The relationship between the glenoid track and the range of shoulder motion: A cadaver study.

INTRODUCTION: The concept of the glenoid track has been proposed to evaluate the risk of dislocation. The glenoid track width was demonstrated to be 84% of the glenoid width in cadaveric shoulders and 83% in live shoulders. HYPOTHESIS: The glenoid track width seems to be affected by the range of motion. PURPOSE: The purpose of this study was to determine the relationship between the glenoid track and the range of shoulder motion. METHODS: Ten fresh-frozen cadaveric shoulders were used. The specimen was fixed to a shoulder-positioning device. The anterior rim of the glenoid was marked on the humeral head using a Kirschner wire with the arm in 60° of abduction. This marking was repeated with the arm in (1) horizontal flexion/extension and (2) internal/external rotations (0° to max). The distances from the Kirschner wire markings to the footprint of the rotator cuff tendon were measured. RESULTS: The greater the angle of the horizontal extension or external rotation, the smaller the glenoid track width, whereas the greater the angle of the horizontal flexion or internal rotation, the greater the glenoid track width. There was a negative relationship between them. The horizontal flexion/extension motion was demonstrated to affect the glenoid track width more than the internal/external rotation motion. CONCLUSION: The glenoid track width decreased with the increase of horizontal extension. We should consider the range of horizontal extension angle when applying the glenoid track concept in clinical practice. TYPE OF STUDY: Laboratory study.

Outcome of Bankart repair in contact versus non-contact athletes.

BACKGROUND: The clinical results of arthroscopic Bankart repair for contact athletes varies according to published reports. The purposes of this study were to analyze the clinical outcome of open or arthroscopic Bankart repair and to investigate the results in contact and non-contact athletes. HYPOTHESIS: Clinical outcome of arthroscopic Bankart repair is similar to that of open procedure. PATIENTS AND METHODS: One hundred patients with recurrent anterior shoulder dislocation without a large bony defect were retrospectively reviewed. Fifty-one contact and 49 non-contact athletes were found with a mean follow-up of 17 months. Forty-nine shoulders underwent arthroscopic Bankart repairs; 51 shoulders had open Bankart repairs. RESULTS: In non-contact athletes, there was a 5% (1/22 cases) recurrence rate in the open group and 4% (1/27 cases) in the arthroscopic group. In contrast, in contact athletes, there was a 10% (3/29 cases) recurrence rate in the open group and 14% (3/22 cases) in the arthroscopic group. There was no significant difference in the recurrence rate between contact and non-contact athletes, although contact athletes showed two to three times a higher recurrence rate than that of non-contact athletes. The Rowe score and Constant score showed no significant difference between the two procedures and between the contact and non-contact athletes. The rate of the complete return to sports showed no significant difference between contact and non-contact athletes. CONCLUSION: The recurrence rate of Bankart repair in the contact athletes was 2 times higher in the open group and 3 times higher in the arthroscopic group than in the non-contact athletes. Clinical outcome of arthroscopic Bankart repair was similar to that of open procedure.

Reversal of diminished inhibitory sensory gating in cocaine addicts by a nicotinic cholinergic mechanism.

Cocaine addiction, as with other stimulant abuse, produces psychotic symptoms. Although often moderate to mild in severity, these symptoms are, nevertheless, associated with poorer over-all outcome. Recent studies suggest diminished nicotinic cholinergic neurotransmission as a mechanism of a physiological deficit found in schizophrenia, failure of auditory sensory inhibition. Diminished inhibitory sensory gating also occurs in cocaine addicts, probably because of their increased catecholaminergic neurotransmission, which blocks the inhibition. In the present study, 11 cocaine addicts in the first week of detoxification were recorded electrophysiologically, after which the effects of 6 mg of nicotine gum, were assessed in a double-blind placebo-controlled crossover design. The test was repeated 10 days later. Treatment with nicotine, but not placebo, briefly reversed the inhibitory abnormality on both test days. Although nicotine itself may not be a desirable therapeutic agent, because desensitization of nicotinic receptors limits the time course of its effect, the study identifies a previously unexploited therapeutic target for new drug development for the neuropsychiatric sequelae of cocaine addiction.

Inhibitory neurophysiological deficit as a phenotype for genetic investigation of schizophrenia.

Many investigators have proposed that biological endophenotypes might facilitate the genetic analysis of schizophrenia. A deficit in the inhibition of the P50 evoked response to repeated auditory stimuli has been characterized as a neurobiological deficit in schizophrenia. This deficit is linked to a candidate gene locus, the locus of the alpha7-nicotinic cholinergic receptor subunit gene on chromosome 15q14. Supportive evidence has been found by other investigators, including: 1) linkage of schizophrenia to the same locus; 2) linkage of bipolar disorder to the locus; and 3) replication of the existence of this neurobiological deficit and its relation to broader neuropsychological deficits in schizophrenia. It is certain that there are many genetic factors in schizophrenia and bipolar disorder; what is needed is a complete and precise description of the contribution of each individual factor to the pathophysiology of these illnesses.

Auditory P50 in schizophrenics on clozapine: improved gating parallels clinical improvement and changes in plasma 3-methoxy-4-hydroxyphenylglycol.

Schizophrenic patients have decreased inhibition of the P50 auditory evoked potential response to the second of two paired click stimuli delivered 500 ms apart. This deficit in inhibitory gating does not change during treatment with typical neuroleptics. We recently reported that neuroleptic-resistant schizophrenics had enhanced P50 gating after 1 month of clozapine treatment, if they responded with decreased clinical symptoms. This study reports the outcome of more prolonged treatment. Ten treatment-refractory schizophrenic patients were studied at baseline, after 1 month on clozapine, and again after 15 +/- 6.1 (SD) months of clozapine treatment. Eight subjects reached a clinically stable improved state, at which time they had significantly improved P50 auditory gating. One patient had a return of impaired gating after stopping clozapine, as did another during a clinical relapse. Decreasing plasma 3-methoxy-4-hydroxyphenylglycol levels with clozapine treatment were correlated with improved P50 gating and improved Brief Bsychiatric Rating Scale-positive scores. This study provides further evidence that improved P50 gating in schizophrenic patients treated with clozapine coincides with clinical improvement and that this improvement can be sustained for at least 1 year.

Schizophrenia, sensory gating, and nicotinic receptors.

A series of human and animal investigations has suggested that altered expression and function of the alpha7-nicotinic cholinergic receptor may be responsible for the auditory sensory gating deficit characterized in schizophrenia patients and their relatives as diminished suppression of an auditory-evoked response (P50) to repeated stimuli. This finding, in conjunction with evidence for familial transmission of this sensory gating deficit, suggests a pathogenic role of the gene for the alpha7-nicotinic receptor in schizophrenia. This article considers the possible effects of this dysfunction in a broader context. Not only is this dysfunction consistent with difficulties in sensory gating, but it might also predispose patients to problems with learning efficiency and accuracy. Such learning problems could underlie schizophrenia patients' delusional thinking, hallucinations, and social dysfunction. In addition, heavy smoking in many schizophrenia patients is consistent with the high concentration of nicotine necessary to activate the receptor and with the receptor's extremely rapid desensitization. Finally, the receptor's possible role in cell growth and differentiation should be considered in connection with developmental deficits and other cellular abnormalities in schizophrenia.

Kainic acid lesions in adult rats as a model of schizophrenia: changes in auditory information processing.

Previous studies have suggested that intracerebroventricular kainic acid injections alter brain anatomy and neurochemistry in a manner similar to what is observed in schizophrenic patients. Disturbances in sensory information processing are one of the major symptoms of schizophrenia. Thus, the present experiments were designed to evaluate the hypothesis that hippocampal damage, induced by administration of kainic acid, would alter the processing of auditory stimuli in a paired-click paradigm. Adult male Sprague-Dawley rats were implanted for surface recording of auditory evoked potentials. At the time of electrode implantation, the rats also received bilateral injections of either kainic acid or the vehicle solution. In vehicle-treated rats, the midlatency N40 component of the auditory evoked potential was diminished in amplitude by approximately 60% in response to the second of a pair of clicks delivered 0.5 s apart. By contrast, no reduction of the N40 wave evoked by the second click was observed in kainate-treated rats. Further, administration of haloperidol, a prototypical neuroleptic agent, did not improve this auditory processing dysfunction in kainate-treated animals. Loss of auditory filtering in the paired-click paradigm and a lack of response to haloperidol in this test are typically observed in schizophrenic humans. Thus, the present results demonstrate that kainate-lesioned rats possess a functional schizophrenia-like abnormality, further reinforcing the utility of this model system for studying the basic neurobiology of schizophrenia-induced sensory processing deficits.

OPC-6535, a superoxide anion production inhibitor, attenuates acute lung injury.

A large body of evidence has demonstrated that inhibition of the neutrophil's oxidant burst attenuates sepsis-induced acute lung injury. The present study sought to evaluate the ability of OPC-6535, a superoxide anion production inhibitor, to attenuate sepsis-induced acute lung injury. Four groups of swine were anesthetized, ventilated, and studied for 5 hr. Following surgical preparation, control (n = 10) and OPC-control (n = 2) animals received a 1-hr infusion of sterile saline. Sepsis was induced with a 1-hr intravenous infusion of live Pseudomonas aeruginosa. Untreated septic animals (n = 10) received no treatment. Animals treated with OPC-6535 (n = 6) received a 1 mg/kg bolus of OPC-6535 15 min prior to initiation of the bacterial infusion. Changes in systemic and pulmonary hemodynamics, arterial oxygen tension, bronchoalveolar lavage protein and neutrophil content, neutrophil integrin expression, neutrophil oxidant burst, and lung myeloperoxidase content were used as outcome measures. Treatment with OPC-6535 significantly reduced acute lung injury, as indicated by improved bronchoalveolar lavage protein and neutrophil content, resulting in a significant improvement in arterial oxygenation. Treatment with OPC-6535 failed to prevent the development of pulmonary hypertension and systemic hypotension. Neutrophils from animals with both treated and untreated sepsis exhibited significant up-regulation of CD18 and production of increased levels of oxidants, indicating significant activation when compared to neutrophils from control animals. Although animals treated with OPC-6535 produced 25% less superoxide anion than untreated septic animals, this decrease was not statistically significant. Treatment of animals with OPC-6535 prior to the onset of sepsis produced significant protection against acute lung injury but failed to attenuate hemodynamic derangements associated with sepsis.

Inhibitory gating of an evoked response to repeated auditory stimuli in schizophrenic and normal subjects. Human recordings, computer simulation, and an animal model.

BACKGROUND: Altered sensory response is a prominent feature of schizophrenia. Inhibitory gatting mechanisms, shown by diminished P50 evoked responses to repeated auditory stimuli, seem to be deficient in schizophrenic persons. These inhibitory mechanisms usually are studied by averaging the electroencephalographic responses to many presentations of pairs of stimuli. Although averaging increases signal-to-noise ratio, it may obscure trial-to-trial differences. We compared differences between schizophrenic and normal persons in single trials and averages of P50 response. METHODS: Recordings from 10 schizophrenic patients and 10 normal subjects were analyzed using conventional averaging and single-trial measurements. A computer simulation of both methods examined their ability to extract evoked responses from background activity. Related single-neuron activity in the hippocampus in an animal model also was studied, because neuronal action potentials can be reliably identified in single trials. RESULTS: Averaged evoked potentials showed significant suppression of the P50 response to the second stimulus of the pair in normal patients, but not in schizophrenic patients. Single-trial analysis did not detect a response above background activity. Computer simulations gave similar results, suggesting that failure to detect suppression in single trials comes from inadequate differentiation of signal from noise. Recordings in animals confirmed almost complete suppression of the response of hippocampal pyramidal neurons to the second stimulus. CONCLUSIONS: The normal inhibition of response to repeated auditory stimuli seems to be compromised in schizophrenia. This loss of inhibitory gating could reflect a physiological deficit of hippocampal interneurons that is consonant with other evidence for interneuron pathologic defects in schizophrenia.

Gating of auditory P50 in schizophrenics: unique effects of clozapine.

Schizophrenic patients have a deficit in the ability to filter sensory stimuli, which can be demonstrated in several psychophysiological paradigms. For example, most unmedicated schizophrenic subjects fail to decrement the P50 auditory evoked response to the second of paired stimuli, when the interstimulus interval is 500 msec. This sensory gating deficit persists in schizophrenics treated with typical antipsychotics, even if they show significant clinical improvement. When the interstimulus interval is 100 msec, most schizophrenics exhibit impaired gating while acutely ill, but normalize with treatment. Clozapine, the prototypic atypical antipsychotic medication, is clinically more effective than conventional neuroleptics in a significant proportion of schizophrenics refractory to other drug treatment. Nine schizophrenic subjects who were refractory to conventional neuroleptic treatment were studied while being treated with typical neuroleptics and then restudied after 1 month's treatment with clozapine. In the six clozapine responders, there was significant improvement of P50 gating at the 500 msec interval. At the 100 msec interval there was an inverse relationship between sensory gating of P50 and clozapine dose, independent of clinical response. Thus, although this can only be considered preliminary data because of the small number of subjects, it appears that clozapine, compared to typical neuroleptics, has distinct effects on P50 gating.

Nicotinic receptor function in schizophrenia.

Schizophrenia can be partially characterized by deficits in sensory processing. Biochemical, molecular, and genetic studies of one such endophenotype, the P50 auditory-evoked potential gating deficit, suggest that one of the neuronal nicotinic receptors, the alpha 7 nicotinic receptor, may function in an inhibitory neuronal pathway involved in this phenotype. The P50 deficit is normalized in nongating subjects by nicotine. Although most schizophrenia patients are heavy smokers, the effects of nicotine may be transient, as alpha 7 receptors are known to desensitize rapidly. In an animal model of the P50 gating deficit, antagonists of the alpha 7 nicotinic receptor block normal gating of the second of paired auditory stimuli. Regional localization of receptor expression includes areas known to function in sensory filtering. An inhibitory mechanism, in the hippocampus, may involve nicotinic stimulation of gamma-aminobutyric acid (GABA)ergic interneurons, resulting in decreased response to repetitive stimuli. Expression of the alpha 7 receptor is decreased in hippocampal brain tissue, dissected postmortem, from schizophrenia subjects. The P50 deficit is inherited in schizophrenia pedigrees, but it is not sufficient for disease development and thus represents a predisposition factor. Linkage analysis between the P50 deficit in multiplex schizophrenia pedigrees and deoxyribonucleic acid (DNA) markers throughout the genome yielded positive lod scores to DNA markers mapping to a region of chromosome 15 containing the alpha 7 nicotinic receptor gene. Elucidation of possible interactions of the P50 with other factors, known to be important in the etiology of the disease, is important in determining an overall pathobiology of schizophrenia.

Novel thiazole derivatives as inhibitors of superoxide production by human neutrophils: synthesis and structure-activity relationships.

Neutrophils have an important role in the self-defense systems of organisms through the production of superoxide. On the other hand, it has been proposed that abnormal amounts of superoxide produced by neutrophils are a serious factor in tissue injury. A series of novel thiazole derivatives was prepared and evaluated inhibitory effect on superoxide production by human neutrophils in vitro. Among these compounds, 6-[2-(3,4-diethoxyphenyl)thiazol-4-yl]-pyridine-2-carboxylic acid (OPC-6535) was selected as one of the most promising compounds. The synthesis and structure-activity relationships of these compounds are reported herein.

Yohimbine impairs P50 auditory sensory gating in normal subjects.

The evoked response to repeated auditory stimuli generally decreases in amplitude, a phenomenon that demonstrates the activity of sensory gating mechanisms in the central nervous system (CNS). Gating of the P50 wave of the auditory evoked response shows such behavior in normals, but not in schizophrenic or manic subjects. In mania, diminished gating of the auditory evoked response is correlated with elevated levels of noradrenergic metabolites. In animals, yohimbine, a presynaptic alpha-2 antagonist, increases noradrenergic neuronal transmission in the CNS and diminished gating of the auditory evoked response. The aim of this experiment was to test whether yohimbine causes diminished auditory sensory gating in normal human controls. Seven normal subjects with normal P50 auditory gating were treated either with 0.4 mg/kg of oral yohimbine on one day or placebo on a different day. Each subject acted as his own control. Yohimbine, but not placebo, caused a significant but transient decrease in P50 auditory gating in these subjects. Thus, increasing CNS noradrenergic neuronal transmission in normal controls can cause a transient impairment in auditory sensory gating.

Auditory sensory gating, hippocampal volume, and catecholamine metabolism in schizophrenics and their siblings.

Schizophrenia may result from the concerted action of several pathophysiological factors. This pilot study compared the distribution of measurements of three such putative factors in 11 schizophrenics and their siblings: a neurophysiological deficit in auditory sensory gating, diminished hippocampal volume, and increased catecholamine metabolism. Abnormal auditory sensory gating was found in all schizophrenics in the 11 families studied and in 8 of their 20 siblings. Compared with the schizophrenics, the clinically unaffected siblings with abnormal auditory gating had larger hippocampal volume. There was no similar difference for the siblings with normal gating. The siblings with abnormal auditory gating also had lower homovanillic acid levels than the other siblings. The data suggest that a familial neuronal deficit, identified by diminished sensory gating, may be a necessary, but not sufficient factor in the pathogenesis of schizophrenia. Individuals with this deficit are generally clinically unaffected, except for schizophrenics, who also have other abnormalities, such as diminished hippocampal volume and increased catecholamine metabolism.

Neurophysiological and neuropsychological evidence for attentional dysfunction in schizophrenia.

The behavior of the P50 wave of the auditory evoked potential in a paired stimulus or conditioning-testing paradigm has been used as a measure of sensory gating disturbance in schizophrenia. Schizophrenics fail to decrement the P50 response to the second stimulus of the pair, so that the ratio of the test to the conditioning amplitude is elevated over normal values. The aim of this study was to compare this neurophysiological measure to neuropsychological measures of attention and memory. As expected, schizophrenics performed worse than controls on most measures. The time to complete a digit cancellation test, a measure of sustained attention, was found to be particularly longer in schizophrenics than in control subjects. Furthermore, the increased time to complete this task correlated with the increased ratio of the amplitude of the test P50 response to the conditioning response in the schizophrenics. Thus, a neurophysiological defect in sensory gating may relate to a disorder in sustained attention in schizophrenia. Although the P50 wave may come from the hippocampus, neuropsychological measures of verbal learning and memory were not correlated with alterations in the P50 ratio.

Codistribution of a sensory gating deficit and schizophrenia in multi-affected families.

Because the clinical diagnosis of schizophrenia has not generally been an adequate phenotypic marker to detect the genes that convey risk for schizophrenia, efforts have been directed toward the identification of more elementary neuronal dysfunctions in schizophrenic patients and their families. Psychophysiological studies of sensory gating and selective attention suggest that defects in these brain functions are present in schizophrenic patients and some of their relatives. This study examines one of these defects in sensory gating, failure to suppress the P50 evoked response to repeated auditory stimuli. Six pedigrees, chosen because of the presence of large sibships containing several cases of schizophrenia, were studied. A mathematical model was developed to assess the familial association of the P50 defect with schizophrenia. The model preserves the quantitative nature of the data and is suitable for use in a sample with small numbers of pedigrees comprising many individuals. It is thus suitable for the evaluation of putative phenotypes in families to be studied by linkage analysis with polymorphic genetic markers. The results suggest that the P50 defect is familially associated with schizophrenia.

Lithium carbonate and mood disorder in recently detoxified alcoholics: a double-blind, placebo-controlled pilot study.

The effects of lithium carbonate were assessed in a double-blind, placebo-controlled study of a small group of recently detoxified alcoholics. The patients were treated during their 2nd and 3rd week of abstinence. A previous study demonstrated the existence in these patients of a syndrome of mildly elevated psychomotor rate, including irritability, grandiosity, an increased need for social contact, loquaciousness, and sexual preoccupation. The intensity of this syndrome was significantly decreased by treatment with low dose lithium carbonate, with no effect of placebo treatment.

Elementary neuronal dysfunctions in schizophrenia.

This paper describes an elementary deficit in sensory processing in people with schizophrenia. If paired sounds are presented to normal subjects, the response to the first sound, as measured by the P50 wave of the auditory-evoked potential, is much greater than the response to the second sound. The diminished response to the second sound is an example of a sensory gating mechanism that enables people to regulate their vigilance so that they can either detect all sounds in the environment or ignore most of them, in favor of narrowing the focus of their concentration. In schizophrenia, this mechanism is usually deficient; patients are in a state of hypervigilance and have diminished abilities to focus their attention. The deficiency appears to be genetically determined and to involve the brainstem control of sensory input to the hippocampus. Such sensory gating deficits may underlie more complex psychotic symptoms, such as hallucinations and delusions. Further studies of their neurobiology could lead to increased understanding of the pathophysiology of schizophrenia.

Gating of auditory response in schizophrenics and normal controls. Effects of recording site and stimulation interval on the P50 wave.

Auditory evoked potentials were recorded using a paired stimulus, conditioning-testing paradigm from 14 schizophrenic patients and 13 normal subjects with no family history of psychotic disorder. Previous studies of the vertex P50 wave using this paradigm have demonstrated a possible sensory gating deficit in schizophrenics, as shown by their failure to diminish the response to a test stimulus presented 500 ms after a conditioning stimulus. Recordings were made at Cz, Fz, C3, T3, C4, and T4, to compare effects at different recording sites with this paradigm. Schizophrenics had significantly poorer sensory gating than normals, with the most significant difference between the groups at Cz. In addition to the 500 ms interval, subjects were also recorded at a conditioning-testing interval of 100 ms. Most schizophrenics showed normal sensory gating at the 100 ms interval, despite their abnormalities at 500 ms. The results indicate that Cz is optimal recording site for this paradigm, and that gating abnormalities in schizophrenic subjects are limited to specific interstimulus intervals.