29 research outputs found
Risk Factors Associated with Death in In-Hospital Pediatric Convulsive Status Epilepticus
Objective: To evaluate in-patient mortality and predictors of death associated with convulsive status epilepticus (SE) in a large, multi-center, pediatric cohort. Patients and Methods: We identified our cohort from the KID Inpatient Database for the years 1997, 2000, 2003 and 2006. We queried the database for convulsive SE, associated diagnoses, and for inpatient death. Univariate logistic testing was used to screen for potential risk factors. These risk factors were then entered into a stepwise backwards conditional multivariable logistic regression procedure. P-values less than 0.05 were taken as significant. Results: We identified 12,365 (5,541 female) patients with convulsive SE aged 0–20 years (mean age 6.2 years, standard deviation 5.5 years, median 5 years) among 14,965,571 pediatric inpatients (0.08%). Of these, 117 died while in the hospital (0.9%). The most frequent additional admission ICD-9 code diagnoses in addition to SE were cerebral palsy, pneumonia, and respiratory failure. Independent risk factors for death in patients with SE, assessed by multivariate calculation, included near drowning (Odds ratio [OR] 43.2; Confidence Interval [CI] 4.4–426.8), hemorrhagic shock (OR 17.83; CI 6.5–49.1), sepsis (OR 10.14; CI 4.0–25.6), massive aspiration (OR 9.1; CI 1.8–47), mechanical ventilation >96 hours (OR9; 5.6–14.6), transfusion (OR 8.25; CI 4.3–15.8), structural brain lesion (OR7.0; CI 3.1–16), hypoglycemia (OR5.8; CI 1.75–19.2), sepsis with liver failure (OR 14.4; CI 5–41.9), and admission in December (OR3.4; CI 1.6–4.1). African American ethnicity (OR 0.4; CI 0.2–0.8) was associated with a decreased risk of death in SE. Conclusion: Pediatric convulsive SE occurs in up to 0.08% of pediatric inpatient admissions with a mortality of up to 1%. There appear to be several risk factors that can predict mortality. These may warrant additional monitoring and aggressive management
A Comparison of Dysautonomias Comorbid with Cyclic Vomiting Syndrome and with Migraine
Cyclic vomiting syndrome (CVS) shares many features with migraine headache, including auras, photophobia, and antimigrainous treatment response being traditionally viewed as a migraine variant. Aims. To determine whether CVS is associated with the same disorders as migraine headache, and compare these associations to those in healthy control subjects. Methods. Cross-sectional study of patients utilizing the ODYSA instrument, evaluating the probability of 12 functional/autonomic diagnoses, CVS, migraine, orthostatic intolerance (OI), reflex syncope, interstitial cystitis, Raynaud's syndrome, complex regional pain syndrome (CRPS), irritable bowel syndrome, functional dyspepsia, functional abdominal pain, fibromyalgia, and chronic fatigue syndrome. Control subjects were age-matched gender-matched friends. Patients had to fulfill criteria for CVS or migraine, while control subjects could not. Results. 103 subjects were studied, 21 with CVS, 46 with migraine and 36 healthy controls. CVS and migraine did not differ in the relative frequencies of fibromyalgia, OI, syncope, and functional dyspepsia. However, CVS patients did demonstrate a significantly elevated frequency of CRPS. Conclusions. Although CVS and migraine clearly share many of the same comorbidities, they do differ in one important association, suggesting that they may not be identical in pathophysiology. Since OI is common in CVS, treatment strategies could also target this abnormality
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Interventional neurology: a reborn subspecialty
Neurologists have a long history of involvement in cerebral angiography; however, the roots of neurologist involvement in therapeutic endovascular procedures have not been previously documented. As outlined in this article, it has taken the efforts of several early pioneers to lay the ground work for interventional neurology, a specialty that has become one of the fastest growing neurological subspecialties. The ground work, along with a great clinical need, has allowed the modern interventional neurologist to tackle some of the most intractable diseases, especially those affecting the cerebral vasculature. The institutionalization of interventional neurology as a subspecialty was first advocated in 1995 in an article entitled, "Interventional Neurology, a subspecialty whose time has come." The institutions created in the wake of this article have provided the framework that has allowed interventional neurology to transition from "a subspecialty whose time has come" to a subspecialty that is here to stay and thrive
Abstract 011: Endovascular therapy for acute ischemic stroke utilizing SOFia Aspiration System as first line Technique (SOFAST)
Introduction Mechanical thrombectomy using stent retrievers and aspiration techniques has emerged as the standard of care for patients with acute ischemic stroke (AIS) secondary to emergent large vessel occlusion (LVO). This study intended to collect real‐world clinical evidence on the safety and effectiveness of endovascular treatment of AIS using the SOFIA Flow Plus 6F aspiration catheter. The primary endpoint was the proportion of subjects achieving mTICI ≥2b. Secondary endpoints included good functional outcomes (mRS 0‐2) at Day 90, revascularization time, first line and first pass mTICI ≥2b, occurrence of procedure‐related SAEs, vasospasm involving the accessed vascular tree, embolization to new territories (ENTs), symptomatic intracerebral hemorrhage (sICH) within 24 hours and mortality at Day 90. Methods SOFAST was a prospective, multicenter, single‐arm, observational post‐market study. The enrolled subjects were ≥21 and ≤85 years with large vessel (ICA or MCA) proximal occlusion, pre‐morbid mRS ≤1, baseline NIHSS ≥5, and for whom groin puncture was within 8 hours of symptom onset. A total of 108 patients were enrolled and treated using aspiration thrombectomy with SOFIA 6F as the first line treatment device. Patients were followed at 24 hours, 7 days/discharge, and 90 days post‐procedure. Cerebral angiography was performed pre‐ and post‐procedure. Clinical assessments included the NIHSS and mRS scales. All neurological, device‐related, and procedure‐related AEs and deaths were adjudicated by independent medical reviewers. Angiographic and other imaging data was adjudicated by an independent core laboratory. Results A total of 108 subjects were enrolled (mean age 62.7 years, 50% men) with a median NIHSS of 15.5. Of 108 subjects, 97.2% (105/108), 85.2% (92/108) and 55.6% (60/108) achieved mTICI ≥2b, ≥2c and =3 revascularization, respectively. With first line aspiration using SOFIA 6F, 87.0%, 79.6% and 52.8% achieved mTICI ≥2b, ≥2c and =3 revascularization, respectively. Median number of passes was one (range 1‐3). First pass rate of mTICI 2c or 3 using SOFIA 6F was 70.4%, of which 50.9% patients achieved mTICI score of 3. Mean duration from groin puncture to initial clot contact was 13.0 min and to successful revascularization was 17.9 min. Good functional outcome was achieved in 66.7% (72/108) of subjects at Day 90 (mRS 0‐2), procedure‐related SAEs occurred in 2.8% (3/108) of subjects and sICH in 0.9% (1/108) of subjects within 24 hours. Procedural vasospasm was recorded in in 9.3% (10/108) of subjects, and mortality in 7.4% (8/108) subjects at Day 90 (none related to the study device). No ENTs occurred. Conclusion In SOFAST study, mTICI ≥2b revascularization was achieved in the majority of patients at the end of all procedures (97.2%) and with first line treatment (87.0%) with a large fraction of these subjects achieving mTICI ≥2c following the first SOFIA 6F pass (70.4%). Durations from groin puncture to clot contact and successful revascularization were relatively short. The study presented high rates of good functional outcome at Day 90 and low rates of safety events. In summary, the study provides encouraging evidence of the safety and effectiveness of the SOFIA 6F device for aspiration thrombectomy in acute ischemic stroke subjects
Univariate calculations of hospital and demographic data from the KID database.
<p>Univariate calculations of hospital and demographic data from the KID database.</p