Sodium Pentosan Research Articles

Inflammatory Kinetics and Efficacy of Anti-inflammatory Treatments on Human Nucleus Pulposus Cells.

Human nucleus pulposus (NP) cell culture study investigating response to tumor necrosis factor-α (TNFα), effectiveness of clinically available anti-inflammatory drugs, and interactions between proinflammatory cytokines. To characterize the kinetic response of proinflammatory cytokines released by human NP cells to TNFα stimulation and the effectiveness of multiple anti-inflammatories with 3 substudies: Timecourse, Same-time blocking, Delayed blocking. Chronic inflammation is a key component of painful intervertebral disc degeneration. Improved efficacy of anti-inflammatories requires better understanding of how quickly NP cells produce proinflammatory cytokines and which proinflammatory mediators are most therapeutically advantageous to target. Degenerated human NP cells (n = 10) were cultured in alginate with or without TNFα (10 ng/mL). Cells were incubated with 1 of 4 anti-inflammatories (anti-IL-6 receptor/atlizumab, IL-1 receptor anatagonist, anti-TNFα/infliximab and sodium pentosan polysulfate/PPS) in 2 blocking-studies designed to determine how intervention timing influences drug efficacy. Cell viability, protein, and gene expression for IL-1β, IL-6, and IL-8 were assessed. Timecourse: TNFα substantially increased the amount of IL-6, IL-8, and IL-1β, with IL-1β and IL-8 reaching equilibrium within ∼72 hours (IL-1β: 111 ± 40 pg/mL, IL-8: 8478 ± 957 pg/mL), and IL-6 not reaching steady state after 144 hours (1570 ± 435 pg/mL). Anti-TNFα treatment was most effective at reducing the expression of all cytokines measured when added at the same time as TNFα stimulation. Similar trends were observed when drugs were added 72 hours after TNFα stimulation, however, no anti-inflammatories significantly reduced cytokine levels compared with TNF control. IL-1β, IL-6, and IL-8 were expressed at different rates and magnitudes suggesting different roles for these cytokines in disease. Autocrine signaling of IL-6 or IL-1β did not contribute to the expression of any proinflammatory cytokines measured in this study. Anti-inflammatory treatments were most effective when applied early in the inflammatory process, when targeting the source of the inflammation. N/A.

Pentosan Reduces Osteonecrosis of Femoral Head in SHRSP

Increased oxidative stress is considered one of the main causes of steroid-induced osteonecrosis of the femoral head (ONFH). The aim of this study was to evaluate the effects of a steroid hormone and pentosan polysulfate sodium (pentosan), a heparin analog, in stroke-prone spontaneously hypertensive rats (SHRSP) as a model of ONFH. One hundred twenty-three 13-week-old male SHRSP//Izm rats were divided into four groups: a control group (group C), pentosan-administered group (group P), steroid-administered group (group S), and group administered pentosan plus steroid (group PS). Methylprednisolone acetate, as the steroid hormone, at a dose of 4 mg (15 mg//kg) was administered at 15 weeks of age. Pentosan at a dose of 3 mg//day//kg was continuously administered intraperitoneally from 13 weeks of age for 4 weeks. Rats were sacrificed at 17 weeks of age, and heart blood and both femora were collected. Triglyceride levels were significantly lower in group PS than in group S, indicating that pentosan improves lipid metabolism. The incidence of histologic ONFH was significantly lower in group P, at 14.8%% (10//71 femoral heads), than in group C, at 30.4%% (17//56 femoral heads), and significantly lower in group PS, at 40.8%% (29//71 femoral heads), than in group S, at 91.3%% (42//46 femoral heads), indicating that pentosan markedly inhibits ONFH. Immunohistochemical staining for oxidative stress showed that the stainability was significantly lower in group PS than in group S. Pentosan seems to reduce the incidence of ONFH in SHRSP by improving lipid metabolism and decreasing oxidative stress.

Safety of Cartrophen Vet in the dog: review of adverse reaction reports in the UK.

Suspected adverse reactions (SARs) reported for Cartrophen Vet (100 mg sodium pentosan polysulphate/ml) to the Veterinary Medicines Directorate in the UK for the period January 1991 to October 1999 were reviewed. Of the 161 reports, 28 were probably product related, 54 were possibly product related, 71 were unlikely to be related and eight were unclassified. An estimated real incidence of adverse reactions probably and possibly associated with Cartrophen Vet of 0.074 per cent on an individual dose basis was calculated (assuming only 10 per cent were documented due to underreporting). Sixty-two SARs (38.5 per cent) documented emesis, 22 (35.5 per cent) of which were product related (onset five to 15 minutes after administration). Sixty-eight SARs (42.2 per cent) documented general changes to demeanour, 10 (14.7 per cent) were product related (lethargy and/or mild depression and/or mild inappetence lasting up to two days after administration). Six SARs were considered likely to be associated with concurrently administered carprofen. Cartrophen Vet had a low incidence of side effects that were mild and transitory.