Your search keyword '"Carbon Monoxide pharmacokinetics"' showing total 130 results

1. NIR light-controlled mitochondria-targeted delivery of carbon monoxide combined with histone deacetylase inhibition for synergistic anticancer therapy.

Author

Tang Q, Yu YT, Zhang HL, Wang Y, Liu J, Yang SP, and Liu JG

Subjects

Apoptosis drug effects, Apoptosis radiation effects, HeLa Cells, Humans, Carbon Monoxide pharmacokinetics, Carbon Monoxide pharmacology, Drug Delivery Systems, Histone Deacetylase Inhibitors pharmacokinetics, Histone Deacetylase Inhibitors pharmacology, Infrared Rays, Mitochondria metabolism, Neoplasms drug therapy, Neoplasms metabolism, Phototherapy

Abstract

A multifunctional nanoplatform APIPB-MnCO@TPP@N,P-GQDs (APIPB = N-(2-aminophen-yl)-4-(1H-imidazo[4,5-f] [1, 10] phenanthrolin-2-yl) benzamide, TPP = triphenylphosphine, Mn = manganese, CO = carbon monoxide, and GQDs = graphene quantum dots), nanoplatform (1), was synthesized, which consists of a fluorescent N, P-doped GQDs carrier with its surface covalently functionalized by an CO donor APIPB-MnCO with histone deacetylases (HDAC) inhibitory property and a TPP derivative directing group. Nanoplatform (1) selectively localized in the mitochondria of HeLa cells to inhibit HDAC activity, and released CO upon 808 nm near-infrared light irradiation, destroying the mitochondria and thus inducing cancer cells apoptosis. The targeted subcellular mitochondrial CO delivery combined with inhibitory HDAC activity maximized the cytotoxicity of the nanoplatform which may provide new insights for CO-mediated multimodal therapies for cancer treatment., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2022

2. Tumor Microenvironment-Activated Nanoparticles Loaded with an Iron-Carbonyl Complex for Chemodynamic Immunotherapy of Lung Metastasis of Melanoma In Vivo .

Author

Zhai T, Zhong W, Gao Y, Zhou H, Zhou Z, Liu X, Yang S, and Yang H

Subjects

Animals, Antineoplastic Agents pharmacokinetics, Apoptosis drug effects, Carbon Monoxide pharmacokinetics, Cell Line, Tumor, Cell Proliferation drug effects, Drug Development, Female, Glutathione chemistry, Humans, Hydrogen Peroxide chemistry, Immunotherapy methods, Lung Neoplasms secondary, Mice, Mice, Inbred BALB C, Mitochondria drug effects, Mitochondria ultrastructure, Neoplasms, Experimental, Oxidation-Reduction, Oxidative Stress drug effects, Tumor Microenvironment drug effects, Antineoplastic Agents chemistry, Carbon Monoxide chemistry, Iron Compounds chemistry, Lung Neoplasms drug therapy, Melanoma metabolism, Metal Nanoparticles chemistry

Abstract

In this work, a nanoplatform (FeCORM NPs) loaded with an iron-carbonyl complex was constructed. By exploiting chemodynamic therapy (CDT) and immunogenic cell death (ICD)-induced immunotherapy (IMT), the nanoparticles exhibited excellent efficacy against lung metastasis of melanoma in vivo . The iron-carbonyl compound of the nanomaterials could be initiated by both glutathione (GSH) and hydrogen peroxide (H 2 O 2 ) to release CO and generate ferrous iron through ligand exchange and oxidative destruction pathways. The released CO caused mitochondria damage, whereas the generated ferrous iron led to oxidative stress via the Fenton reaction. On the other hand, the nanomaterials induced ICD-based IMT, which worked jointly with CDT to exhibit excellent effects against lung metastasis of melanoma through a mouse model. This work demonstrated how a nanoplatform, simple and stable but showing excellent efficacy against tumors, could be built using simple building blocks via a self-assembling approach. Importantly, the system took advantage of relatively high levels of GSH and H 2 O 2 in tumors to initiate the therapeutic effects, which rendered the nanoplatform with a capability to differentiate normal cells from tumor cells. In principle, the system has great potential for future clinical applications, not only in the treatment of lung metastasis of melanoma but also in suppressing other types of tumors.

Published

2021

3. Visible light-controlled carbon monoxide delivery combined with the inhibitory activity of histone deacetylases from a manganese complex for an enhanced antitumor therapy.

Author

Zhang HL, Yu YT, Wang Y, Tang Q, Yang SP, and Liu JG

Subjects

Coordination Complexes chemistry, Coordination Complexes pharmacokinetics, Coordination Complexes pharmacology, HeLa Cells, Humans, Neoplasms enzymology, Neoplasms pathology, Antineoplastic Agents, Carbon Monoxide chemistry, Carbon Monoxide pharmacokinetics, Carbon Monoxide pharmacology, Histone Deacetylase Inhibitors chemistry, Histone Deacetylase Inhibitors pharmacokinetics, Histone Deacetylase Inhibitors pharmacology, Light, Manganese chemistry, Manganese pharmacokinetics, Manganese pharmacology, Neoplasms drug therapy, Prodrugs chemistry, Prodrugs pharmacokinetics, Prodrugs pharmacology

Abstract

Multifunctional drugs with synergistic effects have been widely developed to enhance the treatment efficiency of various diseases, such as malignant tumors. Herein, a novel bifunctional manganese(I)-based prodrug [MnBr(CO) 3 (APIPB)] (APIPB = N-(2-aminophen-yl)-4-(1H-imidazo[4,5-f] [1, 10] phenanthrolin-2-yl)benzamide) with inhibitory histone deacetylase (HDAC) activity and light-controlled carbon monoxide (CO) delivery was successfully designed and synthesized. [MnBr(CO) 3 (APIPB)] readily released CO under visible light irradiation (λ > 400 nm) through which the amount of released CO could be controlled by manipulating light power density and illumination time. In the absence of light irradiation, the cytotoxic effect of [MnBr(CO) 3 (APIPB)] on cancer cells was greater than that of the commercially available HDAC inhibitor MS-275. Consequently, with a combination of CO delivery and HDAC inhibitory activity, [MnBr(CO) 3 (APIPB)] showed a remarkably enhanced antitumor effect on HeLa cells (IC 50  = 3.2 μM) under visible light irradiation. Therefore, this approach shows potential for the development of medicinal metal complexes for combined antitumor therapies., (Copyright © 2021. Published by Elsevier Inc.)

Published

2021

4. Carbon Monoxide as a Therapeutic for Airway Diseases: Contrast and Comparison of Various CO Delivery Modalities.

Author

Tripathi R, Yang X, Ryter SW, and Wang B

Subjects

Animals, Carbon Monoxide pharmacokinetics, Carbon Monoxide pharmacology, Cytoprotection drug effects, Humans, Signal Transduction drug effects, Carbon Monoxide administration & dosage, Carbon Monoxide therapeutic use, Drug Delivery Systems, Respiration Disorders drug therapy

Abstract

The quest to find novel strategies to tackle respiratory illnesses has led to the exploration of the potential therapeutic effects of carbon monoxide (CO) as an endogenous signaling molecule and a cytoprotective agent. Further, several studies have demonstrated the pharmacological efficacy of CO in animal models of respiratory disorders, such as acute lung injury and pulmonary hypertension. Because of the gaseous nature of CO and its affinity for multiple targets, its controlled delivery has been a challenge. Past studies have employed different delivery modalities, including CO gas, HO-1 inducers, and CO donors, sometimes leading to substantive variations in the resulting pharmacological effects for various reasons. Herein, this review summarizes and analyzes the differences among the profiles of various CO-delivery modalities in terms of their efficacy, dosing regimen, and pharmacokinetics in airways models. We believe that analysis of these issues will help in understanding the fundamental roles of CO in airways, and eventually, contribute to its development as a medicine for respiratory diseases., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2021

5. Lipid-encapsulated upconversion nanoparticle for near-infrared light-mediated carbon monoxide release for cancer gas therapy.

Author

Opoku-Damoah Y, Zhang R, Ta HT, Amilan Jose D, Sakla R, and Xu ZP

Subjects

Animals, Antimetabolites, Antineoplastic pharmacokinetics, Carbon Monoxide pharmacokinetics, Cell Line, Tumor, Drug Compounding methods, Drug Delivery Systems instrumentation, Drug Liberation radiation effects, Drug Screening Assays, Antitumor, Humans, Infrared Rays, Lipids chemistry, Mice, Nanoparticles chemistry, Prodrugs administration & dosage, Prodrugs pharmacokinetics, Ultraviolet Rays, Antimetabolites, Antineoplastic administration & dosage, Carbon Monoxide administration & dosage, Drug Delivery Systems methods, Neoplasms therapy, Photochemotherapy methods

Abstract

Cancer gas therapy is just in an early stage of research and development. Several important gasotransmitters have proven their therapeutic potentials, but handling, delivery and controlled release of these gases remain very challenging for therapeutic purposes. This research develops a versatile nanosystem that is capable of delivering carbon monoxide (CO) gasotransmitter in the form of photo-responsive carbon monoxide-releasing molecule (CORM) for targeted cancer therapy. The core-shell upconversion nanoparticles (UCNPs) were designed to transfer bio-friendly low energy near infrared (NIR) light to ultraviolet (UV) light and trigger CO release from the loaded CORM. The synthesized delivery system demonstrated its ability to mediate the sustained release of CO upon 808 or 980 nm NIR light excitation. The optimized nanoformulation was efficiently taken up by HCT116 cancer cells and showed dose-dependent cytotoxicity to HCT116 and other cancer cells. Intracellular CO release and subsequent therapeutic action involving ROS production were found to significantly contribute to cell apoptosis. Therefore, the current research demonstrates the potency and efficiency of an NIR-mediated UCNP-based CORM prodrug delivery system for targeted cancer gas therapy., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

6. Styrene-maleic acid copolymer-encapsulated carbon monoxide releasing molecule-2 (SMA/CORM-2) suppresses proliferation, migration and invasion of colorectal cancer cells in vitro and in vivo.

Author

Lv C, Su Q, Fang J, and Yin H

Subjects

Animals, Antineoplastic Agents chemistry, Carbon Monoxide pharmacokinetics, Cell Line, Tumor, Cell Movement drug effects, Cell Proliferation drug effects, Colorectal Neoplasms pathology, Drug Liberation, Humans, Male, Mice, Inbred BALB C, Organometallic Compounds chemistry, Solubility, Styrene chemistry, Xenograft Model Antitumor Assays, Antineoplastic Agents pharmacology, Colorectal Neoplasms drug therapy, Drug Carriers chemistry, Maleates chemistry, Organometallic Compounds pharmacology

Abstract

Although increasing evidence have confirmed that carbon monoxide release molecule-2(CORM-2) plays an active role in the treatment of inflammation and tumors, poor aqueous solubility and short CO-release duration restrict its extensive application. Our previous work synthesized styrene-maleic acid copolymer-encapsulated CORM-2 (SMA/CORM-2) to overcome above-mentioned deficiencies and demonstrated satisfactory effects in colitis. This study is to investigate the function of SMA/CORM-2 on colorectal cancer proliferation and metastasis. CCK-8 experiment is used to clarify the half maximal inhibitory concentration (IC50) of SMA/CORM-2 and to detect cell proliferation. Transwell assay coated with or without matrigel was to detect cell invasion and migration. Western blot was used to detect β-catenin, AKT, p-AKT, VEGF, MMP-2 and MMP-9 proteins. At last, nude mice xenograft was used to further investigate the anti-tumor effect of SMA/CORM-2 in vivo. After SW480 and C26 cells were treated with 0.5 mg/ml SMA/CORM-2, CRC cells proliferation, migration and invasion were inhibited. In vivo, SMA/CORM-2 treatment remarkably suppressed tumor growth and lung metastasis in nude mice. Furthermore, the expression of β-catenin, p-AKT, VEGF, MMP-2 and MMP-9 proteins could be down-regulated after SMA/CORM-2 treatment. SMA/CORM-2 exerted both in vitro and in vivo anti-proliferation and anti-metastatic effects, which may yield a novel therapeutic strategy for CRC., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

7. Photo-crosslinkable elastomeric protein-derived supramolecular peptide hydrogel with controlled therapeutic CO-release.

Author

Kim I, Bang WY, Park WH, Han EH, and Lee E

Subjects

Animals, Cell Line, Delayed-Action Preparations chemistry, Delayed-Action Preparations pharmacokinetics, Delayed-Action Preparations pharmacology, Rats, Carbon Monoxide chemistry, Carbon Monoxide pharmacokinetics, Carbon Monoxide pharmacology, Hydrogels chemistry, Hydrogels pharmacokinetics, Hydrogels pharmacology, Myocytes, Cardiac metabolism, Oxidative Stress drug effects, Peptides chemistry, Peptides pharmacokinetics, Peptides pharmacology, Photochemical Processes

Abstract

As an attempt to establish a method for efficient and safe administration of therapeutic carbon monoxide (CO) to the human body, supramolecular nanoplatforms incorporated with CO-releasing molecules (CORMs) have recently been developed. In particular, hydrogel scaffolds have attracted considerable attention due to the possibility of site-specific and controlled liberation of CO. However, it would be greatly beneficial to enhance the mechanical strength of hydrogels to widen their applicability in biomedical, pharmaceutical, and surgical sectors. Herein, we report a visible light-mediated crosslinkable supramolecular CO-releasing hydrogel (CORH), based on the fibrillar assembly of elastomeric protein-derived tyrosine-containing short peptides. A photo-driven dimerization of tyrosine moieties located on the fibrillar surface of CORH, accelerated by a Ru-based catalyst, results in the entanglement and bundling of nanofibrils that significantly increases the mechanical strength and stability of the CORH, which allows prolonged CO-liberation through limiting the contact of CORMs with water molecules. The contact probability of a CORM with water determined by the spatial position of the CORM on the fibrils containing a crosslinkable tyrosine moiety that affects CO-releasing behavior was confirmed by adjusting the CORM position closer to or farther from the tyrosine in the peptide sequence. A bulky CORM closely located to the tyrosine in a peptide inhibited the effective dityrosine formation of tyrosine on the fibril surface, resulting in loose bundling of nanofibrils in the CORH and facilitating the release of CO through the exchange with water. The photo-crosslinked CORH demonstrated a potent cytoprotective effect on oxidatively stressed cardiomyocytes, as expected. This work could provide a useful insight for the practical application of gasotransmitters as functional nanomaterials in pharmaceutical and biomedical fields.

Published

2019

8. Starvation-amplified CO generation for enhanced cancer therapy via an erythrocyte membrane-biomimetic gas nanofactory.

Author

Wang Y, Liu Z, Wang H, Meng Z, Wang Y, Miao W, Li X, and Ren H

Subjects

Animals, Antineoplastic Agents pharmacology, Carbon Monoxide pharmacokinetics, Cell Death, Cell Line, Tumor, Female, Mice, Inbred ICR, Mitochondria metabolism, Nanoparticles ultrastructure, Neoplasms pathology, Tissue Distribution, Biomimetics, Carbon Monoxide therapeutic use, Erythrocyte Membrane chemistry, Nanoparticles chemistry, Neoplasms therapy

Abstract

Carbon monoxide (CO)-based gas therapy has emerged as an attractive therapeutic strategy for cancer therapy. However, the main challenges are the in situ-triggered and efficient delivery of CO in tumors, which limit its further clinical application. Herein, we developed an erythrocyte membrane-biomimetic gas nanofactory (MGP@RBC) to amplify the in situ generation of CO for combined energy starvation of cancer cells and gas therapy. This nanofactory was constructed by encapsulating glucose oxidase (GOx) and Mn 2 (CO) 10 (CO-donor) into the biocompatible polymer poly(lactic-co-glycolic acid), obtaining MGP nanoparticles, which are further covered by red blood cell (RBC) membrane. Because of the presence of proteins on RBC membranes, the nanoparticles could effectively avoid immune clearance in macrophages (Raw264.7) and significantly prolong their blood circulation time, thereby achieving higher accumulation at the tumor site. After that, the GOx in GMP@RBC could effectively catalyze the conversion of endogenous glucose to hydrogen peroxide (H 2 O 2 ) in the presence of oxygen. The concomitant generation of H 2 O 2 could efficiently trigger CO release to cause dysfunction of mitochondria and activate caspase, thereby resulting in apoptosis of the cancer cells. In addition, the depletion of intratumoral glucose could starve tumor cells by shutting down the energy supply. Altogether, the in vitro and in vivo studies of our synthesized biomimetic gas nanofactory exhibited an augmentative synergistic efficacy of CO gas therapy and energy starvation to inhibit tumor growth. It provides an attractive strategy to amplify CO generation for enhanced cancer therapy in an accurate and more efficient manner. STATEMENT OF SIGNIFICANCE: Carbon monoxide (CO) based gas therapy has emerged as an attractive therapeutic strategy for cancer therapy. In this study, we developed an erythrocyte membrane biomimetic gas nanofactory to amplify the in-situ generation of CO for combined cancer starvation and gas therapy. It is constructed by coating glucose oxidase (GOx) and CO donor-loaded nanoparticles with erythrocyte membrane. Due to the erythrocyte membrane, it can effectively prolong blood circulation time and achieve higher tumor accumulation. After accumulated in tumor, endogenous glucose can be effectively catalyzed to hydrogen peroxide, in-situ amplified CO release to induce the apoptosis of cancer cells. In addition, depleting glucose can also starve tumor cells by shutting down the energy supply. Overall, our biomimetic gas nanofactory exhibits an augmentative synergistic efficacy of CO gas therapy and starvation to increased tumor inhibition. It provide a novel strategy to deliver CO in an accurate and more efficient manner, promising for combined cancer therapy in future clinical application., (Copyright © 2019 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.)

Published

2019

9. Evaluation of New 99m Tc(CO) 3 + Radiolabeled Glycylglycine In Vivo .

Author

Şenışık AM, İçhedef Ç, Kılçar AY, Uçar E, Arı K, Parlak Y, Bilgin ES, and Teksöz S

Subjects

Animals, Carbon Monoxide chemistry, Glycylglycine chemistry, Radiopharmaceuticals chemistry, Rats, Rats, Wistar, Technetium chemistry, Tissue Distribution, Carbon Monoxide pharmacokinetics, Glycylglycine pharmacokinetics, Radiopharmaceuticals pharmacokinetics, Technetium pharmacokinetics

Abstract

Background: Peptide-based agents are used in molecular imaging due to their unique properties, such as rapid clearance from the circulation, high affinity and target selectivity. Many of the radiolabeled peptides have been clinically experienced with diagnostic accuracy. The aim of this study was to investigate in vivo biological behavior of [ 99m Tc(CO) 3 (H 2 O) 3 ]+ radiolabeled glycylglycine (GlyGly)., Methods: Glycylglycine was radiolabeled with a high radiolabeling yield of 94.69±2%, and quality control of the radiolabeling process was performed by thin layer radiochromatography (TLRC) and High-Performance Liquid Radiochromatography (HPLRC). Lipophilicity study for radiolabeled complex ( 99m Tc(CO) 3 -Gly-Gly) was carried out using solvent extraction. The in vivo evaluation was performed by both biodistribution and SPECT imaging., Results: The high radiolabelling yield of 99m Tc(CO) 3 -GlyGly was obtained and verified by TLRC and HPLRC as well. According to the in vivo results, SPECT images and biodistribution data are in good accordance. The excretion route from the body was both hepatobiliary and renal., Conclusion: This study shows that 99m Tc(CO) 3 -GlyGly has the potential to be used as a peptide-based imaging agent. Further studies, 99m Tc(CO) 3 -GlyGly can be performed on tumor-bearing animals., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2019

10. Exploring the cellular uptake and localisation of phosphorescent rhenium fac-tricarbonyl metallosurfactants as a function of lipophilicity.

Author

Hallett AJ, Placet E, Prieux R, McCafferty D, Platts JA, Lloyd D, Isaacs M, Hayes AJ, Coles SJ, Pitak MB, Marchant S, Marriott SN, Allemann RK, Dervisi A, and Fallis IA

Subjects

Antifungal Agents chemical synthesis, Antifungal Agents chemistry, Carbon Monoxide chemistry, Carbon Monoxide pharmacokinetics, Diplomonadida chemistry, Hydrophobic and Hydrophilic Interactions, Microbial Sensitivity Tests, Optical Imaging, Organometallic Compounds chemical synthesis, Organometallic Compounds chemistry, Rhenium chemistry, Rhenium pharmacokinetics, Schizosaccharomyces chemistry, Schizosaccharomyces cytology, Surface-Active Agents chemistry, Surface-Active Agents pharmacokinetics, Tissue Distribution, Antifungal Agents pharmacokinetics, Diplomonadida drug effects, Organometallic Compounds pharmacokinetics, Schizosaccharomyces drug effects

Abstract

A systematic study of the cellular uptake of emissive complexes as a function of their lipophilicity is presented. Here a series of amphiphilic rhenium fac-tricarbonyl bisimine complexes bearing axial substituted imidazole or thiazole ligands, [Re(bpy)(CO)3(ImCnHm)]+ {n = 1 m = 3 (1+), n = 4 m = 9 (2+), n = 8 m = 17 (3+), n = 12 m = 25 (4+), n = 16 m = 33 (5+), n = 2 m = 3 (6+); bpy = 2,2'-bipyridine, Im = imidazole} and [Re(bpy)(CO)3(L)]+ {L = 1-mesitylimidazole, ImMes (7+), 4,5-dimethylthiazole, dmt (8+) and 4-methyl-5-thiazole-ethanol, mte (9+)} is reported. The X-ray crystal structures of 2+, 8+ and 9+ confirm the geometry and expected distribution of ligands and indicated that the plane of the imidazole/thiazole ring is approximately parallel to the long axis of the bipy ligand. Luminescence studies revealed excellent properties for their use in cell imaging with visible excitation and broad emission profiles. Their uptake in two distinct species has been examined by fluorescence imaging of the diplomonad fish parasite Spironucleus vortens (S. vortens) and rod-shaped yeast Schizosaccharomyces pombe (Schiz. pombe) as a function of their lipophilicity. The uptake of the complexes was highest for the more lipophilic 2+-5+ in both S. vortens and Schiz. pombe in which the long alkyl chain aids in crossing bilipid membranes. However, the increased lipophilicity of longer chains also resulted in greater toxicity. Localisation over the whole cell varied with differing alkyl chain lengths with complex 2+ preferentially locating to the nucleus of S. vortens, 3+ showing enhanced nuclear partitioning in Schiz. pombe, and 4+ for the remaining cell wall bound in the case of S. vortens. Interestingly, complexes of intermediate lipophilicity such as 7+ and 8+ showed reasonable uptake, proved to be non-toxic, and were capable of crossing exterior cell walls and localising in the organelles of the cells.

Published

2018

11. Replicating measurements of total hemoglobin mass (tHb-mass) within a single day: precision of measurement; feasibility and safety of using oxygen to expedite carbon monoxide clearance.

Author

Plumb JOM, Kumar S, Otto J, Schmidt W, Richards T, Montgomery HE, and Grocott MPW

Subjects

Adult, Carbon Monoxide pharmacokinetics, Exercise, Female, Hemoglobinometry adverse effects, Hemoglobinometry methods, Hemoglobinometry standards, Humans, Male, Metabolic Clearance Rate, Plasma Volume, Reproducibility of Results, Carbon Monoxide blood, Carboxyhemoglobin analysis, Erythrocyte Indices, Oxygen blood

Abstract

Hemoglobin concentration ([Hb]) is a function of total hemoglobin mass (tHb-mass) and plasma volume. [Hb] may fall by dilution due to plasma volume expansion and changes in the perioperative period may therefore correlate poorly with blood loss. A simple, reliable, repeatable way to measure plasma volume and tHb-mass would have substantial clinical utility. The "optimized carbon monoxide re-breathing method" (oCOR) meets these criteria. However, it is recommended that a minimum of 12 h (when breathing room air) is left between repeat measurements. Twenty-four subjects underwent 3 days of testing. Two oCOR tests were performed (T1 and T2), 3 h apart, with a different CO clearance method employed between tests aiming to keep the carboxyhemoglobin level below 10%. The primary aim was to ascertain whether tHb-mass testing could be safely repeated within 3 h if carboxyhemoglobin levels were actively reduced by breathing supplemental oxygen (PROC A ). Secondary aims were to compare two other clearance methods; moderate exercise (PROC B ), or a combination of the two (PROC C ). Finally, the reliability of the oCOR method was assessed. Mean (SD) tHb-mass was 807.9 ± (189.7 g) (for T1 on day 1). PROC A lowered the carboxyhemoglobin level from the end of T1 (mean 6.64%) to the start of T2 (mean 2.95%) by a mean absolute value of 3.69%. For PROC B and PROC C the mean absolute decreases in carboxyhemoglobin were 4.00% and 4.31%, respectively. The fall in carboxyhemoglobin between T1 and T2 was greatest in PROC C ; this was statistically significantly lower than that of PROC A (P = 0.0039) and PROC B (P = 0.0289). The test-retest reliability for the measurement of total hemoglobin mass was good with a mean typical error (TE) of 2.0%. The oCOR method is safe and can be repeated within 3 h when carbon monoxide is suitably cleared between tests. Using oxygen therapy alone adequately achieves this., (© 2018 The Authors. Physiological Reports published by Wiley Periodicals, Inc. on behalf of The Physiological Society and the American Physiological Society.)

Published

2018

12. Diffusion Reaction of Carbon Monoxide in the Human Lung.

Author

Kang MY, Guénard H, and Sapoval B

Subjects

Humans, Models, Theoretical, Carbon Monoxide pharmacokinetics, Erythrocytes classification, Hemoglobins chemistry, Lung physiology

Abstract

The capture of CO, a standard lung function test, results from diffusion-reaction processes of CO with hemoglobin inside red blood cells (RBCs). In its current understanding, suggested by Roughton and Forster in 1957, the capture is represented by two independent resistances in series, one for diffusion from the gas to the RBC periphery, the second for internal diffusion reaction. Numerical studies in 3D model structures described here contradict the independence hypothesis. This results from two different theoretical reasons: (i) The RBC peripheries are not equi-concentrations; (ii) diffusion times in series are not additive.

Published

2017

13. Toward Carbon Monoxide-Based Therapeutics: Critical Drug Delivery and Developability Issues.

Author

Ji X, Damera K, Zheng Y, Yu B, Otterbein LE, and Wang B

Subjects

Administration, Inhalation, Animals, Carbon Monoxide pharmacokinetics, Drug Delivery Systems trends, Drug Discovery trends, Humans, Prodrugs administration & dosage, Prodrugs chemistry, Prodrugs pharmacokinetics, Carbon Monoxide administration & dosage, Carbon Monoxide chemistry, Drug Delivery Systems methods, Drug Discovery methods

Abstract

Carbon monoxide (CO) is an intrinsic signaling molecule with importance on par with that of nitric oxide. During the past decade, pharmacologic studies have amply demonstrated the therapeutic potential of carbon monoxide. However, such studies were mostly based on CO inhalation and metal-based CO-releasing molecules. The field is now at the stage that a major effort is needed to develop pharmaceutically acceptable forms of CO for delivery via various routes such as oral, injection, infusion, or topical applications. This review examines the state of the art, discusses the existing hurdles to overcome, and proposes developmental strategies necessary to address remaining drug delivery issues., (Copyright © 2016 American Pharmacists Association®. Published by Elsevier Inc. All rights reserved.)

Published

2016

14. Design of biomaterials for intracellular delivery of carbon monoxide.

Author

Inaba H, Fujita K, and Ueno T

Subjects

Carbon Monoxide metabolism, Carbon Monoxide pharmacokinetics, Coordination Complexes administration & dosage, Drug Delivery Systems, Heme Oxygenase (Decyclizing) metabolism, Transition Elements metabolism, Biocompatible Materials chemistry, Carbon Monoxide administration & dosage, Coordination Complexes chemistry, Heme Oxygenase (Decyclizing) chemistry, Transition Elements chemistry

Abstract

Carbon monoxide (CO) is recognized as one of the most important gas signaling molecules involved in governing various therapeutic responses. Intracellular generation of CO is spatiotemporally controlled by catalytic reactions of heme oxygenases (HOs). Thus, the ability to control intracellular CO delivery with modulation of the CO-release rate in specific amounts and locations is expected to improve our fundamental understanding of the functions of CO and the development of clinical applications. For this purpose, CO-releasing molecules (CORMs) have been developed and investigated in vitro and in vivo. Most CORMs are based on transition metal carbonyl complexes. Recently, various biomaterials consisting of metal carbonyls with biomacromolecular scaffolds have been reported to improve the properties of bare metal carbonyls. In this mini-review, current progress in CO delivery, recent strategies for the development of CORMs, and future directions in this field are discussed.

Published

2015

15. Impact of carbon monoxide/heme oxygenase on hydrogen sulfide/cystathionine-γ-lyase pathway in the pathogenesis of allergic rhinitis in guinea pigs.

Author

Yu S, Yan Z, Che N, Zhang X, and Ge R

Subjects

Air Pollutants pharmacokinetics, Animals, Antimetabolites pharmacokinetics, Blotting, Western, Cystathionine gamma-Lyase biosynthesis, Disease Models, Animal, Guinea Pigs, Heme Oxygenase-1 biosynthesis, Male, Nasal Mucosa metabolism, Prospective Studies, Real-Time Polymerase Chain Reaction, Rhinitis, Allergic metabolism, Signal Transduction, Carbon Monoxide pharmacokinetics, Cystathionine gamma-Lyase genetics, Gene Expression Regulation drug effects, Heme Oxygenase-1 genetics, Hydrogen Sulfide pharmacokinetics, RNA genetics, Rhinitis, Allergic genetics

Abstract

Objective: The discovery of carbon monoxide (CO) and hydrogen sulfide (H2S) as pathogenic signaling molecules in airway-related diseases has led to significant insights into the pathophysiologic mechanisms underlying the development of allergic rhinitis (AR). The potential crosstalk between CO and H2S signaling pathways in AR has not been adequately investigated. This study was performed to elucidate the mechanistic relationship between CO and H2S in AR., Study Design: Experimental prospective animal study., Setting: Animal laboratory of Tongji Hospital, Tongji University, Shanghai, China., Subjects and Methods: A well-established model of AR was used whereby guinea pigs (N=24) were randomly divided into 4 treatment groups (n=6 for each group): The first group received ovalbumin only; the second group was administered exogenous hemin, a CO-binding metalloporphyrin; the third group received zinc protoporphyrin, an inhibitor of heme oxygenase-1. A control group was challenged using only saline. Symptoms of AR were recorded, and quantitation of plasma CO and H2S levels was performed. Expression of heme oxygenase-1 and H2S-generating enzyme cystathionine-γ-lyase (CSE) were measured from nasal mucosa., Results: Plasma CO and heme oxygenase-1 expression levels of nasal mucosa were significantly increased in the AR group compared to controls, whereas H2S concentrations were significantly decreased. Exogenous administration of CO exacerbated allergic symptoms, resulting in higher levels of both CO and heme oxygenase-1 expression, and a further reduction in H2S levels and CSE expression. Zinc protoporphyrin decreased CO concentrations and increased levels of both H2S and CSE expression., Conclusions: Results indicated an inverse relationship between H2S levels and CO in the pathogenesis of AR., (© American Academy of Otolaryngology—Head and Neck Surgery Foundation 2015.)

Published

2015

16. Treatment with a carbon monoxide-releasing molecule inhibits chronic inflammatory pain in mice: nitric oxide contribution.

Author

Negrete R, Hervera A, Leánez S, and Pol O

Subjects

Animals, Carbon Monoxide pharmacokinetics, Chronic Pain enzymology, Chronic Pain etiology, Chronic Pain metabolism, Freund's Adjuvant pharmacology, Heme Oxygenase-1 biosynthesis, Heme Oxygenase-1 metabolism, Hyperalgesia chemically induced, Hyperalgesia drug therapy, Hyperalgesia enzymology, Hyperalgesia metabolism, Inflammation complications, Male, Membrane Proteins biosynthesis, Membrane Proteins metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, Nitric Oxide Synthase Type I biosynthesis, Nitric Oxide Synthase Type I metabolism, Nitric Oxide Synthase Type II biosynthesis, Nitric Oxide Synthase Type II metabolism, Organometallic Compounds pharmacokinetics, Carbon Monoxide pharmacology, Chronic Pain drug therapy, Nitric Oxide metabolism, Organometallic Compounds pharmacology

Abstract

Rationale: Carbon monoxide synthetized by inducible heme oxygenase (HO-1) exerts potent anti-inflammatory and antinociceptive effects during acute and neuropathic pain, but its role in the modulation of chronic inflammatory pain and the possible involvement of nitric oxide in this action remain unknown., Objectives and Methods: The antiallodynic and antihyperalgesic effects of a carbon monoxide releasing molecule, tricarbonyldichlororuthenium(II) dimer (CORM-2), daily administered from days 4 to 14 after complete Freund's adjuvant (CFA) injection in wild-type (WT), neuronal (NOS1-KO), and inducible (NOS2-KO) nitric oxide synthases knockout mice, were evaluated using von Frey filaments and plantar tests. Effects of CORM-2 treatment on the expression of HO-1, NOS1, and NOS2 at 14 days after inflammation induction were assessed by Western blot., Results: Main inflammatory pain symptoms induced by CFA in WT, NOS1-KO, and NOS2-KO mice were significantly reduced in a time-dependent manner by CORM-2 treatment. In all genotypes, inflammation increased the dorsal root ganglia and paw expression of HO-1, but CORM-2 treatment only over-expressed this enzyme in the paw of all genotypes. The increased NOS1 expression induced by inflammation in WT mice was abolished by CORM-2 treatment, while there was no effect of the inflammation in neither CORM-2 treatment in the expression of NOS2 in WT and NOS1-KO mice., Conclusions: CORM-2 treatment inhibits inflammatory pain through enhancing HO-1 paw expression in all genotypes and reducing NOS1 over-expression in WT mice. An interaction between HO-1/carbon monoxide and NOS1/nitric oxide systems was also demonstrated. CORM-2 treatment may represent a new approach for management chronic inflammatory pain.

Published

2014

17. Protective effects of inhaled carbon monoxide in endotoxin-induced cholestasis is dependent on its kinetics.

Author

Vanova K, Suk J, Petr T, Cerny D, Slanar O, Vreman HJ, Wong RJ, Zima T, Vitek L, and Muchova L

Subjects

Animals, Bile chemistry, Bile Ducts metabolism, Bile Ducts pathology, Carbon Monoxide pharmacokinetics, Carrier Proteins genetics, Carrier Proteins metabolism, Cholestasis chemically induced, Cholestasis metabolism, Cholestasis pathology, Female, Gene Expression, Half-Life, Heme Oxygenase (Decyclizing) genetics, Heme Oxygenase (Decyclizing) metabolism, Interleukin-10 genetics, Interleukin-10 metabolism, Interleukin-6 genetics, Interleukin-6 metabolism, Lipopolysaccharides, Liver metabolism, Liver pathology, RNA, Messenger genetics, RNA, Messenger metabolism, Rats, Rats, Wistar, Tumor Necrosis Factor-alpha genetics, Tumor Necrosis Factor-alpha metabolism, Bile Ducts drug effects, Carbon Monoxide pharmacology, Cholestasis drug therapy, Liver drug effects

Abstract

Carbon monoxide (CO), a product of heme oxygenase (HMOX), has many beneficial biological functions and is a promising therapeutic agent for many pathological conditions. However, the kinetics of inhaled CO and its protective role in endotoxin-induced cholestasis is not fully known. Thus, our objective was to characterize the kinetics of inhaled CO and then investigate its use in early phase experimental endotoxin-induced cholestasis. Female Wistar rats were randomly divided into 4 groups: CON (control), LPS (lipopolysaccharide, 6 mg/kg), CO (250 ppm COx1h), and CO + LPS. Rats were sacrificed at 0-12 h after LPS administration. Tissues and blood were collected for liver injury markers and tissue CO distribution measurements. Livers were harvested for measurements of Hmox activity, Hmox1 mRNA expression, cytokines (IL10, IL6, TNF), and bile lipid and pigment transporters. Half-lives of CO in spleen, blood, heart, brain, kidney, liver, and lungs were 2.4 ± 1.5, 2.3 ± 0.8, 1.8 ± 1.6, 1.5 ± 1.2, 1.1 ± 1.1, 0.6 ± 0.3, 0.6 ± 0.2 h, respectively. CO treatment increased liver IL10 mRNA and decreased TNF expression 1 h after LPS treatment and prevented the down-regulation of bile acid and bilirubin hepatic transporters (Slc10a1, Abcb11, and Abcc2, p < 0.05), an effect closely related to the kinetics. The protective effect of CO against cholestatic liver injury persisted even 12 h after CO exposure, as shown by attenuation of serum cholestatic markers in CO-treated animals. CO exposure substantially attenuated endotoxin-induced cholestatic liver injury and was directly related to the kinetics of inhaled CO. This data underscores the importance of the kinetics of inhaled CO for the proper design of experimental and clinical studies of using CO as a treatment strategy., (Copyright © 2013 Elsevier Masson SAS. All rights reserved.)

Published

2014

18. Toxicological analysis of formalin-fixed or embalmed tissues: a review.

Author

Nikolaou P, Papoutsis I, Dona A, Spiliopoulou C, and Athanaselis S

Subjects

Analgesics, Opioid analysis, Analgesics, Opioid pharmacokinetics, Carbon Monoxide analysis, Carbon Monoxide pharmacokinetics, Central Nervous System Depressants analysis, Central Nervous System Depressants pharmacokinetics, Central Nervous System Stimulants analysis, Central Nervous System Stimulants pharmacokinetics, Cyanides analysis, Cyanides pharmacokinetics, Drug Stability, Forensic Toxicology methods, Humans, Metals, Heavy analysis, Metals, Heavy pharmacokinetics, Pesticides analysis, Pesticides pharmacokinetics, Tissue Distribution, Trace Elements analysis, Trace Elements pharmacokinetics, Embalming, Fixatives, Formaldehyde

Abstract

During the autopsy of forensic cases, when there is no suspicion of drug use or chemical exposure, biological fluids may not be obtained for toxicological analysis, while specimens of tissues may be collected and preserved in a formalin solution for histological examination. When specific questions arise after the burial, the only possible options are the exhumation of an embalmed body or the toxicological analysis of the formalin-fixed specimens. The drug concentrations in these specimens can be altered due to the extraction efficiency and/or the chemical activity of the formalin solutions used during chemical fixation or embalming process. The aim of this paper is to review the published studies about the determination of specific groups of drugs in formalin-fixed or embalmed specimens and their stability after chemical fixation or embalming process. The analytical aspects of this determination are also discussed. The stability of drugs in formalin environment and the possible reaction of the drugs with formaldehyde, which is a highly reactive chemical substance, should always be considered during post-mortem/post-embalming forensic analysis. The additional analysis of the formalin solution in which the tissue was preserved is considered necessary. The identification and the evaluation of the possible degradation products or chemical derivatives are extremely useful during the interpretation of the results., (Copyright © 2013 Elsevier Ireland Ltd. All rights reserved.)

Published

2013

19. [Toxicology and tissue distribution of Ruthenium (II) CO-releasing molecules and its interaction with endogenous substances].

Author

Wang PP, Liu HP, Zhao QY, Chen YL, Liu B, Zhang BP, and Zheng Q

Subjects

Animals, Carbon Monoxide pharmacokinetics, Carbon Monoxide toxicity, Fibroblasts drug effects, Kidney drug effects, Liver drug effects, Mice, Molecular Structure, Organometallic Compounds chemistry, Organometallic Compounds pharmacokinetics, Organometallic Compounds toxicity, Rats, Rats, Wistar, Ruthenium pharmacokinetics, Ruthenium toxicity, Tissue Distribution, Carbon Monoxide chemistry, Organometallic Compounds chemical synthesis, Ruthenium chemistry

Abstract

Carbon monoxide has been proved to be an important signal molecule in body. Transition metal carbonyl compounds are solidified form of carbon monoxide. Numerous studies have shown that Ruthenium carbonyl carbon monoxide releasing molecules have a strong pharmacological activity. In this paper, five Ruthenium (II) carbonyl CORMs 1-5 were synthesized and their toxicology, tissue distribution and interaction with blood endogenous substances were investigated. The results showed CORMs' IC50 to fibroblasts are ranged from 212.9 to 2089.2 micromol x L(-1). Their oral LD50 to mouse is between 800 to 1600 mg x kg(-1). After repeated administration, CORMs 1 and CORMs 5 haven't shown an obvious influence to rats' liver and kidney function, but caused the injury to liver and kidney cells. The in vivo distribution result revealed the majority of CORMs were distributed in blood, liver and kidney, only a small part of CORMs distributed in lung, heart and spleen. They could scarcely cross the blood-brain barrier and distribute to brain. The non-CO ligands in structure have an obvious relevance to their in vivo absorption and distribution. Interestingly, CORMs could enhance the fluorescence of bovine serum albumin, and this enhancement was in direct proportion with the concentration of CORMs. Under different conditions, interaction of CORMs with glutathione got different type of products, one is Ruthenium (II) tricarbonyl complexes, and Ruthenium (II) dicarbonyl complexes.

Published

2013

20. On the role of abnormal DL(CO) in ex-smokers without airflow limitation: symptoms, exercise capacity and hyperpolarised helium-3 MRI.

Author

Kirby M, Owrangi A, Svenningsen S, Wheatley A, Coxson HO, Paterson NA, McCormack DG, and Parraga G

Subjects

Aged, Aged, 80 and over, Antimetabolites pharmacokinetics, Diffusion Magnetic Resonance Imaging methods, Female, Follow-Up Studies, Forced Expiratory Volume, Humans, Male, Middle Aged, Plethysmography, Pulmonary Disease, Chronic Obstructive metabolism, Pulmonary Disease, Chronic Obstructive physiopathology, Respiratory Function Tests, Surveys and Questionnaires, Tomography, X-Ray Computed, Vital Capacity, Carbon Monoxide pharmacokinetics, Exercise Tolerance physiology, Helium chemistry, Pulmonary Disease, Chronic Obstructive diagnosis, Smoking

Abstract

Background: The functional effects of abnormal diffusing capacity for carbon monoxide (DLCO) in ex-smokers without chronic obstructive pulmonary disease (COPD) are not well understood., Objective: We aimed to evaluate and compare well established clinical, physiological and emerging imaging measurements in ex-smokers with normal spirometry and abnormal DLCO with a group of ex-smokers with normal spirometry and DLCO and ex-smokers with Global Initiative for Chronic Obstructive Lung Disease (GOLD) stage I COPD., Methods: We enrolled 38 ex-smokers and 15 subjects with stage I COPD who underwent spirometry, plethysmography, St George's Respiratory Questionnaire (SGRQ), 6 min Walk Test (6MWT), x-ray CT and hyperpolarised helium-3 ((3)He) MRI. The 6MWT distance (6MWD), SGRQ scores, (3)He MRI apparent diffusion coefficients (ADC) and CT attenuation values below -950 HU (RA950) were evaluated., Results: Of 38 ex-smokers without COPD, 19 subjects had abnormal DLCO with significantly worse ADC (p=0.01), 6MWD (p=0.008) and SGRQ (p=0.01) but not RA950 (p=0.53) compared with 19 ex-smokers with normal DLCO. Stage I COPD subjects showed significantly worse ADC (p=0.02), RA950 (p=0.0008) and 6MWD (p=0.005), but not SGRQ (p=0.59) compared with subjects with abnormal DLCO. There was a significant correlation for (3)He ADC with SGRQ (r=0.34, p=0.02) and 6MWD (r=-0.51, p=0.0002)., Conclusions: In ex-smokers with normal spirometry and CT but abnormal DLCO, there were significantly worse symptoms, 6MWD and (3)He ADC compared with ex-smokers with normal DLCO, providing evidence of the impact of mild or early stage emphysema and a better understanding of abnormal DLCO and hyperpolarised (3)He MRI in ex-smokers without COPD.

Published

2013

21. In vitro absorption of atmospheric carbon monoxide and hydrogen cyanide in undisturbed pooled blood.

Author

Thoren TM, Thompson KS, Cardona PS, Chaturvedi AK, and Canfield DV

Subjects

Absorption, Accidents, Aviation, Aircraft, Autopsy, Carboxyhemoglobin analysis, Cause of Death, Female, Fires, Humans, Male, Smoke, Wounds and Injuries blood, Carbon Monoxide blood, Carbon Monoxide pharmacokinetics, Hydrogen Cyanide blood, Hydrogen Cyanide pharmacokinetics

Abstract

Blood samples from aircraft accident victims are analyzed for carboxyhemoglobin (COHb) and cyanide ion (CN(-)). Such victims often suffer open wounds near the autopsy blood collection sites. Many aircraft crashes result in fires that fill the victim's atmosphere with smoke that is rich in carbon monoxide (CO) and hydrogen cyanide (HCN). It is important to determine whether pooled blood in those wounds may have absorbed these gases after death, which could lead one to erroneously conclude that the presence of COHb and CN(-) in blood was the result of breathing in these gases. A laboratory desiccator was used as a chamber to establish whether CO or HCN may be absorbed in undisturbed, pooled blood. COHb levels were 4.3-11.0% after exposure to CO (5,532, 8,298, 11,064, 22,129 and 33,193 ppm) for 30 and 60 min. Blood CN(-) concentrations (1.43-5.01 µg/mL) increased with exposure to HCN at 100 and 200 ppm, each at 15, 30, 45 and 60 min. The observed COHb increases do not exclude the possibility for higher COHb levels in blood exposed to highly CO-rich atmospheres, but there is a strong potential for CN(-) levels to increase by the absorption of atmospheric HCN. Thus, postmortem COHb and CN(-) levels should be carefully interpreted.

Published

2013

22. Reply from the authors.

Author

Hughes JM and Pride NB

Subjects

Humans, Carbon Monoxide pharmacokinetics, Pulmonary Diffusing Capacity physiology

Published

2013

23. The usefulness of KCO is questionable.

Author

Cotton DJ and Graham BL

Subjects

Humans, Carbon Monoxide pharmacokinetics, Pulmonary Diffusing Capacity physiology

Published

2013

24. Hooray for the VA/TLC and DL(CO)/VA.

Author

Hansen JE

Subjects

Humans, Carbon Monoxide pharmacokinetics, Pulmonary Diffusing Capacity physiology

Published

2013

25. Reply: Hooray for the VA/TLC and DL(CO)/VA.

Author

Hughes JM and Pride NB

Subjects

Humans, Carbon Monoxide pharmacokinetics, Pulmonary Diffusing Capacity physiology

Published

2013

26. Pathophysiology, clinics, diagnosis and treatment of heart involvement in carbon monoxide poisoning.

Author

Lippi G, Rastelli G, Meschi T, Borghi L, and Cervellin G

Subjects

Animals, Carbon Monoxide pharmacokinetics, Carbon Monoxide pharmacology, Carbon Monoxide Poisoning diagnosis, Carbon Monoxide Poisoning therapy, Heart Diseases diagnosis, Heart Diseases physiopathology, Humans, Hyperbaric Oxygenation, Hypoxia chemically induced, Hypoxia physiopathology, Carbon Monoxide Poisoning physiopathology, Heart Diseases chemically induced

Abstract

The toxicity of carbon monoxide has been recognized for long throughout history and is unquestionably the leading cause of unintentional poisoning deaths in the Western countries. The severity of poisoning is dependent upon environmental and human factor. The leading pathophysiological mechanism resides in the ability of carbon monoxide to bind to hemoglobin molecules with high affinity, displacing oxygen and generating carboxyhemoglobin, which is virtually ineffective to deliver oxygen to the tissues. The organs with the highest demand for oxygen such as the brain and the heart are more vulnerable to injury. Myocardial involvement is commonplace in moderate to severe carbon monoxide poisoning and is associated with a substantially higher risk of mortality. Besides hypoxic damage, carbon monoxide produces myocardium injuries with cardiospecific mechanisms, mostly attributable to direct damage at cellular or subcellular level. The clinical spectrum of heart involvement is broad and encompasses cardiomyopathy, angina attack, myocardial infarction, arrhythmias and heart failure up to myocardial stunning, cardiogenic shock and sudden death. Patients with underlying cardiac disease, especially coronary heart disease, are at greater risk of infarction and arrhythmias. Single photon emission computed tomography (SPECT) is the technique of choice for diagnosing cardiac involvement, whereas the recent introduction of the highly sensitive troponin immunoassays seems promising for the early triage of patients. No specific treatment other than oxygen delivery can be advocated for cardiac toxicity at present, and 100% oxygen therapy should be continued until the patient is asymptomatic and carboxyhemoglobin levels decrease below 5-10%., (Copyright © 2012 The Canadian Society of Clinical Chemists. Published by Elsevier Inc. All rights reserved.)

Published

2012

27. Examination of the carbon monoxide diffusing capacity (DL(CO)) in relation to its KCO and VA components.

Author

Hughes JM and Pride NB

Subjects

Exercise physiology, Humans, Lung metabolism, Lung physiology, Lung Diseases metabolism, Lung Diseases physiopathology, Lung Volume Measurements, Pulmonary Alveoli metabolism, Pulmonary Alveoli physiology, Respiratory Function Tests methods, Carbon Monoxide pharmacokinetics, Pulmonary Diffusing Capacity physiology

Abstract

The single-breath carbon monoxide diffusing capacity (DL(CO)) is the product of two measurements during breath holding at full inflation: (1) the rate constant for carbon monoxide uptake from alveolar gas (kco [minute(-1)]) and (2) the "accessible" alveolar volume (Va). kco expressed per mm Hg alveolar dry gas pressure (Pb*) as kco/Pb*, and then multiplied by Va, equals Dl(CO); thus, Dl(CO) divided by Va (DL(CO)/Va, also called Kco) is only kco/Pb* in different units, remaining, essentially, a rate constant. The notion that DL(CO)/Va "corrects" DL(CO) for reduced Va is physiologically incorrect, because DL(CO)/Va is not constant as Va changes; thus, the term Kco reflects the physiology more appropriately. Crucially, the same DL(CO) may occur with various combinations of Kco and Va, each suggesting different pathologies. Decreased Kco occurs in alveolar-capillary damage, microvascular pathology, or anemia. Increased Kco occurs with (1) failure to expand normal lungs to predicted full inflation (extrapulmonary restriction); or (2) increased capillary volume and flow, either globally (left-to-right intracardiac shunting) or from flow and volume diversion from lost or damaged units to surviving normal units (e.g., pneumonectomy). Decreased Va occurs in (1) reduced alveolar expansion, (2) alveolar damage or loss, or (3) maldistribution of inspired gases with airflow obstruction. Kco will be greater than 120% predicted in case 1, 100-120% in case 2, and 40-120% in case 3, depending on pathology. Kco and Va values should be available to clinicians, as fundamental to understanding the clinical implications of DL(CO). The diffusing capacity for nitric oxide (DL(NO)), and the DL(NO)/DL(CO) ratio, provide additional insights.

Published

2012

28. Molecular detection of microorganisms in distal airways of patients undergoing lung cancer surgery.

Author

D'Journo XB, Bittar F, Trousse D, Gaillat F, Doddoli C, Dutau H, Papazian L, Raoult D, Rolain JM, and Thomas PA

Subjects

Aged, Carbon Monoxide pharmacokinetics, Cytomegalovirus physiology, Female, Humans, Lung microbiology, Lung Neoplasms microbiology, Lung Neoplasms surgery, Male, Middle Aged, Pneumonia epidemiology, Pneumonia microbiology, Pneumonia virology, Polymerase Chain Reaction, Postoperative Complications epidemiology, Postoperative Complications microbiology, Predictive Value of Tests, Pulmonary Atelectasis epidemiology, Pulmonary Atelectasis microbiology, Pulmonary Atelectasis virology, Pulmonary Diffusing Capacity, RNA, Ribosomal, 16S analysis, Respiratory Distress Syndrome epidemiology, Respiratory Distress Syndrome microbiology, Respiratory Distress Syndrome virology, Respiratory Tract Diseases epidemiology, Respiratory Tract Diseases microbiology, Respiratory Tract Diseases virology, Risk Factors, Sensitivity and Specificity, Treatment Outcome, Virus Activation, Cytomegalovirus isolation & purification, Lung virology, Lung Neoplasms virology, Pneumonectomy, Simplexvirus isolation & purification

Abstract

Background: Whereas proximal airways of patients undergoing lung cancer surgery are known to present specific microbiota incriminated in the occurrence of postoperative respiratory complications, little attention has been paid to distal airways and lung parenchyma considered to be free from bacteria. We have hypothesized that molecular culture-independent techniques applied to distal airways should allow identification of uncultured bacteria, virus, or emerging pathogens and predict the occurrence of postoperative respiratory complications., Methods: Microbiological assessments were obtained from the distal airways of resected lung specimens from a prospective cohort of patients undergoing major lung resections for cancer. Microorganisms were detected using real-time polymerase chain reaction (PCR) assays targeting the bacterial 16s ribosomal RNA gene and Herpesviridae, cytomegalovirus (CMV), and herpesvirus simplex. All postoperative microbiological assessments were compared with the PCR results., Results: In all, 240 samples from 87 patients were investigated. Colonizing agents were exclusively Herpesviridae (CMV, n=13, and herpesvirus simplex, n=1). All 16s ribosomal RNA PCR remained negative. Thirteen patients (15%) had a positive CMV PCR (positive-PCR group), whereas the remaining 74 patients constituted the negative-PCR group. Postoperative pneumonia occurred in 24% of the negative-PCR group and in 69% of the positive-PCR group (p=0.003). Upon stepwise logistic regression, performance status, percent of predicted diffusion lung capacity for carbon monoxide, and positive PCR were the risk factors of postoperative respiratory complications. The CMV PCR had a positive predictive value of 0.70 in prediction of respiratory complications., Conclusions: When tested by molecular techniques, lung parenchyma and distal airways are free of bacteria, but CMV was found in a high proportion of the samples. Molecular CMV detection in distal airways should be seen as a reliable marker to identify patients at risk for postoperative respiratory complications., (Copyright © 2012 The Society of Thoracic Surgeons. Published by Elsevier Inc. All rights reserved.)

Published

2012

29. Human immunodeficiency virus infection as a prognostic factor in surgical patients with non-small cell lung cancer.

Author

Hooker CM, Meguid RA, Hulbert A, Taylor JT, Shin J, Wrangle J, Rodgers K, Lee B, Laskshmanan S, Brown T, Meneshian A, Sussman M, Keruly J, Moore RD, Yang SC, and Brock MV

Subjects

Adult, Aged, Carbon Monoxide pharmacokinetics, Carcinoma, Non-Small-Cell Lung surgery, Case-Control Studies, Cohort Studies, Comorbidity, Disease-Free Survival, Female, Humans, Kaplan-Meier Estimate, Lung Neoplasms surgery, Male, Maryland epidemiology, Middle Aged, Patient Selection, Postoperative Complications epidemiology, Prognosis, Pulmonary Diffusing Capacity, Retrospective Studies, Smoking epidemiology, Socioeconomic Factors, Carcinoma, Non-Small-Cell Lung epidemiology, HIV Infections epidemiology, Lung Neoplasms epidemiology, Pneumonectomy statistics & numerical data

Abstract

Background: The purpose of this study was to assess the effect of human immunodeficiency virus (HIV) infection on postoperative survival among non-small cell lung cancer (NSCLC) patients., Methods: A retrospective cohort study compared 22 HIV-infected lung cancer patients to 2,430 lung cancer patients with HIV-unspecified status who underwent resection at Johns Hopkins Hospital from 1985 to 2009. Subcohort comparative analyses were performed using individual matching methods., Results: Thirty-day mortality rates did not differ between HIV-infected and HIV-unspecified patients. Survival rates for HIV-infected lung cancer patients were significantly shorter than for HIV-unspecified patients (median, 26 versus 48 months; p=0.001). After adjustment, the relative hazard of mortality among HIV-infected NSCLC patients was more than threefold that of HIV-unspecified patients (adjusted hazard ratio, 3.08; 95% confidence interval: 1.85 to 5.13). When additional surgical characteristics were modeled in a matched subcohort, the association remained statistically significant (adjusted hazard ratio, 2.31; 95% confidence interval: 1.11 to 4.81). Moreover, HIV-infected lung cancer patients with CD4 counts less than 200 cells/mm3 had shortened median survival compared with patients whose CD4 counts were 200 cells/mm3 or greater (8 versus 40 months; p=0.031). Postoperative pulmonary and infectious complications were also elevated in the HIV-infected group (p=0.001 and p<0.001, respectively). After surgery, median time to cancer progression was shorter among HIV-infected patients (20.4 months) versus HIV-unspecified patients (p=0.061)., Conclusions: The HIV-infected NSCLC patients have more postoperative complications, rapid progression to disease recurrence, and poorer postoperative survival. Optimizing immune status before surgery and careful patient selection based on diffusion capacity of lung for carbon monoxide may improve patient outcomes., (Copyright © 2012 The Society of Thoracic Surgeons. Published by Elsevier Inc. All rights reserved.)

Published

2012

30. Nicotine, carbon monoxide, and carcinogen exposure after a single use of a water pipe.

Author

Jacob P 3rd, Abu Raddaha AH, Dempsey D, Havel C, Peng M, Yu L, and Benowitz NL

Subjects

Adolescent, Adult, Carbon Monoxide analysis, Carcinogens analysis, Carcinogens, Environmental analysis, Female, Humans, Male, Nicotine analysis, Polycyclic Aromatic Hydrocarbons analysis, Polycyclic Aromatic Hydrocarbons pharmacokinetics, Smoke, Smoking blood, Surveys and Questionnaires, Young Adult, Carbon Monoxide pharmacokinetics, Carcinogens pharmacokinetics, Carcinogens, Environmental pharmacokinetics, Nicotine pharmacokinetics, Smoking metabolism, Nicotiana

Abstract

Background: Smoking tobacco preparations in a water pipe (hookah) is widespread in many places of the world, including the United States, where it is especially popular among young people. Many perceive water pipe smoking to be less hazardous than cigarette smoking. We studied systemic absorption of nicotine, carbon monoxide, and carcinogens from one water pipe smoking session., Methods: Sixteen subjects smoked a water pipe on a clinical research ward. Expired carbon monoxide and carboxyhemoglobin were measured, plasma samples were analyzed for nicotine concentrations, and urine samples were analyzed for the tobacco-specific nitrosamine 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol (NNAL) and polycyclic aromatic hydrocarbon (PAH) metabolite biomarker concentrations., Results: We found substantial increases in plasma nicotine concentrations, comparable to cigarette smoking, and increases in carbon monoxide levels that are much higher than those typically observed from cigarette smoking, as previously published. Urinary excretion of NNAL and PAH biomarkers increased significantly following water pipe smoking., Conclusions: Absorption of nicotine in amounts comparable to cigarette smoking indicates a potential for addiction, and absorption of significant amounts of carcinogens raise concerns of cancer risk in people who smoke tobacco products in water pipes., Impact: Our data contribute to an understanding of the health impact of water pipe use., (© 2011 AACR.)

Published

2011

31. Investigation into the mechanism(s) of antithrombotic effects of carbon monoxide releasing molecule-3 (CORM-3).

Author

Soni H, Jain M, and Mehta AA

Subjects

Animals, Antithrombins pharmacokinetics, Antithrombins pharmacology, Blood Platelets drug effects, Carbon Monoxide pharmacokinetics, Disease Models, Animal, Humans, Male, Organometallic Compounds pharmacokinetics, Plasminogen Activator Inhibitor 1 blood, Plasminogen Activator Inhibitor 1 metabolism, Rats, Rats, Wistar, Thrombin pharmacology, Thrombosis blood, Thrombosis drug therapy, p38 Mitogen-Activated Protein Kinases metabolism, Carbon Monoxide pharmacology, Organometallic Compounds pharmacology, Platelet Aggregation drug effects

Abstract

Carbon monoxide (CO) like nitric oxide (NO) has been recognized as activator of soluble guanylate cyclase (sGC) in many physiological functions. Studies, which demonstrate the mechanisms by which CO inhibits platelet aggregation in in vivo models, are few. Here we investigated the possible involvement of sGC, NO, plasminogen activator inhibitor (PAI-1) and p38 MAP Kinase in antithrombotic effects of CO released by a novel, water-soluble, CO releasing molecule-3 (CORM-3) using rat. The effects of CORM-3 on in vitro and ex vivo platelet aggregation induced by thrombin as well as in in vivo thrombosis models were studied. When added to rat washed platelets in in vitro study, CORM-3 (100 and 200 μM) inhibited thrombin-induced platelet aggregation. Similarly, antiplatelet effect was also observed when 3mg/kg i.v. infusion of CORM-3 administered for 10 minutes in ex vivo study using rat. Interestingly, in presence of inhibitor of sGC (ODQ, 10mg/kg,i.p.) and inhibitor of nitric oxide synthase (L-NAME, 30 mg/kg,i.p.), inhibition of thrombin-induced aggregation by CORM-3 was significantly blocked. Notably, in presence of inhibitor of K(ATP) channel (glibenclamide, 10mg/kg,i.p.) and p38 MAP Kinase (SCIO-469, 1mg/kg, i.p.), inhibition of aggregation by CORM-3 was not blocked. In in vivo studies using animal models of thrombosis, we found that CORM-3-mediated antithrombotic effect was dependent on activation of sGC, NO and suppression of PAI-1 in arterial thrombosis and Arterio-Venous (A-V) shunt models. Therefore, we concluded that antithrombotic activity of CORM-3 may be mediated by activation of sGC, NO and inhibition of PAI-1., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

32. Carbon monoxide transport and actions in blood and tissues.

Author

Thom SR

Subjects

Animals, Binding, Competitive, Biological Transport physiology, Blood Cells drug effects, Carbon Monoxide blood, Carbon Monoxide pharmacology, Carbon Monoxide physiology, Hemeproteins metabolism, Humans, Lung metabolism, Models, Biological, Pulmonary Gas Exchange physiology, Carbon Monoxide pharmacokinetics

Abstract

This chapter will discuss the transport of carbon monoxide (CO) from the environment to the tissues of the body and physiological effects on blood-borne cells and perivascular tissues. It will review the physiology of CO exchange between alveolar gas and pulmonary capillary blood, dynamics of hemoglobin transport, the effects of CO on blood elements, and the effects of CO on extravascular tissues at the capillary bed. Effects of CO from exogenous and endogenous sources on the activities of different proteins will be reviewed. Because CO binds competitively to heme-containing proteins its effects depend on CO concentration relative to alternative ligands. Therefore, some discussion is devoted to how nitric oxide and hydrogen sulfide influence CO effects., (© 2011 American Physiological Society.)

Published

2011

33. Carbon monoxide uptake kinetics of arterial, venous and capillary blood during CO rebreathing.

Author

Garvican LA, Burge CM, Cox AJ, Clark SA, Martin DT, and Gore CJ

Subjects

Adult, Arteries metabolism, Blood Specimen Collection, Capillaries metabolism, Carboxyhemoglobin analysis, Carboxyhemoglobin metabolism, Female, Humans, Male, Middle Aged, Veins metabolism, Carbon Monoxide administration & dosage, Carbon Monoxide pharmacokinetics, Respiration

Abstract

The uptake and distribution of CO throughout the circulatory system during two different methods of CO rebreathing (2 min 'Schmidt' and 40 min 'Burge' methods) were determined in nine healthy volunteers. Specifically, the impact of (i) differences in circulatory mixing time (t(mix)), (ii) CO diffusion to myoglobin (Mb) and (iii) CO wash-out was assessed on calculated haemoglobin mass (Hb(mass)). Arterial (a), muscle venous (vm) and capillary samples (c) were obtained simultaneously at 0, 1, 2, 3.5, 5, 7.5, 10, 12.5, 15, 20, 30 and 40 min for determination of carboxyhaemoglobin (HbCO). Carbon monoxide wash-out was measured from expired air following rebreathing. The rate of CO diffusion to Mb was calculated using the change in HbCO after t(mix), and the rate of CO wash-out. In both methods, HbCOa and HbCOc followed a near-identical time course, peaking within the first 2 min and decreasing thereafter. The HbCOvm increased slowly and was significantly lower at 1, 2 and 3.5 min in both methods (P < 0.01). The HbCOa peaked significantly higher in the Schmidt method (P = 0.03). Circulatory mixing had occurred by 10 min in most but not all subjects. The rate of CO wash-out was 0.25 ± 0.13 ml min⁻¹ in the Schmidt and 0.25 ± 0.16 ml min⁻¹ in the Burge method. The rate of CO diffusion to Mb was 0.22 ± 0.11 and 0.16 ± 0.13 ml min⁻¹ (P = 0.63) in Schmidt and Burge methods, respectively. Inhalation of a CO bolus during the Schmidt method results in faster HbCOa uptake but does not greatly shorten t(mix) or influence rates of CO wash-out and flux to Mb. The calculated Hb(mass) depends substantially on the plateau level of HbCO; therefore, it is paramount to ensure HbCO is mixed completely prior to blood sampling, as well as accounting for potential within-subject alterations of CO exhalation and CO flux to Mb.

Published

2010

34. Intraoperative administration of inhaled carbon monoxide reduces delayed graft function in kidney allografts in Swine.

Author

Hanto DW, Maki T, Yoon MH, Csizmadia E, Chin BY, Gallo D, Konduru B, Kuramitsu K, Smith NR, Berssenbrugge A, Attanasio C, Thomas M, Wegiel B, and Otterbein LE

Subjects

Animals, Carbon Monoxide pharmacokinetics, Cell Death drug effects, Cell Proliferation drug effects, Female, Gene Expression Profiling, Graft Rejection prevention & control, Kidney metabolism, Kidney Tubular Necrosis, Acute etiology, Kidney Tubular Necrosis, Acute immunology, Reperfusion Injury prevention & control, Swine, Tacrolimus pharmacokinetics, Carbon Monoxide therapeutic use, Delayed Graft Function drug therapy, Kidney Transplantation physiology

Abstract

Ischemia/reperfusion injury and delayed graft function (DGF) following organ transplantation adversely affect graft function and survival. A large animal model has not been characterized. We developed a pig kidney allograft model of DGF and evaluated the cytoprotective effects of inhaled carbon monoxide (CO). We demonstrate that donor warm ischemia time is a critical determinant of DGF as evidenced by a transient (4-6 days) increase in serum creatinine and blood urea nitrogen following transplantation before returning to baseline. CO administered to recipients intraoperatively for 1 h restored kidney function more rapidly versus air-treated controls. CO reduced acute tubular necrosis, apoptosis, tissue factor expression and P-selectin expression and enhanced proliferative repair as measured by phosphorylation of retinol binding protein and histone H3. Gene microarray analyses with confirmatory PCR of biopsy specimens showed that CO blocked proinflammatory gene expression of MCP-1 and heat shock proteins. In vitro in pig renal epithelial cells, CO blocks anoxia-reoxygenation-induced cell death while promoting proliferation. This large animal model of DGF can be utilized for testing therapeutic strategies to reduce or prevent DGF in humans. The efficacy of CO on improving graft function posttransplant validates the model and offers a potentially important therapeutic strategy to improve transplant outcomes., (©2010 The Authors Journal compilation©2010 The American Society of Transplantation and the American Society of Transplant Surgeons.)

Published

2010

35. CO liberated from a carbon monoxide-releasing molecule exerts a positive inotropic effect in doxorubicin-induced cardiomyopathy.

Author

Musameh MD, Green CJ, Mann BE, Motterlini R, and Fuller BJ

Subjects

Animals, Carbon Monoxide pharmacokinetics, Cardiomyopathies metabolism, Cardiotonic Agents pharmacokinetics, Cardiotoxins toxicity, In Vitro Techniques, Male, Organometallic Compounds pharmacokinetics, Rats, Rats, Inbred Lew, Carbon Monoxide therapeutic use, Cardiomyopathies chemically induced, Cardiomyopathies drug therapy, Cardiotonic Agents therapeutic use, Doxorubicin toxicity, Organometallic Compounds therapeutic use

Abstract

Carbon monoxide (CO) liberated by a water-soluble carbon monoxide-releasing molecule (CORM-3) induces a positive inotropic effect with a negative chronotropic effect in normal rat hearts. However, the efficacy of CORM-3 under conditions of chronic cardiac insufficiency is unknown. In a rat model of doxorubicin-induced cardiomyopathy, CORM-3 (20 microg/min) produced a positive inotropic effect as demonstrated by significant increases in systolic pressure (P < 0.05) and pressure derivative (dp/dt max) over time (P < 0.05). A similar dose of CO-depleted negative control (inactive CORM-3) failed to cause any change in these parameters. When the inotrope dobutamine was added at a dose of 10 microM following CORM-3, there was no additional increase in systolic pressure or dp/dt max. However, significant rises in systolic pressure and dp/dt max were observed after dobutamine administration to the hearts previously treated with inactive CORM-3. These results suggest that CORM-3 produces a positive inotropic effect in doxorubicin cardiomyopathy rat hearts, similar to that reported previously in normal hearts. The inotropic effect produced by CO in the doxorubicin cardiomyopathy heart was mimicked by a classical inotrope (dobutamine), suggesting that either a maximal inotropic effect is achieved at this dose of CORM-3 or both drugs utilize shared signaling pathways in cardiac muscle.

Published

2010

36. [Forensic medical toxicometry of acute carbon monoxide poisoning during alcoholic intoxication].

Author

Abdukarimov BA and Iskandarov AI

Subjects

Acute Disease, Adolescent, Adult, Aged, Alcoholic Intoxication pathology, Carbon Monoxide Poisoning pathology, Child, Child, Preschool, Female, Humans, Infant, Infant, Newborn, Male, Middle Aged, Pharmacokinetics, Retrospective Studies, Alcoholic Intoxication metabolism, Carbon Monoxide pharmacokinetics, Carbon Monoxide Poisoning metabolism, Carboxyhemoglobin metabolism, Ethanol pharmacokinetics, Forensic Toxicology

Abstract

Data on general toxicity of carbon monoxide (CO) are presented with reference to the gender, age, and the degree of alcoholic intoxication of the affected subjects. Threshold values of carboxyhemoglobinemia for clinical and morphological manifestations of alcoholic intoxication were determined. Expert evaluation of CO toxicokinetics in subjects with alcoholic intoxication revealed informative clinical and morphological signs of carbon monoxide poisoning, the basic parameters of carboxyhemoglobin kinetics, and the sequence of CO-induced clinical and morphological changes during alcoholic intoxication. The data obtained permit to exactly determine the specific cause of death from poisoning with carbon monoxide and ethanol.

Published

2010

37. Carbon monoxide concentration in donated blood: relation to cigarette smoking and other sources.

Author

Aberg AM, Sojka BN, Winsö O, Abrahamsson P, Johansson G, and Larsson JE

Subjects

Adult, Chi-Square Distribution, Chromatography, Gas, Female, Half-Life, Humans, Male, Middle Aged, ROC Curve, Specimen Handling, Surveys and Questionnaires, Sweden, Time Factors, Blood Donors, Carbon Monoxide blood, Carbon Monoxide pharmacokinetics, Inhalation Exposure, Smoking adverse effects

Abstract

Background: Carbon monoxide (CO) is normally present in the human body due to endogenous production of CO. CO can also be inhaled by exposure to external sources such as cigarette smoke, car exhaust, and fire. The purpose of this study was to investigate CO concentrations in blood from 410 blood donors at the blood center in Umeå, Sweden. To further evaluate the effects of cigarette smoking on CO concentrations, the elimination time for CO was examined in six volunteer smokers after a smoked cigarette., Study Design and Methods: Blood samples from whole blood donors were obtained during the blood center's routine operation. In connection with blood donations, demographic and behavioral data were collected from the donors. The CO concentration was determined using gas chromatography., Results: The majority of blood donors had approximately the same CO concentration (mean, 84.5 micromol/L). In 6 percent of the samples, the concentrations were higher than 130 micromol per L. The highest CO concentration was 561 micromol per L. The main source for these high CO concentrations appeared to be cigarette smoking. In the volunteer smokers, the elimination time after a smoked cigarette varied significantly, with elimination half-lives from 4.7 to 8.4 hours., Conclusion: These results show that blood bank red blood cell bags may have CO concentrations above the physiologic level. The time interval between cigarette smoking and blood donation seems to be a particularly important factor for elevated CO concentrations.

Published

2009

38. Prediction equations for single breath diffusing capacity (Tlco) in a middle aged caucasian population.

Author

Thompson BR, Johns DP, Bailey M, Raven J, Walters EH, and Abramson MJ

Subjects

Aged, Aging physiology, Body Height, Female, Forced Expiratory Volume physiology, Humans, Male, Middle Aged, Pulmonary Diffusing Capacity physiology, Reference Values, Respiration, Sex Characteristics, Vital Capacity physiology, Carbon Monoxide pharmacokinetics, Lung metabolism, White People

Abstract

Background: There are many reference equations for the measurement of single breath carbon monoxide diffusing capacity of the lung (Tlco). However, the testing methodologies vary and there are no well documented studies that have developed reference equations for Tlco and alveolar volume (Va) in middle aged and older populations., Aims: (1) Develop reference equations for Tlco in a middle aged population using the current American Thoracic Society/European Respiratory Society (ATS/ERS) guidelines; (2) compare the equations with those commonly used in laboratories around the world., Methods: Healthy subjects (498 male and 474 female) aged 45-71 years were recruited as part of a larger epidemiological study. All participants completed a respiratory questionnaire and had spirometry and single breath Tlco (corrected for haemoglobin) measurements following ATS/ERS guidelines., Results: Mean age was 58 years for males and 57 years for females. For males, factors that predicted Tlco were: height, age, agexheight interaction and being an ex-smoker. For females, factors that predicted Tlco were: height, age, weight and an agexheight interaction., Conclusion: We have described new prediction equations for Tlco in a middle aged population that require validation in other populations.

Published

2008

39. The effect of cigarette burn time on exposure to nicotine and carbon monoxide in adult smokers.

Author

Liang Q, Roethig HJ, Lipowicz PJ, Jin Y, and Mendes PE

Subjects

Adult, Biomarkers metabolism, Carbon Monoxide pharmacokinetics, Environmental Exposure, Female, Humans, Male, Middle Aged, Models, Statistical, Nicotine pharmacokinetics, Carboxyhemoglobin metabolism, Nicotine urine, Smoking

Abstract

Cigarette burn time (CBT), conventionally defined as the time a cigarette burns during smoking, can be affected by cigarette design and smoking behavior. A previous study showed a strong negative correlation between CBT and nicotine yield under machine smoking conditions. This study for the first time examined the relationship of CBT and exposure to nicotine and carbon monoxide in adult smokers in a controlled clinical study. 24h nicotine equivalents excretion (NE), carboxyhemoglobin (COHb) and CBT were measured in two groups of 20 adults smoking Marlboro Lights and 20 adults smoking Marlboro Ultra on two consecutive days. Approximately 20% of the total variability in CBT was attributed to cigarette brand, 34% to smokers and 1% to study day. The exposure index, defined as the number of cigarettes smoked per day divided by average daily CBT for each smoker, accounted for a large proportion of the total variability in NE (R(2)=0.79-0.91) and COHb (R(2)=0.85-0.90). We conclude that CBT has an important influence on levels of NE and COHb in adult smokers. CBT, along with the number of cigarettes smoked per day, can be used to estimate adult smokers' exposure to nicotine and carbon monoxide.

Published

2008

40. Characterization of ligand migration mechanisms inside hemoglobins from the analysis of geminate rebinding kinetics.

Author

Abbruzzetti S, Bruno S, Faggiano S, Ronda L, Grandi E, Mozzarelli A, and Viappiani C

Subjects

Capsules chemistry, Carbon Monoxide chemistry, Diffusion, Ligands, Models, Biological, Photolysis, Protein Binding, Silica Gel, Silicon Dioxide chemistry, Carbon Monoxide metabolism, Carbon Monoxide pharmacokinetics, Hemoglobins chemistry, Hemoglobins metabolism, Movement

Abstract

The presence of internal hydrophobic cavities and packing defects has been demonstrated for several small globular proteins, including hemoglobins. The reduced thermodynamic stability appears to be compensated for by the capability of controlling ligand diffusion through the protein matrix to the active site, possibly by stocking more than one reactant molecule in selected sites. Photolysis of carbon monoxide complexes of hemoglobins encapsulated in silica gels leads to multiphasic geminate rebinding kinetics at room temperature, reflecting rebinding also from different temporary docking sites inside the protein matrix. A careful analysis of the ligand rebinding kinetics allows the determination of the microscopic rates for the underlying reactions, including those governing the migration to and from the docking sites. This chapter describes the experimental approach used to characterize the ligand rebinding kinetics for heme proteins in silica gels after nanosecond laser flash photolysis and the computational methods necessary to retrieve the kinetic parameters.

Published

2008

41. Restoring HOmeostasis: is heme oxygenase-1 ready for the clinic?

Author

Scott JR, Chin BY, Bilban MH, and Otterbein LE

Subjects

Atherosclerosis physiopathology, Bilirubin adverse effects, Bilirubin pharmacokinetics, Bilirubin therapeutic use, Biliverdine therapeutic use, Carbon Monoxide adverse effects, Carbon Monoxide pharmacokinetics, Carbon Monoxide therapeutic use, Cytoprotection drug effects, Heme Oxygenase-1 physiology, Homeostasis drug effects, Homeostasis physiology, Humans, Protective Agents adverse effects, Protective Agents pharmacokinetics, Protective Agents therapeutic use, Sepsis physiopathology, Thrombosis physiopathology, Bilirubin pharmacology, Biliverdine pharmacology, Carbon Monoxide pharmacology, Heme Oxygenase-1 metabolism, Protective Agents pharmacology

Abstract

Inflammation and immunity result in a wide range of disease processes, including atherosclerosis, vascular thrombosis and sepsis. Heme oxygenase-1 (HO-1) is a key enzyme that is integral to the temporal and spatial regulation of the host response and, together with its products carbon monoxide (CO) and bilirubin, is crucial for maintaining homeostasis and the preservation of function and life. An increasing number of reports demonstrates that HO-1, CO and bilirubin regulate the immune response. As CO and bilirubin enter clinical trials, there are obstacles to be addressed before their full therapeutic potential can be achieved. In this article, we delineate the challenges that lie ahead regarding toxicity, pharmacokinetics and mechanisms of action to be able to take full advantage of the powerful cytoprotective properties of these agents for clinical benefit.

Published

2007

42. Towards an exact treatment of exchange and correlation in materials: application to the "CO adsorption puzzle" and other systems.

Author

Hu QM, Reuter K, and Scheffler M

Subjects

Adsorption, Carbon Monoxide pharmacokinetics, Models, Chemical

Abstract

It is shown that the errors of present-day exchange-correlation (XC) functionals are rather short ranged. For extended systems, the correction can therefore be evaluated by analyzing properly chosen clusters and employing highest-quality quantum chemistry methods. The XC correction rapidly approaches a universal dependence with cluster size. The method is applicable to bulk systems as well as to defects in the bulk and at surfaces. It is demonstrated here for CO adsorption at transition-metal surfaces, where present-day XC functionals dramatically fail to predict the correct adsorption site, and for the crystal bulk cohesive energy.

Published

2007

43. A new method for estimating the retention of selected smoke constituents in the respiratory tract of smokers during cigarette smoking.

Author

Feng S, Plunkett SE, Lam K, Kapur S, Muhammad R, Jin Y, Zimmermann M, Mendes P, Kinser R, and Roethig HJ

Subjects

Acetaldehyde analysis, Acetaldehyde pharmacokinetics, Adult, Butadienes analysis, Butadienes pharmacokinetics, Carbon Monoxide analysis, Carbon Monoxide pharmacokinetics, Ethylenes analysis, Ethylenes pharmacokinetics, Hemiterpenes analysis, Hemiterpenes pharmacokinetics, Humans, Male, Nitrosamines analysis, Nitrosamines pharmacokinetics, Pentanes analysis, Pentanes pharmacokinetics, Respiratory Function Tests, Smoking, Breath Tests, Plants, Toxic, Smoke analysis, Nicotiana

Abstract

This report describes a new method for estimating the retention of selected mainstream smoke constituents in the respiratory tract of adult smokers during cigarette smoking. Both particulate-phase (PP) constituents including nicotine, 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK), and N'-nitrosonornicotine (NNN), two tobacco-specific nitrosamines (TSNA), and gas-vapor-phase (GVP) constituents including carbon monoxide (CO), isoprene (IP), acetaldehyde (AA), and ethylene, were studied. To estimate the amounts of smoke constituents delivered during smoking, we used predetermined linear relationships between the measured cigarette filter solanesol content and machine-generated mainstream deliveries of these selected compounds. To determine the amounts of smoke constituents exhaled, the expired breath was directed through a Cambridge filter pad (CFP) attached to an infrared spectrometer. PP compounds were trapped on the CFP for later analysis and GVP compounds were analyzed in near real time. The smokers' respiratory parameters during smoking, such as inhalation/exhalation volume and time, were monitored using LifeShirt(R), a respiratory inductive plethysmography (RIP) device. The retention of each smoke constituent, expressed as a percentage, was then calculated as the difference between the amount delivered (estimated) and the amount exhaled relative to the amount delivered. We studied 16 adult male smokers who smoked cigarettes according to 3 predefined smoking patterns: no inhalation (pattern A), normal inhalation (pattern B), and deep inhalation (pattern C). For the three PP constituents, the mean retentions for pattern A ranged between 10 and 20%; and while the mean retentions of the two TSNAs were significantly higher for pattern C (84% for NNK and 97% for NNN) than those for pattern B (63% for NNK and 84% for NNN), the mean retentions of nicotine were basically the same between patterns B and C, which were both greater than 98%. For the GVP constituents, the retentions were similar between pattern B and pattern C, although different constituents were retained to different degrees (average values of 33%, 52%, 79%, and 99% for ethylene, IP, CO, and AA, respectively). The differences in the retention between different constituents could be interpreted in terms of each constituent's physical properties such as volatility and solubility. In conclusion, the method described is suitable for studying the retention of selected mainstream smoke constituents in the respiratory tract of smokers.

Published

2007

44. Chronic GVHD and pretransplantation abnormalities in pulmonary function are the main determinants predicting worsening pulmonary function in long-term survivors after stem cell transplantation.

Author

Savani BN, Montero A, Srinivasan R, Singh A, Shenoy A, Mielke S, Rezvani K, Karimpour S, Childs R, and Barrett AJ

Subjects

Adolescent, Adult, Carbon Monoxide pharmacokinetics, Child, Chronic Disease, Comorbidity, Disease Progression, Female, Follow-Up Studies, Forced Expiratory Volume, Hematologic Diseases physiopathology, Hematologic Diseases surgery, Hematologic Neoplasms physiopathology, Humans, Lung Diseases physiopathology, Male, Middle Aged, Proportional Hazards Models, Pulmonary Diffusing Capacity, Pulmonary Disease, Chronic Obstructive complications, Pulmonary Disease, Chronic Obstructive physiopathology, Respiratory Insufficiency etiology, Respiratory Insufficiency physiopathology, Survival Analysis, Transplantation Conditioning adverse effects, Treatment Outcome, Whole-Body Irradiation adverse effects, Graft vs Host Disease complications, Hematologic Neoplasms surgery, Lung physiopathology, Lung Diseases complications, Peripheral Blood Stem Cell Transplantation adverse effects, Postoperative Complications etiology

Abstract

Pulmonary function (PF) was studied in 69 consecutive patients with hematologic diseases, with a minimum 5-year (range, 5-13 years) follow-up after allogeneic stem cell transplantation from an HLA-matched sibling. Fifty-six patients (81%) received total body irradiation based myeloablative stem cell transplantation (MT) and 13 (19%) underwent nonmyeloablative stem cell transplantation (NST). Thirty-one patients (45%) developed a late decrease in PF from baseline, 25 with a restrictive and 6 with an obstructive pattern PF abnormality. Twelve patients (17%) were symptomatic, 8 with a severe restrictive PF defect, but none required supplemental oxygen. The incidence of developing a late PF abnormality was comparable in MT (24 of 56) and NST (5 of 13; P = .51). In multivariate analysis, chronic graft-versus-host disease (relative risk, 16) and pretransplantation diffusion capacity for carbon monoxide or forced expiratory volume in the first second <80% predicted were independently associated with a late decrease in PF from baseline (relative risk, 7). Our results indicate that late PF abnormality is common after MT and NST. Patients with a low pretransplantation diffusion capacity for carbon monoxide of or forced expiratory volume in the first second who developed chronic graft-versus-host disease were most severely affected. Longer follow-up is needed to determine whether PF will continue to decrease or reach a plateau and whether more patients with PF abnormality will eventually become symptomatic.

Published

2006

45. Ex vivo application of carbon monoxide in University of Wisconsin solution to prevent intestinal cold ischemia/reperfusion injury.

Author

Nakao A, Toyokawa H, Tsung A, Nalesnik MA, Stolz DB, Kohmoto J, Ikeda A, Tomiyama K, Harada T, Takahashi T, Yang R, Fink MP, Morita K, Choi AM, and Murase N

Subjects

Adenosine chemistry, Adenosine pharmacokinetics, Adenosine pharmacology, Allopurinol chemistry, Allopurinol pharmacokinetics, Allopurinol pharmacology, Animals, Antimetabolites analysis, Antimetabolites pharmacokinetics, Carbon Monoxide analysis, Carbon Monoxide pharmacokinetics, Disease Models, Animal, Glutathione chemistry, Glutathione pharmacokinetics, Glutathione pharmacology, Graft Survival drug effects, Insulin chemistry, Insulin pharmacokinetics, Insulin pharmacology, Intestinal Mucosa drug effects, Intestinal Mucosa metabolism, Intestinal Mucosa ultrastructure, Intestine, Small metabolism, Male, Microscopy, Electron, Transmission, Organ Preservation, Organ Preservation Solutions chemistry, Organ Preservation Solutions pharmacokinetics, Raffinose chemistry, Raffinose pharmacokinetics, Raffinose pharmacology, Rats, Rats, Inbred Lew, Reperfusion Injury etiology, Reperfusion Injury metabolism, Treatment Outcome, Antimetabolites pharmacology, Carbon Monoxide pharmacology, Intestine, Small blood supply, Intestine, Small transplantation, Organ Preservation Solutions pharmacology, Organ Transplantation adverse effects, Reperfusion Injury prevention & control

Abstract

Carbon monoxide (CO), a byproduct of heme catalysis, was shown to have potent cytoprotective and anti-inflammatory effects. In vivo recipient CO inhalation at low concentrations prevented ischemia/reperfusion (I/R) injury associated with small intestinal transplantation (SITx). This study examined whether ex vivo delivery of CO in University of Wisconsin (UW) solution could ameliorate intestinal I/R injury. Orthotopic syngenic SITx was performed in Lewis rats after 6 h cold preservation in control UW or UW that was bubbled with CO gas (0.1-5%) (CO-UW). Recipient survival with intestinal grafts preserved in 5%, but not 0.1%, CO-UW improved to 86.7% (13/15) from 53% (9/17) with control UW. At 3 h after SITx, grafts stored in 5% CO-UW showed improved intestinal barrier function, less mucosal denudation and reduced inflammatory mediator upregulation compared to those in control UW. Preservation in CO-UW associated with reduced vascular resistance (end preservation), increased graft cyclic guanosine monophosphate levels (1 h), and improved graft blood flow (1 h). Protective effects of CO-UW were reversed by ODQ, an inhibitor of soluble guanylyl cyclase. In vitro culture experiment also showed better preservation of vascular endothelial cells with CO-UW. The study suggests that ex vivo CO delivery into UW solution would be a simple and innovative therapeutic strategy to prevent transplant-induced I/R injury.

Published

2006

46. Concentration of carbon monoxide (CO) in postmortem human tissues: effect of environmental CO exposure.

Author

Vreman HJ, Wong RJ, Stevenson DK, Smialek JE, Fowler DR, Li L, Vigorito RD, and Zielke HR

Subjects

Adipose Tissue chemistry, Adolescent, Adult, Aged, Brain Chemistry, Carbon Monoxide analysis, Carboxyhemoglobin analysis, Case-Control Studies, Child, Chromatography, Gas, Female, Humans, Kidney chemistry, Lung chemistry, Male, Middle Aged, Myocardium chemistry, Spleen chemistry, Tissue Distribution, Carbon Monoxide pharmacokinetics, Environmental Exposure

Abstract

We studied how carbon monoxide (CO) is distributed within the human body through quantitation of CO concentrations in postmortem tissue samples from fatalities including possible CO exposure. Stored, frozen tissues were diced, sonicated in water, and 0.01-8.0 mg wet weight (ww) tissues were incubated with sulfosalicylic acid in CO-purged, septum-sealed vials. CO released into the headspace was quantitated by reduction gas chromatography. Mean tissue CO concentrations (pmol/mg ww) from subjects diagnosed to have no known CO exposure (control, N=14), died from fire (N=13), and CO asphyxiation (N=7), respectively, were: adipose (2;13;9), brain (3;13;65), muscle (15;97;297), heart (30;99;371), kidney (22;432;709, lung (54;690;2638), spleen (73;1366;3548), and blood (162;2238;5070). Carboxyhemoglobin concentrations were 1.4%, 25.2%, and 69.1% of total hemoglobin, respectively. We conclude that measurements of CO concentration in a variety of tissues can be used as markers for the degree of exogenous CO exposure and the identification of possible causes of death.

Published

2006

47. Measurement of single breath-hold carbon monoxide diffusing capacity in healthy infants and toddlers.

Author

Castillo A, Llapur CJ, Martinez T, Kisling J, Williams-Nkomo T, Coates C, and Tepper RS

Subjects

Body Height physiology, Body Weights and Measures, Carbon Monoxide pharmacokinetics, Female, Humans, Infant, Lung physiology, Lung Volume Measurements instrumentation, Male, Pulmonary Alveoli metabolism, Pulmonary Diffusing Capacity instrumentation, Pulmonary Diffusing Capacity physiology, Pulmonary Gas Exchange physiology, Total Lung Capacity physiology, Carbon Monoxide analysis, Lung Volume Measurements methods, Pulmonary Diffusing Capacity methods

Abstract

We describe a method for measuring carbon monoxide diffusing capacity (DL(CO)) and alveolar volume (V(A)) in sleeping infants, using a single 4-sec breath-hold technique. The breath-hold maneuver is obtained by inducing a respiratory pause of the respiratory system. Several inflations of the respiratory system with room air to a lung volume with an airway pressure of 30 cmH2O (V30) inhibit inspiratory effort. The respiratory system is then inflated with a test gas containing helium and a stable isotope of carbon monoxide (C18O), and a respiratory pause is maintained for 4 sec and followed by passive expiration to functional residual capacity. Concentrations of helium and C18O are continuously measured with a mass spectrometer. Twelve healthy infants between 6-22 months of age were evaluated. For 9 of 12 subjects, duplicate measurements of alveolar volume at 30 cmH2O (V(A30)) and DL(CO) were within 10%, which are the recommendations for older children and adults. Among these 9 subjects, values of V(A30) and DL(CO) increased with increasing body length (r2 = 0.82 and 0.79, respectively). The remaining 3 subjects had two values within 10-15%. Measurement of V(A) and DL(CO) with the single breath-hold technique at an elevated lung volume offers the potential to assess growth and development of the lung parenchyma early in life., (Copyright 2006 Wiley-Liss, Inc.)

Published

2006

48. Analysis of factors that influence rates of carbon monoxide uptake, distribution, and washout from blood and extravascular tissues using a multicompartment model.

Author

Bruce MC and Bruce EN

Subjects

Carbon Monoxide toxicity, Carbon Monoxide Poisoning blood, Carbon Monoxide Poisoning metabolism, Carbon Monoxide Poisoning therapy, Carboxyhemoglobin metabolism, Humans, Male, Muscle, Skeletal blood supply, Oxygen metabolism, Oxygen Inhalation Therapy, Carbon Monoxide pharmacokinetics, Models, Biological, Muscle, Skeletal metabolism

Abstract

To better understand factors that influence carbon monoxide (CO) washout rates, we utilized a multicompartment mathematical model to predict rates of CO uptake, distribution in vascular and extravascular (muscle vs. other soft tissue) compartments, and washout over a range of exposure and washout conditions with varied subject-specific parameters. We fitted this model to experimental data from 15 human subjects, for whom subject-specific parameters were known, multiple washout carboxyhemoglobin (COHb) levels were available, and CO exposure conditions were identical, to investigate the contributions of exposure conditions and individual variability to CO washout from blood. We found that CO washout from venous blood was biphasic and that postexposure times at which COHb samples were obtained significantly influenced the calculated CO half times (P < 0.0001). The first, more rapid, phase of CO washout from the blood reflected the loss of CO to the expired air and to a slow uptake by the muscle compartment, whereas the second, slower washout phase was attributable to CO flow from the muscle compartment back to the blood and removal from blood via the expired air. When the model was used to predict the effects of varying exposure conditions for these subjects, the CO exposure duration, concentration, peak COHb levels, and subject-specific parameters each influenced washout half times. Blood volume divided by ventilation correlated better with half-time predictions than did cardiac output, muscle mass, or ventilation, but it explained only approximately 50% of half-time variability. Thus exposure conditions, COHb sampling times, and individual parameters should be considered when estimating CO washout rates for poisoning victims.

Published

2006

49. An open-circuit method for determining lung diffusing capacity during exercise: comparison to rebreathe.

Author

Snyder EM, Johnson BD, and Beck KC

Subjects

Adult, Carbon Monoxide pharmacokinetics, Cardiac Output physiology, Dyspnea physiopathology, Female, Humans, Male, Middle Aged, Respiratory Mechanics physiology, Exercise physiology, Pulmonary Gas Exchange physiology, Respiratory Function Tests methods

Abstract

To avoid limitations associated with the use of single-breath and rebreathe methods for assessing the lung diffusing capacity for carbon monoxide (D(L)CO) during exercise, we developed an open-circuit technique. This method does not require rebreathing or alterations in breathing pattern and can be performed with little cognition on the part of the patient. To determine how this technique compared with the traditional rebreathe (D(L)CO,RB) method, we performed both the open-circuit (D(L)CO,OC) and the D(L)CO,RB methods at rest and during exercise (25, 50, and 75% of peak work) in 11 healthy subjects [mean age = 34 yr (SD 11)]. Both D(L)CO,OC and D(L)CO,RB increased linearly with cardiac output and external work. There was a good correlation between D(L)CO,OC and D(L)CO,RB for rest and exercise (mean of individual r2 = 0.88, overall r2 = 0.69, slope = 0.97). D(L)CO,OC and D(L)CO,RB were similar at rest and during exercise [e.g., rest = 27.2 (SD 5.8) vs. 29.3 (SD 5.2), and 75% peak work = 44.0 (SD 7.0) vs. 41.2 ml.min(-1).mmHg(-1) (SD 6.7) for D(L)CO,OC vs. D(L)CO,RB]. The coefficient of variation for repeat measurements of D(L)CO,OC was 7.9% at rest and averaged 3.9% during exercise. These data suggest that the D(L)CO,OC method is a reproducible, well-tolerated alternative for determining D(L)CO, particularly during exercise. The method is linearly associated with cardiac output, suggesting increased alveolar-capillary recruitment, and values were similar to the traditional rebreathe method.

Published

2005

50. Effects of asbestos and smoking on gas diffusion in people exposed to crocidolite.

Author

Alfonso HS, Fritschi L, de Klerk NH, Olsen N, Sleith J, and Musk AB

Subjects

Age Distribution, Cohort Studies, Epidemiological Monitoring, Female, Follow-Up Studies, Humans, Longitudinal Studies, Male, Middle Aged, Sex Distribution, Smoking epidemiology, Smoking Cessation statistics & numerical data, Western Australia epidemiology, Asbestos, Crocidolite toxicity, Carbon Monoxide pharmacokinetics, Environmental Exposure analysis, Environmental Monitoring methods, Lung metabolism, Pulmonary Diffusing Capacity drug effects, Smoking metabolism

Abstract

Objective: To examine the effects of asbestos exposure and tobacco smoking on the level and rate of change of the diffusing capacity of the lung for carbon monoxide (DLCO)., Design and Participants: A cohort study of 934 people (including both mine workers and town residents) exposed to crocidolite (blue asbestos) at the asbestos mines and in the town of Wittenoom, Western Australia, between 1943 and 1966. DLCO measurements were taken during a follow-up period from 1992 to 2002., Main Outcome Measures: Baseline levels of DLCO and change in levels over time., Results: 2980 DLCO measurements were done on 934 people (of whom 818 were men and 724 were workers) who underwent a median of 2 (range, 1-17) measurements during the follow-up period. Radiographic asbestosis at baseline and asbestos exposure at a younger age were associated with lower DLCO values. The average rate of decline in DLCO was 0.33 (95% CI, 0.31-0.35) units per year, plus an additional decrement of 0.22 (95% CI, 0.12-0.32) units per year if the participant had radiographic asbestosis at the beginning of the follow-up period. Compared with never-smokers, current smokers and ex-smokers had lower DLCO at baseline, but smoking status did not affect the change in DLCO during the follow-up period., Conclusions: Our results confirm a continuous deleterious effect of crocidolite on DLCO, especially on people with asbestosis. Smoking was associated with lower DLCO levels, but was not a significant predictor of rate of change in DLCO. Smoking status did not affect the relationships between crocidolite exposure and the level or rate of change of DLCO in this population.

Published

2005