Your search keyword '"Yurkewicz L"' showing total 12 results

1. Pregabalin monotherapy in patients with partial-onset seizures: A historical-controlled trial

Author

French, J., primary, Kwan, P., additional, Fakhoury, T., additional, Pitman, V., additional, DuBrava, S., additional, Knapp, L., additional, and Yurkewicz, L., additional

Published

2014

2. Development and Aging of Cholinergic Synapses.

Author

Marchi, M., Yurkewicz, L., Giacobini, E., and Fredrickson, T.

Published

1981

3. Effects of Cytotoxic Deletions of Somatic Sensory Cortex in Fetal Rats.

Author

Yurkewicz, L., Valentino, K. L., Floeter, M. K., Fleshman, J. W., and Jones, E. G.

Published

1984

4. Development and aging of cholinergic synapses. V. a bungarotoxin binding to chick ciliary ganglion and iris during aging

Author

Marchi, Mario, Yurkewicz, L., Giacobini, E., and Fredrickson, T.

Published

1981

5. The effect of a single dose of reserpine administered prior to incubation on the development of tyrosine hydroxylase activity in chick sympathetic ganglia

Author

Fairman, K., primary, Chiappinelli, V., additional, Giacobini, E., additional, and Yurkewicz, L., additional

Published

1977

6. Pregabalin in Patients With Painful Diabetic Peripheral Neuropathy Using an NSAID for Other Pain Conditions: A Double-Blind Crossover Study.

Author

Raskin P, Huffman C, Yurkewicz L, Pauer L, Scavone JM, Yang R, and Parsons B

Subjects

Adult, Aged, Aged, 80 and over, Analgesics administration & dosage, Analgesics adverse effects, Anti-Inflammatory Agents administration & dosage, Cross-Over Studies, Czech Republic, Diabetic Neuropathies diagnosis, Double-Blind Method, Drug Administration Schedule, Drug Therapy, Combination methods, Female, Humans, Italy, Male, Middle Aged, Neuralgia diagnosis, Pregabalin adverse effects, Treatment Outcome, United States, Anti-Inflammatory Agents, Non-Steroidal administration & dosage, Diabetic Neuropathies drug therapy, Neuralgia drug therapy, Pain Measurement drug effects, Pregabalin administration & dosage

Abstract

Objectives: To evaluate pregabalin's efficacy and safety versus placebo to reduce pain in patients with diabetic peripheral neuropathy (DPN) using a concomitant nonsteroidal anti-inflammatory drug., Materials and Methods: In a randomized, double-masked, 14-week, 2-period, crossover study, patients with painful DPN using a nonsteroidal anti-inflammatory drug for non-DPN-related pain received 150 to 300 mg/d pregabalin or placebo (period 1); 14-day washout; then, the opposite therapy (period 2). Endpoints included weekly change in DPN pain score, sleep interference, adverse events, and patient-reported outcomes., Results: Patients with similar baseline characteristics were randomized (period 1) to 1 of the 2 following possible sequences: pregabalin→placebo (n=154) or placebo→pregabalin (n=147). Results of the primary efficacy measure, mean weekly DPN pain at endpoint, showed no significant difference between pregabalin and placebo. However, 1 sensitivity analysis (mixed-model repeated measures) found greater pain score reductions with pregabalin than placebo at weeks 2 to 4 and overall (all P<0.05). One secondary endpoint analysis, mean treatment difference in DPN-related sleep interference, favored pregabalin over placebo (P=0.0009). Other sensitivity and secondary analyses were nonsignificant. Treatment-emergent adverse events were consistent with the known safety profile of pregabalin., Discussion: Pregabalin (vs. placebo) showed overall improvements in sleep, pain reduction in 1 sensitivity analysis, and was well tolerated. Potential factors that may have confounded the ability to detect a treatment difference in DPN pain reduction (high placebo response, carryover effect, short washout period, or pregabalin dose) are discussed in the context of future studies.

Published

2016

7. Efficacy and Safety of Pregabalin in the Treatment of Patients With Painful Diabetic Peripheral Neuropathy and Pain on Walking.

Author

Huffman C, Stacey BR, Tuchman M, Burbridge C, Li C, Parsons B, Pauer L, Scavone JM, Behar R, and Yurkewicz L

Subjects

Adult, Aged, Aged, 80 and over, Analgesics adverse effects, Cross-Over Studies, Diabetic Neuropathies physiopathology, Double-Blind Method, Female, Humans, Male, Middle Aged, Pain physiopathology, Pain Measurement, Pregabalin adverse effects, Quality of Life, Sleep drug effects, Treatment Outcome, Analgesics administration & dosage, Diabetic Neuropathies drug therapy, Pain drug therapy, Pregabalin administration & dosage, Walking physiology

Abstract

Objectives: This randomized, double-blind, placebo-controlled, multicenter, 2-period crossover study (two 6-week treatment periods separated by a 2-week washout period) evaluated the efficacy and safety of pregabalin (150 to 300 mg/d) for treatment of pain and pain on walking in patients with painful diabetic peripheral neuropathy (DPN) who experienced pain while walking., Methods: Co-primary efficacy endpoints were: (1) mean pain score (last 7 daily pain diary scores, 0 to 10 numeric rating scale at end of each treatment period) and (2) DPN pain on walking (0 to 10 numeric rating scale immediately after walking 50 feet [15.2 m] on flat surface). Secondary endpoints included other pain parameters, patient-reported sleep, health-related quality of life, and safety measures., Results: Two hundred three patients were treated (pregabalin, n=198; placebo, n=186), with no statistically significant treatment difference for pregabalin versus placebo in the co-primary efficacy endpoints, mean DPN pain (P=0.0656) and mean DPN pain on walking (P=0.412). A carryover effect was observed. Analysis of co-primary endpoints for period 1 showed significant treatment difference for DPN pain (P=0.034) and DPN pain on walking (P=0.001). Treatment with pregabalin resulted in significant improvements versus placebo on prespecified patient global impression of change (end of period 1; P=0.002), and sleep interference rating scale (end of period 2; P=0.011). Adverse events were more frequent with pregabalin than with placebo and caused discontinuation in 13 (6.6%) pregabalin patients versus 5 (2.7%) placebo patients., Discussion: Failure to meet the co-primary objectives may be related to carryover effect from period 1 to period 2, lower pregabalin dose (150 to 300 mg/d), and/or placebo response in painful DPN.

Published

2015

8. Efficacy and safety of pregabalin versus lamotrigine in patients with newly diagnosed partial seizures: a phase 3, double-blind, randomised, parallel-group trial.

Author

Kwan P, Brodie MJ, Kälviäinen R, Yurkewicz L, Weaver J, and Knapp LE

Subjects

Adult, Asia, Dose-Response Relationship, Drug, Double-Blind Method, Drug Administration Schedule, Europe, Female, Follow-Up Studies, Humans, Lamotrigine, Male, Middle Aged, Pregabalin, Treatment Outcome, Young Adult, gamma-Aminobutyric Acid therapeutic use, Anticonvulsants therapeutic use, Epilepsies, Partial drug therapy, Triazines therapeutic use, gamma-Aminobutyric Acid analogs & derivatives

Abstract

Background: Efficacious and safe monotherapy options are needed for adult patients with newly diagnosed epilepsy. As an adjunctive treatment for partial seizures, pregabalin compares favourably with lamotrigine and is an effective, approved treatment. We studied the efficacy and safety of pregabalin as monotherapy, using a design that complied with European regulatory requirements and International League Against Epilepsy guidelines., Methods: This phase 3, double-blind, randomised, non-inferiority study compared the efficacy and tolerability of pregabalin and lamotrigine monotherapy in patients with newly diagnosed partial seizures at 105 centres, mostly in Europe and Asia. Randomisation to treatment groups (1:1 ratio) was by a computer-generated pseudorandom code (random permuted blocks), with patients sequentially assigned numbers by telephone. Investigators, site staff, and patients were masked to the assigned treatment. After randomisation, patients were titrated to either 75 mg oral pregabalin or 50 mg oral lamotrigine twice daily during a 4-week dose-escalation phase, followed by a 52-week efficacy assessment phase during which the daily dose could be increased as needed to a maximum of 600 mg and 500 mg, respectively. The primary efficacy endpoint was the proportion of patients who remained seizure-free for 6 or more continuous months during the efficacy assessment phase; analysis included all patients who were randomly assigned to treatment groups and received at least one dose of study treatment. This study is registered with ClinicalTrials.gov, number NCT00280059., Findings: 660 patients were randomly assigned to treatment groups (330 pregabalin, 330 lamotrigine), of whom 622 entered the efficacy assessment phase (314 pregabalin, 308 lamotrigine). Fewer patients in the pregabalin group than in the lamotrigine group became seizure-free for 6 or more continuous months (162 [52%] vs 209 [68%]; difference in proportion, -0·16, 95% CI -0·24 to -0·09). The overall incidence of adverse events was similar between the groups and consistent with that in previous studies; dizziness (55 [17%] vs 45 [14%] patients), somnolence (29 [9%] vs 14 [4%]), fatigue (27 [8%] vs 19 [6%]), and weight increase (21 [6%] vs 7 [2%]) were numerically more common in the pregabalin group than in the lamotrigine group., Interpretation: Pregabalin has similar tolerability but seems to have inferior efficacy to lamotrigine for the treatment of newly diagnosed partial seizures in adults. Inferior efficacy of pregabalin might have been attributable to limitations in the study design, as treatment doses might have not been optimised adequately or early enough., Funding: Pfizer Inc., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

9. The effect of the selective NMDA receptor antagonist traxoprodil in the treatment of traumatic brain injury.

Author

Yurkewicz L, Weaver J, Bullock MR, and Marshall LF

Subjects

Adolescent, Adult, Aged, Brain Injuries mortality, Excitatory Amino Acid Antagonists blood, Female, Glasgow Outcome Scale, Humans, Male, Middle Aged, Neuroprotective Agents blood, Piperidines blood, Recovery of Function, Survival Analysis, Survival Rate, Treatment Outcome, Brain Injuries drug therapy, Excitatory Amino Acid Antagonists therapeutic use, Neuroprotective Agents therapeutic use, Piperidines therapeutic use, Receptors, N-Methyl-D-Aspartate antagonists & inhibitors

Abstract

Traumatic brain injury (TBI) remains a major public health problem, and there is a great medical need for a pharmacological treatment that could improve long-term outcome. The excitatory neurotransmitter, glutamate, has been implicated in processes leading to neurodegeneration. Traxoprodil (CP-101,606) is a novel and potent glutamate receptor antagonist that is highly selective for the NR2B subunit of the NMDA receptor; it has been shown to be neuroprotective in animal models of brain injury and ischemia. A randomized, double-blind, placebo-controlled study was therefore conducted to assess the efficacy and safety of a 72-h infusion of traxoprodil compared to placebo in subjects with computed tomography scan evidence of severe TBI (GCS 4-8). A total of 404 males and non-pregnant females, aged 16-70, were treated within 8 h of injury. At baseline, subjects were stratified by motor score severity. The results showed that a greater proportion of the traxoprodil-treated subjects had a favorable outcome on the dichotomized Glasgow Outcome Scale (dGOS) at 6 months (delta 5.5%, OR 1.3, p = 0.21, 95% CI:[0.85, 2.06]) and at last visit (delta 7.5%, OR 1.47, p = 0.07, 95% CI:[0.97, 2.25]). The mortality rate with traxoprodil treatment was 7% less than with placebo treatment (OR 1.45, p = 0.08, 95% CI:[0.96, 2.18]). Differences between treatment groups were more pronounced in the severest subset (delta 11.8% for the dGOS at last visit and delta 16.6% for mortality). Traxoprodil was well tolerated. Although these results are intriguing, no definitive claim of efficacy can be made for traxoprodil for the treatment of severe TBI.

Published

2005

10. Clinical trials in head injury.

Author

Narayan RK, Michel ME, Ansell B, Baethmann A, Biegon A, Bracken MB, Bullock MR, Choi SC, Clifton GL, Contant CF, Coplin WM, Dietrich WD, Ghajar J, Grady SM, Grossman RG, Hall ED, Heetderks W, Hovda DA, Jallo J, Katz RL, Knoller N, Kochanek PM, Maas AI, Majde J, Marion DW, Marmarou A, Marshall LF, McIntosh TK, Miller E, Mohberg N, Muizelaar JP, Pitts LH, Quinn P, Riesenfeld G, Robertson CS, Strauss KI, Teasdale G, Temkin N, Tuma R, Wade C, Walker MD, Weinrich M, Whyte J, Wilberger J, Young AB, and Yurkewicz L

Subjects

Humans, Brain Injuries therapy, Clinical Trials as Topic methods

Abstract

Traumatic brain injury (TBI) remains a major public health problem globally. In the United States the incidence of closed head injuries admitted to hospitals is conservatively estimated to be 200 per 100,000 population, and the incidence of penetrating head injury is estimated to be 12 per 100,000, the highest of any developed country in the world. This yields an approximate number of 500,000 new cases each year, a sizeable proportion of which demonstrate significant long-term disabilities. Unfortunately, there is a paucity of proven therapies for this disease. For a variety of reasons, clinical trials for this condition have been difficult to design and perform. Despite promising pre-clinical data, most of the trials that have been performed in recent years have failed to demonstrate any significant improvement in outcomes. The reasons for these failures have not always been apparent and any insights gained were not always shared. It was therefore feared that we were running the risk of repeating our mistakes. Recognizing the importance of TBI, the National Institute of Neurological Disorders and Stroke (NINDS) sponsored a workshop that brought together experts from clinical, research, and pharmaceutical backgrounds. This workshop proved to be very informative and yielded many insights into previous and future TBI trials. This paper is an attempt to summarize the key points made at the workshop. It is hoped that these lessons will enhance the planning and design of future efforts in this important field of research.

Published

2002

11. Development and aging of noradrenergic cell bodies and axon terminals in the chicken.

Author

Yurkewicz L, Marchi M, Lauder JM, and Giacobini E

Subjects

Animals, Axons enzymology, Brain enzymology, Cerebellar Cortex enzymology, Cerebellum enzymology, Chick Embryo, Chickens, Ganglia, Sympathetic enzymology, Histocytochemistry, Iris enzymology, Locus Coeruleus enzymology, Spinal Cord enzymology, Aging, Nervous System enzymology, Neurons enzymology, Norepinephrine physiology, Tyrosine 3-Monooxygenase metabolism

Abstract

Tyrosine hydroxylase activity was measured in the region of locus coeruleus, cerebellum, cervical spinal cord, lumbar sympathetic ganglia, and iris throughout most of the life span of the chicken (8 days of incubation to 5 years) to compare developmental trends in tyrosine hydroxylase activity in noradrenergic cell bodies and in axon terminals in both the central and peripheral nervous system. Fluorescence histochemistry and retrograde transport of horseradish peroxidase were used to characterize further the coeruleo-cerebellar projections. Tyrosine hydroxylase activity was detected in the cerebellum as early as 8 days of incubation, which is the earliest stage so far reported. The greatest increase in total tyrosine hydroxylase activity in the region of the locus coeruleus and cerebellum occurred during the embryonic period. There was a more pronounced increase in the cerebellum than in the locus coeruleus region. This is in contrast to the cervical spinal cord where tyrosine hydroxylase activity increased at approximately the same rate during the embryonic and post-hatching periods. Moreover, the cerebellum and cervical spinal cord, two locus coeruleus target sites, displayed different trends in tyrosine hydroxylase activity throughout development and aging. In both structures examined in the peripheral nervous system, the greatest increase in total tyrosine hydroxylase activity occurred during the post-hatching period, with a greater rise in the cell bodies of the lumbar sympathetic ganglia than in the noradrenergic terminals of the iris. In both the central and peripheral nervous system, total tyrosine hydroxylase activity continued to increase in noradrenergic terminals long after hatching reaching the highest levels at 7 months when the chicken is considered fully mature. During aging, 16 months to 5 years, there was a greater decrease in total tyrosine hydroxylase activity in the terminals of noradrenergic neurons than in the cell bodies in both the central and peripheral nervous system, a phenomenon that was more marked in the peripheral nervous system than in the brain.

Published

1981

12. 3H-thymidine long survival autoradiography as a method for dating the time of neuronal origin in the chick embryo: the locus coeruleus and cerebellar Purkinje cells.

Author

Yurkewicz L, Lauder JM, Marchi M, and Giacobini E

Subjects

Animals, Autoradiography, Cell Count, Chick Embryo, Neural Pathways cytology, Neurons cytology, Cell Differentiation, Cerebellar Cortex cytology, Locus Coeruleus cytology, Purkinje Cells cytology

Abstract

Contrary to previous assumptions, we have found that a single dose of 3H-thymidine (25 muCi), injected into the yolk sac of White Leghorn chick eggs on 2 days of incubation (d.i.) only remains available for DNA-synthesizing (proliferating) cells for 48 hours following the time of injection. This finding now makes it possible to date the time of neuronal origin in the avian embryo using a single injection of isotope and a long survival time (30 days posthatch) as in mammalian studies where 3H-thymidine is only available as a short "pulse." Using this method, we have determined that neurons in the chick locus coeruleus (LC) cease proliferation on 2-6 d.i. with a peak of neuronal genesis on 3-5 d.i. In addition, neuronal genesis is not homogeneous throughout the LC cell population, but occurs in a predominantly caudorostral gradient. Conversely, the cerebellar Purkinje cells cease division on 3-8 d.i. with a peak of heavy labeling on 4-6 d.i., 1 day later than that observed in the LC.

Published

1981