Increasing evidence suggests a variety of environmental toxins from the World Trade Center building collapses are responsible for ailments suffered by 9/11 first responders.

The tragedy at the World Trade Center (WTC) on Sept. 11, 2001, continues to affect many thousands of first responders who sacrificed their own health while restoring lower Manhattan and attempting to recover survivors and victims' remains.

Recently, H.R. 847, otherwise known as the James Zadroga Bill, was signed by President Obama in an effort to provide services and compensation for those whose health was compromised through exposure to the toxic dust and gases at Ground Zero. However, these first responders also need help to understand how their illnesses originated so that improvements in treatment can be made.

In response to this need, concerned citizens should consider the possible correlation between evidence for energetic materials at the WTC and the environmental exposures that appear to have caused so many illnesses in the first responders.

The 9/11 first responders suffer from a range of different illnesses, some of which are rare in the general population. Some of the illnesses can be attributed to the high pH of the WTC dust. We know the extent of the pH problem thanks to EPA whistleblower Dr. Cate Jenkins. The very high pH of the dust inhaled by 9/11 first responders is a probable cause for the general deterioration of lungs and their function, due to the dust's corrosive state.
"The 9/11 first responders suffer from a range of different illnesses, some of which are rare in the general population."
As Dr. Jenkins wrote, "Corrosivity would have acted directly to cause respiratory chemical burns, and also would have increased the toxic properties of other pollutants from the WTC by facilitating their entry into the body through the respiratory system."

Commonly observed conditions among first responders include reactive airways dysfunction syndrome (RADS), caused by exposure to high concentrations of irritants such as caustic and metallic dusts; upper respiratory illnesses such as sinusitis and laryngitis; and lower respiratory disorders such as asthma and what is known as World Trade Center cough.

Less understood, and requiring further study, are unusual illnesses of the immune system commonly observed in the WTC first responders. These include various types of interstitial lung disease, such as eosinophilic pneumonia, granulomatous pneumonitis and bronchial obliterans. Environmental triggers for these illnesses include aluminum silicates, which have been found in the lungs of WTC first responders at high levels in "unusual platy configurations," as reported in December 2009 in the journal Environmental Health Perspectives.

Other common WTC lung ailments include sarcoidosis, which is known to be caused by aluminum dust, and pulmonary fibrosis, which can be caused by aluminum oxide.

Until now, these findings have lacked an adequate scientific explanation. But recent research suggests a correlation with the causes of the destruction of WTC buildings 1, 2 and 7. Aluminum oxide -- a potential cause of the observed pulmonary fibrosis -- is a product of the thermite reaction, and there is now considerable evidence for the use of thermite in the destruction of WTC buildings 1, 2 and 7. Additionally, aluminum and silicates -- potential causes of the observed illnesses of the immune system -- are components of nanothermite formulations.
"The very high pH of the dust inhaled by 9/11 first responders is a probable cause for the general deterioration of lungs and their function, due to the dust's corrosive state."
Thermite is a mixture of aluminum powder and a metal oxide that, when ignited, exhibits an extremely exothermic reaction producing aluminum oxide and the metal in molten form. The thermite reaction has been utilized for welding railroad ties and for cutting metal as with anti-tank grenades. Thermite has also been used to develop patented devices for the demolition of structures. One such device allows for demolition of a concrete structure "at a high efficiency, while preventing a secondary problem due to noise, flying dust and chips, and the like," according to U.S. Patent 5532449 - Using plasma ARC and thermite to demolish concrete. A recent experiment shows that thermite can cut structural steel efficiently.

Sulfur is often added to thermite mixtures to improve the burn qualities, and it is then called thermate. Nanothermite, or superthermite, is a more recently developed variation on thermite in which the aluminum and metal oxide are mixed on the nanometer scale, allowing more rapid energy release. Nanothermite can be a simple mixture of nanometer-scale powders or can be made in a silicon matrix, through a solution-based technique, resulting in "sol-gel" nanothermite. The sol-gel process allows the use of organic materials that expand during the reaction, providing more explosive power.

In 2009, an international team of researchers discovered what appear to be sol-gel nanothermite formulations in every WTC dust sample tested. Additionally, similar to the findings of aluminum silicates in the lungs of first responders, the aluminum found in the nanothermite of WTC dust samples was present, along with silicon, in platelike (platy) configurations. Whether or not the platy configurations of aluminum silicates in the lungs of WTC workers are related to the platy configurations of aluminum and silicon in WTC dust samples is a question that should be answered through further investigation.

Environmental factors

A review of WTC environmental testing results produced by EPA and the University of California was published in 2008. That review showed that air and aerosol emissions of sulfur and silicon compounds at Ground Zero provided evidence that energetic materials such as thermite and nanothermite were present. The silicon compounds (i.e., silicates) were indicative of the sol-gel variety of nanothermites, and the sulfur compounds suggested the presence of thermate, a sulfur-containing derivative of thermite.
"Less understood, and requiring further study, are unusual illnesses of the immune system commonly observed in the WTC first responders."
EPA also found very high levels of volatile organic chemicals (VOCs) that, like the aluminum, sulfur and silicon compounds, were discovered to be present in unusual spiking patterns. These spiking patterns suggest that extremely violent, explosive or incendiary events were occurring within the pile at Ground Zero over a period of months.

If fires were the cause of these events, they would have had to have been fires that were driven by an agent that contained its own oxidant, as a thermite or nanothermite mixture does. This is because extensive efforts were made to put out the fires at the WTC site, including the use of millions of gallons of water and chemical fire suppressants, with little or no effect. In addition to the tons of dust from the buildings' destruction and the rainfall that occurred, these firefighting efforts ensured that normal fires would not have continued.

The presence of thermitic materials explains why the fires lasted for so many months, deep within the oxygen-poor pile, and why the fires were resistant to the extensive, but ineffective, efforts to extinguish them. In this scenario, the extreme levels of VOCs would be the result of the complete thermal degradation of all plastic materials in the thermitic (incendiary) fires. In normal structural fires with limited ventilation, plastic materials often burn incompletely.

The pattern of energetic events at Ground Zero, indicated by the spikes in emissions, was different than the expected trend of emissions from a typical structure fire. As was the case for other structure fires, particulate matter (PM) emissions at Ground Zero were high at first and then died down completely. However, PM emissions occurred for a longer duration, and the extreme, spiking emissions of VOCs, and components typical of thermitic mixtures, continued for many months after the particulate matter had died down.

Other unusual results from EPA monitoring included a compound called 1,3-diphenylpropane (1,3-DPP), which had never been seen before in any EPA studies yet was said to be abundant and pervasive at the WTC. Further investigation is called for due to the fact that 1,3-DPP is used to functionalize nanostructured silicas that are similar to nanothermite materials.
"Other common WTC lung ailments include sarcoidosis, which is known to be caused by aluminum dust, and pulmonary fibrosis, which can be caused by aluminum oxide."
Related to these environmental findings is the fact that first responders have been getting cancer at elevated rates. Many types of cancer have been reported, including leukemia and the rare disease called multiple myeloma. The most prominent environmental cause of leukemia is benzene, which is one of the VOCs seen prominently in energetic spikes of emissions at Ground Zero. Benzene was detected at the WTC at levels that were dramatically higher than ever seen before in structure fires, even higher than what was seen at a large fire in a plastics factory.

As for multiple myeloma, researchers associated with the World Trade Center Medical Monitoring and Treatment Program at the Mount Sinai School of Medicine examined many sick first responders. One result was that they found eight times the expected level of multiple myeloma in people below the age of 45.

Environmental factors that cause multiple myeloma include phenoxyacetic acids, which are compounds that are structurally similar to 1,3-DPP. Another causal factor is DDT, a highly chlorinated diphenylethane. Diphenylethane is structurally very similar to diphenylpropane (DPP). This suggests that the observed presence of 1,3-DPP could be a causal factor of the multiple myeloma seen in WTC first responders, in that derivatives of 1,3-DPP might be responsible for the illnesses.

Carbon nanotubes

In 2010, researchers reported the presence of carbon nanotubes in the lungs of WTC first responders. Carbon nanotubes are high-tech nanostructured materials, which exhibit unique properties like ballistic conduction. The health effects of carbon nanotubes have been shown to be similar to the health effects produced by exposure to asbestos.

Carbon nanotube formation requires three basic components: a source of carbon, a source of heat and the presence of certain metals. In particular, formation of the single-walled carbon nanotubes (SWCNTs) found in the lungs of first responders requires that the metals be present. All of these requirements were met at the WTC site on, and for months after, Sept. 11, 2001.
"Airborne carbon compounds were certainly present in abundance at Ground Zero in the form of particulate matter resulting from the fires."
The three most effective metals for the synthesis of SWCNTs are iron, nickel and cobalt. Both iron and nickel were present in high concentrations near Ground Zero, as shown by aerosol testing done by a team from the University of California, Davis. Iron oxide and nickel oxide are common oxidants in thermite mixtures.

Airborne carbon compounds were certainly present in abundance at Ground Zero in the form of particulate matter resulting from the fires. Heat was also in abundance, as extremely high temperatures were present on 9/11 and afterward at Ground Zero. These temperatures were at least 1,000 degrees Fahrenheit, hotter than first reported by government scientists, and were far higher than temperatures seen in a normal structure fire.

The molten metal and vaporized silicates that have been reported in the WTC dust can only be explained by the presence of an exothermic reaction like the thermite reaction. Large quantities of carbon nanotubes might have been formed at Ground Zero due to the high temperature environments created by the thermite reaction and the airborne metal catalysts that were also present.

A second possible explanation for the carbon nanotubes in the lung tissue of the first responders is that the carbon nanotubes were components of actual energetic materials that were used in the destruction of the buildings. Carbon nanotubes have been used as energetic modifiers, to improve stabilization of explosives and to enhance ignition properties.

Conclusion

Some of the illnesses suffered by the WTC first responders might be explained by the existing evidence of energetic materials, like thermite, at Ground Zero. For example, aluminum, aluminum oxide and aluminum silicates are known causal factors for some of the common illnesses seen, such as sarcoidosis, pulmonary fibrosis and the as-yet-unexplained immune system diseases.
"Furthermore, the rare cancers found in some first responders could be the result of environmental factors."
Furthermore, the rare cancers found in some first responders could be the result of environmental factors, such as the unusually high levels of benzene and derivatives of 1,3-DPP, which suggest the presence of energetic materials like thermite and nanothermite.

Analysis of the lung tissue of first responders has also indicated that energetic materials might be involved. The unusual platy configurations of aluminum silicates found in those lung tissue samples seem similar to the platy configurations of aluminum and silicon in the nanothermite that has been discovered in WTC dust samples.

The finding of carbon nanotubes in the lungs of first responders suggests two possible explanations. The nanotubes might have been formed in the unusual environment at Ground Zero, where extremely high temperatures and the presence of airborne metallic species gives yet more evidence for the presence of thermitic materials. Alternatively, the nanotubes might have been components of energetic materials.

In either case, the presence of carbon nanotubes in the lungs of WTC first responders suggests the use of energetic materials and should be studied in more depth.

These facts and research findings warrant further study of the correlation between environmental testing results, first responder health study results and the use of energetic materials at the WTC.

Kevin Ryan can be reached at kncryan@msn.com. This article originally appeared in the Foreign Policy Journal, where it is fully sourced.