Respiratory patterns
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Respiratory Patterns |
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Classification |
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Eiman Ghaffarpasand, M.D. [2]
Synonyms and keywords:
Overview
Classification
Eupnea
- Normal breathing is consisted of inhalation (sucking the air into the lungs) followed by exhalation (blowing the air out of the lungs).
- Every exhalation is followed by an automatic pause of about 2 second, before the next inhalation.
- Inhalation is an active process using diaphragm muscles, despite exhalation which is a passive process.
- Eupnea is the normal pattern of breathing with a rate of 10-12 per minute, each cycle is composed of:
- Inhalation of 1.5-2 seconds
- Exhalation of 1.5-2 seconds
- Spontaneous stop of 2 seconds
- The main characteristics of eupnea are as following:
- Slow
- Regular
- Nasal inhalation, oral exhalation
- Diaphragmatic
- Effortless
- Clear auscultation:
Normal respiratory rate in every age group is as following:
| Age group | Normal respiratory rate (Breath number per minute) |
|---|---|
| Infants | 30 to 60 |
| 1 to 3 years | 24 to 40 |
| 3 to 6 years | 22 to 34 |
| 6 to 12 years | 18 to 30 |
| 12 to 18 years | 12 to 16 |
Tachypnea
- Tachypnea is increased rate and decrease depth of breathing.
The main pathophysiology of tachypnea is as following:
| Decreased plasma oxygen (hypoxemia) | Increased plasma CO2 (respiratory acidosis) | Decreased pulmonary compliance | Increased airway resistance | ||||||||||||||||||||||||||||||||||||||||||||
| Carotid body | Medullary chemoreceptors | Pulmonary or muscle mechanoreceptors | Airway receptors | ||||||||||||||||||||||||||||||||||||||||||||
| Tachypnea | |||||||||||||||||||||||||||||||||||||||||||||||
The main causes of tachypnea are classified into pulmonary, cardiovascular, hematologic, and metabolic pathophysiologies.
Bradypnea
- Bradypnea is decreased count of breath to less than 8-10 per minute in adults and 16 per minute in infants.
- Mostly in bradypnea the exhalation phase is increased.
- The depth of breathes and tidal volume may be increased during bradypnea episodes.
- The main pathophysiology of bradypnea includes:[1]
- Desensitization of the medullary responses to PCO2
- Reduction in respiratory neuronal activity
- Inhibition of neural transmission within the respiratory center
- Neuronal damage to the brain stem
- The main causes of bradypnea are as following:
| Causes | Other | ||
|---|---|---|---|
| Drugs | Opioids | Heroin | Can become worse when used along with: |
| Codeine | |||
| Hydrocodone | |||
| Morphine | |||
| Oxycodone | |||
| Toxins | Sodium azide |
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| Carbon monoxide | |||
| Other drugs | Sedatives |
| |
| Anesthetics | |||
| Systemic disease | Lung diseases | Emphysema | - |
| Chronic bronchitis | |||
| Severe asthma | |||
| Pneumonia | |||
| Pulmonary edema | |||
| Thyroid | Hypothyroidism | - | |
| Neuromuscular | Guillain-Barré syndrome |
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| Amyotrophic lateral sclerosis (ALS) | |||
Apnea
- Apnea is the respiratory arrest for couple of seconds.
- The most common form of apnea in generally healthy people is obstructive sleep apnea.
- The pathophysiology of sleep apnea are as following:
| Apnea | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Sleep disturbances | ↓O2, ↑CO2, ↓pH | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Excessive motor activity | Loss of deep sleep Sleep fragmentation | Brain malfunction | Severe CO2 retention | Systemic vasoconstriction | Pulmonary vasoconstriction | Vagal bradycardia Ectopic cardiac pulses | Decreased pulmonary pressure Increased cardiac afterload | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Restless sleep | Excessive daytime fatigue | Chronic hypoventilation | Systemic hypertension | Pulmonary hypertension | Unexplained nocturnal death | Left heart failure | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Intellectual deterioration | Right heart failure | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Personality change | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Behavioral disorder | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
- The main causes of apnea include:
Cheyne-Stokes Respiration
Biot's Respiration
Apneustic Respiration
Agonal Respiration
Shallow Respiration
Hyperpnea
Air Trapping
Kussmaul's Respiration
Sighing Respiration
- ↑ Leung, Alexander K. C.; Schmitt, Marcus; Thomas, Christie P.; Sunderkötter, Cord; Schiller, Meinhard; Schwarz, Thomas; Berneburg, Mark; Kohlschütter, Alfried; Cerroni, Lorenzo; Direskeneli, Haner; Calamia, Kenneth; David, Gloria L.; Zeldin, Darryl C.; Schütte, Bärbel; Denson, Lee A.; Erhardt, Andreas; Kubitz, Ralf; Häussinger, Dieter; Sealey, Wendy M.; Mock, Donald M.; Wolf, Barry; Schumacher, Johannes; Propping, Peter; Metze, Dieter; Leung, Alexander K. C.; Wong, Andrew L.; Berneburg, Mark; Schwarz, Thomas; Hengstschläger, Markus; High, Whitney A.; Shroyer, Kenneth R.; McCready, M. Elizabeth; Bulman, Dennis E.; Afzal, Ali R.; Everman, David B.; Stoll, Claude; Darcan, Sukran; Kou, Yu Ru; Lin, You Shuei; Suzuki, Yoichi; Tada, Keiya; Leung, Alexander K. C.; Kupka, Susan; Dietmaier, Wolfgang; Hartmann, Arndt; Hennekam, Raoul C. M.; Belperio, John A.; Keane, Michael P.; Smith, M. Iain; Strieter, Robert M.; Molfino, Nestor A.; Sciandra, Francesca; Rossenbacker, Tom; Priori, Silvia G.; Senzolo, Marco; Triantos, Christos; Samonakis, Dimitrios; Cholongitas, Evangelos; Burroughs, Andrew K.; Mura, Marco; Braun-Falco, Markus; Hofmann, Silke; Bruckner-Tuderman, Leena (2009). "Bradypnea": 241–243. doi:10.1007/978-3-540-29676-8_246.