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Effects of scaphognathite nerve stimulation on the acutely deafferented crab ventilatory central pattern generator (1994)

Wilkens, J. L. ; DiCaprio, R. A.

Springer

Journal of comparative physiology 174 (1994), S. 195-209

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ISSN: 1432-1351

Keywords: Central pattern generator ; Afferent feedback ; Crustacea ; Acute deafferentation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract 1. Sensory axons from crab (Carcinus maenas) scaphognathites enter the thoracic ganglion primarily via the LNb branch of the levator nerve. The LNa branch of the levator nerve and the depressor nerve each contain relatively few sensory axons. 2. Acutely deafferented ventilatory central pattern generators show a free running burst rate which is lower than that observed in intact crabs. Electrical stimulation of the levator nerve, or of its LNb branch, increases the burst rate in a frequency dependent manner. Stimulation at high enough intensity to recruit afferents will restart a paused motor rhythm. Stimulation of the levator nerve with short pulse trains phase resets and can entrain the rhythm. 3. In addition to increasing the burst rate, LNb stimulation also causes a progressive elimination of motor neurons from the bursts as the stimulating frequency increases, probably due to depolarization of the 3 oval organ ‘giant’ afferent axons in this branch. Intracellular depolarization of single oval organ afferents will also inhibit some motor neurons as well as slow or stop the rhythm. 4. Continuous stimulation of the depressor nerve does not affect the ganglionic burst rate and this nerve contains only a few small diameter afferent axons; however, brief trains of stimuli can reset the rhythm in a phase-dependent manner.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00193786

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Degeneration of afferent neurons and long-term stability of the ventilatory central pattern generator in chronically deafferented crabs (1994)

Wilkens, J. L.

Springer

Journal of comparative physiology 174 (1994), S. 211-220

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ISSN: 1432-1351

Keywords: Central pattern generator ; Chronic deafferentation ; Crustacean ; Ventilation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract 1. The effects of chronic deafferentation, 3–180 days, are tested on the function and morphology of the crab (Carcinus maenas) ventilatory central pattern generator (CPGv). Almost all afferent axons are carried in the mixed sensory/motor levator nerve. The ability to speed the CPGv cycle rate by stimulating this nerve (Wilkens and DiCaprio 1994) decreases as the afferent neurons degenerate. Stimulation of the levator nerve eliminates motor units from the output even after 60 days of deafferentation, similar to the effects seen in acute preparations. 2. The 3 oval organ afferent axons of the levator nerve have central somata and survive scaphognathectomy. Impulses carried by these axons are known to inhibit the CPGv in acutely deafferented preparations and they are believed to be responsible for the persistent inhibition following small afferent degeneration seen here. 3. After 6 months of deafferentation the motor neuron collateral arborization densities within the thoracic ganglia are reduced, but all motor neurons appear to survive. These long-term deafferented CPGvs generate accurate motor patterns at similar rates to the control CPGv, but at reduced intraburst spike frequency. The crab CPGv is quite stable following chronic deafferentation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00193787

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Responses of the isolated crab ventilatory central pattern generators to variations in oxygen tension (1989)

Wilkens, J. L. ; Young, R. E. ; DiCaprio, R. A.

Springer

Journal of comparative physiology 159 (1989), S. 29-36

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ISSN: 1432-136X

Keywords: Ventilation ; Central pattern generator ; $$P_{O_2 }$$ ; Apnea ; Hypoxia

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary 1. The response of the isolated crab ventilatory central pattern generator (CPG) to changes in oxygen tension was examined. The ventilatory rate increased and motor neuron burst durations decreased as oxygen tension ( $$P_{O_2 }$$ ) was increased from hypoxic to hyperoxic levels. The number of spikes per motor neuron burst, and intraburst phase relationships, were relatively insensitive to $$P_{O_2 }$$ . 2. Pauses in ventilation (apnea) were a common occurence at elevated $$P_{O_2 }$$ , but were rarely seen under hypoxic conditions. During prolonged periolds of apnea, hypoxia was an effective stimulus for eliciting the ventilatory rhythm, although hypoxia depresses the ventilatory rate. 3. Transient (〈3 min) increases in ventilatory rate follow steps from higher to lower levels of $$P_{O_2 }$$ ; longer compensatory increases (〉5 min) occur upon return to normoxia or hyperoxia following prolonged exposure to hypoxia. 4. The latencies for changes in the rate of ventilation in the isolated thoracic ganglion are much longer (3–5 min) than those observed in intact crustaceans following similar changes in $$P_{O_2 }$$ , supporting the view that peripheral oxygen receptors may help to mediate in vivo responses to changes in oxygen tension.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00692680

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