It may be hard to believe, but your ultra-clean, insulated home is probably more toxic [Click here](1770d7/ct0_0/1/ms?sid=TV2%3A1Mfra36zP) to view this message in your browser | [Click here](1770d7/l-002e/zout?sid=TV2%3A1Mfra36zP) to stop receiving our messages [] [] Al Sears, MD
11905 Southern Blvd.
Royal Palm Beach, FL 33411 [] June 7, 2022 [] Reader, It may be hard to believe, but your ultra-clean, insulated home is probably more toxic than any congested city. According to a recent report by the Environmental Protection Agency, most American homes are between two and five times more toxic than outside.1 So itâs not surprising one in three Americans suffers from allergies, asthma, sinusitis, or bronchitis. Now several newly published studies have revealed that everyday pollutants you find in your home also dramatically raise your risk of chronic obstructive pulmonary disease (COPD). Doctors blame tobacco smoke for the COPD epidemic. But thatâs just part of the story. The chemicals in your home are also big culprits. The findings of a 2019 study published in JAMA demonstrated that weekly use of disinfectants for cleaning surfaces increases your risk of COPD by up to a staggering 38%.2 You see, many of the disinfectants and cleaning products you keep under your sink are âvolatile organic compounds,â or VOCs. Tiny droplets from these chemicals can be inhaled through the nose or mouth and lodge deep in your bronchial tubes. Once that happens, the muscles in your airways tighten and make it hard to breathe. Another study found that professional cleaners exposed to household cleaning products were at a significantly higher risk of developing COPD.3 Many cleaning products contain lung irritants, such as ammonia, alcohol, hydrogen peroxide, and chlorine bleach. But these arenât the only dangerous compounds lurking in your home. Diethyl phthalate is another one. Used in commercial cleaning products, this hormone disruptor has been shown to increase COPD risk.4 But even if you donât use heavy-duty cleaners, youâre still at risk. Diethyl phthalate is also found in toothbrushes, automobile parts, tools, toys, perfumes, shampoo, and food packaging. In 2017, the Consumer Product Safety Commission banned the use of eight ortho-phthalates in childrenâs toys and child-care articles. But when it comes to household items and personal care products, there is no legislation by other any government agency prohibiting their use. Itâs up to each manufacturer to decide if they want to eliminate the use of phthalates in their products. Meanwhile, your kitchen stove, fireplace, laminated flooring, heater, rugs, walls, furniture, clothing, and even the sheets you sleep on, can all be sources of additional indoor air pollutants â like nitrogen dioxide, hydrocarbons, formaldehyde, radon, sulfur dioxide, and asbestos.5,6,7,8 There are also toxins in deodorants, oven cleaners, paints, garden pesticides, laundry aids, floor and furniture polishes, glue, and even, ironicallyâ¦air fresheners. That characteristic âlemon-freshâ or pine scent in bleaches and dishwashing liquids comes from âfragrancingâ chemicals â limonene and alpha pinene. The chemicals themselves are not known to be harmful. But once theyâre released into the air, they combine to form highly toxic formaldehyde as a byproduct.9 Use the âmother of all antioxidantsâ to detox yourself Chemicals that disrupt your hormones also make your glutathione levels plummet. This is critical because your body needs glutathione, often called âthe mother of all antioxidants,â to detoxify itself. While glutathione is available in asparagus, spinach, and avocados, these sources are broken down before your body has a chance to absorb it. For many years, trying to supplement with glutathione was useless for the same reason â poor absorption. But the introduction of âliposomal glutathioneâ was a game-changer. Wrapping the glutathione in tiny bubbles of fatty acid protects it from rapid breakdown. Just one week of liposomal glutathione increased levels in the blood by up to 40%. Start with a gram a day of liposomal glutathioneâ¦and gradually increase to 1 gram twice daily. Donât forget to detox your home - Go green when you clean. Ditch your toxic chemical cleaners for safer ones. There are a lot available nowadays, even at the grocery store. Or you can make your own with baking soda, vinegar, and essential oils. - Filter indoor air. Home air filters can block particulate matter. Make sure yours rates a 9 or higher on the MERV scale (Minimum Efficiency Reporting Values). - Use NASAâs humble air filter. A NASA study showed that common houseplants can quickly and efficiently filter out toxic particles from household air. Here are eight NASA-recommended houseplants that will scrub and purify your homeâs air: ⢠Spider plant (chlorophytum)
⢠Dragon tree (dracaena)
⢠Golden pothos (Scindapsus)
⢠English ivy (Hedera helix)
⢠Boston fern (Nephrolepis exaltata)
⢠Bamboo Palm (Chamaedorea seifrizii)
⢠Rubber plant (Ficus robusta)
⢠Peace lily (Spathiphyllum) I recommend two plants for every 100 square feet of your home. To Your Good Health, [Al Sears, MD] Al Sears, MD, CNS --------------------------------------------------------------- References: 1. EPA. âThe Inside Story: A Guide to Indoor Air Quality.â 2021. Available atâ
2. Dumas O, et al. âassociation of occupational exposure to disinfectants with incidence of chronic obstructive pulmonary disease among us female nurses.â JAMA Netw Open. 2019;2(10):e1913563.
3. Svanes O, et al. âRespiratory health in cleaners in northern europe: is susceptibility established in early life?â Plos One. Jul 13, 2015
4. Shendell DG, et al. âExposure to phthalates in house dust: Community-based participatory research in a central California county on low-to middle-income older adults with asthma and/or COPD.â Research with Rutgers: SPH-Environmental & Occupat He. 2011.
5. Saki H, et al. âStudy of relationship between nitrogen dioxide and chronic obstructive pulmonary disease in Bushehr, Iran, Clinical Epidemiology and Global Health.â2020;8(2):446-449.
6. Connellan SJ. âLung diseases associated with hydrocarbon exposure.â Respir Med. 2017;126:46-51.
7. Turner MC, et al. âRadon and COPD mortality in the American Cancer Society Cohort.â Eur Rsp J. May 2012:39(5):1113-1119.
8. Wagner U, et al. âAnalysis of airway secretions in a model of sulfur dioxide induced chronic obstructive pulmonary disease (COPD).â J Occup Med Toxicol. 2006;12.
9. Horvath EP, et al. âEffects of formaldehyde on the mucous membranes and lungs: a study of an industrial population.â JAMA. 1988;259(5):701â707. alsearsmd@send.alsearsmd.com [Preferences | Unsubscribe](1770d7/l-002e/zout?sid=TV2%3A1Mfra36zP) 11905 Southern Blvd., Royal Palm Beach, Florida 33411, United States