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INFLUENCE OF SHORT WAVE IRRADIATION ON THE GLOMERULARY FILTRATION AND TUBERCULAR RETRORESORPTION IN THE NORMAL AS WELL AS DENERVED KIDNEY

Bioeffects Seen

Makoto Koiwa · 1939

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1939 research showed short wave radiation could alter kidney filtration and absorption functions in animal studies.

Plain English Summary

Summary written for general audiences

This 1939 Japanese study examined how short wave radio frequency radiation affected kidney function in animals, specifically measuring glomerular filtration (how kidneys filter blood) and tubular reabsorption (how kidneys reclaim useful substances). The research compared normal kidneys with denervated kidneys (surgically disconnected from nerve control) to understand how RF exposure impacts this vital organ system.

Why This Matters

This research represents one of the earliest documented investigations into how radiofrequency radiation affects kidney function, predating modern concerns about cell phone and WiFi exposure by decades. The science demonstrates that researchers were already observing biological effects from RF radiation in the 1930s, long before wireless technology became ubiquitous in our daily lives. What makes this study particularly significant is its focus on kidney function, an organ system that processes toxins and maintains fluid balance in your body. The fact that researchers felt compelled to study both normal and denervated kidneys suggests they observed meaningful changes in kidney performance under RF exposure. While we don't know the specific power levels used in 1939, today's wireless devices expose us to similar radiofrequency radiation continuously. The reality is that if short wave radiation could alter kidney function eight decades ago, we should be asking harder questions about what today's much more intensive RF environment might be doing to our bodies.

Exposure Information

Specific exposure levels were not quantified in this study.

Cite This Study
Makoto Koiwa (1939). INFLUENCE OF SHORT WAVE IRRADIATION ON THE GLOMERULARY FILTRATION AND TUBERCULAR RETRORESORPTION IN THE NORMAL AS WELL AS DENERVED KIDNEY.
Show BibTeX
@article{influence_of_short_wave_irradiation_on_the_glomerulary_filtration_and_tubercular_g6039,
  author = {Makoto Koiwa},
  title = {INFLUENCE OF SHORT WAVE IRRADIATION ON THE GLOMERULARY FILTRATION AND TUBERCULAR RETRORESORPTION IN THE NORMAL AS WELL AS DENERVED KIDNEY},
  year = {1939},
  
  
}

Quick Questions About This Study

The study measured glomerular filtration (how kidneys filter blood to remove waste) and tubular retroresorption (how kidneys reabsorb useful substances back into the bloodstream). These are fundamental kidney processes essential for maintaining proper fluid and chemical balance in the body.
Denervated kidneys have been surgically disconnected from nerve control, allowing researchers to determine whether RF radiation effects on kidney function occur through the nervous system or through direct cellular impact. This comparison helps identify the biological pathway of radiation effects.
This 1939 study demonstrates that researchers were investigating biological effects of radiofrequency radiation on vital organs like kidneys over 80 years ago, decades before modern wireless technology became widespread. Early scientists recognized the need to understand RF bioeffects.
Retroresorption refers to the kidney's process of reabsorbing useful substances (like glucose, amino acids, and water) from filtered blood back into the circulation. This prevents the body from losing essential nutrients and maintains proper fluid balance.
This early research established that radiofrequency radiation could alter fundamental organ functions like kidney filtration. Since modern devices expose us to similar RF frequencies but at much higher cumulative levels, these historical findings raise important questions about long-term health impacts.