The Same Ultra High-Performance Particle Control for Allergy Sufferers in a Smaller Design The HealthPro Compact features the same advanced micro- and nano-particle filter technologies as the HealthPro and HealthPro Plus, but in a smaller housing to make it more convenient in size for small apartments and offices, only not upgradeable to HealthPro Plus to include V-5 Cell gas and odor filter. The HealthPro Compact effectively removes every type of particulate air pollutants with the same ultra high efficiency as the larger models, including all common allergens, microorganism and all types of dust. This makes the HealthPro Compact the ideal choice for allergy sufferers and other health-conscious individuals that need high-efficiency particle removal in a smaller size. (The HealthPro Compact cleans a home or apartment up to 900 square feet, just like the larger HealthPro and HealthPro Plus, but it is not upgradeable to to include V-5 Cell gas and odor filtration.) Most air purifiers only filter particles larger than 0.3 microns in size, but 90% of all ultra fine particles are smaller than 0.3 microns.

This means that most air purifiers are only filtering 10% of the particles in your air. IQAir’s patented HyperHEPA filters are the first filters tested and certified to filter down to 0.003 microns with a guaranteed minimum efficiency of over 99.5%. sharp air purifier plasmacluster ion systemThis allows your HealthPro to capture the ultra fine particles that other air purifiers miss.zephyr air duct cleaning Pet dander control (cat, dog, etc.)ahu electronic air cleaner House dust mite allergen control Particulate air pollution control General dust & particle control Light tobacco smoke control Eliminates micro-particles such as pollen, pet dander and mold spores. Eliminates bacteria, viruses and combustion particles from automobiles and smoke, through a nano-fiber structure.

IQAir's patented HyperHEPA filters are certified to remove 99.5% of all particulate down to 0.003 microns in size. Download HealthPro Plus Product Brochure (PDF format, 1.54MB) Ultra High-Performance Particle Control for Allergy Sufferers The HealthPro features the same advanced micro- and nano-particle filter technologies as the HealthPro Plus, however without the gas and odor filter (V-5 Cell). The HealthPro effectively removes every type of particulate air pollutants, including all common allergens. The system has a spare compartment that can at any time be upgraded with a the V-5 Cell (wide-spectrum gas and molecular filter) to help eliminate gaseous chemicals and odors. This makes the HealthPro the ideal choice for allergy sufferers and other health-conscious individuals that need ultra high-efficiency particle removal with the option of later adding gas and odor removal.IQAir's patented HyperHEPA filters are the first filters tested and certified to filter down to 0.003 microns with a guaranteed minimum efficiency of over 99.5%.

Complex air pollution control General indoor air pollution control Space for V-5 Cell This module allows you to add the advanced gas and odor filter (V-5 Cell) featured in the HealthPro Plus whenever you want. #1 for Allergies and Asthma The HealthPro Plus is IQAir's best selling room air purifier. It combines four advanced filtration technologies to effectively remove a large variety of particulate and molecular air pollutants. Due to its wide effectiveness range it is equally well suited for health conscious individuals as those suffering from a range of respiratory ailments. The molecular effectiveness makes this device also suitable for asthma sufferers, as asthma sufferers are often sensitized to molecular irritants, as well as allergens. The HealthPro Plus has received more #1 reviews than any other air purifier. Allergy Buyer’s Club: Category Winner Wired Magazine Test: Best Air Purifier Consumer Guide – Best Buy Reviewboard Magazine: Product of the Year

Consumer Digest – Best Buy Test Magazine: Category Winner Volatile Organic Compound (VOC) control Molecular (gaseous chemical) control Granular activated carbon adsorption Eliminates volatile organic compounds (VOC), which are responsible for odors. Destroys harmful chemicals, such as formaldehyde, by an oxidation process inside a chemically active alumina pellet. Eliminates bacteria, viruses and combustion particles from automobiles and smoke, through a nano-fiber structure. The Wide Spectrum Chemical and Odor Control Specialist The GC MultiGas has been customized for wide spectrum molecular and particulate contaminant control. Just like a professional gas mask, the GC MultiGas maximizes molecular filtration for a wide variety of gaseous chemicals and odors with its advanced filter cartridge design. And while gas and odor control is a particular strength of this systems, the GC MultiGas also offers excellent filtration for particles.

The GC MultiGas is our bestseller for individuals with multiple chemical sensitivity (MCS). Micro- and nano-particle filtration Eliminates micro- and nano-particles such as allergens, smoke, bacteria and viruses. Cartridge-based activated carbon adsorption Eliminates activated carbon and chemisorption abrasion partices through a charged fiber structure. Ultrafine particles (UFPs) are particulate matter of nanoscale size (less than 100 nanometres in diameter).[1] Regulations do not exist for this size class of ambient air pollution particles, which are far smaller than the regulated PM10 and PM2.5 particle classes and are believed to have several more aggressive health implications than those classes of larger particulates.[2] There are two main divisions that categorize types of UFPs. UFPs can either be carbon-based or metallic, and then can be further subdivided by their magnetic properties. Electron microscopy and special physical lab conditions allow scientists to observe UFP morphology.

[1] Airborne UFPs can be measured using a condensation particle counter, in which particles are mixed with alcohol vapor and then cooled allowing the vapor to condense around them which are then counted using a light scanner.[3] UFPs are both manufactured and naturally occurring. UFPs are the main constituent of airborne particulate matter. Due to their numerous quantity and ability to penetrate deep within the lung, UFPs are a major concern for respiratory exposure and health. UFPs are both manufactured and naturally occurring. Hot volcanic lava, ocean spray, and smoke are common natural UFPs sources. UFPs can be intentionally fabricated as are fine particles to serve a vast range of applications in both medicine and technology. Other UFPs are byproducts, like emissions, from specific processes, combustion reactions, or equipment such as printer toner and automobile exhaust.[6] In 2014, an air quality study found harmful ultrafine particles from the takeoffs and landings at Los Angeles International Airport to be of much greater magnitude than previously thought.

[7] There are a multitude of indoor sources that include but are not limited to laser printers, fax machines, photocopiers, the peeling of citrus fruits, cooking, tobacco smoke, penetration of contaminated outdoor air, chimney cracks and vacuum cleaners. UFPs have a variety of applications in the medical and technology fields. They are used in diagnostic imagining, and novel drug delivery systems that include targeting the circulatory system, and or passage of the blood brain barrier to name just a few.[8] Certain UFPs like silver based nanostructures have antimicrobial properties that are exploited in wound healing and internal instrumental coatings among other uses, in order to prevent infections.[9] In the area of technology, carbon based UFPs have a plethora of applications in computers. This includes the use of graphene and carbon nanotubes in electronic as well as other computer and circuitry components. Some UFPs have characteristics similar to gas or liquid and are useful in powders or lubricants.

The main exposure to UFPs is through inhalation. Due to their size, UFPs are considered to be respirable particles. Contrary to the behaviour of inhaled PM10 and PM2.5, ultrafine particles are deposited in the lungs,[11] where they have the ability to penetrate tissue and undergo interstitialization, or to be absorbed directly into the bloodstream — and therefore are not easily removed from the body and may have immediate effect.[2] Exposure to UFPs, even if components are not very toxic, may cause oxidative stress,[12] inflammatory mediator release, and could induce heart disease, lung disease, and other systemic effects.[13] [14][15][16] The exact mechanism through which UFP exposure leads to health effects remains to be elucidated, but effects on Blood pressure may play a role. It has recently been reported that UFP is associated with an increase in blood pressure in schoolchildren with the smallest particles inducing the largest effect. There is a range of potential human exposures that include occupational, due to the direct manufacturing process or a byproduct from an industrial or office environment,[2][18] as well as incidental, from contaminated outdoor air and other byproduct emissions.

[19] In order to quantify exposure and risk, both in vivo and in vitro studies of various UFP species are currently being done using a variety of animal models including mouse, rat, and fish.[20] These studies aim to establish toxicological profiles necessary for risk assessment, risk management, and potential regulation and legislation. As the nanotechnology industry has grown, nanoparticles have brought UFPs more public and regulatory attention.[24] UFP risk assessment research is still in the very early stages. There are continuing debates[25] about whether to regulate UFPs and how to research and manage the health risks they may pose.[29] As of March 19, 2008, the EPA does not yet regulate or research ultrafine particles,[30] but has drafted a Nanomaterial Research Strategy, open for independent, external peer review beginning February 7, 2008 (Panel review on April 11, 2008).[31] There is also debate about how the European Union (EU) should regulate UFPs. ^ Weikel, Dan and Barboza, Tony (May 29, 2014) "Planes' exhaust could be harming communities up to 10 miles from LAX" Los Angeles Times