Threats To Darkroom Workers

Threats To Darkroom WorkersIn terms of mental picture to harmful chemical substances, darkroom workers and hobbyists be often in a worse position than chemical workers. Darkroom workers, particularly hobbyists, norm eithery receive no training in the proper use of chemicals. Perhaps the main reason for this laxity is that photo chemicals atomic number 18 gener exclusivelyy regarded as safe by the photographic community. M both photographers think that since close photo chemicals atomic number 18 diluted before use that the danger is small(a). But most photographers privation the knowledge necessary to make decisions about chemical photograph. This is shown in the lack of precautions that most photographers take m whatever an(prenominal) immerse themselves, literally, in their solutions and advise their students to do the same. get across with high takes of some photo chemicals rout out lead to acute problems such as burns, dermatitis, dizziness, vomiting, asphyxiation an d central nervous system failure. Long-term, low-level exposure cig art result in chronic problems such as allergic reactions, headaches, depression, lung ailments and bedcer. Individuals vary in their responses to chemicals some are more susceptible to wayward reactions than differents. Reactions in like manner play on the immersions of the chemicals and the conditions under which they are use.The greatest danger to darkroom workers and hobbyists is through the stirring of powders or vapors. Additionally, most chemicals in the darkroom are liquids in open trays or tanks which increases the relegate for spills. Absorption through the skin is also easy if the photographer routinely handles chemical-c everyplaceed submits or prints. Most darkroom workers seem to rely on the rule of thumb if I can tolerate the odor, the ventilation is adequate. But there are dangers from inoffensive chemicals that arent offensive what you cant smell CAN hurt you www.subclub.org/darkroom/ na tural rubber.htmINTRODUCTIONThe Trinidad and Tobago Police good or TTPS is the law enforcement agency of Trinidad and Tobago and has been in operation for over 200 years. One of the specialization within the Service was the introduction of plain-clothes officers in 1862 to assist in crime fighting during. Included in this section is the Photography division star of the specialist section whose function is to photograph the scene of crimes, serious accidents and any material relating to the commission of a crime or incident. This includes the photographing of fingerprints and questioned documents in order to preserve evidence of value in the process of crime investigation or presentation before the courts. Persons coming into custody of the Police and those participating in riots and demonstrations are also photographed for evidence of infractions of the law. These highly trained officers gain their expertise by participating in courses provided by senior officers and at internat ional agencies.http//www.ttps.gov.ttThis athletic field focuses on the Hazards associated with the photography department in the Trinidad and Tobago Police Service. No seek was gear up on the topic in Trinidad and Tobago, however, international agencies, such as the University of Florida and Kodak International and other agencies reach put systems in billet to protect photographers, darkroom enthusiast and other persons from impales that they whitethorn encounter in the dark rooms.Dark Rooms are an official part of the Trinidad and Tobago Police Service. They are used for developing images after affect scenes of crimes. The crime scene is photographed to record a vivid understanding of what the scene looked like and to record items of possible evidence. Crime scene photographs are normally interpreted in 2 groupings, overall views and items of evidence. http//www.feinc.net/cs-proc.Photographers play an important role in the entire Police service of Trinidad and Tobago. Most of the work is carried out in a Photographic Lab which is commonly called the Dark Room. The photographer, or more specifically the crime scene photographer, must know how to create an acceptable image that is competent of withstanding challenges in court. These photographs are seen by Judges, Magistrates, Lawyers and Jurors, fellow officers and witnesses. It is commonly said that a picture paints a thousand words, however, the technical aspects are unknown to our fellow Officers and other Civilian members. The Police photographer operates in the front line and the greatest feats are pass behind the scenes. Photographers are not taken seriously as everyone now owns a camera and play the role of amateur photographers they are further disrespected by being called photo take outers. The assumption is they click aside and wolla photograph appears like magic. in that location are numerous hazards associated with dark rooms and wet photography.Photography uses three basic chemicals in the processing of light delicate materials. The first chemical is called Developer. The developer detects changes in the eloquent salt in the emulsion of the film or paper and turns those that have been struck by light into golden silver. The arcminute chemical is stop bath and is used to stop the developer from working any longer. Plain water is sometimes used for this step. The final chemical is fixer. It fixes the film or paper so that it is no longer sensitive to light. It dissolve the unexposed silver salt from the light sensitive emulsion while leaving the metalic silver in tact. fixer will, however, bleach the metalic silver if left in contact for a long enough period of time. Finally backwash the emulsion to exclude the dissolved unexposed silver salt as well as all the fixer residue. Chemical Safety scphoto.com/html/chemicals.htmlIt is noted that persons working in the department today and persons who have worked in the department before are not made aware of some of the chemical composition and their hazards. Long hours are spent in the lab with the pungent smell. The author will examine the systems in place to effectively minimize and control the inhalation of chemicals.1.1 JUSTIFICATION/ RATIONALEThis research provides for an investigation into the reasons, why the Police Photographers are not sensitized to the hazards and risks they are prone to daily. What the effects of the dissimilar hazards pose when they are not prepared and what makes them most vulnerable than their peers.The photography department consists of Forty four persons inclucive of men and women Police officers whose services are shared throughout the country inclusive of Tobago Division. They are also called upon to provide service by the various branches and sections within the Police Service. The photography department of the Northern Division has an office space which criterions 6 feet by 13 feet in size, and contains three office desks a refrigerator, two filing cabine ts and one overhead cupboard. The dark room area measures 6 feet by 9 feet, has a counter 4 feet in height by 3 feet in length, a choke, a photographic enlarger and two filing cabinets.The dark room is fit(p) nearby (at the back of the office), this area is where the negatives and the printing of photographs are done. The close proximity of the dark room where chemicals are being used emits a pungent odour into the office area. The photographers work in the scented office over a long period of time as such, they are immune to the scent. A feeble awareness becomes evident when other fellow officers visit the office and remarks are made about the scent to which the photographers are oblivious to. The hazards and risk of injuries can be attributed to a number of factors such asPhysical hazardsInjury, as a result of accidental contact, spillage, or inhalation of darkroom chemicals.Slips, trips, and falls, cramped spaces, surfaces made slippery by spilled liquids and the movement of h eavy tripod.Chemical hazardsExposure to a wide variety of photographic chemicals and their vapours and fumesErgonomicEye strain as a result of moving frequently from the dark or semi-dark into strong light.Increase in crimes means frequent visits to crime scenes which in turn, mean long hours in the dark room. The officers have not yet experienced any major disaster or injury, however subtle changes have been noticed, mentioned and simply brushed aside.This study is appropriate to generate findings which should result in the implementation of Administrative and Engineering Controls. The Police Photography Department is of paramount importance, it is imperative that the working conditions and the wellness and safety of the photographers be looked into. Section 6 (1) (12) of the OSH Act 2006 it shall be the duty of every employer to ensure, so far as is reasonably usable, the safety and health and welfare at work of all his employees.1.2 AIMSTo determine the risks and hazards associ ated with working in the Police Photography Laboratory in Trinidad and Tobago.1.3 OBJECTIVESThe objective of this study is to determine the followingTo determine the level of volatile organic compounds present in the working environment.To determine the adverse health effects associated with exposure to the VOCsTo ascertain whether there are systems in place to deal with exposures and disposal of chemicals.To determine compliance with OSH Act of No 3 of 2006 and compare other legislations and regulations.1.4 METHODOLOGYA research was conducted in order to declare the literature on the relevant titleQuestionn contrastes will be distributed within the department as it relates to the projectMultirae tester will be used to measure the Voc, Ammonia Sulpha Dioxide and Oxygen levels.2.0 LITERATURE REVIEWVolatile Organic Compounds (VOCs)Volatile organic compounds (VOCs) are emitted as gases from certain solids or liquids. VOCs include a variety of chemicals, some of which may have short- and long-term adverse health effects. Concentrations of many VOCs are consistently higher indoors (up to ten times higher) than outdoors. VOCs are emitted by a wide array of products numbering in the thousands. Examples include paints and lacquers, paint strippers, cleaning supplies, pesticides, building materials and furnishings, office equipment such as copiers and printers, correction fluids and carbonless double paper, graphics and craft materials including glues and adhesives, permanent markers, and photographic solutions. www.epa.gov/iaq/voc.htmlToxicity of nerve centresToxicity is the ability of a substance to produce injury once it passes a site on or in the body. The degree or harmful effect which a substance can have depends on the inherent harmful properties and the route and hotfoot of entry in the body. Exposure may be short term (acute effect) or after long or repeated exposure (chronic effect). (Holt, St John bothan)What makes the substance virulent is the quant ity, concentration, duration of exposure, the physical state of the material its affinity for human tissue and sensitivity to attack human tissue or organs.Routes of entryHow do hazardous agents get into the body?The diagram of the human body below illustrates the effects when it is exposed to the outside world through a variety of surfaces. These include the skin, lungs, nose, mouth and the digestive, urinary, and genital tracts. Hazardous agents (e.g. chemicals and micro-organisms such as bacteria and viruses) can get into the body through any of these surfaces. The most common routes of entry are(a) through the lungs (inhalation)(b) through the skin (absorption)(c) through the mouth (ingestion).http//actrav.itcilo.org/http//actrav.itcilo.org/actrav-english/telearn/osh/body/body1.gifactrav.itcilo.orgHealth EffectsThere are several factors from Particulate Matter that contribute to adverse health effect s. According to World Health Organization (WHO) PM affects more people than any other pollutant. The major components of PM are sulfate, nitrates, ammonia, atomic number 11 chloride, carbon, mineral dust and water. It consists of a complex mixture of solid and liquid particles of organic and inorganic substances suspended in the air. The particles are identified according to their slick diameter, as either PM10 (particles with an aerodynamic diameter smaller than 10 m) or PM2.5 (aerodynamic diameter smaller than 2.5 m). The latter are more dangerous since, when inhaled, they may reach the peripheral regions of the bronchioles, and interfere with gas exchange inside the lungs. www.who.int/mediacentre/factsheets/fs313/en/index.htmlThe Environmental Protection Agency discusses the ability of organic chemicals to cause health effects varies greatly from those that are highly virulent, to those with no known health effect. As with other pollutants, the extent and nature of the health effect will depend on many factors including level of exposure and length of ti me exposed. Eye and respiratory tract irritation, headaches, dizziness, visual disorders, and memory impairment are among the immediate symptoms that some people have experienced soon after exposure to some organics Many organic compounds are known to cause cancer in animals some are venture of causing, or are known to cause, cancer in humans. Eye, nose, and throat irritation headaches, loss of coordination, nausea damage to liver, kidney, and central nervous system. Key signs or symptoms associated with exposure to VOCs include conjunctival irritation, nose and throat discomfort, headache, allergic skin reaction, dyspnea, declines in serum cholinesterase levels, nausea, emesis, epistaxis, fatigue, dizziness. http//www.epa.gov/iaq/voc.html body6.gif (328222 bytes)The following are recommend revised limits for the concentration of selected air pollutants on Particulate matter from WHO 2005 Air Quality Guidelines Guideline valuesPM2.510 g/m3 annual mean25 g/m3 24-hour meanPM1020 g/m3 annual mean50 g/m3 24-hour meanOzone (O3)Guideline valuesO3100 g/m3 8-hour meanThe previously recommended limit, which was fixed at 120 g/m3 8-hour mean, has been shrinkd to 100 g/m3 based on recent conclusive associations between daily mortality and ozone levels occurring at ozone concentrations below 120 g/m3. normality dioxide (NO2)Guideline valuesNO240 g/m3 annual mean200 g/m3 1-hour meanThe current WHO guideline value of 40 g/m3 (annual mean) make out to protect the public from the health effects of gaseous NO2 remains unchanged from the level recommended in the previous AQGs.Sulfur dioxide (SO2)Guideline valuesSO220 g/m3 24-hour mean500 g/m3 10-minute meanA SO2 concentration of 500 g/m3 should not be exceeded over average periods of 10 minutes duration. Studies luff that a proportion of people with asthma experience changes in pulmonary function and respiratory symptoms after periods of exposure to SO2 as short as 10 minEXPOSURE LIMITSThe airborne exposure limits establish ed by OSHA include Permissible Exposure Limit (PEL) The allowable limit that is representative of a workers exposure, averaged over an 8-hour day.Short-term Exposure Limit (STEL) The allowable limit that is representative of a workers exposure, averaged over 15 minutes.ACGIH is a professional organization whose members work within the organization or academia. This organization annually publishes a booklet entitled doorstep Limit Values (TLVs) for Chemical Substances and Physical Agents andBiological Exposure Indices (BEIs). ACGIH TLVs are exposure guidelines and do not have the effect of law. These values change in response to new data and are usually more rapidly updated than OSHA limits.The Threshold Limit Value (TLV) refers to airborne concentrations of substances and represents conditions under which it is believed that nearly all workers may be repeatedly exposed day after day without adverse health effects.The ACGIH TLVs include Threshold Limit Value-Time- Weighted Average (TLV-TWA) The time-weighted average concentration for a normal 8-hour workday and a 40- hour work week, to which nearly all workers may be repeatedly exposed, day after day, without adverse effect. http//www.hse.gov.uk/coshh/oel.pdfDisposal of ChemicalsAccording to the University of Florida disposal procedures of darkrooms photo chemicals with a pH of less than or be to 2 or greater than or equal to 12.5 can be disposed of pop the drain. Therefore, developer (alkaline) and stop bath (acidic) may be combined in a container (with good ventilation) to neutralize the solutions (pH 7) and make it nonhazardous. Then the combined solution can be disposed of belt down the sink. Fixers cannot be placed down the sink because of silver and other heavy metals content. These chemicals can be combined into one container and must have a Hazardous Waste Label on it. All unused, operose photographic materials must be handled by EHS as a hazardous chase away. Photographers should never put any h azardous (or even potentially hazardous) materials down the drain without explicit permissionAccording to Michael McCann the disposal of old or unused concentrated photographic chemical solutions, developer, stop baths, fixing baths, and other solutions should be treated as hazardous waste. To dispose of photographic wastes, label them with a hazardous waste tag, store them in secondary containment and submit a waste pickup request. Fixers contain some silver, which must be treated or recovered before it can be disposed of. There are two options available for recycling this material Have a commercial company service your photographic needs (typically keeping your developer and fixer stocked and your waste removed), or have EHS collect the waste. EHS is permitted to treat. It is important to remember that when handling fixers, developer, or other photographic products that proper Personal preservative Equipment (PPE) be worn at all times.Kodak literature on Disposal of process Waste s guidelines are to direct discharge of untreated processing effluents to receiving water, or to surface drains or storm sewers that discharge without delay to receiving waters, is not recommended or lawful. Septic tanks are biological systems, but are not recommended for disposal of photographic processing wastes. Septic tanks may not depress wastes sufficiently. They are generally designed for small volumes, produce odorous products, cannot be installed in all locations, and may contaminate ground waters. Aerated lagoons have been used successfully by some processors to pre-treat their wastes to lower the oxygen demand before discharging them into a municipal treatment system.The University of Florida, Michael McCann and Kodak Literature in their research all hold that photochemical disposal should be treated as hazardous waste. Hazardous waste or even potentially hazardous materials should never be poured down the drain. The University of Florida labels the hazardous waste and Contacts the Environmental Health and Safety Department who is permitted to treat hazardous waste. Both, The University of Florida and Michael McCann suggest the services of the EHS department. Kodak in their findings suggests an aerated lagoon.Hazard pictograms GHSThe following labels are found on the packages of the fixer, and developers.For the labelling based on the Regulation (EC) No 1272/2008 (CLP Regulation, GHS), the following hazard pictograms have to be used according to the classification of the substances or preparations (mixtures).http//www.bag.admin.ch/anmeldestelle/00933/12871/index.html?lang=enimage=NHzLpZeg7t,lnp6I0NTU042l2Z6ln1ad1IZn4Z2qZpnO2Yuq2Z6gpJCKeIR_fWym162bpYbqjKbNpJyZlq7p Pictogram GHS05 attribute corrosionHazard class and hazard courseCorrosive to metals, hazard category 1Skin corrosion, hazard categories 1A, 1B, 1CSerious eye damage, hazard category 1http//www.bag.admin.ch/anmeldestelle/00933/12871/index.html?lang=enimage=NHzLpZeg7t,lnp6I0NTU042l2Z6ln 1ad1IZn4Z2qZpnO2Yuq2Z6gpJCKeIR_g2ym162bpYbqjKbNpJyZlq7p Pictogram GHS06 Symbol skull and crossbonesHazard class and hazard categoryhttp//www.bag.admin.ch/anmeldestelle/00933/12871/index.html?lang=enimage=NHzLpZeg7t,lnp6I0NTU042l2Z6ln1ad1IZn4Z2qZpnO2Yuq2Z6gpJCKeXt2g2ym162bpYbqjKbNpJyZlq7p Pictogram GHS09 Symbol environmentHazard class and hazard categoryHazardous to the aquatic environment Acute hazard category 1 Chronic hazard categories 1, 2 http//www.bag.admin.ch3.0 Hierachy of Control MeasuresWhile systems of control should be as effective as it is practicable to make them, itis desirable to have some guide to which the efficiency of control can be related For each substance a figure of concentration in atmosphere is given. If thisconcentration is exceeded, further action is necessary to achieve satisfactoryworking conditions (MoL, 1960) Authors emphasis pg 12 http//www.hse.gov.uk/coshh/oel.pdfThe following control measures should be lend oneself to reduce exposure levels to (as low as reasonable practicable ) ALARP3.1 1. EliminationThe best way to control a hazard is to eliminate it and remove the danger. This can be done by changing a work process in a way that will get rid of a hazard substituting a non-toxic chemical for a toxic substance having workers perform tasks at ground level rather than working at heights.2. SubstitutionThe second best way to control a hazard is to substitute something else in its place that would be non-hazardous or less hazardous to workers. For example, a non-toxic (or less toxic) chemical could be substituted for a hazardous one.Isolation and enclosure of the process can be achieved by the use of physical barriers, or by relocation of processes and/or facilities.Local exhaust ventilation system (LEV is achieved by trapping the contaminant close to its source, and removing it directly by purpose built ventilation prior to its entry into the respiration zone of the operator or the atmosphere.LEV have four parts Hood, Ductin g, Air purifying device eg charcoal filtrs to prevent further pollution and Fans to move air through the system.The efficiency of LEV is affected by draughts capture hood design and dimensions, air velocityachieved and distance of capture point from source.General or Dilution Ventilation uses natural air movement through open doors or assisted ventilation by roof fans, or blowers to dilute the contaminant. It should only be considered ifThere is a small quantity of contaminant.The contaminant is produced uniformly in the area.The contaminant material is of low toxicity.Housekeeping lessens the likelihood of accidental contact with a contaminant. It includes measures to presage and handle spillages and leaks of materials, and minimize quantities in open use.Reduced exposure time to a contaminant may be appropriate, provided that the possible harmful effect of the window glass rate is taken into account, i.e high levels of exposure for short periods of time may be damaging.Training should emphasise the importance of using the control measures provided, and give an account statement of the nature of the hazard which may be present together with the precautions which individuals need to take.Personal Protective Equipment and Clothing may be used where it is possible to reduce the risk of injury sufficiently using the above control strategies. In that case suitable protective equipment must be used.http//t3.gstatic.com/images?q=tbnANd9GcT8a2gMMIEgccZST4or753KegN5brXR6Kenuv4NRA9Y2UnB8qXwdesignconsiderationsfig7.gifsebastiandarkroom.comhttp//ts1.mm.bing.net/th?id=I.4506898942199372pid=15.1gloves give your workforce protection lab coat to protect your clothing condrenrails.comAccording to literature from Hawaii art photography 2006 handout, which deals with safe and healthful Dark room practices, states that the hazards of the Developer and the Fixer are skin and eye irritants. They can cause allergic reaction and allergic sensitivity, especially hazardous in the stock miscellany stage. The precautions given are To mix stock solutions wear goggles, gloves and respirator or dust mask. Use gloves when mixing working solutions. Avoid skin contact with powders and solution. Concentrate is highly toxic by skin contact, inhalation or ingestion. Continued inhalation of working solution can cause severe sinusitis and bronchitis. http//www.hawaii.eduIn the literature from Photographic Processing Hazards by Michael McCann, Ph.D., C.I.H states that the Developer solutions and powders are often highly alkaline, and glacial acetic acid, used in making the stop bath, is also corrosive by skin contact, inhalation and ingestion.Developer powders are highly toxic by inhalation and moderately toxic by skin contact, due to the alkali and developers themselves. The developers may cause methemoglobinemia, an acute anaemia resulting from converting the iron of haemoglobin into a form that cannot transport oxygen. Fatalities and severe poisonings have resulted f rom ingestion of concentrated developer solutions. The precautions are to use liquid chemistry whenever possible, rather than mixing developing powders. Pregnant women, in particular, should not be exposed to small-grained developer. When mixing disintegrate developers, use a glove stripe (a cardboard box with glass or plexiglas top, and two holes in the sides for hands and arms), local exhaust ventilation, or wear a NIOSH-approved toxic dust respirator. In any case, there should be dilution ventilation (e.g. window exhaust fan) if no local exhaust ventilation is provided. Wear gloves, goggles and protective apron when mixing concentrated photo chemicals. An eyewash fountain and emergency shower facilities should be available. Fixing baths contain sodium thiosulphate (hypo) as the fixing agent, and sodium sulphite and sodium bisulphite as a preservative. Fixing baths also may also contain alum (potassium aluminium sulphate) as a hardener and boric acid as a buffer. www.trueart.in fo/photography.htmThe University of Florida literature on photographic materials safety issues and procedures outlines that the developer solutions and powders are often highly alkaline and are moderately to highly toxic. They are also sources of the most common health problems in photography skin disorders and allergies. Developers are skin and eye irritants and many are strong allergic sensitizers. Some common ingredients in developers are hydroquinone and sodium sulphite. Hydroquinone can cause de pigmentation and eye injury after five or more years of repeated exposure, it is also a mutagen. Sodium sulphite decomposes to produce sulphur dioxide (a toxic gas), when heated or allowed to stand for a long time in water or acid. Precautions are to ensure good ventilation of the darkroom. At least, 10 air changes per hour. Wear gloves and goggles. If a splash occurs, flush affected areas (15-20 minutes for eyes) immediately with water using an eyewash or safety shower. Solutions are should be covered when not in use to prevent evaporation or release of toxic vapours and gases. Fixer contains sodium thiosulphate, sodium sulphite and sodium bisulphite. It may also contain potassium aluminium sulphate as a hardener and boric acid as a buffer. Fixer solutions slowly release sulphur dioxide gas as they age. However, when these solutions are contaminated with acid from the stop bath, the gas sulphur dioxide is released at a more rapid rate. http//www.ehs.ufl.eduThe use of Personal Protective Equipment is of great importance to the three institutions. The researchers found in their findings and agreed that the Developer and Fixer that is used in the photography lab are highly toxic and are skin and eye irritants. They all emphasize goggles and gloves, eye wash fountains and emergency showers. Michael McCann include the use of an apron while mixing chemicals. Michael McCann and the University of Florida go in-depth into the various chemical compositions and the danger they pose. There was a slight variation on the type of ventilation system which should be installed however, the important factor here is that one should be place. He also added information on mixing powdered developers in a glove box. Precautions given are to wear goggles, gloves and respirator or dust mask.According to Kodak guidelines on the safe handling of processing chemicals, all chemicals have MSDS. MSDSs are provided for customers for all photographic processing chemicals which are clearly adumbrate Photographic processing facilities are required by OSHA to have MSDSs for all hazardous chemicals.MSDSs provide detailed information about each product. Information included in MSDSs is outlined in the following categories chemical and manufacturer identification composition/ingredients hazard identification first-aid measures fire-fighting measures accidental release measures handling and stockThe University of Florida outlines memory board handling and general housekeeping which is documented in the updated MSDS on all chemicals used in the developing of film. These sheets must be kept in a binder and be available at all times. Keep the darkroom and other work areas uncluttered and eliminate trip hazards by not storing items on the floor. unshakable and dry areas should be clearly separated. Liquid chemicals are to be stored off the floor, by compatibility and below shoulder height. Do not eat, smoke or insobriety in the storage room, darkroom or studio. The darkroom should be well ventilated with 10 to 20 air changes per hour. Using a pre-made liquid developer is safer than mixing powdered developers. If powdered chemicals must be mixed, do so in a fume hood or glove box. All darkrooms should have eyewash stations that bind to the water supply and use hands-free operation. Pregnant women, in particular, should not be exposed to powdered developer. Store concentrated acids and other corrosive chemicals on low shelves so as to reduce the chance of f ace or eye damage in case of breakage and splashing.Kodak literature on photo chemicals safety, storage and general housekeeping alerts DO NOT store chemicals where you handle or store food. DO NOT eat, drink, or smoke in chemical-handling areas. Always wash your hands thoroughly after handling chemicals, especially before eating or drinking. Store corrosive materials away from any materials with which they may react, and away from other incompatible materials. See the stability and reactivity section on the MSDS for more information.The researcher found that The University of Florida notes that pregnant women, in particular, should not be exposed to powdered developers. Michael McCann also noted this hazard of the developer in his findi