Moisés Gaviria scite author profile

The International Campaign for Cures of Spinal Cord Injury Paralysis (ICCP) supported an international panel tasked with reviewing the methodology for clinical trials in spinal cord injury (SCI), and making recommendations on the conduct of future trials. This is the first of four papers. Here, we examine the spontaneous rate of recovery after SCI and resulting consequences for achieving statistically significant results in clinical trials. We have reanalysed data from the Sygen trial to provide some of this information. Almost all people living with SCI show some recovery of motor function below the initial spinal injury level. While the spontaneous recovery of motor function in patients with motor-complete SCI is fairly limited and predictable, recovery in incomplete SCI patients (American spinal injury Association impairment scale (AIS) C and AIS D) is both more substantial and highly variable. With motor complete lesions (AIS A/AIS B) the majority of functional return is within the zone of partial preservation, and may be sufficient to reclassify the injury level to a lower spinal level. The vast majority of recovery occurs in the first 3 months, but a small amount can persist for up to18 months or longer. Some sensory recovery occurs after SCI, on roughly the same time course as motor recovery. Based on previous data of the magnitude of spontaneous recovery after SCI, as measured by changes in ASIA motor scores, power calculations suggest that the number of subjects required to achieve a significant result from a trial declines considerably as the start of the study is delayed after SCI. Trials of treatments that are most efficacious when given soon after injury will therefore, require larger patient numbers than trials of treatments that are effective at later time points. As AIS B patients show greater spontaneous recovery than AIS A patients, the number of AIS A patients requiring to be enrolled into a trial is lower. This factor will have to be balanced against the possibility that some treatments will be more effective in incomplete patients. Trials involving motor incomplete SCI patients, or trials where an accurate assessment of AIS grade cannot be made before the start of the trial, will require large subject numbers and/or better objective assessment methods.

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Guidelines for the conduct of clinical trials for spinal cord injury (SCI) as developed by the ICCP panel: clinical trial outcome measures

Steeves

et al. 2006

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Prevalence, Pathogenesis, and Treatment of Renal Dysfunction Associated With Chronic Lithium Therapy

Boton

Gaviria

Batlle

1987

American Journal of Kidney Diseases

318

196

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Adult human spinal cord harbors neural precursor cells that generate neurons and glial cells in vitro

Dromard

Guillon

Rigau

et al. 2008

J of Neuroscience Research

106

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Adult human and rodent brains contain neural stem and progenitor cells, and the presence of neural stem cells in the adult rodent spinal cord has also been described. Here, using electron microscopy, expression of neural precursor cell markers, and cell culture, we investigated whether neural precursor cells are also present in adult human spinal cord. In well-preserved nonpathological post-mortem human adult spinal cord, nestin, Sox2, GFAP, CD15, Nkx6.1, and PSA-NCAM were found to be expressed heterogeneously by cells located around the central canal. Ultrastructural analysis revealed the existence of immature cells close to the ependymal cells, which display characteristics of type B and C cells found in the adult rodent brain subventricular region, which are considered to be stem and progenitor cells, respectively. Completely dissociated spinal cord cells reproducibly formed Sox2(+) nestin(+) neurospheres containing proliferative precursor cells. On differentiation, these generate glial cells and gamma-aminobutyric acid (GABA)-ergic neurons. These results provide the first evidence for the existence in the adult human spinal cord of neural precursors with the potential to differentiate into neurons and glia. They represent a major interest for endogenous regeneration of spinal cord after trauma and in degenerative diseases.

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Amelioration of Polyuria by Amiloride in Patients Receiving Long-Term Lithium Therapy

Batlle¹,

Riotte²,

Gaviria³

et al. 1985

N Engl J Med

174

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Vasopressin-resistant diabetes insipidus is a common side effect of the treatment of affective disorders with lithium. We studied the effect of amiloride on lithium-induced polyuria in nine such patients receiving maintenance lithium therapy who had a vasopressin-resistant defect in urinary concentrating ability. After a mean (+/- S.E.) of 24 +/- 6 days of amiloride administration, the urine volume fell (from 4.7 +/- 0.6 to 3.1 +/- 0.3 liters per 24 hours; P less than 0.005), and the urine osmolality increased (from 228 +/- 35 to 331 +/- 34 mOsm per kilogram of H2O; P less than 0.001). The decrease in urine output was sustained during six months of observation in the absence of any significant change in plasma levels of lithium, potassium, or bicarbonate; urinary excretion of sodium or lithium; or creatinine clearance. Amiloride administration was also associated with a significant increase in urine osmolality (from 575 +/- 54 to 699 +/- 48 mOsm per kilogram of H2O; P less than 0.005) measured after fluid deprivation and the injection of exogenous vasopressin. We conclude that amiloride mitigates lithium-induced polyuria, at least partly, by blunting the inhibitory effect of lithium on water transport in the renal collecting tubule. Thus, amiloride may provide a specific therapy for polyuria in lithium-treated patients while obviating the need for potassium supplementation in the treatment of this kind of polyuria.

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Neuroprotective effects of a novel NMDA antagonist, Gacyclidine, after experimental contusive spinal cord injury in adult rats

et al. 2000

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Cognitive Impairment in Patients With Advanced Heart Failure and Its Implications on Decision-Making Capacity

Gaviria

Pliskin

Kney

2011

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Cognitive impairment (CI) is a multifaceted entity that entails more than just memory loss. Deficits in other domains, most importantly executive function, can have profound effects on health outcomes in afflicted patients. The prevalence of CI among the heart failure population is exceedingly high, and even higher so among patients with advanced heart failure (AHF). These patients display consistent declines in memory, attention, psychomotor abilities, and executive function. Such deficits interfere with patients' abilities to recognize worsening symptoms, adhere to complex medication regimens, and make sound decisions pertaining to medical care. Regular evaluation of cognitive status using instruments such as the Montreal Cognitive Assessment is a fast, reliable method that allows physicians who treat patients with AHF to anticipate these obstacles to treatment and act accordingly. Referral for more comprehensive neuropsychological evaluation should be considered for patients with unexplained declines from baseline, legal determination of competence, and for heart transplant or ventricular assist device placement candidates.

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Nuclear magnetic resonance microimaging of mouse spinal cord in vivo

Bonny¹,

Gaviria

Donnat³

et al. 2004

Neurobiology of Disease

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Moisés Gaviria

Guidelines for the conduct of clinical trials for spinal cord injury as developed by the ICCP panel: spontaneous recovery after spinal cord injury and statistical power needed for therapeutic clinical trials

Guidelines for the conduct of clinical trials for spinal cord injury (SCI) as developed by the ICCP panel: clinical trial outcome measures

Prevalence, Pathogenesis, and Treatment of Renal Dysfunction Associated With Chronic Lithium Therapy

Adult human spinal cord harbors neural precursor cells that generate neurons and glial cells in vitro

Amelioration of Polyuria by Amiloride in Patients Receiving Long-Term Lithium Therapy

Neuroprotective effects of a novel NMDA antagonist, Gacyclidine, after experimental contusive spinal cord injury in adult rats

Cognitive Impairment in Patients With Advanced Heart Failure and Its Implications on Decision-Making Capacity

Nuclear magnetic resonance microimaging of mouse spinal cord in vivo

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