• Radiation – ionizing radiation poses a severe health risk. High radiation exposures can cause “tissue” damage, resulting in acute radiation sickness. Low levels of exposure raise the risk of developing cancer. Due to the vast dispersion of uranium in the earth’s crust, a number of building materials are radioactive. Red bricks, granites, concrete, and all materials including natural or processed rocks and clays tend to have higher radiation levels. There have been numerous examples where elevated radioactive concentration has been observed in metal products, including rebar. In most cases this is due to a highly radioactive sources in scrap metal.
• Radon – radon is a natural, colorless and odorless radioactive gas that is present in the nature regardless of human activities. It is formed when uranium decays in soil, rocks and water, from where it enters the air. Radon quickly decays into radioactive particles that are deposited onto airborne particles and, when inhaled, are deposited in the respiratory tract and lung. The radioactive radon decay products pose a serious health risk to people. The only method to identify elevated radon levels is through specialist measurement. Radon is the second leading cause of lung cancer after smoking, and the first among nonsmokers. Its concentration is much higher indoors than outdoors.
• ElectroSmog – the intense low-frequency electromagnetic radiation, which is caused by the accumulation of non-ionizing radiation, affects the cells in the human body. Electromagnetic fields diminish as they pass through physical barriers such as walls and furniture. If we are inside their range, they will pass through us. Unlike ionizing radiation, non-ionizing radiation lacks the energy to alter the structure of our cells. However, extended exposure to this form of radiation has detrimental consequences. One of the main prerequisites for the damage is its ability to increase the levels of oxidative stress, which is considered one of the leading causes of many diseases, such as: Migraine; Chronic fatigue; Insomnia; Cardiovascular problems; Hormonal changes; Erectile dysfunction; Fertility problems; Weakened immune system; Leukemia; Increased risk of breast cancer, etc.
• Structural dampness in our homes poses a risk for a variety of health issues. Moisture can be caused by water infiltration into the building structure. Children living in homes with high structural dampness are nearly twice as likely to develop respiratory and skin illness symptoms as those living in homes with normal structural dampness.• Air quality is one of the most important prerequisites for good health and a fulfilling life. Our detectors measure hazardous, cancerogenic formaldehyde (HCHO), total volatile organic compounds (TVOC), fine dust particles (PM2.5), carbon monoxide (CO), and carbon dioxide (CO2) levels.
• Thermography – structural dampness, leaks, heat losses, faulty plumbing, overloads of electrical installations, worn or weak connections in electrical panels – all of these are essential considerations when purchasing, renting, or inhabiting a home. A high level of moisture would damage the property over time and is a good indicator of concealed leaks. The inspection is conducted using a modern method called thermography. Thermography can also help you examine the energy efficiency of a property you own or want to buy/rent.
Are you BUYING, RENTING, OWNING or INHABITING a PROPERTY?
Do you want to discover how it affects your HEALTH?
• Are inert materials with an high gamma radiation used, for example: gravel, sand, bricks, stones, plasterboard, rebar, etc.)?
• Are there high levels of natural radioactive gas – Radon, particularly on the lower floors?
• Are you concerned about the quality of the air, both indoors and outdoors?
• Is there increased electromagnetic pollution (ElectroSmog), proximity to antennas, or other sources of strong electromagnetic fields?
• Is there any structural dampness or leaks in the property (roofs, eaves, pergolas, terraces, plumbing, heating installations)?
• Are there heat losses owing to poor-quality insulation, which are more noticeable in the winter when there is a significant temperature difference?
• Are the electrical systems and switchboards overloaded?