Ilan Ziv scite author profile

Delayed gastric emptying may be an important pharmacokinetic mechanism underlying some of the response fluctuations that develop after long-term levodopa therapy. We performed a radionuclide gastric emptying study using a standard Tc-99m colloid-labeled solid meal in 30 patients with Parkinson's disease (PD), 15 fluctuators with "delayed-on" and "no-on" phenomena, and 15 nonfluctuators. Fasting patients were given the standard meal, and gastric emptying was monitored with a gamma camera positioned over the stomach, recording data for 1 hour. PD patients had prolonged gastric emptying measured after 60 minutes compared with the normal control subjects (70.7 +/- 16% versus < 60%). Gastric retention measured after 1 hour was increased in patients with fluctuations compared with patients without fluctuations (77.4 +/- 15.5% versus 64.0 +/- 14.3%; p < 0.05). Half-time emptying was significantly delayed in patients with, as compared with those without, response fluctuations (221 +/- 202 minutes versus 85 +/- 31 minutes; p < 0.05). This demonstrates that delayed gastric emptying is common in PD patients and is more marked in those with response fluctuations. The stomach is an important target organ in PD, affected either by the basic PD pathology, chronic drug administration, or both.

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Semaphorins as Mediators of Neuronal Apoptosis

Shirvan

Ziv

Fleminger

et al. 1999

Journal of Neurochemistry

145

114

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Shrinkage and collapse of the neuritic network are often observed during the process of neuronal apoptosis. However, the molecular and biochemical basis for the axonal damage associated with neuronal cell death is still unclear. We present evidence for the involvement of axon guidance molecules with repulsive cues in neuronal cell death. Using the differential display approach, an up-regulation of collapsin response mediator protein was detected in sympathetic neurons undergoing dopamineinduced apoptosis. A synchronized induction of mRNA of the secreted collapsin-1 and the intracellular collapsin response mediator protein that preceded commitment of neurons to apoptosis was detected. Antibodies directed against a conserved collapsin-derived peptide provided marked and prolonged protection of several neuronal cell types from dopamine-induced apoptosis. Moreover, neuronal apoptosis was inhibited by antibodies against neuropilin-1, a putative component of the semaphorin III/ collapsin-1 receptor. Induction of neuronal apoptosis was also caused by exposure of neurons to semaphorin III-alkaline phosphatase secreted from 293EBNA cells. Anti-collapsin-1 antibodies were effective in blocking the semaphorin III-induced death process. We therefore suggest that, before their death, apoptosis-destined neurons may produce and secrete destructive axon guidance molecules that can affect their neighboring cells and thus transfer a "death signal" across specific and susceptible neuronal populations. Key Words: Dopamine-Sympathetic neurons-Apoptosis-Semaphorin-Collapsin-1. J. Neurochem. 73, 961-971 (1999).

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Ilan Ziv

The mystery of motor asymmetry in Parkinson's disease

Prevention of Dopamine-Induced Cell Death by Thiol Antioxidants: Possible Implications for Treatment of Parkinson's Disease

Gastric emptying in Parkinson's disease

Semaphorins as Mediators of Neuronal Apoptosis

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