G. R. De Oliveira scite author profile

Spinal cord injury (SCI) leads to profound haemodynamic changes. Constant outflows from the central autonomic pattern generators modulate the activity of the spinal sympathetic neurons. Sudden loss of communication between these centers and the sympathetic neurons in the intermediolateral thoracic and lumbar spinal cord leads to spinal shock. After high SCI, experimental data demonstrated a brief hypertensive peak followed by bradycardia with escape arrhythmias and marked hypotension. Total peripheral resistance and cardiac output decrease, while central venous pressure remains unchanged. The initial hypertensive peak is thought to result from direct sympathetic stimulation during SCI and its presence is anaesthetic agent dependent. Hypotension improves within days in most animal species because of reasons not totally understood, which may include synaptic reorganization or hyper responsiveness of alpha receptors. No convincing data has demonstrated that the deafferented spinal cord can generate significant basal sympathetic activity. However, with the spinal shock resolution, the deafferented spinal cord (in lesions above T6) will generate life-threatening hypertensive bouts with compensatory bradycardia, known as autonomic hyperreflexia (AH) after stimuli such as pain or bladder/colonic distension. AH results from the lack of supraspinal control of the sympathetic neurons and altered neurotransmission (e.g. glutamatergic) within the spinal cord. Despite significant progress in recent years, further research is necessary to fully understand the spectrum of haemodynamic changes after SCI.

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Antinociceptive Activities of the Hydroalcoholic Extracts from Erythrina velutina and Erythrina mulungu in Mice

Vasconcelos

Oliveira

Carvalho

et al. 2003

Biological & Pharmaceutical Bulletin

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This work studied the antinociceptive effects of the hydroalcoholic extracts (HAEs) from Erythrina velutina (Ev) and Erythrina mulungu (Em) in three experimental models of nociception in mice. The extract was administered intraperitoneally to female mice at the doses of 200 and 400 mg/kg. Inhibitions of abdominal contractions were observed with the doses of 200 (88.6%; 86.8%) and 400 (95.5%; 83.5%) mg/kg of E. velutina and E. mulungu, respectively, as compared to controls. E. velutina and E. mulungu, at both doses, reduced the nociception produced by formalin in the 1st and 2nd phases and this effect was not reversed by the pretreatment with naloxone. In the hot plate test an increase of the reaction time was observed only at 60 (Ev=18.0+/-2.2; Em=20.8+/-2.52) and 90 min (Ev=20.4+/-1.71; Em=23.7+/-2.32) after the treatment with E. velutina and E. mulungu at the dose of 400 mg/kg as compared to controls (T60=11.1+/-0.74; T90=11.9+/-0.86). This effect was not reversed by naloxone. We conclude that E. velutina and E. mulungu presents antinociceptive effects, which are independent of the opioid system.

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Vincristine delays gastric emptying and gastrointestinal transit of liquid in awake rats

Júnior

Teles

Castro

et al. 2009

Braz J Med Biol Res

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We evaluated the effects of vincristine on the gastrointestinal (GI) motility of awake rats and correlated them with the course of vincristine-induced peripheral neuropathy. Vincristine or saline was injected into the tail vein of male Wistar rats (180-250 g) on alternate days: 50 μg/kg (5 doses, N = 10), 100 μg/kg (2, 3, 4 and 5 doses, N = 49) or 150 μg/kg (1, 2, or 5 doses, N = 37). Weight and stool output were measured daily for each animal. One day after completing the vincristine treatment, the animals were fasted for 24 h, gavage-fed with a test meal and sacrificed 10 min later to measure gastric emptying (GE), GI transit and colon weight. Sensory peripheral neuropathy was evaluated by hot plate testing. Chronic vincristine treatments with total cumulative doses of at least 250 μg/kg significantly decreased GE by 31-59% and GI transit by 55-93%. The effect of 5 doses of vincristine (150 μg/kg) on GE did not persist for more than 1 week. Colon weight increased after 2 and 5 doses of vincristine (150 μg/kg). Fecal output decreased up to 48 h after the fifth dose of vincristine (150 μg/kg). Vincristine decreased the heat pain threshold 1 day after 5 doses of 50-100 μg/kg or after 3-5 doses of 150 μg/kg. This effect lasted for at least 2 weeks after the fifth dose. Chronic intravenous vincristine treatment delayed GE and GI transit of liquid. This effect correlated with the peak increase in colon weight but not with the pain threshold changes.

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Variations in gastric emptying of liquid elicited by acute blood volume changes in awake rats

Gondim

Oliveira

Graça

et al. 1998

Braz J Med Biol Res

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We have observed that acute blood volume expansion increases the gastroduodenal resistance to the flow of liquid in anesthetized dogs, while retraction decreases it (Santos et al. (1991) Acta Physiologica Scandinavica, 143: 261-269). This study evaluates the effect of blood volume expansion and retraction on the gastric emptying of liquid in awake rats using a modification of the technique of Scarpignato (1980) (Archives Internationales de Pharmacodynamie et de Therapie,. Male Wistar rats (180-200 g) were fasted for 16 h with water ad libitum and 1.5 ml of the test meal (0.5 mg/ml phenol red solution in 5% glucose) was delivered to the stomach immediately after random submission to one of the following protocols: 1) normovolemic control (N = 22), 2) expansion (N = 72) by intravenous infusion (1 ml/min) of Ringer-bicarbonate solution, volumes of 1, 2, 3 or 5% body weight, or 3) retraction (N = 22) by controlled bleeding (1.5 ml/100 g). Gastric emptying of liquid was inhibited by 19-51.2% (P<0.05) after blood volume expansion (volumes of 1, 2, 3 or 5% body weight). Blood volume expansion produced a sustained increase in central venous pressure while mean arterial pressure was transiently increased during expansion (P<0.05). Blood volume retraction increased gastric emptying by 28.5-49.9% (P<0.05) and decreased central venous pressure and mean arterial pressure (P<0.05). Infusion of the shed blood 10 min after bleeding reversed the effect of retraction on gastric emptying. These findings suggest that gastric emptying of liquid is subject to modulation by the blood volume.

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Upper gastrointestinal motility changes following spinal cord injury

Gondim

Oliveira

Thomas

2009

Neurogastroenterology Motil

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Spinal cord injury (SCI) is associated with severe autonomic dysfunction in both the acute and chronic phases. Upper gastrointestinal (GI) motor dysfunction has been previously reported in humans and rats. Gastric emptying (GE) of a solid meal--as measured by the [(13)C]-octanoic acid breath test--is delayed in the first 3 weeks after either spinal cord transection (SCT) or contusion (SCC) in rats. This is one of the main findings of a new paper by Qualls-Creekmore et al. in the current issue of this journal. Previous studies in rats only reported impairment of GE, intestinal and GI transit of liquid after SCI, but the authors observed that the delay of the GE of solid was more prominent after SCT than SCC. Recovery of the delay of GE of solid occurred at 6 weeks after SCC, but not after SCT. However, gastric motility changes persisted despite the functional normalization of the GE in rats with SCC. Bowel dysfunction is a major physical and psychological burden for SCI patients. Collaborative efforts, like the development of international standards to evaluate autonomic function after SCI will likely clarify the mechanisms of dysfunction and lead to the development of new therapeutic strategies.

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G. R. De Oliveira

Cardiovascular Control After Spinal Cord Injury

Antinociceptive Activities of the Hydroalcoholic Extracts from Erythrina velutina and Erythrina mulungu in Mice

Vincristine delays gastric emptying and gastrointestinal transit of liquid in awake rats

Variations in gastric emptying of liquid elicited by acute blood volume changes in awake rats

Upper gastrointestinal motility changes following spinal cord injury

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