Chronic Lability of Arterial Pressure Produced by Selective Destruction of the Catecholamine Innervation of the Nucleus Tractus Solitarii in the Rat

@article{Snyder1978ChronicLO,
  title={Chronic Lability of Arterial Pressure Produced by Selective Destruction of the Catecholamine Innervation of the Nucleus Tractus Solitarii in the Rat},
  author={David W. Snyder and Donald J. Reis},
  journal={Circulation Research},
  year={1978},
  volume={43},
  pages={662–671}
}
The effects of selective destruction of the catecholamine innervation of the nucleus tractus solitarii (NTS) on arterial pressure (MAP) and heart rate (HR) were examined in unanesthetized rats in which 6-hydroxydopamine (6-OHDA), 1μl, was injected bilaterally into the nucleus at the level of the obex. Control rats received 1 fil of vehicle or were uninjected. Baroreceptor reflex activity was tested by measuring the reflex bradycardia in response to graded doses of phenylephrine. 6-OHDA, 2 μg… 
View on Wolters Kluwer
ahajournals.org
98 Citations
Highly Influential Citations
5
Background Citations
18
Methods Citations
6
Results Citations
7

Figures and Tables from this paper

98 Citations

Citation Type

Citation Type

Chronic lability of arterial pressure produced by destruction of A2 catecholaminergic neurons in rat brainstem.
TLDR
It is concluded that destruction of A2 neurons produces persistent lability and exaggerated reactivity of arterial pressure as a consequence of partial removal of the noradrenergic innervation of the nucleus tractus solitarii of the NTS, and the results suggest that nor adrenergic neurons of A1 serve to modulate baroreceptor reflexes in NTS.
Chronic Lability of the Arterial Blood Pressure Produced by Electrolytic Lesions of the Nucleus Tractus Solitarii in the Rat
TLDR
The chronic effects of nucleus tractus solitarii lesions in rats are to abolish the cardiomotor component of the baroreflexes and to produce extreme lability of the arterial pressure without altering the average level of the mean arterial Pressure.
Role of central catecholamines on the potentiation of the baroreflex produced with vasopressin. A study using 6-hydroxydopamine.
TLDR
Analysis of catecholamine content in the nucleus of the solitary tract, parabrachial nucleus, area postrema, and spinal cord indicates that the only regions of significant catechlamine depletion are inThe nucleus ofthe solitary tract and the spinal cord, indicating that forebrain structures are not involved in mediating the enhanced buffering effect produced with vasopressin.
BRIEF COMMUNICATIONS Role of Central Catecholamines on the Potentiation of the Baroreflex Produced with Vasopressin
TLDR
Analysis of catecholamine content in the nucleus of the solitary tract, parabrachial nucleus, area postrema, and spinal cord indicates that the only regions of significant catechlamine depletion are in the nuclei of the solitude tract and the spinal cord.
Acute Hypertension after the Local Injection of Kainic Acid into the Nucleus Tractus Solitarii of Rats
TLDR
The results suggest that fulminating hypertension can be produced by nondestructive perturbations of neurochemical transmission in brain and adds further support to the hypothesis that L-glutamate is the neurotransmitter released by baroreceptor afferent nerves.
Studies on neural and humoral contributions to arterial pressure lability.
TLDR
The evidence presented is consistent with the hypothesis that arterial pressure lability is not the direct result of unbuffered variations in sympathetic discharge but rather is produced by an interaction between neural and humoral components.
Adrenergic responses of baroreceptive cells in the nucleus tractus solitarii of the rat: a microiontophoretic study
Chronic lability of arterial pressure in the rat does not evolve into hypertension.
TLDR
Chronic lability of arterial pressure does not evolve into sustained hypertension nor does it induce systemic lesions, and the mean and standard deviation of heart rate did not differ between groups.
Catecholaminergic nucleus tractus solitarius lesions in anesthetized rats alter baroreflexes differently with age
Age-related reduction of reflex bradycardia in conscious rats by catecholaminergic nucleus tractus solitarius lesions
...
1
2
3
4
5
...

References

SHOWING 1-10 OF 46 REFERENCES
Role of Central and Peripheral Adrenergic Mechanisms in Neurogenic Hypertension Produced by Brainstem Lesions in Rat
TLDR
The results of these experiments demonstrate that (1) NTS hypertension is due to increased sympathetic neural discharge, (2) during NTS hypertension sufficient adrenomedullary catecholamines are released to produce hypertension when sympathetic terminals are destroyed, (3) central noradrenergic neurons participate in the expression of NTS hypertension, and (4) baroreceptors can inhibit the release of adrenal catechols.
Chronic Labile Hypertension Produced by Lesions of the Nucleus Tractus Solitarii in the Cat
  • D. Reis
  • Medicine, Biology
    Circulation research
  • 1977
TLDR
Lesions of the NTS produced labile hypertension, probably by disinhibition of sympathetic activity through central interruption of the baroreceptor reflexes, which may be caused by uninhibited increases in sympathetic activity elicited by environmental stimuli that are present during the day and absent at night.
Acute Fulminating Neurogenic Hypertension Produced by Brainstem Lesions in the Rat
TLDR
The fulminating hypertension evoked by lesions of the nucleus tractus solitarii was due to the increased vasoconstriction caused by the augmented discharge of sympathetic nerves in response to central deafferentation of baroreceptor reflexes.
Facilitation of vagal reflex bradycardia by an action of clonidine on central -receptors.
Central inhibitory noradrenergic cardiovascular control.
Effects of clonidine on the baroreceptor-heart rate reflex and on single aortic baroreceptor fibre discharge.
The Role of Arterial Baroreceptors in the Regulation of Arterial Pressure in Conscious Dogs
TLDR
Arterial pressure responses of dogs with selective section of the carotid sinus nerves were intermediate but closer to those of intact dogs than to dogs with TABD, indicating that the static open loop gain of the arterial baroreceptor system ranged from 2 to 4.
CENTRALLY INDUCED HYPOTENSION AND BRADYCARDIA AFTER ADMINISTRATION OF α‐METHYLNORADRENALINE INTO THE AREA OF THE NUCLEUS TRACTUS SOLITARII OF THE RAT
1 In anaesthetized rats, bilateral injections of α‐methylnoradrenaline, noradrenaline or adrenaline into the area of the nucleus tractus solitarii (NTS) of the brain stem caused dose‐dependent
Neurogenic Hypertension in the Rat
  • E. Krieger
  • Medicine, Biology
    Circulation research
  • 1964
TLDR
The observation that blood pressure measurements made during the first week showed that the rats were hypertensive suggests that in the rat no latent period for the appearance of neurogenic hypertension is present, and to obtain consistently permanent hypertension it was necessary to include in the denervation every baroreceptor route.
Brain amines and models of experimental hypertension.
TLDR
It seems clear that central monoaminergic systems participate in the regulation of normal blood pressure and that their function is altered in experimental hypertension, but it is not yet clear which changes are of primary causal importance and which are secondary in nature.
...
1
2
3
4
5
...