NO generated from L-arginine by NO synthases (NOSs) in the endothelium and in other cells plays a... more NO generated from L-arginine by NO synthases (NOSs) in the endothelium and in other cells plays a central role in several aspects of vascular biology. The biological activity of NO is acutely terminated by oxidation to nitrite and nitrate, and these compounds have long been considered only as inert end-products of NO. However, this dogma is now being challenged because
The vasodilator gas nitric oxide (NO) is produced in the paranasal sinuses and is excreted contin... more The vasodilator gas nitric oxide (NO) is produced in the paranasal sinuses and is excreted continuously into the nasal airways of humans. This NO will normally reach the lungs with inspiration, especially during nasal breathing. We wanted to investigate the possible effects of low-dose inhalation of NO from the nasal airways on pulmonary function. The effects of nasal and oral breathing on transcutaneous oxygen tension (tcPO2) were studied in healthy subjects. Furthermore, we also investigated whether restoring low-dose NO inhalation would influence pulmonary vascular resistance index (PVRI) and arterial oxygenation (PaO2) in intubated patients who are deprived of NO produced in the nasal airways. Thus, air derived from the patient's own nose was aspirated and led into the inhalation limb of the ventilator. In six out of eight healthy subjects tcPO2 was 10% higher during periods of nasal breathing when compared with periods of oral breathing. In six out of six long-term intubated patients PaO2 increased by 18% in response to the addition of nasal air samples. PVRI was reduced by 11% in four of 12 short-term intubated patients when nasal air was added to the inhaled air. The present study demonstrates that tcPO2 increases during nasal breathing compared with oral breathing in healthy subjects. Furthermore, in intubated patients, who are deprived of self-inhalation of endogenous NO. PaO2 increases and pulmonary vascular resistance may decrease by adding NO-containing air, derived from the patient's own nose, to the inspired air. The involvement of self-inhaled NO in the regulation of pulmonary function may represent a novel physiological principle, namely that of an enzymatically produced airborne messenger. Furthermore, our findings may help to explain one biological role of the human paranasal sinuses.
Levosimendan is a novel inodilator that improves cardiac contractility by sensitizing troponin C ... more Levosimendan is a novel inodilator that improves cardiac contractility by sensitizing troponin C to calcium. This drug has proved to be effective in treating advanced congestive heart failure but has not been evaluated in septic settings. The purpose of the present study was to study the effects of this drug in a porcine model of endotoxemia. Prospective experimental study. Fourteen landrace pigs. All animals were anesthetized and catheterized for measurement of central and pulmonary hemodynamics. Ultrasonic flow probes were placed around the renal artery and portal vein to measure blood flow. A tonometer was placed in the ileum to measure mucosal pH. Levosimendan was given to six animals as a bolus (200 microg x kg(-1)) followed by a continuous infusion (200 microg x kg(-1) x hr(-1)). Thirty minutes after onset of levosimendan treatment, all animals received endotoxin (20 microg x kg(-1) x hr(-1) for 3 hrs). At baseline, levosimendan induced a systemic vasodilation with a reduction in blood pressure and an increase in heart rate. A tendency to an increase in cardiac index did not reach statistical significance (p =.055). Cardiac index and systemic oxygen delivery were markedly improved in the levosimendan group during endotoxemia. Systemic vascular resistance and blood pressure were reduced in the levosimendan group. The latter parameter, however, was only different from the control group during the initial phase of endotoxin shock but not at the late, most pronounced phase of shock. Levosimendan also efficiently attenuated endotoxin-induced pulmonary hypertension. Portal venous blood flow and gut oxygen delivery were improved, but no concomitant reduction in endotoxin-induced intestinal mucosal acidosis was observed. Renal blood flow was unaffected, as was the endotoxin-induced increase in plasma endothelin-1-like immunoreactivity. These findings support previous reports of calcium desensitization as a potential component in septic myocardial depression. Furthermore, the vasodilatory properties of this drug were well tolerated in the current model of hypodynamic endotoxin shock, and they may have contributed to improved regional blood flow as seen in the gut as well as improved systemic perfusion by means of reduced biventricular afterload. Pretreatment with levosimendan in pigs subjected to endotoxin shock improved cardiac output and systemic and gut oxygen delivery. In addition, pulmonary hypertension largely was attenuated without any adverse effects on gas exchange. These results are promising in several aspects, but the role of levosimendan in the treating circulatory failure in sepsis remains to be established.
To investigate the effects and elimination of endothelin-1 in humans, an intravenous infusion of ... more To investigate the effects and elimination of endothelin-1 in humans, an intravenous infusion of endothelin-1 (ET-1) (4 pmol kg-1 min-1 for 20 min) was given to 10 healthy volunteers. Arterial plasma endothelin-1 like immunoreactivity (ET-1-LI) increased eleven-fold. The fractional extraction of ET-1-LI was 41% and 30% across the pulmonary and skeletal muscle vascular beds, respectively. The lung eliminated almost half of the administered ET-1. No fractional extraction was found in the cerebral circulation. The pulmonary oxygen uptake (VO2) was increased slightly by endothelin-1. Across both the cerebral and skeletal muscle vascular beds the arterio-venous oxygen difference decreased (P < 0.05), suggesting vasodilation, the effect lasting up to 1 h after the end of endothelin-1 infusion in the cerebral circulation. Arterial-pulmonary artery oxygen difference increased by 20%. ET-1 infusion led to a decrease in heart rate (10%), cardiac output (14%) and stroke volume (8%) (all with P < 0.05) as well as a 7% increase in mean arterial blood pressure. Pulmonary and systemic vascular resistance increased by 67% and 25%, respectively (P < 0.05). These results demonstrate the regional differences in the removal of circulating endothelin-1, the lung being mainly responsible for the plasma elimination. Endothelin-1 seems to exert both vasoconstrictive and vasodilatory actions in humans, probably depending on differences in receptor populations and endothelium configuration in various vascular beds.
The view of the endothelium as a passive barrier has gradually changed as a number of endothelium... more The view of the endothelium as a passive barrier has gradually changed as a number of endothelium-derived substances have been discovered. Substances like nitric oxide, prostaglandins and endothelins have potent and important properties, involving not only the circulation as such but also the response to stimuli like inflammation and trauma. The endothelin system, discovered in 1988, has not only strong
Nitrate is generally considered a water pollutant and an undesirable fertilizer residue in the fo... more Nitrate is generally considered a water pollutant and an undesirable fertilizer residue in the food chain. Research in the 1970s indicated that, by reducing nitrate to nitrite, commensal bacteria might be involved in the pathogenesis of gastric cancers and other malignancies, as nitrite can enhance the generation of carcinogenic N-nitrosamines. More recent studies indicate that the bacterial metabolism of nitrate
FASEB journal : official publication of the Federation of American Societies for Experimental Biology, 2014
The maximum power principle dictates that open biological systems tend to self-organize to a leve... more The maximum power principle dictates that open biological systems tend to self-organize to a level of efficiency that allows maximal power production. Applying this principle to cellular energetics and whole-body physiology would suggest that for every metabolic challenge, an optimal efficiency exists that maximizes power production. On exposure to hypoxia, it would be favorable if metabolic efficiency would rapidly adjust so as to better preserve work performance. We tested this idea in humans by measuring metabolic efficiency and exercise tolerance under normoxic (Fio2=20.9%) and hypoxic (Fio2=16%) conditions, where Fio2 is fraction of inhaled oxygen. The results were compared with respirometric analyses of skeletal muscle mitochondria from the same individuals. We found that among healthy trained subjects (n=14) with a wide range of metabolic efficiency (ME), those with a high ME during normoxic exercise were able to better maintain exercise capacity (Wmax) in hypoxia. On hypoxic...
The current study describes novel multifunctional polymer-shelled microbubbles (MBs) loaded with ... more The current study describes novel multifunctional polymer-shelled microbubbles (MBs) loaded with nitric oxide (NO) for integrated therapeutic and diagnostic applications (ie, theranostics) of myocardial ischemia. We used gas-filled MBs with an average diameter of 4 μm stabilized by a biocompatible shell of polyvinyl alcohol. In vitro acoustic tests showed sufficient enhancement of the backscattered power (20 dB) acquired from the MBs' suspension. The values of attenuation coefficient (0.8 dB/cm MHz) and phase velocities (1,517 m/s) were comparable with those reported for the soft tissue. Moreover, polymer MBs demonstrate increased stability compared with clinically approved contrast agents with a fracture threshold of about 900 kPa. In vitro chemiluminescence measurements demonstrated that dry powder of NO-loaded MBs releases its gas content in about 2 hours following an exponential decay profile with an exponential time constant equal to 36 minutes. The application of high-powe...
The bacteriostatic gas nitric oxide (NO) is formed when nitrite is acidified. Infected urine may ... more The bacteriostatic gas nitric oxide (NO) is formed when nitrite is acidified. Infected urine may contain considerable amounts of nitrite as a result of bacterial nitrate reductase activity, and detection of nitrite in urine is routinely used in the diagnosis of bacterial cystitis. We sought to determine whether NO was generated from acidified nitrite-containing urine. Furthermore, we also studied the growth of the urinary pathogen Escherichia coll in acidified nitrite-containing urine. Urine, collected from healthy control subjects or from patients with infected nitrite-containing urine, was acidified and incubated in a closed syringe with varying amounts of nitrite added. After 30 minutes, the headspace gas was removed and immediately injected into a chemiluminescence NO analyzer. In addition, NO was measured in urine collected from healthy control subjects after ingestion of vitamin C. Bacterial growth was measured continuously in control urine for 10 hours after incubation for 2 ...
The kidney is vulnerable to hypoxia, and substantial efforts have been made to ameliorate renal i... more The kidney is vulnerable to hypoxia, and substantial efforts have been made to ameliorate renal ischemic injury secondary to pathological conditions. Stimulation of the nitrate-nitrite-nitric oxide pathway is associated with renal and cardiovascular protection in disease models, but less is known about the vascular effects during renal ischemia. This study aimed at investigating the vascular effects of nitrite in the kidney during normoxia and ischemic condition. Using a multi wire myograph system, nitrite-mediated relaxation (10(-9)-10(-4)mol/L) was assessed in preconstricted isolated renal interlobar arteries (ILA) from C57BL6 mice during normal conditions (pO213kPa; pH 7.4) and with low oxygen tension and low pH to mimic ischemia (pO2 3kPa; pH 6.6). Xanthine oxidoreductase expression was analyzed by quantitative PCR, and production of reactive nitrogen species was measured by DAF-FM DA fluorescence. During normoxia significant vasodilatation (15±3%) was observed only at the highe...
NO generated from L-arginine by NO synthases (NOSs) in the endothelium and in other cells plays a... more NO generated from L-arginine by NO synthases (NOSs) in the endothelium and in other cells plays a central role in several aspects of vascular biology. The biological activity of NO is acutely terminated by oxidation to nitrite and nitrate, and these compounds have long been considered only as inert end-products of NO. However, this dogma is now being challenged because
The vasodilator gas nitric oxide (NO) is produced in the paranasal sinuses and is excreted contin... more The vasodilator gas nitric oxide (NO) is produced in the paranasal sinuses and is excreted continuously into the nasal airways of humans. This NO will normally reach the lungs with inspiration, especially during nasal breathing. We wanted to investigate the possible effects of low-dose inhalation of NO from the nasal airways on pulmonary function. The effects of nasal and oral breathing on transcutaneous oxygen tension (tcPO2) were studied in healthy subjects. Furthermore, we also investigated whether restoring low-dose NO inhalation would influence pulmonary vascular resistance index (PVRI) and arterial oxygenation (PaO2) in intubated patients who are deprived of NO produced in the nasal airways. Thus, air derived from the patient's own nose was aspirated and led into the inhalation limb of the ventilator. In six out of eight healthy subjects tcPO2 was 10% higher during periods of nasal breathing when compared with periods of oral breathing. In six out of six long-term intubated patients PaO2 increased by 18% in response to the addition of nasal air samples. PVRI was reduced by 11% in four of 12 short-term intubated patients when nasal air was added to the inhaled air. The present study demonstrates that tcPO2 increases during nasal breathing compared with oral breathing in healthy subjects. Furthermore, in intubated patients, who are deprived of self-inhalation of endogenous NO. PaO2 increases and pulmonary vascular resistance may decrease by adding NO-containing air, derived from the patient's own nose, to the inspired air. The involvement of self-inhaled NO in the regulation of pulmonary function may represent a novel physiological principle, namely that of an enzymatically produced airborne messenger. Furthermore, our findings may help to explain one biological role of the human paranasal sinuses.
Levosimendan is a novel inodilator that improves cardiac contractility by sensitizing troponin C ... more Levosimendan is a novel inodilator that improves cardiac contractility by sensitizing troponin C to calcium. This drug has proved to be effective in treating advanced congestive heart failure but has not been evaluated in septic settings. The purpose of the present study was to study the effects of this drug in a porcine model of endotoxemia. Prospective experimental study. Fourteen landrace pigs. All animals were anesthetized and catheterized for measurement of central and pulmonary hemodynamics. Ultrasonic flow probes were placed around the renal artery and portal vein to measure blood flow. A tonometer was placed in the ileum to measure mucosal pH. Levosimendan was given to six animals as a bolus (200 microg x kg(-1)) followed by a continuous infusion (200 microg x kg(-1) x hr(-1)). Thirty minutes after onset of levosimendan treatment, all animals received endotoxin (20 microg x kg(-1) x hr(-1) for 3 hrs). At baseline, levosimendan induced a systemic vasodilation with a reduction in blood pressure and an increase in heart rate. A tendency to an increase in cardiac index did not reach statistical significance (p =.055). Cardiac index and systemic oxygen delivery were markedly improved in the levosimendan group during endotoxemia. Systemic vascular resistance and blood pressure were reduced in the levosimendan group. The latter parameter, however, was only different from the control group during the initial phase of endotoxin shock but not at the late, most pronounced phase of shock. Levosimendan also efficiently attenuated endotoxin-induced pulmonary hypertension. Portal venous blood flow and gut oxygen delivery were improved, but no concomitant reduction in endotoxin-induced intestinal mucosal acidosis was observed. Renal blood flow was unaffected, as was the endotoxin-induced increase in plasma endothelin-1-like immunoreactivity. These findings support previous reports of calcium desensitization as a potential component in septic myocardial depression. Furthermore, the vasodilatory properties of this drug were well tolerated in the current model of hypodynamic endotoxin shock, and they may have contributed to improved regional blood flow as seen in the gut as well as improved systemic perfusion by means of reduced biventricular afterload. Pretreatment with levosimendan in pigs subjected to endotoxin shock improved cardiac output and systemic and gut oxygen delivery. In addition, pulmonary hypertension largely was attenuated without any adverse effects on gas exchange. These results are promising in several aspects, but the role of levosimendan in the treating circulatory failure in sepsis remains to be established.
To investigate the effects and elimination of endothelin-1 in humans, an intravenous infusion of ... more To investigate the effects and elimination of endothelin-1 in humans, an intravenous infusion of endothelin-1 (ET-1) (4 pmol kg-1 min-1 for 20 min) was given to 10 healthy volunteers. Arterial plasma endothelin-1 like immunoreactivity (ET-1-LI) increased eleven-fold. The fractional extraction of ET-1-LI was 41% and 30% across the pulmonary and skeletal muscle vascular beds, respectively. The lung eliminated almost half of the administered ET-1. No fractional extraction was found in the cerebral circulation. The pulmonary oxygen uptake (VO2) was increased slightly by endothelin-1. Across both the cerebral and skeletal muscle vascular beds the arterio-venous oxygen difference decreased (P < 0.05), suggesting vasodilation, the effect lasting up to 1 h after the end of endothelin-1 infusion in the cerebral circulation. Arterial-pulmonary artery oxygen difference increased by 20%. ET-1 infusion led to a decrease in heart rate (10%), cardiac output (14%) and stroke volume (8%) (all with P < 0.05) as well as a 7% increase in mean arterial blood pressure. Pulmonary and systemic vascular resistance increased by 67% and 25%, respectively (P < 0.05). These results demonstrate the regional differences in the removal of circulating endothelin-1, the lung being mainly responsible for the plasma elimination. Endothelin-1 seems to exert both vasoconstrictive and vasodilatory actions in humans, probably depending on differences in receptor populations and endothelium configuration in various vascular beds.
The view of the endothelium as a passive barrier has gradually changed as a number of endothelium... more The view of the endothelium as a passive barrier has gradually changed as a number of endothelium-derived substances have been discovered. Substances like nitric oxide, prostaglandins and endothelins have potent and important properties, involving not only the circulation as such but also the response to stimuli like inflammation and trauma. The endothelin system, discovered in 1988, has not only strong
Nitrate is generally considered a water pollutant and an undesirable fertilizer residue in the fo... more Nitrate is generally considered a water pollutant and an undesirable fertilizer residue in the food chain. Research in the 1970s indicated that, by reducing nitrate to nitrite, commensal bacteria might be involved in the pathogenesis of gastric cancers and other malignancies, as nitrite can enhance the generation of carcinogenic N-nitrosamines. More recent studies indicate that the bacterial metabolism of nitrate
FASEB journal : official publication of the Federation of American Societies for Experimental Biology, 2014
The maximum power principle dictates that open biological systems tend to self-organize to a leve... more The maximum power principle dictates that open biological systems tend to self-organize to a level of efficiency that allows maximal power production. Applying this principle to cellular energetics and whole-body physiology would suggest that for every metabolic challenge, an optimal efficiency exists that maximizes power production. On exposure to hypoxia, it would be favorable if metabolic efficiency would rapidly adjust so as to better preserve work performance. We tested this idea in humans by measuring metabolic efficiency and exercise tolerance under normoxic (Fio2=20.9%) and hypoxic (Fio2=16%) conditions, where Fio2 is fraction of inhaled oxygen. The results were compared with respirometric analyses of skeletal muscle mitochondria from the same individuals. We found that among healthy trained subjects (n=14) with a wide range of metabolic efficiency (ME), those with a high ME during normoxic exercise were able to better maintain exercise capacity (Wmax) in hypoxia. On hypoxic...
The current study describes novel multifunctional polymer-shelled microbubbles (MBs) loaded with ... more The current study describes novel multifunctional polymer-shelled microbubbles (MBs) loaded with nitric oxide (NO) for integrated therapeutic and diagnostic applications (ie, theranostics) of myocardial ischemia. We used gas-filled MBs with an average diameter of 4 μm stabilized by a biocompatible shell of polyvinyl alcohol. In vitro acoustic tests showed sufficient enhancement of the backscattered power (20 dB) acquired from the MBs' suspension. The values of attenuation coefficient (0.8 dB/cm MHz) and phase velocities (1,517 m/s) were comparable with those reported for the soft tissue. Moreover, polymer MBs demonstrate increased stability compared with clinically approved contrast agents with a fracture threshold of about 900 kPa. In vitro chemiluminescence measurements demonstrated that dry powder of NO-loaded MBs releases its gas content in about 2 hours following an exponential decay profile with an exponential time constant equal to 36 minutes. The application of high-powe...
The bacteriostatic gas nitric oxide (NO) is formed when nitrite is acidified. Infected urine may ... more The bacteriostatic gas nitric oxide (NO) is formed when nitrite is acidified. Infected urine may contain considerable amounts of nitrite as a result of bacterial nitrate reductase activity, and detection of nitrite in urine is routinely used in the diagnosis of bacterial cystitis. We sought to determine whether NO was generated from acidified nitrite-containing urine. Furthermore, we also studied the growth of the urinary pathogen Escherichia coll in acidified nitrite-containing urine. Urine, collected from healthy control subjects or from patients with infected nitrite-containing urine, was acidified and incubated in a closed syringe with varying amounts of nitrite added. After 30 minutes, the headspace gas was removed and immediately injected into a chemiluminescence NO analyzer. In addition, NO was measured in urine collected from healthy control subjects after ingestion of vitamin C. Bacterial growth was measured continuously in control urine for 10 hours after incubation for 2 ...
The kidney is vulnerable to hypoxia, and substantial efforts have been made to ameliorate renal i... more The kidney is vulnerable to hypoxia, and substantial efforts have been made to ameliorate renal ischemic injury secondary to pathological conditions. Stimulation of the nitrate-nitrite-nitric oxide pathway is associated with renal and cardiovascular protection in disease models, but less is known about the vascular effects during renal ischemia. This study aimed at investigating the vascular effects of nitrite in the kidney during normoxia and ischemic condition. Using a multi wire myograph system, nitrite-mediated relaxation (10(-9)-10(-4)mol/L) was assessed in preconstricted isolated renal interlobar arteries (ILA) from C57BL6 mice during normal conditions (pO213kPa; pH 7.4) and with low oxygen tension and low pH to mimic ischemia (pO2 3kPa; pH 6.6). Xanthine oxidoreductase expression was analyzed by quantitative PCR, and production of reactive nitrogen species was measured by DAF-FM DA fluorescence. During normoxia significant vasodilatation (15±3%) was observed only at the highe...
Uploads
Papers by Eddie Weitzberg