indomethacin and Hypercapnia studies

Indomethacin: A non-steroidal anti-inflammatory agent (NSAID) that inhibits CYCLOOXYGENASE, which is necessary for the formation of PROSTAGLANDINS and other AUTACOIDS. It also inhibits the motility of POLYMORPHONUCLEAR LEUKOCYTES.
indometacin : A member of the class of indole-3-acetic acids that is indole-3-acetic acid in which the indole ring is substituted at positions 1, 2 and 5 by p-chlorobenzoyl, methyl, and methoxy groups, respectively. A non-steroidal anti-inflammatory drug, it is used in the treatment of musculoskeletal and joint disorders including osteoarthritis, rheumatoid arthritis, gout, bursitis and tendinitis.

Hypercapnia: A clinical manifestation of abnormal increase in the amount of carbon dioxide in arterial blood.

Research Excerpts

Excerpt	Relevance	Reference
"We investigated the effect of moderate (FiO2 13%) and light hypoxia (FiO2 17%) and hypercapnia (CO2 2-4%) with or without indomethacin on circulating levels of endothelin/endothelins (ET) and cerebral blood flow (CBF) in healthy volunteers."	9.07	Endothelin-1 and cerebral blood flow: influence of hypoxia, hypercapnia and indomethacin on circulating endothelin levels in healthy volunteers. ( Bünemann, L; Bøgeskov Nielsen, L; Freundlich, M; Jensen, KA; Therkelsen, K; Thorshauge, H, 1994)
"To investigate using an arterial spin tagging (AST) approach the effect of indomethacin on the cerebral blood flow (CBF) response to hypercapnia."	7.71	Effects of indomethacin on cerebral blood flow at rest and during hypercapnia: an arterial spin tagging study in humans. ( Frank, JA; Lewis, BK; McLaughlin, AC; St Lawrence, KS; Weinberger, DR; Ye, FQ, 2002)
" We therefore investigated the effect of indomethacin on the CBF increase caused by acetazolamide (Az), a drug that induces brain extracellular acidosis, which triggers its effect on CBF."	7.68	Indomethacin abolishes cerebral blood flow increase in response to acetazolamide-induced extracellular acidosis: a mechanism for its effect on hypercapnia? ( Lassen, NA; Paulson, OB; Wang, Q, 1993)
"Responses of pial arterioles to topically applied arachidonic acid, conversion of exogenous arachidonic acid to prostanoids, and pial arteriolar dilation to hypercapnia were examined before and at progressive times after treatment with indomethacin (5 mg/kg i."	7.68	Effects of indomethacin on cerebral vasodilator responses to arachidonic acid and hypercapnia in newborn pigs. ( Armstead, WM; Leffler, CW; Mirro, R; Parfenova, H; Shibata, M; Zuckerman, S, 1993)
"To study the contribution of prostaglandins to cerebral vasodilatation during hypercapnia, we inhibited prostaglandin synthesis with indomethacin."	7.66	Effects of indomethacin on cerebral blood flow during hypercapnia in cats. ( Busija, DW; Heistad, DD, 1983)
"We investigated the effect of moderate (FiO2 13%) and light hypoxia (FiO2 17%) and hypercapnia (CO2 2-4%) with or without indomethacin on circulating levels of endothelin/endothelins (ET) and cerebral blood flow (CBF) in healthy volunteers."	5.07	Endothelin-1 and cerebral blood flow: influence of hypoxia, hypercapnia and indomethacin on circulating endothelin levels in healthy volunteers. ( Bünemann, L; Bøgeskov Nielsen, L; Freundlich, M; Jensen, KA; Therkelsen, K; Thorshauge, H, 1994)
" MCA velocity (MCAv) was measured at baseline and during stepped hypercapnia (2%, 4%, and 6% FiCO2) before and after cyclooxygenase inhibition using indomethacin."	3.79	Cerebrovascular reactivity is associated with maximal aerobic capacity in healthy older adults. ( Barnes, JN; Johnson, CP; Joyner, MJ; Kluck, BN; Taylor, JL, 2013)
" Corticocerebral blood flow was measured by hydrogen polarography during hypercapnia and acetazolamide stimuli in conscious rabbits."	3.71	Influence of nitrovasodilators and cyclooxygenase inhibitors on cerebral vasoreactivity in conscious rabbits. ( Barzó, P; Bodosi, M; Csete, K; Papp, JG, 2001)
" We therefore investigated the effect of indomethacin on the CBF increase caused by acetazolamide (Az), a drug that induces brain extracellular acidosis, which triggers its effect on CBF."	3.68	Indomethacin abolishes cerebral blood flow increase in response to acetazolamide-induced extracellular acidosis: a mechanism for its effect on hypercapnia? ( Lassen, NA; Paulson, OB; Wang, Q, 1993)
"Responses of pial arterioles to topically applied arachidonic acid, conversion of exogenous arachidonic acid to prostanoids, and pial arteriolar dilation to hypercapnia were examined before and at progressive times after treatment with indomethacin (5 mg/kg i."	3.68	Effects of indomethacin on cerebral vasodilator responses to arachidonic acid and hypercapnia in newborn pigs. ( Armstead, WM; Leffler, CW; Mirro, R; Parfenova, H; Shibata, M; Zuckerman, S, 1993)
" Diameter of one pial arteriole was determined during baseline conditions and topical application of 10(-5) M phorbol 12, 13-dibutyrate (PDB) and during subsequent application of one of the following: arterial hypercapnia (inhalation of 10% CO2), topical application of cerebrospinal fluid with 12 mM K+, or topical application of 10(-5) M isoproterenol in cerebrospinal fluid."	3.68	Reversal by increased CSF [H+] and [K+] of phorbol ester-induced arteriolar constriction in piglets. ( Busija, DW; Chen, J, 1992)
"Using awake, chronically catheterized newborn pigs, we measured cerebral blood flow (CBF), net cerebral vascular 6-keto-prostaglandin F1 alpha production, and cerebral metabolic rate of oxygen (CMRO2) during hypercapnia and during hypercapnia at increased mean airway pressure (Paw), both before and after treatment with indomethacin."	3.68	Pressure ventilation increases brain vascular prostacyclin production in newborn pigs. ( Armstead, WM; Busija, DW; Leffler, CW; Mirro, R, 1990)
"The effect of cyclooxygenase inhibition by indomethacin on regional cerebral blood flow (CBF) during hypocapnia induced by hyperventilation and during hypercapnia induced by CO2 inhalation was examined."	3.67	Effect of indomethacin on the regulation of cerebral blood flow during respiratory alkalosis in newborn piglets. ( DeGiulio, PA; Delivoria-Papadopoulos, M; Mishra, OP; Roth, RA; Wagerle, LC, 1989)
"Cerebral blood flow (CBF) was measured in conscious rats treated with indomethacin, diclofenac or the vehicle for indomethacin during hypercapnia of three different degrees."	3.67	Effects of indomethacin and diclofenac on cerebral blood flow in hypercapnic conscious rats. ( Quintana, A; Quintana, MA; Raczka, E, 1988)
"Although results obtained in baboons and rats have demonstrated that the fatty acid cyclo-oxygenase inhibitor indomethacin reduces cerebral blood flow (CBF) under control conditions and markedly attenuates the CBF response to hypercapnia, nonconfirmatory results have been obtained in rabbits and cats."	3.66	Effects of indomethacin on cerebral blood flow and oxygen consumption in barbiturate-anesthetized Normocapnic and hypercapnic rats. ( Dahlgren, N; Siesjö, BK, 1981)
" The inhibition of prostaglandin synthesis with indomethacin or aspirin blocks the vasodilatatory effect of hypercapnia and, to a lesser extent, of hypoxia."	3.66	[The metabolic regulation of the retinal blood flow and the role of prostaglandins (author's transl)]. ( Pournaras, C; Tsacopoulos, M, 1978)
"To further our understanding of central sleep apnea (CSA) at high altitude during acclimatization, we tested the hypothesis that pharmacologically altering cerebral blood flow (CBF) would alter the severity of CSA at high altitude."	2.79	Influence of cerebral blood flow on central sleep apnea at high altitude. ( Ainslie, PN; Basnyat, R; Burgess, KR; Dawson, A; Donnelly, J; Lucas, RA; Lucas, SJ; Peebles, KC; Shepherd, K; Swart, M; Thomas, KN, 2014)
"The functional hemodynamic parameter mean flow velocity (MFV) was assessed at rest, before and 90min after 100mg of INDO, and during the BHT."	2.78	Effect of indomethacin on cerebrovascular reactivity in patients with type 2 diabetes mellitus. ( Demarin, V; Drenjancevic, I; Rahelic, D; Vuletic, V, 2013)
"Indomethacin (INDO) has the potential to be a useful tool to explore the influence of cerebral blood flow and its responses to CO(2) on ventilatory control."	2.76	Influence of indomethacin on the ventilatory and cerebrovascular responsiveness to hypoxia. ( Ainslie, PN; Burgess, KR; Cotter, JD; Fan, JL; Lucas, RA; Lucas, SJ; Peebles, KC; Thomas, KN, 2011)
"Indomethacin (IND) is a non-steroidal anti-inflammatory agent with unique effects on cerebral blood flow physiology which may be of benefit in reducing elevated ICP in TBI patients."	2.40	Indomethacin: a review of its cerebral blood flow effects and potential use for controlling intracranial pressure in traumatic brain injury patients. ( Rhoney, DH; Slavik, RS, 1999)
"Indomethacin (IMC) was used as cyclooxygenase inhibitor."	1.31	Cyclooxygenase-pathway participates in the regulation of regional cerebral blood flow in response to neuronal activation under normo- and hypercapnia. ( Bakalova, RA; Kanno, I; Matsuura, T, 2002)
" We hypothesized that with chronic administration of indomethacin the piglet would advance the role of the NO system in cerebrovascular responses."	1.31	Chronic administration of indomethacin increases role of nitric oxide in hypercapnic cerebrovasodilation in piglets. ( Son, M; Zuckerman, S, 2002)
"Ibuprofen treatment (30 mg/kg) had no effect on pial arteriolar diameter during normoxia or hypoxia, and pretreatment did not alter dilation to hypoxia."	1.30	Cerebral arteriolar dilation to hypoxia: role of prostanoids. ( Leffler, CW; Parfenova, H, 1997)
"Since chronic hypertension has been associated with impaired endothelial function, we designed a study to find out whether hypercapnic cerebral blood flow and its nitric oxide- and prostaglandin-sensitive component is reduced in spontaneously hypertensive rats (SHR) compared with normotensive controls."	1.30	Hypercapnic cerebral blood flow in spontaneously hypertensive rats. ( Casadei, B; Heinert, G; Paterson, DJ, 1998)
"We studied the effect of systemic hypoxemia and hypercarbia on the bronchial blood flow in open-chested, anesthetized dogs."	1.27	Hypoxia and hypercarbia increase bronchial blood flow through bronchopulmonary anastomoses in anesthetized dogs. ( Albert, RK; Butler, J; Charan, NB; Kirk, W; Lakshminarayan, S, 1986)

Timeframe	Studies, this research(%)	All Research%
pre-1990	20 (35.09)	18.7374
1990's	18 (31.58)	18.2507
2000's	11 (19.30)	29.6817
2010's	8 (14.04)	24.3611
2020's	0 (0.00)	2.80

Authors	Studies
Barnes, JN	2
Taylor, JL	1
Kluck, BN	1
Johnson, CP	1
Joyner, MJ	3
Vuletic, V	1
Drenjancevic, I	1
Rahelic, D	1
Demarin, V	1
Harrell, JW	1
Schrage, WG	1
Burgess, KR	2
Lucas, SJ	2
Shepherd, K	1
Dawson, A	1
Swart, M	1
Thomas, KN	2
Lucas, RA	2
Donnelly, J	1
Peebles, KC	2
Basnyat, R	1
Ainslie, PN	3
Beaudin, AE	1
Waltz, X	1
Pun, M	1
Wynne-Edwards, KE	1
Ahmed, SB	1
Anderson, TJ	1
Hanly, PJ	1
Poulin, MJ	1
Hoiland, RL	1
Tymko, MM	1
Bain, AR	1
Wildfong, KW	1
Monteleone, B	1
Xie, A	1
Skatrud, JB	1
Barczi, SR	1
Reichmuth, K	1
Morgan, BJ	1
Mont, S	1
Dempsey, JA	1
Ivancev, V	1
Bakovic, D	1
Obad, A	1
Breskovic, T	1
Palada, I	1
Dujic, Z	1
Lenti, L	1
Zimmermann, A	1
Kis, D	1
Oláh, O	1
Tóth, GK	1
Hegyi, O	1
Busija, DW	8
Bari, F	2
Domoki, F	2
Fan, JL	1
Cotter, JD	1
Schmidt, JE	1
Nicholson, WT	1
St Lawrence, KS	1
Ye, FQ	1
Lewis, BK	1
Weinberger, DR	1
Frank, JA	1
McLaughlin, AC	1
Bakalova, RA	1
Matsuura, T	1
Kanno, I	1
Nagy, K	1
Temesvári, P	1
Siesjö, BK	4
Nilsson, B	1
Heistad, DD	1
Jackson, EK	1
Gerkens, JF	1
Zimmerman, JB	1
Uderman, HD	1
Oates, JA	1
Workman, RJ	1
Branch, RA	1
Gabrielian, ES	2
Amroian, EA	2
Hoffman, WE	1
Albrecht, RF	1
Pelligrino, D	1
Miletich, DJ	1
Dahlgren, N	1
Wei, EP	1
Ellis, EF	1
Kontos, HA	1
Parfenova, H	4
Shibata, M	5
Zuckerman, S	4
Leffler, CW	12
Mirro, R	3
Pharris, LJ	1
Therkelsen, K	1
Jensen, KA	1
Freundlich, M	1
Thorshauge, H	1
Bünemann, L	1
Bøgeskov Nielsen, L	1
Wang, Q	1
Paulson, OB	1
Lassen, NA	1
Armstead, WM	3
Hsu, P	2
Nilsson, F	1
Björkman, S	1
Rosén, I	1
Messeter, K	1
Nordström, CH	1
Zuckerman, SL	1
Rudinsky, BF	1
Lozon, M	1
Bell, A	1
Hipps, R	1
Meadow, WL	1
Yamaguchi, K	1
Suzuki, K	1
Naoki, K	1
Nishio, K	1
Sato, N	1
Takeshita, K	1
Kudo, H	1
Aoki, T	1
Suzuki, Y	1
Miyata, A	1
Tsumura, H	1
Okazaki, K	1
Endou, M	1
Okumura, F	1
Heinert, G	1
Casadei, B	1
Paterson, DJ	1
Slavik, RS	1
Rhoney, DH	1
Stark, AR	1
Carlo, WA	1
Tyson, JE	1
Papile, LA	1
Wright, LL	1
Shankaran, S	1
Donovan, EF	1
Oh, W	1
Bauer, CR	1
Saha, S	1
Poole, WK	1
Stoll, BJ	1
Csete, K	1
Barzó, P	1
Bodosi, M	1
Papp, JG	1
Willis, AP	1
Son, M	1
Zhang, Y	1
Megrabian, VI	1
Sakabe, T	1
Pournaras, C	2
Tsacopoulos, M	2
Chapuis, P	1
Chen, J	1
Norins, NA	1
Wendelberger, K	1
Hoffman, RG	1
Keller, PA	1
Madden, JA	1
DeGiulio, PA	1
Roth, RA	1
Mishra, OP	1
Delivoria-Papadopoulos, M	1
Wagerle, LC	1
Quintana, A	1
Raczka, E	1
Quintana, MA	1
Charan, NB	1
Lakshminarayan, S	1
Albert, RK	1
Kirk, W	1
Butler, J	1
Fletcher, AM	1
Beasley, DG	1
Hessler, JR	1
Green, RS	1
Pickard, JD	1
Mackenzie, ET	1

Trial	Phase	Enrollment	Study Type	Start Date	Status
The Role of Shear Stress in the Cerebrovascular Response to Acute Exercise[NCT03722953]		18 participants (Actual)	Interventional	2018-12-01	Completed
Effects of Acute Exercise Intensity on Cerebral Blood Flow and Cognitive Function in Older Adults[NCT05131217]		13 participants (Actual)	Interventional	2022-01-14	Completed
MRI Biomarkers of Risk in Sedentary and Exercise Trained Humans[NCT02729428]		71 participants (Actual)	Observational	2016-04-30	Completed
Cerebral Vasodilator Responses in Sedentary and Exercise Trained Humans[NCT02653638]	Early Phase 1	80 participants (Actual)	Interventional	2016-06-30	Completed
Brain Blood Flow Response to Hypercapnia in Healthy Adults: The Effect of Age and Sex[NCT02840851]		46 participants (Actual)	Observational	2016-11-30	Completed
Autonomic Dysfunction, Brain Blood Flow and Cognitive Decline in Veterans With Gulf War Illness[NCT04586049]		70 participants (Anticipated)	Observational	2023-05-16	Recruiting
The Impact of Cerebral Anatomical Variations on Cerebrovascular Reactivity[NCT05396287]		80 participants (Anticipated)	Observational	2022-07-19	Enrolling by invitation
Cerebrovascular Outcomes in Ischemic Heart Disease Patients Undergoing Cardiac Rehabilitation[NCT02715661]		140 participants (Actual)	Interventional	2016-03-31	Completed
Randomized Trial of Minimal Ventilator Support and Early Corticosteroid Therapy to Increase Survival Without Chronic Lung Disease in Extremely-Low-Birth-Weight Infants[NCT00005777]	Phase 3	220 participants (Actual)	Interventional	1998-02-28	Terminated (stopped due to The trial was halted because of unanticipated nonrespiratory adverse events related to dexamethasone therapy.)
[information is prepared from clinicaltrials.gov, extracted Sep-2024]

Article	Year
Prostaglandins and the cerebral circulation. Advances in prostaglandin, thromboxane, and leukotriene research, 1982, Volume: 10 Topics: Animals; Brain; Cerebrovascular Circulation; Cyclooxygenase Inhibitors; Dose-Response Relationship,	1982
Cerebral metabolic rate in hypercarbia--a controversy. Anesthesiology, 1980, Volume: 52, Issue:6 Topics: Amino Acids; Animals; Brain; Carbon Dioxide; Cerebrovascular Circulation; Citric Acid Cycle; Diazepa	1980
Indomethacin: a review of its cerebral blood flow effects and potential use for controlling intracranial pressure in traumatic brain injury patients. Neurological research, 1999, Volume: 21, Issue:5 Topics: Adult; Animals; Barbiturates; Birth Injuries; Brain Damage, Chronic; Brain Injuries; Cerebrovascular	1999

Article	Year
Effect of indomethacin on cerebrovascular reactivity in patients with type 2 diabetes mellitus. Diabetes research and clinical practice, 2013, Volume: 101, Issue:1 Topics: Adolescent; Adult; Aged; Brain; Cardiovascular Agents; Cerebrovascular Circulation; Diabetes Mellitu	2013
Cyclooxygenase-derived vasoconstriction restrains hypoxia-mediated cerebral vasodilation in young adults with metabolic syndrome. American journal of physiology. Heart and circulatory physiology, 2014, Jan-15, Volume: 306, Issue:2 Topics: Adult; Blood Flow Velocity; Carbon Dioxide; Cyclooxygenase Inhibitors; Double-Blind Method; Female;	2014
Influence of cerebral blood flow on central sleep apnea at high altitude. Sleep, 2014, Oct-01, Volume: 37, Issue:10 Topics: Acclimatization; Acetazolamide; Administration, Intravenous; Administration, Oral; Adult; Altitude;	2014
Human intermittent hypoxia-induced respiratory plasticity is not caused by inflammation. The European respiratory journal, 2015, Volume: 46, Issue:4 Topics: Adult; Anti-Inflammatory Agents, Non-Steroidal; Celecoxib; Cross-Over Studies; Double-Blind Method;	2015
Carbon dioxide-mediated vasomotion of extra-cranial cerebral arteries in humans: a role for prostaglandins? The Journal of physiology, 2016, 06-15, Volume: 594, Issue:12 Topics: Adolescent; Adult; Carbon Dioxide; Carotid Artery, Internal; Cerebrovascular Circulation; Cyclooxyge	2016
Effects of indomethacin on cerebrovascular response to hypercapnea and hypocapnea in breath-hold diving and obstructive sleep apnea. Respiratory physiology & neurobiology, 2009, May-15, Volume: 166, Issue:3 Topics: Adult; Blood Flow Velocity; Blood Pressure; Cardiovascular Agents; Cerebrovascular Circulation; Cros	2009
Effects of indomethacin on cerebrovascular response to hypercapnea and hypocapnea in breath-hold diving and obstructive sleep apnea. Respiratory physiology & neurobiology, 2009, May-15, Volume: 166, Issue:3 Topics: Adult; Blood Flow Velocity; Blood Pressure; Cardiovascular Agents; Cerebrovascular Circulation; Cros	2009
Effects of indomethacin on cerebrovascular response to hypercapnea and hypocapnea in breath-hold diving and obstructive sleep apnea. Respiratory physiology & neurobiology, 2009, May-15, Volume: 166, Issue:3 Topics: Adult; Blood Flow Velocity; Blood Pressure; Cardiovascular Agents; Cerebrovascular Circulation; Cros	2009
Effects of indomethacin on cerebrovascular response to hypercapnea and hypocapnea in breath-hold diving and obstructive sleep apnea. Respiratory physiology & neurobiology, 2009, May-15, Volume: 166, Issue:3 Topics: Adult; Blood Flow Velocity; Blood Pressure; Cardiovascular Agents; Cerebrovascular Circulation; Cros	2009
Influence of indomethacin on the ventilatory and cerebrovascular responsiveness to hypoxia. European journal of applied physiology, 2011, Volume: 111, Issue:4 Topics: Adult; Anti-Inflammatory Agents, Non-Steroidal; Brain; Cerebrovascular Circulation; Female; Humans;	2011
Endothelin-1 and cerebral blood flow: influence of hypoxia, hypercapnia and indomethacin on circulating endothelin levels in healthy volunteers. Scandinavian journal of clinical and laboratory investigation, 1994, Volume: 54, Issue:6 Topics: Adolescent; Adult; Cerebrovascular Circulation; Double-Blind Method; Endothelins; Female; Humans; Hy	1994
Adverse effects of early dexamethasone treatment in extremely-low-birth-weight infants. National Institute of Child Health and Human Development Neonatal Research Network. The New England journal of medicine, 2001, 01-11, Volume: 344, Issue:2 Topics: Anti-Inflammatory Agents; Anti-Inflammatory Agents, Non-Steroidal; Chronic Disease; Dexamethasone; D	2001

indomethacin and Hypercapnia

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