times), and skeletal muscles (21 times). The mechanisms of such changes of the organ blood flow are different changes of the organ parts of COM and relative body weights of the organs.     

Alcohol ingestion before burn injury decreases splanchnic blood flow and oxygen delivery

Recent studies from our laboratory have shown that alcohol and burn injury impair intestinal barrier and immune functions. Although multiple factors can contribute to impaired intestinal barrier function, such an alteration could result from a decrease in intestinal blood flow (BF) and oxygen delivery (DO2). Therefore, in this study, we tested the hypothesis that alcohol ingestion before burn injury reduces splanchnic blood flow and oxygen delivery. Rats (250 g) were gavaged with alcohol to achieve a blood ethanol level in the range of 100 mg/dl before burn or sham injury (25% total body surface area). Day 1 after injury, animals were anesthetized with methoxyflurane. Blood pressure, cardiac output (CO), +/-dP/dt, organ BF (in ml.min(-1).100 g(-1)), and DO2 (in mg.ml(-1).100 g(-1)) were determined. CO and organ BF were determined using a radioactive microsphere technique. Our results indicate that blood pressure, CO, and +dP/dt were decreased in rats receiving a combined insult of alcohol and burn injury compared with rats receiving either burn injury or alcohol alone. This is accompanied by a decrease in BF and DO2 to the liver and intestine. No significant change in BF to the coronary arteries (heart), brain, lung, skin, and muscles was observed after alcohol and burn injury. In conclusion, the results presented here suggest that alcohol ingestion before burn injury reduces splanchnic BF and DO2. Such decreases in BF and DO2 may cause hypoxic insult to the intestine and liver. Although a hypoxic insult to the liver would result in a release of proinflammatory mediators, a similar insult to the intestine will likely perturb both intestinal immune cell and barrier functions, as observed in our previous study.     

The diuretic effects of CL 115,129 (d,1-15-deoxy-16-hydroxy-16(α/β)-vinyl-prostaglandin E2) and ℓ-prostaglandin E2 in dogs

CL 115,129, the corresponding carboxylic acid and major metabolite of CL 115,347 (d,1-15-deoxy-16-hydroxy-16(α/β)-vinyl-prostaglandin E₂ methyl ester), a potent orally and transdermally long acting antihypertensive agent, infused at 0.1 μg/kg/min into the left renal artery of sodium pentobarbital anesthetized beagle dogs increased urinary volume, sodium (Na⁺), potassium (K⁺) and chloride (Cl⁻) excretion of the left kidney 289, 201, 101 and 229%, respectively, over the 30 min vehicle-treated control periods. At 0.3 μg/kg/min CL 115,129 caused a 475 and 336% increase in urinary volume and Na , respectively. ℓ-Prostaglandin E₂ (ℓ-PGE₂) infused at 0.1 μg/kg/min into the left renal artery increased urinary volume, Na⁺, K⁺ and Cl⁻ excretion of the left kidney of anesthetized beagle dogs 416, 234, 112 and 255%, respectively, over the control. Both CL 115,129 and ℓ-PGE₂ did not affect the systemic arterial blood pressure or the electrolyte excretion of the contralateral kidney. It is concluded that in contrast to other conventional vasodilators, which may cause severe water and electrolyte retention, CL 115,347, via its metabolite CL 115,129, may cause diuresis and natriuresis in many clinical settings when used as an antihypertensive.     

Respiratory variations of aortic VTI: a new index of hypovolemia and fluid responsiveness

In 12 mechanically ventilated and anesthetized rabbits, we investigated whether the magnitude of respiratory changes in the aortic velocity time integral (VTI(Ao)), recorded by transthoracic echocardiography (TTE) during a stepwise blood withdrawal and restitution, could be used as a reliable indicator of volume depletion and responsiveness. At each step, left and right ventricular dimensions and the aortic diameter and VTI(Ao) were recorded to calculate stroke volume (SV) and cardiac output (CO). Respiratory changes of VTI(Ao) (maximal - minimal values divided by their respective means) were calculated. The amount of blood withdrawal correlated negatively with left and right ventricular diastolic diameters, VTI(Ao), SV, and CO and correlated directly with respiratory changes of VTI(Ao). Respiratory VTI(Ao) variations (but not other parameters) at the last blood withdrawal step was also correlated with changes in SV after blood restitution (r = 0.83, P < 0.001). In conclusion, respiratory variations in VTI(Ao) using TTE appear to be a sensitive index of blood volume depletion and restitution. This dynamic parameter predicted fluid responsiveness more reliably than static markers of cardiac preload.     

The effect of calcium antagonists on histamine and leukotriene-induced tracheal microvascular permeability in the guine pig

The effects of several calcium antagonists, i.e., nifedipine, verapamil adn 8-[N,N-diethylamino]-octyl 3,4,5-trimethoxybenzoate hydrochloride (TMB-8), were evaluated on agonist-induced increases in permeability of the airway microvasculature in anesthetized guinea pigs. Vascular permeability was measured as tracheal extravascular albumin content by using ¹²⁵I-bovine serum albumin and the utilization of ⁵¹Cr labelled-erythrocytes to correct for blood volume. Intratracheal injections of histamine (1, 10 and 100 μg) or leukotriene (LT) D₄ (1, 10 and 100 ng) produced dose-dependent increases in extravasated radiolabelled albumin in the trachea. Although histamine produced a greater maximal response than LTD₄, the latter provocation was tent times more potent than the former. Nifedipine, a dihydropyridine calcium slow channel blocker, exhibited dose-dependent (30, 100 and 300 μg/kg) inhibitory activity against histamine-induced increases in extravascular albumin, while another calcium slow channel blocker, verapamil (100, 300 and 1000 μg/kg), exhibited much less activity. TMB-8, a purported intracellular calcium antagonist (1 and 10 mg/kg), was observed to have some inhibitory activity versus histamine. Similar doses of all three calcium antagonists failed to significantly inhibit increases in tracheal microvascular permeability evoked by LTD₄. These results suggest that differences in mediator-induced microvascular permeability in the guinea pig trachea are evident depending upon the agonist selected and the pool of calcium utilized.     

口腔黏膜二氧化碳分压与大鼠失血性休克程度的相关性研究

通过研究大鼠失血过程中口腔黏膜二氧化碳分压（PbuCO2）与失血性休克程度的相关性,证明PbuCO2可用于失血性休克早期救治过程中休克程度的评价.25只Wistar大鼠随机分成5组,用戊巴比妥钠麻醉后,除假手术组外,其余4组失血30min,失血量分别达到总血容量的25%,30%,35%和40%.用PbuCO2检测装置对大鼠口腔黏膜的PCO2进行连续、无创检测,并对动脉血压（ABP）、心输出量（CO）、心电（ECG）和呼吸（RES）进行实时或不间断的检测,另外不间断抽取动脉血进行血液检验.失血后30min时,除40%小组部分动物死亡外,其余存活动物的ABP,CO,ECG,RES,血气和电解质都没有显著差异,而仅失血15min后,相对上述生理指标,PbuCO2表现出极显著的差异性（P〈0.01）.实验证明,PbuCO2不仅能够检测失血后组织灌注的变化,而且与ABP,CO,血气和电解质等指标相比,在区分不同程度的休克时更具有一致性、准确性和灵敏性.结果显示,PbuCO2的连续无创检测可有效地评价失血性休克程度,指导早期救治.     

Redistribution of cardiac output in anesthetized thermally dehydrated rats

Cardiac output (CO) and its distribution were studied in dehydrated (37 degrees C) anesthetized (Na thiopentone) rats prior to and following heat acclimation (at 34 degrees C), using 57Co 15 micron microspheres. In non-acclimated dehydrated rats, CO decreased while heart rate (HR) increased significantly. Following acclimation CO increased without any change in HR; during dehydration CO remained elevated together with a significant increase in HR. In non-acclimated rats at low dehydration blood perfusion to peripheral thermoregulatory areas increased while perfusion of splanchnic area decreased; at high dehydration level peripheral blood flow decreased whereas splanchnic blood flow was augmented. In acclimated dehydrated rats, CO distribution to thermoregulatory areas did not change while perfusion of the splanchnic area decreased. It is suggested that following acclimation, the increased CO contributes to maintenance of thermoregulatory peripheral blood flow; in non-acclimated rats severe dehydration leads to augmented blood flow in the permeable splanchnic vascular bed, increasing efflux of plasma protein and failure of plasma volume conservation.     

Pharmacologic characteristics of bladder micturition function in anesthetized mice

In the present study, we observed the effects of an α(1)-adrenoceptor agonist (phenylephrine), β-adrenoceptor agonist (isoprenaline), muscarinic cholinoceptor agonist (carbachol), and α(1)-adrenoceptor antagonist (doxazosin) on the bladder micturition function in anesthetized mice. Changes in bladder pressure in response to filling and blood pressure were recorded by using a data acquisition system. Phenylephrine (50 to 800 μg/kg) increased vesical micturition pressure in a dose-dependent manner but increased micturition basal pressure only at 800 μg/kg. Carbachol (3 to 7 μg/kg) increased the intercontraction interval and micturition time in a dose-dependent manner but increased micturition basal pressure only at 7 μg/kg. Isoprenaline (10 to 1000 μg/kg) increased micturition time and decreased vesical micturition pressure in a dose-dependent manner. Doxazosin (10 to 1000 μg/kg) did not affect bladder micturition function but dose-dependently inhibited phenylephrine-induced increases in vesical micturition pressure. Carbachol (7 μg/kg) and isoprenaline (1 mg/kg) caused a transient fall in blood pressure, whereas doxazosin (1 mg/kg) had a long-lasting hypotensive effect. The maximal decrease in systolic and mean blood pressure by carbachol did not differ from that by doxazosin and isoprenaline, respectively. Phenylephrine (800 μg/kg) transiently increased the blood pressure of anesthetized mice. These results indicate that activation of muscarinic cholinoceptors decreases voiding frequency and increases bladder capacity in anesthetized mice. Activation of α(1)-adrenoceptors mainly increases vesical micturition pressure, whereas activation of β-adrenoceptors decreases vesical micturition pressure and prolongs micturition time in anesthetized mice.     

Differential effects of CO2 and H+ as central stimuli of respiration in the cat

Effects of H+ and CO2 as independent stimuli of central respiratory chemoreceptors were studied in anesthetized cats in which pH and PCO2 on the ventral surface of the medulla (pHe and PeCO2) could be monitored in response to intravenous acid infusion or CO2 inhalation or to a combination of CO2 inhalation and base infusion that allowed PeCO2 to vary at constant pHe. Respiratory responses to these changes were monitored by measuring tidal volume (VT), respiratory frequency (f), and total ventilation. Respiratory acidosis stimulated ventilation by increasing both VT and f. Mild metabolic acidosis (decrease in pHe less than 0.05) exerted similar effects, but more severe metabolic acidosis failed to produce further stimulation. Increasing or decreasing PeCO2 at constant pHe caused pronounced increases or decreases in respiration mediated both by VT and f. For the same change in PeCO2 the respiratory effects were, however, less pronounced when pHe was kept constant than when pHe was allowed to change with PeCO2. The results suggest that both CO2 and H+ exert independent effects on respiration via central chemoreceptors.     

家兔Bezold—Jarisch反射的血流动力学效应

在40只麻醉兔,观察经冠脉内注射尼古丁诱发Bezold-Jarisch反射时的血流动力学变化。反射效应表现为心率减慢、动脉血压和左心室收缩压降低以及左心室内压微分值减小。切断两侧窦神经和减压神经后,上述效应增强;两侧迷走神经切断后,多数动物反射效应消失。 冠脉内注射尼古丁后,心输出量和总外周阻力均下降。人工起搏心脏以防止心率减慢时,对上述效应无明显影响。动物阿托品化并切除两侧星状神经节后,心率减慢基本消失,但动脉血压降低的程度并无明显变化。结果提示,Bezold-Jarisch反射时所表现的动脉血压降低,可归因于心输出量减少和总外周阻力降低,而以后者为主。     

Nasal Immunization of Mice with Human Papillomavirus Type 16 Virus-Like Particles Elicits Neutralizing Antibodies in Mucosal Secretions

To specifically induce a mucosal antibody response to purified human papillomavirus type 16 (HPV16) virus-like particles (VLP), we immunized female BALB/c mice orally, intranasally, and/or parenterally and evaluated cholera toxin (CT) as a mucosal adjuvant. Anti-HPV16 VLP immunoglobulin G (IgG) and IgA titers in serum, saliva, and genital secretions were measured by enzyme-linked immunosorbent assay (ELISA). Systemic immunizations alone induced HPV16 VLP-specific IgG in serum and, to a lesser extent, in genital secretions but no secretory IgA. Oral immunization, even in the presence of CT, was inefficient. However, three nasal immunizations with 5 μg of VLP given at weekly intervals to anesthetized mice induced high (>10⁴) and long-lasting (>15 weeks) titers of anti-HPV16 VLP antibodies in all samples, including IgA and IgG in saliva and genital secretions. CT enhanced the VLP-specific antibody response 10-fold in serum and to a lesser extent in saliva and genital secretions. Nasal immunization of conscious mice compared to anesthetized mice was inefficient and correlated with the absence of uptake of a marker into the lung. However, a 1-μg VLP systemic priming followed by two 5-μg VLP intranasal boosts in conscious mice induced both HPV16 VLP-specific IgG and IgA in secretions, although the titers were lower than in anesthetized mice given three intranasal immunizations. Antibodies in serum, saliva, and genital secretions of immunized mice were strongly neutralizing in vitro (50% neutralization with ELISA titers of 65 to 125). The mucosal and systemic/mucosal HPV16 VLP immunization protocols that induced significant titers of neutralizing IgG and secretory IgA in mucosal secretions in mice may be relevant to genital HPV VLP-based human vaccine trials.     

Ventilatory responses to increased blood flow and decreased lung volume in awake dogs

The effect of decreased lung volume on ventilatory responses to arteriovenous fistula-induced increased cardiac output was studied in four chronic awake dogs. Lung volume decreases were imposed by application of continuous negative-pressure breathing of -10 cmH2O to the trachea. The animals were surgically prepared with chronic tracheostomy, indwelling carotid artery catheter, and bilateral arteriovenous femoral shunts. Control arteriovenous blood flow was 0.5 l/min, and test flow level was 2.0 l/min. Arterial blood CO2 tension (PaCO2) was continuously monitored using an indwelling Teflon membrane mass spectrometer catheter, and inhaled CO2 was given to maintain isocapnia throughout. Increased fistula flow alone led to a mean 52% increase in cardiac output (CO), whereas mean systemic arterial blood pressure (Psa) fell 4% (P less than 0.01). Negative-pressure breathing alone raised Psa by 3% (P less than 0.005) without a significant change in CO. Expired minute ventilation (VE) increased by 27% (P less than 0.005) from control in both of these conditions separately. Combined increased flow and negative pressure led to a 50% increase in CO and 56% increase in VE (P less than 0.0025) without any significant change in Psa. Effects of decreased lung volume and increased CO appeared to be additive with respect to ventilation and to occur under conditions of constant PaCO2 and Psa. Because both decreased lung volume and increased CO occur during normal exercise, these results suggest that mechanisms other than chemical regulation may play an important role in the control of breathing and contribute new insights into the isocapnic exercise hyperpnea phenomenon.     

Intact hindquarter vascular responses of young spontaneously hypertensive rats to norepinephrine and tyramine

Intact hindquarter vascular responses to abdominal aortic injections of subpressor doses of norepinephrine (0.01, 0.02, 0.03 μg) or tyramine (5, 10, 15 μg) were examined in young ($\text{2}\text{1}\text{2}\text{–3}\text{months}$) spontaneously hypertensive rats (SHR) and age-matched Wistar-Kyoto (WKY) normotensives to ascertain whether altered vascular response to catecholamines in SHR could be detected in the presence of relatively constant systemic arterial perfusion pressure. Increases in vascular resistance (Δ mmHg. min/ml) and total decreases in blood flow volume (Δ ml) were determined by using electromagnetic flowmetry and blood flow integration techniques. Under a resting condition the abdominal aortic flow rate (ml/min) was similar between the SHR (8.7 ± 0.5) and WKY control (9.1 ± 0.5), whereas hindquarter vascular resistance was greater (73.8%) in SHR than in WKY normotensives (P < 0.05). The increase in vascular resistance in response to a low dose of norepinephrine (0.1 μg) was greater (85%) in SHR than in WKY rats (P < 0.05) and at higher doses of norepinephrine (0.02, 0.03 μg) there was a tendency of greater increase in resistance (20–30%) in SHR (0.05 < P < 0.1). Tyramine at all doses tested produced greater increases (50–66%) in resistance in SHR compared to WKY normotensives (P < 0.05). On the other hand, the decreases in the integrated total blood flow volume passing to the hindquarters after norepinephrine or tyramine administration at all doses were less (27–46%) in SHR than in WKY control (P < 0.05). The data demonstrate increased catecholamine vasoconstrictor responses in the intact hindquarters of SHR with attenuated blood flow volume decreases due to the higher resting vascular resistance, supporting the contention that the elevated vascular resistance in SHR may be attributed to vasoconstrictor hyperresponsiveness of catecholamines.     

Anesthesia of wild female Persian sturgeon,Acipenser persicus (Borodin, 1897) breeders during controlled propagation: effects on hematological parameters,stress response and reproductive performance

This study examined the effects of anesthesia on the hematological and biochemical parameters as well as the reproductive performance of wild female Persian sturgeon, Acipenser persicus, during controlled spawning. Fourteen mature females were divided into two groups: ‘anesthetized’ and ‘non‐anesthetized’. All activities including transportation, catheterizing and handling were performed with both groups: (i) under anesthesia (150 ppm clove oil), and (ii) without anesthesia. After 10 days storage and handling, blood samples were taken from all fish after anesthesia. No significant differences were found in the reproductive performance of either group. However, differences were found in the hematological parameters, with values being significantly higher in the non‐anesthetized group, including neutrophils (34.36 ± 6.33% vs 23.63 ± 5.22%), monocytes (2.84 ± 1.70% vs 1.27 ± 0.64%), mean corpuscular volume (321.3 ± 39.40 pg vs 228.0 ± 24.46 pg) and mean corpuscular hemoglobin (106.9 ± 15.70 fl vs 76.50 ± 7.50 fl). Significantly lower values were found in the non‐anesthetized group for lymphocytes (60.68 ± 7.25% vs 73.54 ± 4.80%), Hb (4.62 ± 0.74 mg dl^?1 vs 6.28 ± 1.21 mg dl^?1), Hct (13.86 ± 1.76% vs 18.84 ± 3.85%), red blood cell (0.43 ± 0.05 cell mm^?3 vs 0.85 ± 0.13 × 10⁶ cell mm^?3) and white blood cell (22 403 ± 2240 cell mm^?3 vs 35 318 ± 3084 cell mm^?3). The non‐anesthetized fish had significantly higher cortisol levels compared to the anesthetized group (62.33 ± 8.85 ng ml^?1 vs 46.12 ± 8.07 ng ml^?1). There was no difference in plasma glucose levels between groups. It is concluded that the use of clove oil as an anesthetic is suitable for handling of wild female Persian sturgeon in controlled propagation programmes. However, further research is needed to determine a standardized protocol for the safe application of anesthesia for use in sturgeons in general.     

Effect of solvent environment on the CO band position in the infrared spectrum of trans-[Fe(CN)4(CO)2]

Density functional theory (DFT) is used to understand the effect of hydrogen bonding solvents on the CO band position in the infrared (IR) spectrum of a mono-iron complex, trans-[Fe^II(CN)₄(CO)₂]²⁻. This mono-iron complex has received much attention recently due its potential relation to the biosynthesis of Fe-only hydrogenase enzymes. Our calculations show that the polar solvent molecules preferentially hydrogen bond to the cyano ligands in this complex. The effect of such hydrogen bonding on the electron density distribution is analyzed in terms of the population in natural bond orbitals (NBO). Our results show that the presence of hydrogen bonding to the cyano ligands decreases the extent of back bonding from the metal to the carbonyl ligand. This results in decreased electron density in the π^∗ orbitals of the carbonyl bond leading to a strengthening of the CO bond and a consequent blue shift in the IR band position of the carbonyl group. We also show that the extent of blue shift correlates with the number of nearest neighbor solvent molecules.     

Role of tracheal and bronchial circulation in respiratory heat exchange

Due to their anatomic configuration, the vessels supplying the central airways may be ideally suited for regulation of respiratory heat loss. We have measured blood flow to the trachea, bronchi, and lung parenchyma in 10 anesthetized supine open-chest dogs. They were hyperventilated (frequency, 40; tidal volume 30-35 ml/kg) for 30 min or 1) warm humidified air, 2) cold (-20 degrees C dry air, and 3) warm humidified air. End-tidal CO2 was kept constant by adding CO2 to the inspired ventilator line. Five minutes before the end of each period of hyperventilation, measurements of vascular pressures (pulmonary arterial, left atrial, and systemic), cardiac output (CO), arterial blood gases, and inspired, expired, and tracheal gas temperatures were made. Then, using a modification of the reference flow technique, 113Sn-, 153Gd-, and 103Ru-labeled microspheres were injected into the left atrium to make separate measurements of airway blood flow at each intervention. After the last measurements had been made, the dogs were killed and the lungs, including the trachea, were excised. Blood flow to the trachea, bronchi, and lung parenchyma was calculated. Results showed that there was no change in parenchymal blood flow, but there was an increase in tracheal and bronchial blood flow in all dogs (P less than 0.01) from 4.48 +/- 0.69 ml/min (0.22 +/- 0.01% CO) during warm air hyperventilation to 7.06 +/- 0.97 ml/min (0.37 +/- 0.05% CO) during cold air hyperventilation.     

Regional cerebral blood flow of the rat in acute carbon monoxide intoxication.

The effect of carbon monoxide (CO) on the regional cerebral blood flow was studied by exposing lightly anesthetized rats for 30 min to 0.5, 1.0, 1.5, and 2.0% CO gas mixtures. Cortical cerebral blood flow (CBF) increases of near 200%, 300%, and 400% control were observed at 0.5, 1.0, and 1.5% CO, respectively; whereas at 2.0% CO a reversal of the CBF increase was observed with values declining to near 300% control. The CBF response of subcortical, cerebellar, and brain stem areas was quantitatively similar to that of cortex, indicating that the CBF changes in CO intoxication are general. The decrease in CBF at 2.0% CO was related to significant decreases in arterial CO2 tension. Comparison of the CBF data to previous metabolic results in CO poisoning suggests that the CBF increases are a principal factor in the maintenance of an intact energy state in CO poisoning.     

A click procedure with heterogeneous copper to tether technetium-99m chelating agents and rhenium complexes. Evaluation of the chelating properties and biodistribution of the new radiolabelled glucose conjugates

An efficient protocol was developed to tether chelating agents and rhenium complexes onto a glucoside scaffold with a heterogeneous copper catalyst via click chemistry. The supported catalyst avoids the formation of unwanted copper complexes during the cyclisation step. The possibility to graft a pre-chelated M(CO)₃ core by click chemistry onto a biomolecule was highlighted for the first time. ^99mTc(CO)₃-glucoconjugates displayed excellent in vitro stability, a fast in vivo blood clearance and a low specific organ uptake or long-term retention in spleen and stomach.     

Mature hematology in neonatal walruses supports diving alongside their mothers

An animal's physiology limits the environmental conditions where it can persist; quantifying the physiology of the walrus is timely since they are being impacted by alterations in sea ice. We examined postnatal changes in hematology, an important attribute that supports diving, by analyzing a longitudinal data set from aquaria walruses (five males and nine females) sampled from 0.04 to 12.0 years of age (n = 795 samples). Red blood cell count (RBC), hemoglobin (Hb), hematocrit (Hct), mean corpuscular volume (MCV), mean cell hemoglobin (MCH), and mean corpuscular hemoglobin content (MCHC) did not change markedly after birth and appears to have not been influenced by sex. Estimated values at birth were RBC: 3.78 ± 0.12 × 10⁶ mm⁻³, Hb: 17.62 ± 0.82 g dl⁻¹, Hct: 45.21 ± 2.01%, MCV: 118.99 ± 3.99 fl, MCH: 47.10 ± 1.77 pg, and MCHC: 39.60 ± 0.70 g dl⁻¹. Compared to newborns, there were only subtle decreases in RBC, Hb, and MCHC, and a slight increase in MCV in the years following birth; Hct and MCH appear not to have changed. Unlike other pinnipeds, walruses swim within days of birth and have a prolonged 2-year nursing interval. Mature hematology early in life supports breath-holding, as young walruses must transit under sea ice with patchily distributed breathing holes.