IgG4-negative pituitary inflammatory pseudotumor with sphenoidal involvement resembling a macroadenoma.

BACKGROUND: Inflammatory pseudotumors (IPTs) are rare benign conditions of unknown etiology that can affect any part of the body. IPTs are most commonly associated with Immunoglobulin G4 (IgG4)-related disease. Central nervous system IPTs, especially with pituitary involvement, are even rarer entities. The presence of an IgG4-negative pituitary IPT with simultaneous extracranial involvement has not been reported. CASE REPORT: We present the case of a 41-year-old female with past medical history of rheumatoid arthritis and a diagnosis of pituitary IPT with coexisting sphenoidal (extracranial) involvement mimicking a pituitary macroadenoma at presentation. The patient underwent multiple consecutive biopsies, and an extensive workup prior to establishing the diagnosis. Laboratory work-up showed normal serum IgG4 and unremarkable liver function tests. CONCLUSION: Pituitary lesions with simultaneous sphenoidal involvement in patients with IgG4-negative systemic inflammatory disease should raise the clinical suspicion for intracranial IPTs, as these tumors can mimic aggressive counterparts causing adjacent bony erosion, and local invasion.

On Edge Computing for Remote Pathology Consultations and Computations.

Telepathology aims to replace the pathology operations performed on-site, but current systems are limited by their prohibitive cost, or by the adopted underlying technologies. In this work, we contribute to overcoming these limitations by bringing the recent advances of edge computing to reduce latency and increase local computation abilities to the pathology ecosystem. In particular, this paper presents LiveMicro, a system whose benefit is twofold: on one hand, it enables edge computing driven digital pathology computations, such as data-driven image processing on a live capture of the microscope. On the other hand, our system allows remote pathologists to diagnosis in collaboration in a single virtual microscope session, facilitating continuous medical education and remote consultation, crucial for under-served and remote hospital or private practice. Our results show the benefits and the principles underpinning our solution, with particular emphasis on how the pathologists interact with our application. Additionally, we developed simple yet effective diagnosis-aided algorithms to demonstrate the practicality of our approach.

Amyloid-beta dynamics correlate with neurological status in the injured human brain.

The amyloid-beta peptide (Abeta) plays a central pathophysiological role in Alzheimer's disease, but little is known about the concentration and dynamics of this secreted peptide in the extracellular space of the human brain. We used intracerebral microdialysis to obtain serial brain interstitial fluid (ISF) samples in 18 patients who were undergoing invasive intracranial monitoring after acute brain injury. We found a strong positive correlation between changes in brain ISF Abeta concentrations and neurological status, with Abeta concentrations increasing as neurological status improved and falling when neurological status declined. Brain ISF Abeta concentrations were also lower when other cerebral physiological and metabolic abnormalities reflected depressed neuronal function. Such dynamics fit well with the hypothesis that neuronal activity regulates extracellular Abeta concentration.

Schwann-cell injection of cold-preserved nerve allografts.

This study investigated the effects of prolonged cold preservation and Schwann-cell injection on nerve regeneration through peripheral nerve allografts. Forty rats were randomized to the following groups: group I, isograft; group II, allograft; group III, isograft + Schwann cells; group IV, 6-week cold-preserved allograft; and group V, 6-week cold-preserved allograft with Schwann cells. Nerves from all animals were harvested at 4 weeks after surgery for histological and histomorphometric analysis. Untreated allograft recipients demonstrated poor nerve regeneration and histological evidence of rejection. The remaining four groups showed robust regeneration without evidence of rejection. In a short nerve allograft model, prolonged cold preservation of allografts supported robust nerve regeneration, but the addition of cultured Schwann cells conferred no additional benefit for nerve regeneration. Further work in large animals is needed to establish the role for exogenous Schwann cells in nerve allotransplantation.