1 he NTS and functionally associated (negative dromotropic) cardioinhibitory neurons.

2     N-0861 0.25 mg/kg abolished the negative dromotropic effect (A-H interval prolongation) and chest

3 N-0861 support the concept that the negative dromotropic effect and anginalike pain caused by adenosi

4  of AV nodal cells implies that the negative dromotropic effect of adenosine should be more pronounce

5 odal myocytes and hence augment the negative dromotropic effect of the nucleoside.

6 eptor agonist with a dose-dependent negative dromotropic effect on the AV node.

7 rasympathetic stimulation can exert negative dromotropic effects without significantly affecting the

8 low, exerts direct negative chronotropic and dromotropic effects, and exerts indirect anti-adrenergic

9 fects on PV rhythm with its chronotropic and dromotropic effects.

10                                     Negative dromotropic neurons are found in the rostral ventrolater

11  the NTS, and retrogradely labelled negative dromotropic neurons in the NA-VL.

12 y tract (NTS), rostral to obex, and negative dromotropic neurons in the NA-VL.

13 zation of negative chronotropic and negative dromotropic neurons in the nucleus ambiguus (NA).

14 e is presented to suggest that this negative dromotropic response was due predominantly to a vagal ch

15                                 The negative dromotropic responses were enhanced during reflex suppre

16                    The reflex changes in the dromotropic state of the heart (P-R interval or atrioven

17 immunoreactive nerve terminals with negative dromotropic vagal motoneurons in the rNA-VL.

18  rNA-VL do not modify the output of negative dromotropic vagal motoneurons.

19 he hypothesis: (1) that presumptive negative dromotropic vagal preganglionic neurons in the ventrolat

20 lionic neurons (VPNs), but not upon negative dromotropic VPNs, of the ventrolateral nucleus ambiguus