An intermittent beep marks the rhythm in the operating room. There is no music and no one is speaking. Only a high-pitched tone of the vital signs monitor breaks the silence. It’s 9.30am. On the operating table, a woman is already under anesthesia. Around her, a dozen doctors move in an orderly chaos – the operation has begun. The technical term for it is nephrectomy, but colloquially it is known as a kidney transplant. The woman is the donor, and the recipient is her son.
A surgeon must have the heart of a lion, the eyes of an eagle and the hands of a woman
Head surgeon Antonio Alcaraz
“I have no doubt that everything will go well. We are that pedantic,” says Antonio Alcaraz, head of the urology department at the Hospital Clínic de Barcelona and the surgeon in charge of the operation. The hospital is Spain’s leader in live donor kidney transplants (in 2018, it did 40 of the total 293) and Alcaraz is the surgeon with the most operations under his belt: 1,400 as head surgeon and 400 as part of a surgical team.
In the operating room, Doctor Lluís Peri begins. He has made three small incisions on the patient’s side so that he can insert a laparoscopy, a medical instrument that is operated from the outside and works within the body like the hands of a surgeon. The hospital has been using this less-invasive technique since 2002 to reduce the risk of infection. “Surgeons do not like blood,” laughs Alcaraz. With an electric scissor, which cuts and cauterizes at the same time, Peri makes his way toward the kidney.
Alcaraz’s operating room is not like one you see in the movies. There isn’t music, or personal spats or arguments between doctors. “The operating room is not a democracy. You do what the surgeon in charge says,” explains Alcaraz. However, there are times to relax and chat. “Viva España,” says Alcaraz. “Visca Catalunya,” responds Peri jokingly, by cheering for Catalonia. In complicated situations, the room becomes tense, the team is silent and holds its breath. “A surgeon must have the heart of a lion, the eyes of an eagle and the hands of a woman. You have to be mentally strong, skillful and show that your brain knows how to control your nerves,” says Alcaraz.
Alcaraz takes the laparoscopic joysticks (two of the arms form the tweezers and scissors and the third is a camera that reproduces the image in three dimensions on the monitors), puts on his 3D glasses and starts moving through the cavity. “Look at the aorta.” A large gelatinous tube appears on the monitor. The surgeon separates the renal vessels and the ureter to see better. “This already looks more like what you see in the books,” he says.
Now comes the difficult part: the vessels that connect the kidney to the bloodstream have to be cut. Alcazar cuts the veins and and renal arteries and starts the timer. Once it is cut from the bloodstream, it must be placed on ice in preservation fluid as soon as possible. Peri makes an incision at the patient’s navel and Alcaraz puts his hand through it to reach the kidney. On the screen, a white glove gently grasps the organ. He extracts it, places it on an ice tray and asks: “Time?” “2.57,” someone answers. “We have taken three minutes. Before it was pinker and now it is grayish.”
While Peri closes and sews, Alcaraz removes the fat from the kidney, seals its capillaries and cleans up the entrance to the artery and vein. He then places the kidney on an ice tray. The anesthesia wears off and the donor wakes up. On the way out, she crosses paths with her son, who is waiting in an adjoining room.
At midday, the surgeons begin prepping for the second operation. The patient is already asleep. Over the stretcher, the robot called Da Vinci, which has four arms like those of a spider, says: “Da Vinci is ready.” Robotic transplants have been performed at the hospital since 2015. It is a very clean and simple technique: small incisions are made in a patient's side to allow the robot’s arms to enter, and a small cut so the organ can be placed inside.
The kidney, in its ice tray, is inserted into the patient’s stomach. Alcaraz controls the robot’s movements on a monitor a few meters away from the patient. He isolates the iliac vein from the circulation and makes a tiny cut in the vessel in order to sew it to the renal vein. Heparin (an anticoagulant) is injected into the hole to prevent clots. Alcaraz then begins to stitch up the veins and arteries. He then removes the mesh that isolated them from circulation, and blood begins to flow again. The ureter, which is still loose, beings to urinate. This is a good sign and means that the kidney is working. Alcaraz takes off his gloves and leaves.
English version by Asia London Palomba.