New Frontiers in Respiratory Control [electronic resource] : XIth Annual Oxford Conference on Modeling and Control of Breathing / edited by Ikuo Homma, Hiroshi Onimaru, Yoshinosuke Fukuchi.
| Call Number | 612.8 |
| Title | New Frontiers in Respiratory Control XIth Annual Oxford Conference on Modeling and Control of Breathing / edited by Ikuo Homma, Hiroshi Onimaru, Yoshinosuke Fukuchi. |
| Edition | 1. |
| Physical Description | XXVI, 382 p. online resource. |
| Series | Advances in Experimental Medicine and Biology, 0065-2598 ; 669 |
| Contents | I Comparative Aspects -- II Development -- III Modeling -- IV Respiratory rhythm generation -- V Neuromodulation -- VI Respiratory rhythm & motor pattern generation -- VII Hypoxic sensing -- VIII Integrative aspect of control of breathing -- IX Sleep apnea -- X Muscle and exercise -- XI Higher brain function and Dyspnea. |
| Summary | Breathing is performed by the rhythmic contraction of respiratory muscles. It ma- tains homeostasis of the organism by taking in the oxygen necessary to live and work and by controlling the level of CO within the organism. At first glance, breathing 2 seems simple; however, it is produced by a complex system in the brain with various afferents and efferents. The control of breathing is of the utmost importance in s- taining life, and although more than 150 years have passed since research on brea- ing control was first begun, many unsolved mysteries still remain. Breathing is like watching the tides at a beach that are created by the vast, complex open sea. The first Oxford Conference on Modeling and Control of Breathing was held 30 years ago in September of 1978 at the University Laboratory of Physiology in Oxford, England. During this first conference, the participants engaged in a hot d- cussion on the problem of whether breathing rhythm was produced by pacemaker cells or a neural network. This was before the discovery of the Bötinger complex in the medulla, and at the time, central chemoreceptive areas were still the focus of research. This conference was an especially unforgettable moment in the dawning of the new age of respiratory research. It has since been held every 3 years in various countries around the globe and is widely appreciated as the best respiratory meeting in the world. |
| Added Author | Homma, Ikuo. editor. Onimaru, Hiroshi. editor. Fukuchi, Yoshinosuke. editor. SpringerLink (Online service) |
| Subject | MEDICINE. HUMAN PHYSIOLOGY. NEUROSCIENCES. NEUROBIOLOGY. Biomedicine. Neurosciences. Neurobiology. Human Physiology. |
| Multimedia |
-
Libraries with this item
-
950 BiomedicalandLifeSciences(Springer-11642)
Total Ratings:
0
03604nam a22005415i 4500
001
vtls001568424
003
VRT
005
20170831183300.0
007
cr nn 008mamaa
008
170831s2010 xxu| s |||| 0|eng d
020
$a 9781441956927 $9 978-1-4419-5692-7
024
7
$a 10.1007/978-1-4419-5692-7 $2 doi
035
$a (DE-He213)978-1-4419-5692-7
039
9
$a 201708311833 $b santha $y 201708311324 $z vjs2012
050
4
$a RC321-580
072
7
$a PSAN $2 bicssc
072
7
$a MED057000 $2 bisacsh
082
0
4
$a 612.8 $2 23
245
1
0
$a New Frontiers in Respiratory Control $h [electronic resource] : $b XIth Annual Oxford Conference on Modeling and Control of Breathing / $c edited by Ikuo Homma, Hiroshi Onimaru, Yoshinosuke Fukuchi.
250
$a 1.
264
1
$a New York, NY : $b Springer New York, $c 2010.
300
$a XXVI, 382 p. $b online resource.
336
$a text $b txt $2 rdacontent
337
$a computer $b c $2 rdamedia
338
$a online resource $b cr $2 rdacarrier
347
$a text file $b PDF $2 rda
490
1
$a Advances in Experimental Medicine and Biology, $x 0065-2598 ; $v 669
505
0
$a I Comparative Aspects -- II Development -- III Modeling -- IV Respiratory rhythm generation -- V Neuromodulation -- VI Respiratory rhythm & motor pattern generation -- VII Hypoxic sensing -- VIII Integrative aspect of control of breathing -- IX Sleep apnea -- X Muscle and exercise -- XI Higher brain function and Dyspnea.
520
$a Breathing is performed by the rhythmic contraction of respiratory muscles. It ma- tains homeostasis of the organism by taking in the oxygen necessary to live and work and by controlling the level of CO within the organism. At first glance, breathing 2 seems simple; however, it is produced by a complex system in the brain with various afferents and efferents. The control of breathing is of the utmost importance in s- taining life, and although more than 150 years have passed since research on brea- ing control was first begun, many unsolved mysteries still remain. Breathing is like watching the tides at a beach that are created by the vast, complex open sea. The first Oxford Conference on Modeling and Control of Breathing was held 30 years ago in September of 1978 at the University Laboratory of Physiology in Oxford, England. During this first conference, the participants engaged in a hot d- cussion on the problem of whether breathing rhythm was produced by pacemaker cells or a neural network. This was before the discovery of the Bötinger complex in the medulla, and at the time, central chemoreceptive areas were still the focus of research. This conference was an especially unforgettable moment in the dawning of the new age of respiratory research. It has since been held every 3 years in various countries around the globe and is widely appreciated as the best respiratory meeting in the world.
650
0
$a MEDICINE.
650
0
$a HUMAN PHYSIOLOGY.
650
0
$a NEUROSCIENCES.
650
0
$a NEUROBIOLOGY.
650
1
4
$a Biomedicine.
650
2
4
$a Neurosciences.
650
2
4
$a Neurobiology.
650
2
4
$a Human Physiology.
700
1
$a Homma, Ikuo. $e editor.
700
1
$a Onimaru, Hiroshi. $e editor.
700
1
$a Fukuchi, Yoshinosuke. $e editor.
710
2
$a SpringerLink (Online service)
773
0
$t Springer eBooks
776
0
8
$i Printed edition: $z 9781441956910
830
0
$a Advances in Experimental Medicine and Biology, $x 0065-2598 ; $v 669
856
4
0
$u http://dx.doi.org/10.1007/978-1-4419-5692-7
912
$a ZDB-2-SBL
950
$a Biomedical and Life Sciences (Springer-11642)
999
$a VIRTUA
No Reviews to Display
| Summary | Breathing is performed by the rhythmic contraction of respiratory muscles. It ma- tains homeostasis of the organism by taking in the oxygen necessary to live and work and by controlling the level of CO within the organism. At first glance, breathing 2 seems simple; however, it is produced by a complex system in the brain with various afferents and efferents. The control of breathing is of the utmost importance in s- taining life, and although more than 150 years have passed since research on brea- ing control was first begun, many unsolved mysteries still remain. Breathing is like watching the tides at a beach that are created by the vast, complex open sea. The first Oxford Conference on Modeling and Control of Breathing was held 30 years ago in September of 1978 at the University Laboratory of Physiology in Oxford, England. During this first conference, the participants engaged in a hot d- cussion on the problem of whether breathing rhythm was produced by pacemaker cells or a neural network. This was before the discovery of the Bötinger complex in the medulla, and at the time, central chemoreceptive areas were still the focus of research. This conference was an especially unforgettable moment in the dawning of the new age of respiratory research. It has since been held every 3 years in various countries around the globe and is widely appreciated as the best respiratory meeting in the world. |
| Contents | I Comparative Aspects -- II Development -- III Modeling -- IV Respiratory rhythm generation -- V Neuromodulation -- VI Respiratory rhythm & motor pattern generation -- VII Hypoxic sensing -- VIII Integrative aspect of control of breathing -- IX Sleep apnea -- X Muscle and exercise -- XI Higher brain function and Dyspnea. |
| Subject | MEDICINE. HUMAN PHYSIOLOGY. NEUROSCIENCES. NEUROBIOLOGY. Biomedicine. Neurosciences. Neurobiology. Human Physiology. |
| Multimedia |