Herman P. Schwan, Edwin L. Carstensen · 1952
This 1952 research by H.P. Schwan examined how to measure electrical and acoustic properties of human tissues during diathermy (medical heating with radio frequency energy). The study developed techniques to understand how RF energy penetrates and heats biological tissues, particularly blood. This foundational work helped establish scientific methods for studying electromagnetic field interactions with the human body.
B. ALAJMO · 1951
This 1951 Italian ophthalmology study examined the effects of microwave radiation on human eyes. Published in the Italian Journal of Ophthalmology, it represents early medical research into how electromagnetic fields might affect vision and eye health. The study's timing makes it one of the earliest investigations into microwave effects on human biology.
John E. Boysen · 1951
This 1951 research by John Boysen examined how electromagnetic radiation affects living tissue, building on D'Arsonval's 1880 discovery that frequencies above 5,000 cycles per second produce heat rather than muscle contractions. The study focused on radio frequencies between 1-300 megacycles and documented both heating and pathological effects in animals. This early work established fundamental principles about how electromagnetic fields interact with biological systems.
Cook, H.F. · 1951
This 1951 study measured how human tissues interact with microwave radiation at frequencies used in early radar and communications (6-17 cm wavelengths). Researchers found that tissue electrical properties could be predicted using established physics equations when accounting for the body's natural ionic conductivity. The work provided foundational data on how microwaves penetrate and interact with human biological systems.
H. F. Cook · 1951
In 1951, researchers exposed human subjects to microwave radiation at 10 and 9.4 cm wavelengths and measured the temperature increases in skin and deeper tissues. The study found that microwave exposure caused measurable heating in human tissues, with blood flow changes affecting how heat spread through the body. This groundbreaking research established early evidence that microwave radiation produces biological effects in humans through tissue heating.
H. F. Cook · 1951
In 1951, researcher H.F. Cook measured how four types of human tissues respond to microwave radiation at frequencies corresponding to wavelengths of 6-17 centimeters. The study found that human tissues have specific electrical properties when exposed to microwaves, with behavior influenced by water content and salt concentrations in cells. This was groundbreaking early research establishing how electromagnetic fields interact with living human tissue.
A. W. Richardson, T. D. Duane, H. M. Hines · 1951
This 1951 study investigated whether 3-centimeter pulsed microwave radiation could cause cataracts in rabbits through controlled laboratory exposure. The research examined eye damage from electromagnetic radiation, representing early scientific investigation into microwave effects on living tissue. This work helped establish that microwave radiation can indeed cause cataracts, contributing to our understanding of EMF biological effects.
O. Cimitan · 1951
This 1951 research investigated how shortwave radiation affects bacteria, examining the bactericidal (bacteria-killing) properties of radio frequency electromagnetic fields. The study represents early scientific exploration into how RF energy interacts with living microorganisms, contributing to our understanding of EMF biological effects.
Maurizio Terni, Pietro Lombardini · 1951
This 1951 Italian study by Dr. Terni investigated how microwave radiation affects bacteria, including E. coli. As one of the earliest scientific examinations of microwave effects on living organisms, it established foundational research into how electromagnetic fields interact with biological systems. The research helped lay groundwork for understanding potential biological impacts of microwave technology.
H. F. Cook · 1951
This 1951 study by H.F. Cook examined how different types of human tissues respond to microwave frequencies by measuring their dielectric properties. The research established fundamental data about how microwaves interact with biological tissues, laying groundwork for understanding electromagnetic field absorption in the human body.
Albert DE LOZ · 1951
This 1951 French study examined how high-frequency electromagnetic waves, including microwaves and short waves, influenced cholesterol levels in humans. The research explored potential therapeutic applications of electromagnetic fields for treating high cholesterol, representing early investigation into EMF effects on metabolic processes.
G. H. Haggis, T. J. Buchanan, J. B. Hasted · 1951
This 1951 study by Haggis, Buchanan, and Hasted used microwave frequency measurements to estimate how much water surrounds proteins like albumin and tea-oxidase. The researchers developed techniques to measure the dielectric properties of proteins, which reveals how electromagnetic fields interact with biological molecules. This early work helped establish the scientific foundation for understanding how microwaves affect living tissue.
George Smith · 1950
This 1950 study by George Smith examined how diathermy currents (radiofrequency energy used for medical heating) interact with metal implants placed in the body wall. The research focused on understanding potential heating effects and safety concerns when RF energy encounters metallic medical devices. This represents early recognition that electromagnetic fields can create unique risks for people with implanted metals.
Bruce B. Grynbaum, Raymond S. Megibow, William Bierman · 1950
Researchers in 1950 used a specialized blood flow measuring device to study how short wave diathermy (a form of radiofrequency heating used in physical therapy) affects circulation in human fingers. They tested 10 healthy people to settle debates about whether this RF heating treatment actually improves blood flow in extremities.
A. C. BOYLE, H. R. COOK, T. J. BUCHANAN · 1950
This 1950 British investigation by A.C. Boyle represents one of the earliest scientific examinations of microwave radiation's biological effects on humans. Published just five years after World War II, when radar technology introduced widespread microwave exposure, this preliminary research helped establish the foundation for understanding how these electromagnetic fields interact with human biology.
England TS · 1950
This 1950 study by England examined how the human body interacts with microwave radiation in the 1-10 centimeter wavelength range, measuring the body's dielectric properties. The research established foundational data on how electromagnetic fields at these frequencies behave when they encounter human tissue. This work provided early scientific understanding of microwave absorption and penetration in biological systems.
Grynbaum BB, Megibow RS, Bierman W · 1950
Researchers in 1950 used a sensitive microplethysmograph device to measure blood circulation in fingers of 10 healthy people during short wave diathermy (radiofrequency heating) treatments. This early study aimed to settle debates about whether RF heating affects blood flow in extremities. The research represents one of the first attempts to precisely measure how radiofrequency energy impacts human circulation.
Gersten JW, Wakim KG, Krusen FH · 1950
This 1950 study examined how to make microwave heating of human tissue more efficient by reducing the high reflection that occurs at skin surfaces. Researchers tested a dielectric material called mycalex as an impedance matching device to improve energy transfer from air to tissue. The work aimed to enable more targeted heating of specific tissue areas for medical applications.
Giorgio Piccardi · 1950
This 1950 research by Piccardi compiled scientific literature on water structure and electrochemical phenomena, establishing early documentation of how electromagnetic fields might interact with biological systems. The work created a foundational bibliography connecting water's molecular behavior to electrical effects. This represents some of the earliest scientific recognition that electromagnetic phenomena could influence biological processes through water-based mechanisms.
David G. Cogan, M.D. · 1950
This 1950 research by Dr. Cogan examined how different types of radiant energy cause damage to human eyes. The study investigated lesions caused by ultraviolet, infrared, and visible light radiation. This early work helped establish our understanding of how electromagnetic radiation can harm eye tissue.
John W. Clark · 1950
This 1950 study exposed animals to intense microwave radiation and found definite damage to eyes and testicles. Researchers determined that 10-centimeter wavelengths (3 GHz frequency) were most dangerous, with effects caused by elevated temperatures from microwave absorption in tissues.
J. W. Clark · 1950
This 1950 study exposed laboratory animals to intense 10-centimeter microwave radiation at various power levels and distances. Researchers found that this specific wavelength caused eye damage, lens clouding, behavioral changes, increased body temperature, and death in test animals. The effects were attributed to thermal heating from radiation absorption.
MILTON L. BERLINER, M.D. · 1950
This 1950 medical review examined the anatomy, physiology, and pathology of the cornea and sclera, the eye's outer protective layers. The study covered these tissues' development, structure, and response to various treatments including surgical procedures like corneal transplants. While predating EMF research, this foundational work on eye anatomy remains relevant for understanding how electromagnetic fields might affect vision.
Herbert Jonas · 1950
This 1950 thesis examined how very high radio frequency radiation affected the germination and metabolism of small seeds. The research investigated whether RF exposure could alter fundamental biological processes in plants during their most vulnerable developmental stage. This represents some of the earliest scientific investigation into how electromagnetic fields might impact living organisms.
George Smith · 1950
This 1950 study examined how diathermy currents (medical electromagnetic heating devices) affected metal implants in the body wall. The research focused on electromagnetic induction and heating effects when RF energy interacted with metallic medical devices. This early work helped establish safety protocols for patients with implants undergoing electromagnetic medical treatments.
