WordNet
- (psychiatry) a defense mechanism that conceals your undesirable shortcomings by exaggerating desirable behaviors
- something (such as money) given or received as payment or reparation (as for a service or loss or injury)
- pertaining to respiration; "respiratory assistance"
- a breathing device for administering long-term artificial respiration (同)inhalator
PrepTutorEJDIC
- 〈U〉UC〉(…の)『償い』,代償,埋め合わせ《+『for』+『名』》 / 〈C〉〈U〉(…の)『賠償金』,補償金《+『for』+『名』》 / 〈U〉《米》報酬,給与
- 呼吸の,呼吸作用の,呼吸のための
- 《米》人工呼吸装置 / (一般に)マスク;防毒マスク
Wikipedia preview
出典(authority):フリー百科事典『ウィキペディア(Wikipedia)』「2016/05/04 16:01:13」(JST)
[Wiki en表示]
Respiratory compensation is a mechanism by which plasma pH can be altered by varying the respiratory rate. It is faster than renal compensation, but has less ability to restore normal values.
In metabolic acidosis, chemoreceptors sense a deranged acid-base system, and there is increased breathing.[1]
In metabolic alkalosis, the breathing rate is decreased. [2]
See also
References
- ^ Physiology: 7/7ch12/7ch12p53 - Essentials of Human Physiology
- ^ Physiology: 7/7ch12/7ch12p58 - Essentials of Human Physiology
Physiology of the kidneys and acid-base physiology
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Renal function |
Secretion |
- clearance
- Pharmacokinetics
- Clearance of medications
- Urine flow rate
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Reabsorption |
- Solvent drag
- sodium
- chloride
- urea
- glucose
- oligopeptides
- protein
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Renal function |
- Glomerular filtration rate
- Creatinine clearance
- Renal clearance ratio
- Urea reduction ratio
- Kt/V
- Standardized Kt/V
- Measures of dialysis
- PAH clearance (Effective renal plasma flow
- Extraction ratio)
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Filtration |
- Renal blood flow
- Ultrafiltration
- Countercurrent exchange
- Filtration fraction
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Hormones |
- Antidiuretic hormone
- Aldosterone
- Atrial natriuretic peptide
- Renin
- Erythropoietin
- Calcitriol
- Prostaglandins
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Acid-base balance |
- Fluid balance
- Darrow Yannet diagram
Body water: Intracellular fluid/Cytosol
- Extracellular fluid
- (Interstitial fluid
- Plasma
- Transcellular fluid)
- Base excess
- Davenport diagram
- Anion gap
- Arterial blood gas
- Winter's formula
- Buffering
- Bicarbonate buffer system
- Respiratory compensation
- Renal compensation
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Other |
- Fractional sodium excretion
- BUN-to-creatinine ratio
- Tubuloglomerular feedback
- Natriuresis
- Urine
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UpToDate Contents
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English Journal
- Aerobic fitness influences cerebral oxygenation response to maximal exercise in healthy subjects.
- Oussaidene K1, Prieur F2, Tagougui S3, Abaidia A4, Matran R5, Mucci P6.
- Respiratory physiology & neurobiology.Respir Physiol Neurobiol.2015 Jan 1;205:53-60. doi: 10.1016/j.resp.2014.10.009. Epub 2014 Oct 25.
- The study examined whether the aerobic fitness level modifies the cerebral oxygenation response to incremental ramp exercise, and more specifically the decline in cerebral oxygenation from heavy exercise up to maximal intensities. 11 untrained ( [Formula: see text] 47.3±4.0mLmin(-1)kg(-1)) and 13 e
- PMID 25461626
- The Mechanisms of Compensatory Responses of the Respiratory System to Simulated Central Hypervolemia in Normal Subjects.
- Segizbaeva MO1, Donina ZA, Aleksandrov VG, Aleksandrova NP.
- Advances in experimental medicine and biology.Adv Exp Med Biol.2014 Dec 3. [Epub ahead of print]
- The compensatory responses of the respiratory system to simulated central hypervolemia (CHV) were investigated in 14 normal subjects. The central hypervolemia was caused by a short-time passive head-down tilt (HDT, -30°, 30 min). The results show that CHV increased the mechanical respiratory load
- PMID 25468007
Japanese Journal
- 鍼通電刺激が一過性の運動負荷による血中グルタチオンの変動に及ぼす影響
- 藤本 英樹,林 知也,坂井 友実 [他],宮本 俊和
- 日本温泉気候物理医学会雑誌 76(2), 105-116, 2013
- 【目的】酸化ストレスマーカーであるグルタチオンは、運動により変動することが知られている。そのため、スポーツ選手の疲労を把握する手段の1つに用いられている。本研究の目的は、一過性の高強度運動により変動する血中グルタチオンに対する鍼通電刺激の影響を検討することである。【方法】健常成人男性12名を対象とし、鍼通電(EA)群と無刺激対照(CONT)群を設け、低周波鍼通電刺激の影響を検討した。オールアウトま …
- NAID 130003390286
- Kinetics of cerebral blood flow in the moderate and heavy exercise intensity domains estimated using the transcranial Doppler method
- 日浦 幹夫,泉 重樹
- 法政大学スポーツ健康学研究 1, 25-34, 2010-03
- … The subjects completed incremental cycle ergometer test to assessVO2peak, the gas exchange threshold (GET), and the respiratory compensation threshold (RCT). … Respiratory gas analysis and themiddle cerebral blood flow mean velocity (MCA Vmean) were measured simultaneously using the transcranialDoppler (TCD) method. …
- NAID 120003142245
- 気管支鏡カメラ動き追跡のための気管支構造情報を利用した呼吸動補正に関する検討(ポスター講演)
- 杉浦 貴優,フォイヤーシュタイン マルコ,北坂 孝幸 [他],末永 康仁,今泉 和良,長谷川 好規,森 健策
- 電子情報通信学会技術研究報告. MI, 医用画像 109(407), 309-314, 2010-01-21
- 従来の超小型磁気式位置センサを用いた気管支鏡動き追跡手法では,患者の呼吸動を考慮していないため,精度よく追跡を行えないといった問題があった.そこで,本稿では,気管支構造情報を用いて(CT像中の)気管支を患者の呼吸動に適合するように変形させ,この変形量を用いてセンサ出力の補正を行う.擬似的な呼吸動をする動的なファントムを用いた実験では,気管支鏡先端位置と芯線との距離を6.43mmから2.98mmまで …
- NAID 110007866443
Related Links
- Respiratory compensation. From Wikipedia, the free encyclopedia. Jump to: navigation, search. Respiratory compensation is a mechanism by which plasma pH can be altered by varying the respiratory rate. It is faster than renal compensation, ...
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- 英
- respiratory compensation
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- 関
- breath、breathe、breathing、respiration、respiratory mechanics、respiratory organ、respiratory tract