A NYC physician named Cameron Kyle-Sidell has posted two videos on YouTube, pleading for health practitioners to recognize that COVID-19 is not a pneumonia-like disease at all. It’s an oxygen deprivation condition, and the use of ventilators may be doing more harm than good with some patients. The ventilators themselves, due to the high-pressure methods they are running, may be damaging the lungs and leading to widespread harm of patients.
Dr. Cameron Kyle-Sidell describes himself as an “ER and critical care doctor” for NYC. “In these nine days I have seen things I have never seen before,” he says. Before publishing his video, we confirmed that Dr. Kyle-Sidell is an emergency medicine physician in Brooklyn and is affiliated with the Maimonides Medical Center located in Brooklyn.
In his video (see below), he goes on to warn the world that the entire approach to treating COVID-19 may be incorrect, and that the disease is something completely different from what the dogmatic medical establishment is claiming.
“In treating these patients, I have witnessed medical phenomena that just don’t make sense in the context of treating a disease that is supposed to be a viral pneumonia,” he explains.
He talks about how he opened a critical care using expecting to be treating patients with a viral pneumonia infection that would progress into Acute Respiratory Distress Syndrome (ARDS). But that the disease acted nothing like ARDS. “This is the paradigm that every hospital in the country is working under,” he warns. “And yet, everything I’ve seen in the last nine days, all the things that just don’t make sense, the patients I’m seeing in front of me, the lungs I’m trying to improve, have led me to believe that COVID-19 is not this disease, and that we are operating under a medical paradigm that is untrue.”
More from Dr. Kyle-Sidell: (emphasis added)
In short, I believe we are treating the wrong disease,
and I fear that this misguided treatment will lead to a tremendous amount of harm to a great number of people in a very short time… I feel compelled to give this information out.
COVID-19 lung disease, as far as I can see, is not a pneumonia and should not be treated as one. Rather, it appears as if some kind of viral-induced disease most resembling high altitude sickness. Is it as if tens of thousands of my fellow New Yorkers are on a plane at 30,000 feet at the cabin pressure is slowly being let out. These patients are slowly being starved of oxygen.
And while [patients] absolutely look like patients on the brink of death, they do not look like patients dying from pneumonia… I suspect that the patients I’m seeing in front of me, look as if a person was dropped off on the top of Mt. Everest without time to acclimate….
Aside from the glutathione connection, there may be a 5G connection. http://thoughtcrimeradio.net/2020/01/wuhan-city-launched-5g-network-around-oct-2019/
In fact there’s an oxygen absorption peak around 60Ghz (in the middle of the 5G spectrum). Highly agitated oxygen molecules may be less able to bind to hemoglobin.
60Ghz is important to 5G precisely because it’s strongly absorbed by oxygen!
It seems 5G would certainly exacerbate any existing hypoxic condition.
Figure 1: Dry Atmospheric Absorption per Kilometer
Due to the increased bandwidth demands and the scarcity of microwave frequency allocations, the wireless communications industry is beginning to focus on higher, previously unallocated portions of the spectrum in the millimeter wave frequencies from 40GHz to 300GHz. Due to the high levels of atmospheric RF energy absorption, the millimeter wave region of the RF spectrum is not usable in long haul, wireless communications segments. However, for short haul, “last mile” segments, the expanded RF data bandwidth available in the millimeter wave region makes it possible for high peed connectivity.
Figure 1 illustrates the atmospheric absorption for millimeter wave frequencies. At the millimeter wave frequency of 60GHz, the absorption is very high, with 98 percent of the transmitted energy absorbed by atmospheric oxygen. While oxygen absorption at 60GHz severely limits range, it also eliminates interference between same frequency terminals.
The benefit of Oxygen absorption relative to frequency re-use is detailed in Figure 2.
Figure 2 illustrates the distance relationship between the 60GHz frequency reuse range, the green region, and the traditional range, the blue region. Oxygen absorption makes possible the same-frequency reuse within a very localized region of air space. Operation within the 60GHz millimeter wave spectrum enables very dense interference free deployment of same frequency radio terminals.
Figure 2: Frequency Reuse Source FCC Bulletin 70A
A 60GHz communications system must overcome the effects of oxygen absorption, 16dB/KM. In order to operate reliably at even short ranges, a very focused, narrow-beam antenna must also be employed to increase the level of signal available to the target receiver.
Traditional wireless communications systems operating in the lower frequency ranges of 600 MHz to 40 GHz often interfere with each other when placed too closely together. This interference, due to the dispersion and uncontrolled propagation of RF energy through the atmosphere is minimized by FCC frequency coordination, licensing and through the implementation of interference avoidance techniques such as spread-spectrum modulation.
FCC Licensing precludes dense deployment through the limited number of regional licenses granted and spread-spectrum techniques have proven only marginally effective, as the overall noise floor has risen. In the 60GHz region, the effects of oxygen absorption and the use of narrow beam antennas minimize the probability of interference between the radios….
5G also has effects on hemoglobin itself, of course:
… When functioning normally, 1 molecule of hemoglobin binds with 4 molecules of oxygen, using iron (Fe2+), forming oxyhemoglobin. But this binding is only achieved because of something called “partial pressure” which means the concentration of oxygen in the lung tissues is higher than the concentration of oxygen on the hemoglobin molecule (roughly stated, this is simplified somewhat), so the oxygen “leaps” to the hemoglobin in order to equalize the partial pressures across the chasm.
Image source: QSstudy.com
But 5G radiation alters the porosity of cell membranes, allowing some molecules or ionic elements to move more easily across those members, displacing other molecules (or soluble gasses such as carbon dioxide) that might normally make that leap. For example, it is well documented that 5G radiation causes “Voltage Gated Ion Channels” (VGIC), specifically with calcium ions (VGCC), causing cellular toxicity due to too much calcium entering the cell walls and poisoning the cells.
The research on this was published in Environmental Research — here’s the link — and reveals that 5G exposure not only alters cell permeability (porosity), but also releases peroxinitrites in the body. These are inflammation-producing molecules that ravage other healthy molecules circulating in the blood.
A thorough review of the available published science on wireless (WiFi) and electromagnetic frequency (EMF) exposure has identified at least seven different ways that WiFi and EMF microwave pollution actively harms the human body.
Published in the journal Environmental Research, the peer-reviewed paper explains that exposure to WiFi signals, which are everywhere these days, can lead to: oxidative stress, sperm and testicular damage, neuropsychiatric effects including EEG (electroencephalogram) changes, apoptosis (programmed cell death), cellular DNA damage, endocrine changes, and calcium overload.
Note that coronavirus patients are already being observed with neuropsychiatric effects, testicular damage and oxidative stress, three of the symptoms of 5G exposure.
Different variants of hemoglobin may account for differences in severity, in the same way that variants in the MTHFR gene accounts for differences in vulnerability to some types of vaccine-caused autism.
More than 1000 naturally occurring human hemoglobin variants with single amino acid substitutions throughout the molecule have been discovered, mainly through their clinical and/or laboratory manifestations. These variants alter hemoglobin structure and biochemical properties with physiological effects ranging from insignificant to severe. …
Just a thought, while I’m still allowed to think.