Routine HIV testing of TB suspects was feasible and yielded a large number of HIV cases in absolute terms and would increase district HIV case finding by 51%. The number of patients needed to be HIV tested to find a previously undetected HIV case among TB suspects was greater than for TB cases but was potentially acceptable. Given heterogeneity of HIV epidemic in India, broader surveillance is required before national policy decision.
Gossence™ (galactooligosaccharide; GOS) is a prebiotics and used as one of the major constituents in infant milk formulas that act as a functional food. Gossence is manufactured by Tata Chemicals Ltd, India, through a patented process of biotransformation of lactose. A toxicology study in juvenile rats was carried out to assess the safety profile of Gossence intended for pediatric population. The objective of this study is to assess the potential systemic toxicity of Gossence when administered through gavage at dose levels of 1000, 2000, or 5000/3000 mg/kg/day (equivalent to 1347, 2694, and 6735/4041 mg/kg/day of GOS, respectively) to juvenile Sprague Dawley rats from postnatal day (PND) 4 to PND 52 (i.e. total 49 days of dosing period). A separate group of animals were treated with vehicle (purified Milli Q water) for a similar duration. The following parameters were evaluated during the study period: morbidity/mortality check, clinical signs, body weights, body weight changes, food consumption, functional observational battery, motor activity, postnatal developmental observations, hematology, clinical chemistry, urinalysis, organ weight, gross pathology, and histopathology. During dosing phase, the high-dose group, 5000 mg/kg/day, was reduced to 3000 mg/kg/day (equivalent to 4041 mg/kg/day dose of GOS) from day 16 (PND 19) onward, due to clinical signs of watery feces and yellow color stains at urogenital region and mortality in two animals on day 15 (PND 18) of the study. Time-weighted average dose for 5000 mg/kg/day was equivalent to 3600 mg/kg/day. No further deaths or clinical signs were noticed in animals at 3000 mg/kg/day from day 18 (PND 21) of dosing phase to until terminal euthanization. At the terminal euthanization, there were no test item-related gross changes observed in all surviving rats except for, an increased cecum size in some of the rats at 5000/3000 mg/kg/day, which correlated with the increased weights of cecum with contents during organ weight recording, but this had no correlating light microscopic changes during histological examination. The cecal enlargement was completely recovered following the 14-day recovery period. The no-observedadverse-effect level is 3000 mg/kg/day for Gossence, which is equivalent to 4041 mg/kg/day of GOS in both sexes.
Aloe vera is a perennial, drought-resisting, succulent plant belonging to the Asphodelaceae family that has a long history of having many tremendous medicinal and anti-inflammatory as well as anti-bacterial properties. This chapter highlights the great potentials of the aloe vera species. Desk study and document analysis guided the systematic and extensive review of both published and unpublished resources on the Aloe vera Species. The chapter contends that horticulturists and plant scientists in the field of agriculture and medicine must pay attention to the Aloe vera as a medicinal plant that possesses the most powerful antibacterial and anti-inflammatory properties, which protects the body against constipation through enhancing the body metabolism, skin, and worm infestations.
Galactooligosaccharides (GOS) used as prebiotics are one of the major constituents of the infant milk formulas. GOS (Gossence™) is produced by a patented process of biotransformation of lactose; hence toxicology studies were carried out to assess its safety. The objective of the present study was to evaluate the general and genetic toxicity of Gossence™. In 14-day and subchronic (90-day) oral toxicity studies in Sprague Dawley rats, daily administration of GOS at dose levels of 1000, 2000, or 5000 mg/kg (equivalent to 1347, 2694, and 6735 mg/kg/day of Gossence™, respectively) did not cause any mortality, or clinical signs, and changes in body weights, feed consumption, hematology, clinical chemistry, and urinalysis. In 90-day study, no changes in ophthalmological and neurological findings were observed. Significant increases in the cecum weights (with and/or without content) at dose levels of ≥2000 mg/kg were observed in both 14-day and 90-day studies. Based on the results of 90-day study, the no-observed-adverse-effect-level for GOS is 5000 mg/kg/day which is equivalent to 6735 mg Gossence™/kg/day. In the bacterial reverse mutation test, there was no significant increase in the mean numbers of revertants at the tested concentrations. Gossence™ was not mutagenic up to 5000 µg/plate. In chromosomal aberration test, there was no statistically significant increase in the number of percent aberrant metaphase for the Gossence™. Gossence™ is non-clastogenic (negative) in the in vitro chromosomal aberration test using human peripheral blood lymphocyte during short and prolonged treatment.
The use of pharmaceutical drugs has provided a cure for many diseases. However, unintended exposure to drugs in the manufacturing workplace can cause significant health hazards to workers. It is important to protect the workforce from these deleterious effects by limiting exposure to an acceptable level, the occupational exposure limit (OEL). OEL is defined as airborne concentrations (expressed as a time‐weighted average for a conventional 8‐h workday and a 40‐h work week) of a substance to which nearly all workers may be repeatedly exposed (for a working lifetime) without adverse effects. Determination of OELs has become very challenging over time, requiring an overall assessment of the preclinical and clinical data of the drug being manufactured. Previously, to derive OEL values, toxicologists used animal no‐observed‐adverse‐effect level (NOAEL) data, which have been replaced with the overall assessment of animal and human data, placing a higher emphasis on human health‐based data. A major advantage of working with human pharmaceuticals is that sufficient clinical data are available for them in most cases. The present manuscript reviews the latest knowledge regarding the derivation of occupational exposure limits as health‐based exposure limits (HBELs) for pharmaceuticals. We have provided examples of OEL calculations for various drugs including levofloxacin (CAS No. 100986‐85‐4), dienogest (CAS no. 65928‐58‐7), and acetylsalicylic acid (ASA, CAS no. 50–78‐2) using human data. This report will benefit professionals in the OEL domain in understanding this highly important, growing, and challenging field.
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