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  • A scan operator monitors a patient who is having a CAT (computer-aided tomography) scan of a brain tumor. (1983)
    USA_SCI_MED_13_xs.jpg
  • Medicine: VA (Veteran's Affairs) Hospital in Long Beach, California - Dr. K.G. Lehmann, surgeon, preparing to perform a cardiac catheterization. The catheter, about the same thickness as a fine fishing line, is passed into a vein in the patient's arm. The catheter is then fed through the blood vessels to the heart. The surgeon keeps track of the catheter's position using an x-ray video camera. A tiny pressure measuring device, a micro manometer, is at the end of the catheter, and is used to take blood pressure readings at both sides of a heart valve. This micro sensor device was made using the same technology as is used in the manufacture of silicon 'chips', allowing minute sensors to be built for such invasive diagnostic techniques. MODEL RELEASED (1990)
    USA_SCI_MED_07_xs.jpg
  • Scripps Medical Center: Brain magnetic response. A woman undergoing a brain scan with a neuromagnetometer, to measure normal brain function. The non-invasive scanner is positioned above her head while she views an object. This scan technique is called magneto encephalography (MEG). The neuromagnetometer measures magnetic fields generated from nerve cell activity within the brain. The scanner contains sensitive magnetic field detectors known as SQUIDS (Superconducting Quantum Interference Devices). MEG enables high- speed nerve cell activity to be detected, to show the brain working in rapid "real" time. It assists researchers to understand the normal brain. MODEL RELEASED (1990)
    USA_SCI_MED_10_xs.jpg
  • Faith D'Aluisio with broken leg, Napa Valley, CA
    USA_100619_03_x.jpg
  • Visith Khuenkaew sits outside the family toilet room, waiting for his sister to come out so he can use the toilet. Chiang Mai, Thailand. He and his family live in a wooden 728-square-foot house on stilts, surrounded by rice fields in the Ban Muang Wa village, outside the northern town of Chiang Mai, in Thailand. Material World Project.
    Tha_mw_18_xs.jpg
  • Dr. Chris Giannou of the International Committee of the Red Cross with a patient who is recovering from a landmine blast. In the ICRC hospital in Hargeisa, capital of Somaliland. Somaliland is the breakaway republic in northern Somalia that declared independence in 1991 after 50,000 died in civil war March 1992.
    SOM_44_xs.jpg
  • Dr. Volkmar Falk performs robotic surgery on a patient from controls in the next room at the Herzzentrum Heart Center in Leipzig, Germany. (Visiting doctors watch surgeon Volkmar Falk perform a coronary artery bypass graft on a patient lying in the adjoining room, using a tele-manipulated surgical system (called a robotic system by some) designed by Intuitive Surgical Corporation of Mountainview, California, at the Herzzentrum, Leipzig, Germany. The assistant surgeon has incised small holes into the patient's chest wall through which the instruments-attached to sterile plastic covered manipulating arms-will pass and be telemanipulated by the surgeon in the next room. The room in which the surgeon is working is a less sterile work environment than that of the operating room where the patient lies. It is much like an office; phones are ringing, there is heavy foot traffic and personal conversation-at times at crescendo level.
    Ger_rs_133_xs.jpg
  • Visiting doctors watch surgeon Volkmar Falk perform a coronary artery bypass graft on a patient lying in the adjoining room, using a tele-manipulated surgical system (called a robotic system by some) designed by Intuitive Surgical Corporation of Mountainview, California, at the Herzzentrum, Leipzig, Germany. The assistant surgeon has incised small holes into the patient's chest wall through which the instruments, attached to sterile plastic covered manipulating arms, will pass and be telemanipulated by the surgeon in the next room. The room in which the surgeon is working is a less sterile work environment than that of the operating room where the patient lies.
    Ger_rs_120_xs.jpg
  • Surgeon Anno Diegeler completes a cardiac surgery using traditional methods, after the decision is made to switch from the use of a minimally invasive robotic technique at the Herzzentrum Heart Center, Leipzig, Germany. Visiting doctors watch surgeon Volkmar Falk perform a coronary artery bypass graft on a patient lying in the adjoining room, using a tele-manipulated surgical system (called a robotic system by some) designed by Intuitive Surgical Corporation of Mountainview, California, at the Herzzentrum, Leipzig, Germany.
    Ger_rs_151_xs.jpg
  • A mental hospital built by the British in the 1930's. The hospital is named "Jail Magnoun" which is Arabic for "mad". Once a patient is committed to the hospital there is no chance of release. Some patients, like the one pictured, are caged or chained. Berbera, Somaliland.
    SOM_47_xs.jpg
  • A mental hospital built by the British in the 1930's. The hospital is named "Jail Magnoun" which is Arabic for "mad". Once a patient is committed to the hospital there is no chance of release. Some patients, like the one pictured, are caged or chained. Berbera, Somaliland.
    SOM_46_xs.jpg
  • A mental hospital built by the British in the 1930's. The hospital is named "Jail Magnoun" which is Arabic for "mad". Once a patient is committed to the hospital there is no chance of release. Some patients, like the one pictured, are chained. Berbera, Somaliland.
    SOM_48_xs.jpg
  • Medicine: Dr. Lance Meagaer, a patient with Amyotrophic Lateral Sclerosis (ALS), is linked to the computer by a microchip in his skull. By looking at the screen he can control the computer. Seen at home in Cannon Beach, Oregon (view of his hands and breathing tube). (1988)
    USA_SCI_MED_16_xs.jpg
  • Medicine: Close up of Brain Operation. Doctors insert a plastic tube through a hole drilled in the patient's skull to destroy a brain tumor. The tube and pellets are precisely placed using a metal guide that is secured by screws. (1983)
    USA_SCI_MED_04_xs.jpg
  • Medicine: Brain Operation. Doctors adjust a metal guide that is secured by screws in order to precisely place a radioactive tube through a hole drilled in the patient's skull to destroy a brain tumor. (1983)
    USA_SCI_MED_03_xs.jpg
  • Medicine: Dr. Lance Meagaer, a patient with Amyotrophic Lateral Sclerosis (ALS), is linked to the computer by a microchip in his skull. By looking at the screen he can control the computer. Seen at home in Cannon Beach, Oregon. MODEL RELEASED (1988)
    USA_SCI_MED_01_xs.jpg
  • USA_SCI_CRY_08_xs .Cryonics: Dr Avi Ben-Abraham, of Trans Time Inc., a cryonics company of Oakland, California. Cryonics is a speculative life support technology that seeks to preserve human life in a state that will be viable and treatable by future medicine. Cryonics involves freezing whole human bodies, organs or pet cats & dogs, in liquid nitrogen (tank in background) to await a future thaw. Cryonicists claim that medical science in the future may offer a cure for cancer or the restoration of youth, and that their methods of preservation might offer some people an opportunity to benefit from these advances. Conventional cryobiology methods for freezing organs (for organ transplants, for example) are plagued by problems of intracellular ice crystal formation, which destroys their component cells. Dr. Ben Abraham is reading ?the Prospect of Immortality? and is wearing a bracelet that identifies him as a cryonic patient should he be found dead. MODEL RELEASED 1987.
    USA_SCI_CRY_08_xs.jpg
  • Cryonics: Dr Avi Ben-Abraham, of Trans Time Inc., a cryonics company of Oakland, California. Cryonics is a speculative life support technology that seeks to preserve human life in a state that will be viable and treatable by future medicine. Cryonics involves the freezing of whole human bodies, organs or pet cats & dogs, and their preservation in liquid nitrogen (background) to await a future thaw. Cryonicists claim that medical science in the future may offer a cure for cancer or the restoration of youth, and that their methods of preservation might offer some people an opportunity to benefit from these advances. Conventional cryobiology methods for freezing organs (for organ transplants, for example) are plagued by problems of intracellular ice crystal formation, which destroys their component cells. Dr. Ben Abraham wears a bracelet that identifies him as a cryonic patient should he be found dead. MODEL RELEASED 1987..
    USA_SCI_CRY_07_xs.jpg
  • Cryonics: Dr Avi Ben-Abraham, of Trans Time Inc., a cryonics company of Oakland, California. Cryonics is a speculative life support technology that seeks to preserve human life in a state that will be viable and treatable by future medicine. Cryonics involves the freezing of whole human bodies, organs or pet cats & dogs, and their preservation in liquid nitrogen (background) to await a future thaw. Cryonicists claim that medical science in the future may offer a cure for cancer or the restoration of youth, and that their methods of preservation might offer some people an opportunity to benefit from these advances. Conventional cryobiology methods for freezing organs (for organ transplants, for example) are plagued by problems of intracellular ice crystal formation, which destroys their component cells. Dr. Ben Abraham wears a bracelet that identifies him as a cryonic patient should he be found dead. MODEL RELEASED 1987.
    USA_SCI_CRY_06_xs.jpg
  • Medicine: VA (Veteran's Affairs) Hospital in Long Beach, California - Dr. K.G. Lehmann, surgeon, preparing to perform a cardiac catheterization (diagnostic heart catheterization). The catheter, about the same thickness as a fine fishing line, is passed into a vein in the patient's arm. The catheter is then fed through the blood vessels to the heart. The surgeon keeps track of the catheter's position using an x-ray video camera. A tiny pressure measuring device, micro manometer, is at the end of the catheter, and is used to take blood pressure readings at both sides of a heart valve. This micro sensor device was made using the same technology as is used in the manufacture of silicon 'chips', allowing minute sensors to be built for such invasive diagnostic techniques. MODEL RELEASED (1990).
    USA_SCI_MED_08_xs.jpg
  • Medicine: VA (Veteran's Affairs) Hospital in Long Beach, California - Dr. K.G. Lehmann, surgeon, preparing to perform a cardiac catheterization (diagnostic heart catheterization). The catheter, about the same thickness as a fine fishing line, is passed into a vein in the patient's arm. The catheter is then fed through the blood vessels to the heart. The surgeon keeps track of the catheter's position using an x-ray video camera. A tiny pressure measuring device, a micro manometer, is at the end of the catheter, and is used to take blood pressure readings at both sides of a heart valve. This micro sensor device was made using the same technology as is used in the manufacture of silicon 'chips', allowing minute sensors to be built for such invasive diagnostic techniques. MODEL RELEASED (1990)
    USA_SCI_MED_06_xs.jpg
  • Medicine: VA (Veteran's Affairs) Hospital in Long Beach, California - Dr. K.G. Lehmann, surgeon, preparing to perform a cardiac catheterization. The catheter, about the same thickness as a fine fishing line, is passed into a vein in the patient's arm. The catheter is then fed through the blood vessels to the heart. The surgeon keeps track of the catheter's position using an x-ray video camera. A tiny pressure measuring device, a micro manometer, is at the end of the catheter, and is used to take blood pressure readings at both sides of a heart valve. This micro sensor device was made using the same technology as is used in the manufacture of silicon 'chips', allowing minute sensors to be built for such invasive diagnostic techniques. MODEL RELEASED (1990)
    USA_SCI_MED_05_xs.jpg
  • Medicine: Dr. Lance Meagaer, a patient with Amyotrophic Lateral Sclerosis (ALS), is linked to the computer by a microchip in his skull. By looking at the screen he can control the computer. Seen at home in Cannon Beach, Oregon. MODEL RELEASED (1988)
    USA_SCI_MED_02_xs.jpg
  • Robot surgery. Surgeon (lower left) performing minimally invasive surgery (MIS) on a patient's heart using da Vinci, a remotely-controlled robot surgeon (centre right). The surgeon views a three- dimensional image of the operation site in the black box at left. The robot arms are controlled using instruments under the box. An endoscopic view of the area from the robot is seen at upper right. Another surgeon is examining chest X-rays at upper left. The da Vinci system allows precise control of surgical tools through an incision just 1cm wide, with greater control than manual MIS procedures. Da Vinci was designed by Intuitive Surgical Incorporated, based in California, USA.
    Usa_rs_716_120_xs.jpg
  • Whizzing around a hospital floor in Danbury, CT., HelpMate delivers patients' meal trays to hospital nurses. Now in healthcare facilities across the United States and in several other countries, the battery-operated, $100,000 HelpMate can transport food, drugs, and hospital wastes and even perform simple patient-care functions, such as guiding patients through hospital corridors. From the book Robo sapiens: Evolution of a New Species, page 186.
    USA_rs_451_qxxs.jpg
  • Pencil-sized robotic surgical instruments allow heart surgeons to perform operations through a centimeter-long hole in the patient's chest. Doctors insert robotic instruments through minute "ports" in the body. Instead of hovering over the operating table, surgeons sit at a console a few feet away, controlling the robo-scalpels with a pair of joysticklike grippers. Each tool has a patented EndoWrist mechanism that allows it to move with the dexterity and precision of the human hand. The whole ensemble was developed by the Stanford Research Institute in Menlo Park, CA, a nonprofit R&D center created by Stanford University. The system was commercialized by Intuitive Surgical of Mountain View, Calif.From the book Robo sapiens: Evolution of a New Species, page 174.
    USA_rs_383_qxxs.jpg
  • (MODEL RELEASED IMAGE). Preparing to host visitors in their home in Bhutan, Sangay pours a pot of tea into a thermos. Her half-sister Bangam holds the sieve. Meanwhile, Namgay, the family patriarch, waits patiently for a cup. Hungry Planet: What the World Eats (p. 276). The Namgay family living in the remote mountain village of Shingkhey, Bhutan, is one of the thirty families featured, with a weeks' worth of food, in the book Hungry Planet: What the World Eats.
    BHU01_0010_xxf1s.jpg
  • Operating room staff watch video monitors as surgeon Volkmar Falk performs a coronary artery bypass graft using Intuitive Surgical's tele-manipulated surgical manipulator system. Herzzentrum, Leipzig, Germany. Falk can hear his assistant surgeon in the operating room via a room speaker overhead. He speaks to him over the microphone taped to his surgical garb, which is in turn piped into the operating room. While Falk is sitting at the console, he is not sterile and therefore isn't in a surgical gown as are the assistants who are with the patients. Stefan Jakobs, the assistant surgeon, watches the monitor to follow Falk's progress in the operation.
    Ger_rs_126_xs.jpg
  • A traditional medicine doctor surrounded by his patients in the Fu Lin Tang Pharmacy. The doctor, and all those in the line, listen to a series of health ailments, after which the doctor then prescribes a specific prescriptions of herbs and insects, among other natural ingredients. Kunming, China. (Man Eating Bugs page 105 Top)
    CHI_meb_65_cxxs.jpg
  • Standing beneath hanging sheep carcasses, five sheep wait patiently; soon it will be their turn at the slaughterhouse, which is attached to the Zumbagua market in Ecuador. At the live-animal market a quarter mile away, shoppers can pick out the animals they want, then have them killed, skinned, and cleaned. The entire process, including the time it takes to walk the sheep from the market to the slaughterhouse, takes less than an hour. Hungry Planet: What the World Eats (p. 113).
    ECU04_0007_xxf1rw.jpg
  • A traditional medicine doctor surrounded by his patients in the Fu Lin Tang Pharmacy in Kunming, China. The doctors, and all those in the line, listen to a series of health ailments, after which the doctor prescribes specific prescriptions of herbs and insects. From the project, Man Eating Bugs: The Art and Science of Eating Bugs.
    Chi_meb_315_xs.jpg
  • Standing beneath hanging sheep carcasses, five sheep wait patiently; soon it will be their turn at the slaughterhouse, which is attached to the Zumbagua market in Ecuador. At the live-animal market a quarter mile away, shoppers can pick out the animals they want, then have them killed, skinned, and cleaned. The entire process, including the time it takes to walk the sheep from the market to the slaughterhouse, takes less than an hour. Hungry Planet: What the World Eats (p. 113).
    ECU04_0007_xxf1rw.jpg
  • (MODEL RELEASED IMAGE). In the morning, Susanne Melander leaves early for her nursing job as Kjell sits patiently with his hot chocolate, waiting for his father to join him at the dining-room table for a breakfast of fresh rolls, meat, and cheese. Hungry Planet: What the World Eats (p. 139).
    GER04_0007_xxf1rw.jpg
  • Sitting near the food distribution center at the Breidjing Refugee Camp right after sunrise, a Sudanese refugee woman patiently sifts through the sand to pluck out any bits of grain that might have dropped to the ground during the previous day's ration disbursement. The bowl on the ground is a standard-size, two-quart coro used to measure grain. Hungry Planet: What the World Eats (p. 61). /// This image is featured alongside the Aboubakar family images in Hungry Planet: What the World Eats. (Please refer to Hungry Planet book p. 56-57 for a family portrait.)
    CHA104_0005_xxf1rw.jpg

Peter Menzel Photography

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