How To Avoid Aerosol Formation When Handling Pathogens

<p style&equals;"text-align&colon; justify&semi;">Aerosols are droplets of liquid or solid particulates that are suspended in the air&period; Most of these are invisible to the human eye&period; Researchers working with infectious agents may cause accidental aerosol generation when using centrifuges&comma; blenders&comma; shakers&comma; pipettes and other laboratory equipment&period;<&sol;p>&NewLine;<p style&equals;"text-align&colon; justify&semi;">Infectious agents may occur in any laboratory specimen from humans and animals&period; All research laboratories follow general universal precautions when handling human blood&comma; body fluids or human cell lines that have been screened for pathogens&period; This is an approach to infection control that treats all human specimens as if they are known to be infectious with pathogens such as the Human Immunodeficiency Virus &lpar;HIV&rpar;&comma; Hepatitis B and C &lpar;HBV and HCV&rpar; and other blood borne pathogens&period; Animals also harbour pathogens that are virulent for humans&period; Samples of blood and fluids should be treated in an analogous manner as with human samples&period; However&comma; laboratory animals may also excrete micro-organisms and allergens that cause human diseases after bites&comma; scratches or excretions&period; Laboratory plant specimens may also release infectious or contaminating micro-organisms when improperly handled&period;<&sol;p>&NewLine;<h2 style&equals;"text-align&colon; justify&semi;"><strong>Risk Categories<&sol;strong><&sol;h2>&NewLine;<p style&equals;"text-align&colon; justify&semi;">Special considerations are needed when examining human and animal cell cultures in a research laboratory&period; The first step is that all investigations should be performed in a biohazard safety cabinet that provides the correct containment for the specimen&&num;8217&semi;s risk category&period; There are four such risk groups&period;<&sol;p>&NewLine;<p style&equals;"text-align&colon; justify&semi;">&&num;8211&semi;       Risk Group 1 is not associated with any diseases in healthy adult humans&period; An example is E-coli K-12&period;<br &sol;>&NewLine;&&num;8211&semi;       Risk Group 2 cause diseases to humans that are rarely serious and for which preventative treatments are readily available such as Salmonella&period;<br &sol;>&NewLine;&&num;8211&semi;       Risk Group 3 pathogens are associated with serious or lethal human diseases for which medical treatments may be available such as Mycobacterium Tuberculosis&period;<br &sol;>&NewLine;&&num;8211&semi;       Risk Group 4 pathogens cause lethal or serious human infections for which treatment may not be available such as Ebola virus or Monkey B virus&period;<&sol;p>&NewLine;<h2 style&equals;"text-align&colon; justify&semi;"><strong>Laboratory Procedures<&sol;strong><&sol;h2>&NewLine;<p style&equals;"text-align&colon; justify&semi;">Researchers handling infectious micro-organisms should perform all aerosol generating procedures&comma; shaking&comma; grinding&comma; blending sonicating etc&comma; in the biohazard cabinet&period; They should never mouth pipette samples but always use mechanical pipetting&period; No infectious material should be expelled forcibly from a pipette&period; Stoppers and covers of vessels containing samples should be removed slowly and never popped or removed after the container has been shaken&period; Gasket-sealable tubes and rotors should be used during all centrifuging&period; Tubes and containers with screw on tops should be used&period;<&sol;p>&NewLine;<h2 style&equals;"text-align&colon; justify&semi;"><strong>Accidental Aerosol Generation<&sol;strong><&sol;h2>&NewLine;<p style&equals;"text-align&colon; justify&semi;">The accidental spillage of materials is an obvious hazard that may generate aerosols&period; There is also an increased risk of aerosols when large volume samples are being investigated&period; If an aerosol has been created the researcher should leave the area calmly and allow the aerosols to settle&period; After this&comma; a cloth with disinfectants should be placed over the work surface&period; This will deactivate any droplets that could be infectious agents&period;<&sol;p>&NewLine;<h2 style&equals;"text-align&colon; justify&semi;"><strong>Conclusion<&sol;strong><&sol;h2>&NewLine;<p style&equals;"text-align&colon; justify&semi;">Laboratory researchers handling human or animal cell cultures in a biohazard safety cabinet must use strict safety procedures when handling pathogens to avoid the generation of aerosols&period; Such aerosols may cause infections through inhalation&comma; ingestion from contaminated hands or equipment and self-inoculation through accidental incisions&period;<&sol;p>&NewLine;<p style&equals;"text-align&colon; justify&semi;"><strong>AUTHOR BIO<&sol;strong><br &sol;>&NewLine;Helen Worthing is a microbiologist working in the investigation of auto immune diseases&period; She has assisted in the design of special types of high quality biohazard safety cabinet&period;<&sol;p>&NewLine;