2011
DOI: 10.1007/s10867-011-9214-z
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The role of spiking and bursting pacemakers in the neuronal control of breathing

Abstract: Breathing is controlled by a distributed network involving areas in the neocortex, cerebellum, pons, medulla, spinal cord, and various other subcortical regions. However, only one area seems to be essential and sufficient for generating the respiratory rhythm: the preBötzinger complex (preBötC). Lesioning this area abolishes breathing and following isolation in a brain slice the preBötC continues to generate different forms of respiratory activities. The use of slice preparations led to a thorough understandin… Show more

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Cited by 57 publications
(54 citation statements)
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References 129 publications
(233 reference statements)
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“…6Aii). Since selective pharmacological block of I NaP has proven difficult (Ramirez et al, 2011;Richter et al, 2014), we evoked and isolated TTXsensitive steady-state currents by slow depolarizing voltage ramps (Carter et al, 2012). A TTX-sensitive current was first evident at ϳϪ75 mV and increased steeply with voltage (Fig.…”
Section: Nap Promotes Rhythmogenesismentioning
confidence: 99%
“…6Aii). Since selective pharmacological block of I NaP has proven difficult (Ramirez et al, 2011;Richter et al, 2014), we evoked and isolated TTXsensitive steady-state currents by slow depolarizing voltage ramps (Carter et al, 2012). A TTX-sensitive current was first evident at ϳϪ75 mV and increased steeply with voltage (Fig.…”
Section: Nap Promotes Rhythmogenesismentioning
confidence: 99%
“…Moreover, within the mammalian nervous system, pacemaker neurons are not unique to the respiratory network, and are found in many areas of the CNS; some of these networks are concerned with complex higher functions (Brocard et al, 2013; Kolta et al, 2010; Llano and Sherman, 2009; Marcuccilli et al, 2010; Martell et al, 2010, 2012; Mrejeru et al, 2011; Ramcharan et al, 2005; Ramirez et al, 2004; Ziskind-Conhaim et al, 2010). Indeed, there is probably no region in the mammalian brain that does not contain pacemaker neurons (Ramirez et al, 2011). …”
Section: How Is Breathing Variability Generated?mentioning
confidence: 99%
“…However, the complement of these currents varies, and every individual neuron establishes a different dynamic balance of inward and outward currents, a principle that has been well documented for invertebrate neurons (Hudson and Prinz, 2010; Khorkova and Golowasch, 2007; Soofi et al, 2012; Temporal et al, 2012; Zhao and Golowasch, 2012). As a result, some neurons within the respiratory network are more bursting than others; some burst regularly, some are irregular, some discharge tonically, and some are silent (Carroll and Ramirez, 2013; Garcia et al, 2011; Koch et al, 2011; Ramirez et al, 2011, 2012; Viemari and Ramirez, 2006). Bursting depends more on the CAN current in some neurons (Fig.…”
Section: How Is Breathing Variability Generated?mentioning
confidence: 99%
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“…Another example of a constitutive generator is provided by the respiratory CPG in vertebrates. Recently, signifi cant progress has been achieved in understanding the mechanism of respiratory rhythm generation in mammals [Feldman et al, 2013;Ramirez et al, 2011;Rybak et al, 2014;Smith et al, 2000]. We will restrict ourselves to a description of quiet respiration when the respiratory center operates in the regime of a monophasic CPG generating only the inspiratory phase of the cycle, whereas the expiratory phase is passive.…”
Section: Mechanisms Of Operation Of Central Pattern Generatorsmentioning
confidence: 99%