Periaqueductal gray-evoked dorsal root reflex is frequency dependent.

The dorsal root reflex (DRR) is an antidromic action potential originating in the spinal cord that propagates toward the periphery. Given that both GABA(A) and 5-HT(3) receptors are involved in the generation of DRRs and stimulation of the periaqueductal gray (PAG) can induce the release of GABA and serotonin within the spinal cord, we investigated the modulation of DRRs by the PAG descending system. The central end of the cut left L5 dorsal root in adult Sprague-Dawley rats was tested with single fiber recording.

Electrophysiological changes in adult rat dorsal horn neurons after neonatal peripheral inflammation.

Neonatal peripheral inflammation has been shown to produce profound anatomical changes in the dorsal horn of adult rats. In this study, we explored whether parallel physiological changes exist. Neonatal rats were injected with complete Freund's adjuvant (CFA) into the left hind paw.

GABA(A) and 5-HT(3) receptors are involved in dorsal root reflexes: possible role in periaqueductal gray descending inhibition.

The dorsal root reflex (DRR) is a measure of the central excitability of presynaptic inhibitory circuits in the spinal cord. Activation of the periaqueductal gray (PAG), a center for descending inhibition of spinal cord nociceptive transmission, induces release of variety of neurotransmitters in the spinal cord, including GABA and serotonin (5-HT). GABA has been shown to be involved in generation of DRRs.

Response properties and organization of nociceptive neurons in area 1 of monkey primary somatosensory cortex.

The organization and response properties of nociceptive neurons in area 1 of the primary somatosensory cortex (SI) of anesthetized monkeys were examined. The receptive fields of nociceptive neurons were classified as either wide-dynamic-range (WDR) neurons that were preferentially responsive to noxious mechanical stimulation, or nociceptive specific (NS) that were responsive to only noxious stimuli. The cortical locations and the responses of the two classes of neurons were compared.

Safety and efficacy of adenovirus-mediated transfer of the human aquaporin-1 cDNA to irradiated parotid glands of non-human primates.

This study evaluated the safety and efficacy of a single administration of a recombinant adenovirus encoding human aquaporin-1 (AdhAQP1) to the parotid glands of adult rhesus monkeys. In anticipation of possible clinical use of this virus to correct irradiation damage to salivary glands, AdhAQP1 was administered (at either 2 x 10(9) or 1 x 10(8) plaque-forming units/gland) intraductally to irradiated glands and to their contralateral nonirradiated glands. Radiation (single dose, 10 Gy) significantly reduced salivary flow in exposed glands.

The cortical representation of pain.

Anatomical and physiological studies in animals, as well as functional imaging studies in humans have shown that multiple cortical areas are activated by painful stimuli. The view that pain is perceived only as a result of thalamic processing has, therefore, been abandoned, and has been replaced by the question of what functions can be assigned to individual cortical areas. The following cortical areas have been shown to be involved in the processing of painful stimuli: primary somatosensory cortex, secondary somatosensory cortex and its vicinity in the parietal operculum, insula, anterior cingulate cortex and prefrontal cortex.

Spinal kappa1 and kappa2 opioid binding sites in rats, guinea pigs, monkeys and humans.

Several lines of work demonstrate that there are two subtypes of kappa opioid receptors. Intrathecally administered agonists for the kappa1 subtype are not effective in treating pain, whereas agonists for the kappa2 receptor are anti-hyperalgesic and anti-allodynic. The question addressed here was whether the ratio of spinal kappa1 to kappa2 receptors was conserved across species.

Multiple effects of morphine on facial scratching in monkeys.

The medullary dorsal horn (MDH), the medullary homolog of the spinal dorsal horn, is a site where opioid-receptor agonists can act at opioid receptors to produce pronounced facial scratching, the behavioral correlate of pruritus. In the present study, after a 10-min baseline period, morphine (5.0 micrograms) was micro-injected into the MDH of monkeys.

Noradrenergic and opioid systems interact to alter the detection of noxious thermal stimuli and facial scratching in monkeys.

We examined the ability of the alpha 2-adrenoceptor agonist, ST-91, microinjected into the medullary dorsal horn (MDH), to diminish the sensory-discriminative features of noxious heat stimuli in awake behaving monkeys. Two monkeys performed a noxious thermal detection task and the time to detection of small increases in heat served as a measure of the perceived intensity of pain. ST-91 microinjected into the MDH (1.

The medullary dorsal horn. A site of action of morphine in producing facial scratching in monkeys.

Background: Pruritus is a common side effect of epidural and intrathecal morphine administration in humans. This naloxone-reversible pruritus is typically present on the trunk, but is often severe around the eyes and nose, of the patients. The brain stem has been proposed as the site where opioids act to produce this effect.

Diencephalic projections from the superficial and deep laminae of the medullary dorsal horn in the rat.

An important function of the medullary dorsal horn (MDH) is the relay of nociceptive information from the face and mouth to higher centers of the central nervous system. We studied the central projection pattern of axons arising from the MDH by examining the axonal transport of Phaseolus vulgaris-leucoagglutinin (PHA-L). Labeled axon and axon terminal distributions arising from the MDH were analyzed at the light microscopic level.

Effects of central administration of opioids on facial scratching in monkeys.

Epidural and intrathecal administration of opioids to humans can produce facial pruritus and scratching that is naloxone reversible. It has been proposed that opioids may act at the level of the medulla to produce facial pruritus and associated scratching behavior. We investigated the effects of mu, delta and kappa opioid-receptor agonists microinjected unilaterally into the medullary dorsal horn (MDH) on facial scratching in cynomolgus monkeys.

Responses of neurons in ventroposterolateral nucleus of primate thalamus to urinary bladder distension.

The purpose of this study was to examine effects of a noxious visceral stimulus, urinary bladder distension (UBD), on cells in the ventroposterolateral (VPL) nucleus of anesthetized monkeys. We hypothesized that processing of visceral information in the VPL nucleus of the thalamus is similar to spinothalamic tract (STT) organization of visceral afferent input. Urinary bladder distension excites sacral and upper-lumbar STT cells that have somatic input from proximal somatic fields; whereas, thoracic STT cells are inhibited by UBD.

Responses of nociceptive SI neurons in monkeys and pain sensation in humans elicited by noxious thermal stimulation: effect of interstimulus interval.

1. Twenty-six nociceptive neurons in the primary somatosensory cortex (SI) of anesthetized monkeys were responsive to noxious thermal stimulation applied to the face. Thermode temperature increased from a base line of 38 degrees C to temperatures ranging from 44 to 49 degrees C (T1).

The correlation of monkey medullary dorsal horn neuronal activity and the perceived intensity of noxious heat stimuli.

1. We examined the relationship between the activity of medullary dorsal horn nociceptive neurons and the monkeys' ability to detect noxious heat stimuli. In two different detection tasks, the temperature of a contact thermode positioned on the monkey's face increased from 38 degrees C to temperatures between 44 and 48 degrees C (T1).

Responses of monkey medullary dorsal horn neurons during the detection of noxious heat stimuli.

1. We examined the activity of thermally sensitive trigeminothalamic neurons and nonprojection neurons in the medullary dorsal horn (trigeminal nucleus caudalis) in three monkeys performing thermal and visual detection tasks. 2.

The detection and perceived intensity of noxious thermal stimuli in monkey and in human.

1. The magnitude of the sensations produced by small increases in thermal stimuli superimposed on noxious levels of heat stimulation was studied by the use of a simple reaction-time task. Noxious thermal stimuli were presented on the face of three monkeys, the forearm volar surface of three monkeys, and the face of four human subjects.

Distribution and size of GABAergic neurons in area 7b and the retroinsular cortex of the monkey.

The distribution of gamma-aminobutyric acid (GABA) neurons was examined in the retroinsular cortex (Ri) and area 7b of the monkey. GABA-immunoreactive somata and puncta were observed in all layers of Ri and area 7b. The densest concentration of these neurons was located in layers I and II.

Distribution of GAD-immunoreactive neurons in the first (SI) and second (SII) somatosensory cortex of the monkey.

The distribution of neurons immunoreactive for glutamic acid decarboxylase (GAD), the synthesizing enzyme of gamma-aminobutyric acid (GABA), was examined in the first (SI) and second (SII) somatosensory cortex of monkeys. GAD-like immunoreactive (GAD-LI) somata and puncta were present in all layers of SI and SII. All GAD-LI somata were identified as non-pyramidal neurons and were most numerous in layer IV of SI and in layer III of SII.

SI nociceptive neurons participate in the encoding process by which monkeys perceive the intensity of noxious thermal stimulation.

The activity of primary somatosensory (SI) cortical nociceptive neurons was recorded while the monkeys performed a psychophysical task in which they detected small increases in skin temperature superimposed on noxious levels of thermal stimulation. The detection latency to these stimuli, expressed as detection speed, was used as a measure of the perceived intensity of sensation. Two-thirds of the neurons that responded to noxious thermal stimulation increased their discharge in response to graded increases in stimulus intensity.

The recovery of sensory function following skin flaps in humans.

Two cross-sectional studies were made of the recovery of tactile and pain sensitivity in subjects having skin flaps in the region of the chest and neck as a result of tumor excision. In experiment 1, stimuli ranging from 2.46 to 17.

Somesthetic sensitivity in young and elderly humans.

Absolute thresholds were measured on 27 young (ages 19 to 31) and 21 elderly (ages 55 to 84) humans to six modes of cutaneous stimulation (single ramp-and-hold skin indentations--tactile, vibration at 40 and 250 Hz, temperature increases and decreases, and noxious heat) at two sites, the thenar eminence and the plantar foot. Comparisons of the elderly and young groups showed that elderly persons were significantly, p less than or equal to .001, less sensitive than young individuals to mechanical stimuli (tactile and vibration) at both sites.

The medullary dorsal horn: a target for the expression of opiate effects on the perceived intensity of noxious heat.

We examined the effects of morphine microinjected into the medullary dorsal horn (MDH) on the ability of monkeys to detect temperature increases in the noxious heat range. Behavioral detection latency and the percentage of correct detections were used as measures of the perceived intensity of noxious heat stimuli. Three monkeys were trained to detect a change (T2) of 0.

Wide-dynamic-range dorsal horn neurons participate in the encoding process by which monkeys perceive the intensity of noxious heat stimuli.

The role of dorsal horn wide-dynamic-range (WDR) and nociceptive-specific (NS) neurons in the encoding of the perceived intensity of noxious stimuli was determined while monkeys detected near-threshold changes in the intensity of noxious heat stimuli. Behavioral detection latencies were a reliable measure of the perceived intensity of these stimuli. There was a significant correlation between behavioral detection latency and neuronal discharge of WDR, but not NS neurons.

Comparative study of microepineurial anastomoses with the use of CO2 laser and suture techniques in rat sciatic nerves: Part 1. Surgical technique, nerve action potentials, and morphological studies.

The possibility of utilizing the CO2 laser for neural anastomoses was investigated in a rat sciatic nerve model. One nerve in each animal was acutely divided and anastomosed using 10-0 nylon epineurial sutures, while the opposite side was joined by "welding" the opposed nerve ends together with CO2 laser pulses. The surgical incisions were reexplored 60 days postoperatively, action potentials were recorded across the anastomoses, and the nerves were removed for light and electron microscopy.