Lactate Gap: A Diagnostic Support in Severe Metabolic Acidosis of Unknown Origin.

Ethylene glycol poisoning is a medical emergency. The metabolites glycolate and glyoxylate give metabolic acidosis. Because of similar structure, these metabolites are misinterpreted as lactate by many point-of-care blood gas analyzers.

Primary Aortoduodenal Fistula-A Case Report and a Review of the Literature.

Primary aortoduodenal fistula (PADF) is a direct communication between the abdominal aortic aneurysm (AAA) and duodenum. It is a rare entity and causes life-threatening gastrointestinal hemorrhage. Diagnosis requires a high index of clinical suspicion, and surgery offers the only hope for survival.

Metastatic mesenteric dedifferentiated leiomyosarcoma: a case report and a review of literature.

Background: Abdominal leiomyosarcoma arising from the mesentery is a rare malignancy. It is an aggressive entity with an overall 5 year survival rate between 20 and 30 %. Surgical resection is the cornerstone of primary treatment and may be curative for localized disease.

Aqp 9 and brain tumour stem cells.

Several studies have implicated the aquaporins (aqp) 1, 4, and 9 in the pathogenesis of malignant brain tumours, suggesting that they contribute to motility, invasiveness, and oedema formation and facilitate metabolism in tumour cells under hypoxic conditions. We have studied the expression of aqp1, 4, and 9 in biopsies from glioblastomas, isolated tumour stem cells grown in a tumoursphere assay and analyzed the progenitor and differentiated cells from these cultures. We have compared these to the situation in normal rat brain, its stem cells, and differentiated cells derived thereof.

Predifferentiated brain-derived adult human progenitor cells migrate toward ischemia after transplantation to the adult rat brain.

Background: The adult human brain contains neural stem/progenitor cells (AHNPCs) that can survive transplantation into the adult rat brain, migrate toward a lesion, and display limited neuronal differentiation in vivo.

Objective: To investigate the effect of manipulating AHNPCs before grafting by predifferentiation, ie, initiating neuronal differentiation before transplantation, and to determine whether this cell priming would affect their ability to migrate in vivo.

Methods: AHNPCs were prepared from temporal lobe resections for epilepsy.

Brain tumor stem cells maintain overall phenotype and tumorigenicity after in vitro culturing in serum-free conditions.

Traditional in vitro culturing of tumor cells has been shown to induce changes so that cultures no longer represent the tumor of origin. Serum-free culturing conditions are used in a variety of cancers to propagate stem-like cells in vitro. Limited reports, however, exist on the effects of such propagation.

A comparison between stem cells from the adult human brain and from brain tumors.

Objective: To directly compare stem cells from the normal adult human brain (adult human neural stem cells [AHNSC]), Grade II astrocytomas (AC II), and glioblastoma multiforme (GBM), with respect to proliferative and tumor-forming capacity and differentiation potential.

Methods: Cells were isolated from tissue obtained during epilepsy surgery (AHNSCs) or tumor surgery (glioma stem cells [GSC]). They were cultured and investigated in vitro or after transplantation in immunodeficient mice.

A comparison of epithelial and neural properties in progenitor cells derived from the adult human ciliary body and brain.

Cells isolated from the ciliary body (CB) of the adult human eye possess properties of retinal stem/progenitor cells and can be propagated as spheres in culture. As these cells are isolated from a non-neural epithelium which has neuroepithelial origin, they may have both epithelial and neural lineages. Since it is the properties of neural progenitor cells that are sought after in a future scenario of autotransplantation, we wanted to directly compare human CB spheres with neurospheres derived from the human subventricular zone (SVZ), which is the best characterized neural stem cell niche in the CNS of adults.

Isolation of human multipotent neural progenitors from adult filum terminale.

Stem cells have been isolated from several CNS regions, including the spinal cord. However, the terminal end of the spinal cord, filum terminale, has been referred to as a fibrovascular tag without neurogenic potential and of no clinical significance. Recently, we were fortunate to acquire some samples of this tissue.

Endoscopically harvested stem cells: a putative method in future autotransplantation.

Objective: The discovery of stem cells in the adult human brain and developing stem cell technology open a possible future scenario of autotransplantation, where stem cells are harvested from the patient and propagated in vitro before they are used as transplants. The objectives of this study were: 1) to investigate the feasibility of harvesting tissue containing neural stem cells by endoscopy; 2) to study the possibility of propagating and multiplying stem cells from this tissue efficiently in vitro; and 3) to examine whether the stem cells differentiate into functional neurons.

Methods: In 13 patients with hydrocephalus undergoing routine neurosurgical procedures, we used an endoscope and a 3-mm biopsy forceps (Medtronic) to harvest the small piece of the ventricular wall that is detached by the introduction of the endoscope.

Multipotent progenitor cells from the adult human brain: neurophysiological differentiation to mature neurons.

It was long held as an axiom that new neurons are not produced in the adult human brain. More recent studies have identified multipotent cells whose progeny express glial or neuronal markers. This discovery may lead to new therapeutic strategies for CNS disorders, either by stimulating neurogenesis in vivo or by transplanting multipotent progenitor cells (MPCs) that have been propagated and differentiated in vitro.

Development of neuronal networks from single stem cells harvested from the adult human brain.

Objective: It was long held as an axiom that new neurons are not produced in the adult human brain. More recent studies, however, have identified multipotent cells whose progeny express glial or neuronal markers. This discovery may lead to new therapeutic strategies against central nervous system disorders by transplanting stem cells that have been propagated in vitro.

Artificial niches for human adult neural stem cells: possibility for autologous transplantation therapy.

Cellular transplantation therapy is thought to play a central role in the concept of restorative neurosurgery, which aims to restore function to the damaged nervous system. Stem cells represent a potentially renewable source of transplantable cells. However, control of the behavior of these cells, both in the process of clonogenic expansion and post-transplantation, represents formidable challenges.

Stem cells from the adult human brain develop into functional neurons in culture.

Recent research communications indicate that the adult human brain contains undifferentiated, multipotent precursors or neural stem cells. It is not known, however, whether these cells can develop into fully functional neurons. We cultured cells from the adult human ventricular wall as neurospheres and passed them at the individual cell level to secondary neurospheres.