carbon monoxide has been researched along with Hypercapnia in 25 studies
Carbon Monoxide: Carbon monoxide (CO). A poisonous colorless, odorless, tasteless gas. It combines with hemoglobin to form carboxyhemoglobin, which has no oxygen carrying capacity. The resultant oxygen deprivation causes headache, dizziness, decreased pulse and respiratory rates, unconsciousness, and death. (From Merck Index, 11th ed)
carbon monoxide : A one-carbon compound in which the carbon is joined only to a single oxygen. It is a colourless, odourless, tasteless, toxic gas.
Hypercapnia: A clinical manifestation of abnormal increase in the amount of carbon dioxide in arterial blood.
Excerpt | Relevance | Reference |
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"Carbon monoxide (CO) is an endogenously produced gas sharing many properties with nitric oxide (NO), notably activating soluble guanylate cyclase and relaxing blood vessels." | 5.30 | Carbon monoxide regulates cerebral blood flow in epileptic seizures but not in hypercapnia. ( Montécot, C; Pinard, E; Seylaz, J, 1998) |
"Chimonin can reduce pulmonary hypertension and pulmonary vessel remodeling induced by hypoxic hypercapnia through inhibiting proliferation of collagen I, the mechanism maybe is up regulating endogenous carbon monoxide system." | 3.76 | [The effect of chimonin on collagen metabolism of pulmonary arterioles in chronic hypoxic rats]. ( Huang, XY; Qian, GQ; Wang, LX; Xu, XM, 2010) |
" With the use of cranial window techniques, we examined cerebral vascular responses to endothelium-dependent (hypercapnia and bradykinin) and endothelium-independent (isoproterenol and sodium nitroprusside) dilators during the recovery from bicuculline-induced seizures in saline controls and in animals pretreated with a HO inhibitor, tin protoporphyrin (SnPP)." | 3.72 | Endogenous heme oxygenase prevents impairment of cerebral vascular functions caused by seizures. ( Carratu, P; Fedinec, A; Leffler, CW; Parfenova, H; Pourcyrous, M, 2003) |
"Up-regulation of endogenous carbon monoxide system can inhibit pulmonary vessel remodeling in rats with chronic pulmonary heart disease induced by hypoxia and hypercapnia." | 3.71 | The inhibition of pulmonary vessel remodeling by carbon monoxide system in rats with chronic pulmonary heart disease. ( Chen, S; Fan, X; Huang, X; Wang, L; Wang, Q; Xu, Z, 2002) |
"Forty patients with Type 1 diabetes, 20 with autonomic neuropathy according to the results of a standardized test battery, were studied and compared with 40 normal subjects matched by age and sex." | 1.37 | Pulmonary diffusing capacity for carbon monoxide: a marker of depressed hypercapnic drive in type 1 diabetes mellitus? ( Antonelli Incalzi, R; Contu, C; Fuso, L; Ghirlanda, G; Maugeri, L; Musella, T; Paladini, L; Pitocco, D; Santamaria, AP; Varone, F, 2011) |
"Carbon monoxide (CO) is an endogenously produced gas sharing many properties with nitric oxide (NO), notably activating soluble guanylate cyclase and relaxing blood vessels." | 1.30 | Carbon monoxide regulates cerebral blood flow in epileptic seizures but not in hypercapnia. ( Montécot, C; Pinard, E; Seylaz, J, 1998) |
"During CO hypoxemia (1,700 ppm in air), VT as well as total DI and total DE decreased because of a large reduction in inspiratory and expiratory time elicited by tachypneic breathing." | 1.29 | Effects of hypercapnia and hypoxia on inspiratory and expiratory diaphragmatic activity in conscious cats. ( Bonora, M; Boule, M, 1994) |
"Hypercapnia was induced by rebreathing, and both the ventilation and the mouth pressures produced during transient airway conclusion during inspiration were obtained." | 1.26 | Hypercapnic ventilatory control in patients with chronic airflow obstruction: a follow-up study. ( Maranetra, N; Pain, MC; Zimmerman, PV, 1982) |
Timeframe | Studies, this research(%) | All Research% |
---|---|---|
pre-1990 | 8 (32.00) | 18.7374 |
1990's | 6 (24.00) | 18.2507 |
2000's | 4 (16.00) | 29.6817 |
2010's | 6 (24.00) | 24.3611 |
2020's | 1 (4.00) | 2.80 |
Authors | Studies |
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Peng, YJ | 1 |
Nanduri, J | 1 |
Wang, N | 1 |
Khan, SA | 1 |
Pamenter, ME | 1 |
Prabhakar, NR | 1 |
Crocker, GH | 1 |
Kwon, J | 1 |
Kass, PH | 1 |
Jones, JH | 1 |
Wagner, PD | 1 |
Welling, LC | 1 |
Welling, MS | 1 |
Antunes, E | 1 |
Jumes, AC | 1 |
Teixeira, MJ | 1 |
Figueiredo, EG | 1 |
Huang, XY | 1 |
Xu, XM | 1 |
Qian, GQ | 1 |
Wang, LX | 1 |
Fuso, L | 1 |
Paladini, L | 1 |
Pitocco, D | 1 |
Musella, T | 1 |
Contu, C | 1 |
Maugeri, L | 1 |
Santamaria, AP | 1 |
Varone, F | 1 |
Ghirlanda, G | 1 |
Antonelli Incalzi, R | 1 |
Simpson, SJ | 1 |
Fong, AY | 1 |
Cummings, KJ | 1 |
Frappell, PB | 1 |
Dempsey, JA | 1 |
Huang, X | 1 |
Wang, L | 1 |
Chen, S | 1 |
Xu, Z | 1 |
Wang, Q | 1 |
Fan, X | 1 |
Carratu, P | 1 |
Pourcyrous, M | 1 |
Fedinec, A | 1 |
Leffler, CW | 1 |
Parfenova, H | 1 |
ROSSEN, R | 1 |
SIMONSON, E | 1 |
BAKER, J | 1 |
Zimmerman, PV | 1 |
Maranetra, N | 1 |
Pain, MC | 1 |
Bonora, M | 1 |
Boule, M | 1 |
Esper, E | 1 |
Russell, TE | 1 |
Coy, B | 1 |
Duke, BE | 1 |
Max, MH | 1 |
Coil, JA | 1 |
Rudinsky, BF | 1 |
Lozon, M | 1 |
Bell, A | 1 |
Hipps, R | 1 |
Meadow, WL | 1 |
Ostergaard, L | 1 |
Smith, DF | 1 |
Vestergaard-Poulsen, P | 1 |
Hansen, SB | 1 |
Gee, AD | 1 |
Gjedde, A | 1 |
Gyldensted, C | 1 |
Montécot, C | 1 |
Seylaz, J | 1 |
Pinard, E | 1 |
Upton, RN | 1 |
Ludbrook, GL | 1 |
Grant, C | 1 |
Martinez, AM | 1 |
Scano, G | 1 |
Filippelli, M | 1 |
Romagnoli, I | 1 |
Mancini, M | 1 |
Misuri, G | 1 |
Duranti, R | 1 |
Rosi, E | 1 |
Hutt, DA | 1 |
Parisi, RA | 1 |
Santiago, TV | 1 |
Edelman, NH | 1 |
Davies, DM | 1 |
Lopez-Majano, V | 1 |
Dutton, RE | 1 |
Vandenbergh, E | 1 |
Clement, J | 1 |
Van de Woestijne, KP | 1 |
Miller, GJ | 1 |
Hearn, CE | 1 |
Edwards, RH | 1 |
Korner, PI | 1 |
1 review available for carbon monoxide and Hypercapnia
Article | Year |
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The physiological basis of pulmonary gas exchange: implications for clinical interpretation of arterial blood gases.
Topics: Blood Gas Analysis; Carbon Monoxide; Cardiac Output; Diffusion; Humans; Hypercapnia; Hypoxia; Models | 2015 |
24 other studies available for carbon monoxide and Hypercapnia
Article | Year |
---|---|
Carotid body responses to O
Topics: Animals; Carbon Dioxide; Carbon Monoxide; Carbonic Anhydrases; Carotid Body; Hypercapnia; Hypoxia; M | 2022 |
Ventilatory response to carbon monoxide during exercise in hypoxia and hypercapnia.
Topics: Adult; Animals; Anthracenes; Carbon Monoxide; Carboxyhemoglobin; Disease Models, Animal; Exercise Te | 2017 |
Nitric Oxide, Controlled Hypercapnia, and Cerebral Vasospasm: New Therapeutic Insights.
Topics: Administration, Inhalation; Carbon Monoxide; Endothelium-Dependent Relaxing Factors; Gasotransmitter | 2016 |
[The effect of chimonin on collagen metabolism of pulmonary arterioles in chronic hypoxic rats].
Topics: Animals; Arterioles; Carbon Monoxide; Chronic Disease; Collagen Type I; Collagen Type III; Drugs, Ch | 2010 |
Pulmonary diffusing capacity for carbon monoxide: a marker of depressed hypercapnic drive in type 1 diabetes mellitus?
Topics: Adult; Autonomic Nervous System Diseases; Carbon Monoxide; Case-Control Studies; Diabetes Mellitus, | 2011 |
The ventilatory response to hypoxia and hypercapnia is absent in the neonatal fat-tailed dunnart.
Topics: Animals; Animals, Newborn; Carbon Monoxide; Hypercapnia; Hypoxia; Lung; Marsupialia; Oxygen; Pulmona | 2012 |
Exercise carbon dioxide retention in chronic obstructive pulmonary disease: a case for ventilation/perfusion mismatch combined with hyperinflation.
Topics: Carbon Monoxide; Exercise; Exercise Test; Exercise Tolerance; Female; Humans; Hypercapnia; Male; Pro | 2002 |
The inhibition of pulmonary vessel remodeling by carbon monoxide system in rats with chronic pulmonary heart disease.
Topics: Animals; Carbon Monoxide; Hypercapnia; Hypertension, Pulmonary; Hypoxia; Pulmonary Heart Disease; Ra | 2002 |
Endogenous heme oxygenase prevents impairment of cerebral vascular functions caused by seizures.
Topics: Adrenergic beta-Agonists; Animals; Animals, Newborn; Arachnoid; Bradykinin; Capillaries; Carbon Mono | 2003 |
Electroencephalograms during hypercapnia. Response characteristi for normal aging subjects.
Topics: Aging; Carbon Monoxide; Electroencephalography; Humans; Hypercapnia | 1963 |
Hypercapnic ventilatory control in patients with chronic airflow obstruction: a follow-up study.
Topics: Adult; Aged; Carbon Dioxide; Carbon Monoxide; Chemoreceptor Cells; Female; Follow-Up Studies; Forced | 1982 |
Effects of hypercapnia and hypoxia on inspiratory and expiratory diaphragmatic activity in conscious cats.
Topics: Animals; Carbon Dioxide; Carbon Monoxide; Carotid Body; Cats; Conscious Sedation; Denervation; Diaph | 1994 |
Transperitoneal absorption of thermocautery-induced carbon monoxide formation during laparoscopic cholecystectomy.
Topics: Absorption; Acidosis; Adult; Aged; Blood Pressure; Carbon Dioxide; Carbon Monoxide; Carboxyhemoglobi | 1994 |
Group B streptococcal sepsis impairs cerebral vascular reactivity to acute hypercarbia in piglets.
Topics: Animals; Blood Pressure; Brain; Carbon Monoxide; Carotid Artery, Internal; Disease Models, Animal; H | 1996 |
Absolute cerebral blood flow and blood volume measured by magnetic resonance imaging bolus tracking: comparison with positron emission tomography values.
Topics: Animals; Blood Volume; Carbon Monoxide; Cerebrovascular Circulation; Contrast Media; Female; Hyperca | 1998 |
Carbon monoxide regulates cerebral blood flow in epileptic seizures but not in hypercapnia.
Topics: Animals; Carbon Dioxide; Carbon Monoxide; Cerebrovascular Circulation; Electroencephalography; Enzym | 1998 |
Cardiac output is a determinant of the initial concentrations of propofol after short-infusion administration.
Topics: Adrenergic alpha-Agonists; Anesthesia, Intravenous; Anesthetics, Inhalation; Anesthetics, Intravenou | 1999 |
Hypoxic and hypercapnic breathlessness in patients with type I diabetes mellitus.
Topics: Adult; Breath Tests; Carbon Dioxide; Carbon Monoxide; Diabetes Mellitus, Type 1; Dyspnea; Elasticity | 2000 |
Brain hypoxia preferentially stimulates genioglossal EMG responses to CO2.
Topics: Animals; Brain Diseases; Carbon Dioxide; Carbon Monoxide; Carboxyhemoglobin; Diaphragm; Electromyogr | 1989 |
Sixty days in a submarine: the pathophysiological and metabolic cost.
Topics: Acid-Base Equilibrium; Adrenal Cortex Hormones; Air Pollution; Calcium; Carbon Dioxide; Carbon Monox | 1973 |
Regulation of respiration during oxygen breathing in chronic obstructive lung disease.
Topics: Acidosis; Airway Resistance; Arteries; Bicarbonates; Carbon Dioxide; Carbon Monoxide; Chronic Diseas | 1973 |
Course and prognosis of patients with advanced chronic obstructive pulmonary disease. Evaluation by means of functional indices.
Topics: Adult; Aged; Blood Gas Analysis; Bronchitis; Carbon Dioxide; Carbon Monoxide; Electrocardiography; E | 1973 |
Pulmonary function at rest and during exercise following bagassosis.
Topics: Blood Volume; Capillaries; Carbon Monoxide; Cromolyn Sodium; Dyspnea; Fungi; Humans; Hypercapnia; Lu | 1971 |
The role of the arterial chemoreceptors and baroreceptors in the circulatory response to hypoxia of the rabbit.
Topics: Animals; Blood Circulation; Blood Gas Analysis; Blood Pressure; Carbon Monoxide; Cardiac Output; Hea | 1965 |