0000000000754928

AUTHOR

H. Hollmann

showing 2 related works from this author

No short‐term effects of high‐frequency electromagnetic fields on the mammalian pineal gland

1997

There is ample experimental evidence that changes of earth-strength static magnetic fields, pulsed magnetic fields, or alternating electric fields (60 Hz) depress the nocturnally enhanced melatonin synthesis of the pineal gland of certain mammals. No data on the effects of high-frequency electromagnetic fields on melatonin synthesis is available. In the present study, exposure to 900 MHz electromagnetic fields [0.1 to 0.6 mW/cm2, approximately 0.06 to 0.36 W/kg specific absorption rate (SAR) in rats and 0.04 W/kg in Djungarian hamsters; both continuous and/or pulsed at 217 Hz, for 15 min to 6 h] at day or night had no notable short-term effect on pineal melatonin synthesis in male and femal…

Electromagnetic fieldSynaptic ribbonendocrine systembiologyPhysiologyBiophysicsSpecific absorption rateGeneral Medicinebiology.organism_classificationPhodopusMelatoninPineal glandmedicine.anatomical_structureNuclear magnetic resonanceElectric fieldmedicineRadiology Nuclear Medicine and imagingMelatonin synthesismedicine.drugBioelectromagnetics
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Therapeutic properties of haemodialysis and blood exchange transfusion in organophosphate poisoning

1976

Human blood was contaminated with nitrostigmine, dimethoate and demeton-S-methyl sulfoxide. It was then dialysed, concentrations of organophosphates were determined and dialysance values calculated. The influence of blood exchange transfusion on poison elimination as well as on the cholinesterase activity of blood, brain and muscle was studied in rats poisoned with nitrostigmine. Haemodialysis was found to be quite an effective method for eliminating demeton-S-methyl sulfoxide and dimethoate, dialysance values of 52.98 ml/min and 59.07 ml/min being found for demeton-S-methyl sulfoxide and dimethoate respectively. Nitrostigmine could not be removed by haemodialysis. These findings suggest th…

Blood transfusionmedicine.medical_treatmentCritical Care and Intensive Care MedicineOrganophosphate poisoning03 medical and health scienceschemistry.chemical_compoundOrganophosphate PoisoningOrganophosphorus Compounds0302 clinical medicineRenal DialysisAnimalsMedicineBlood Transfusion030212 general & internal medicineCholinesteraseParathionbiologyHuman bloodbusiness.industryPoisoningBlood exchange transfusionGeneral Medicinemedicine.diseaseAcetylcholinesteraseRats3. Good healthParathionchemistrySulfoxidesAnesthesiaAcetylcholinesterasebiology.proteinbusinessDimethoate030217 neurology & neurosurgeryEuropean Journal of Intensive Care Medicine
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