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Friday, June 21, 2019

Robot-assisted surgery

From Wikipedia, the free encyclopedia

Robot-assisted surgery
Laproscopic Surgery Robot.jpg
A robotically assisted surgical system used for prostatectomies, cardiac valve repair and gynecologic surgical procedures
Other namesRobotically-assisted surgery

Robotic surgery are types of surgical procedures that are done using robotic systems. Robotically-assisted surgery was developed to try to overcome the limitations of pre-existing minimally-invasive surgical procedures and to enhance the capabilities of surgeons performing open surgery.

In the case of robotically-assisted minimally-invasive surgery, instead of directly moving the instruments, the surgeon uses one of two methods to administer the instruments. These include using a direct telemanipulator or through computer control. A telemanipulator is a remote manipulator that allows the surgeon to perform the normal movements associated with the surgery. The robotic arms carry out those movements using end-effectors and manipulators to perform the actual surgery on the patient. In computer-controlled systems, the surgeon uses a computer to control the robotic arms and its end-effectors, though these systems can also still use telemanipulators for their input. One advantage of using the computerized method is that the surgeon does not have to be present, but can be anywhere in the world, leading to the possibility for remote surgery.

Laparoscopic procedures are considered a form of minimally-invasive surgery. Several small incisions, called keyhole incisions, are made. These types of surgeries are associated with shorter hospital stays than open surgery, as well as less postoperative pain and scarring and lower risks of infection and need for blood transfusion.

In the case of enhanced open surgery, autonomous instruments (in familiar configurations) replace traditional steel tools, performing certain actions (such as rib spreading) with much smoother, feedback-controlled motions that could be achieved by a human hand. The main object of such smart instruments is to reduce or eliminate the tissue trauma traditionally associated with open surgery without requiring more than a few minutes' training on the part of surgeons. This approach seeks to improve open surgeries, particularly cardio-thoracic, that have so far not benefited from minimally-invasive techniques.

Robotic surgery has been criticized for its expense, with the average costs in 2007 ranging from $5,607 to $45,914 per patient. This technique has not been approved for cancer surgery as of 2019 with concerns that it may worsen rather than improve outcomes.

Comparison to traditional methods

Major advances aided by surgical robots have been remote surgery, minimally invasive surgery and unmanned surgery. Due to robotic use, the surgery is done with precision, miniaturization, smaller incisions; decreased blood loss, less pain, and quicker healing time. Articulation beyond normal manipulation and three-dimensional magnification help to result in improved ergonomics. Due to these techniques, there is a reduced duration of hospital stays, blood loss, transfusions, and use of pain medication. The existing open surgery technique has many flaws like limited access to the surgical area, long recovery time, long hours of operation, blood loss, surgical scars, and marks.

The robot's costs range from $1 million to $2.5 million for each unit, and while its disposable supply cost is normally $1,500 per procedure, the cost of the procedure is higher. Additional surgical training is needed to operate the system. Numerous feasibility studies have been done to determine whether the purchase of such systems are worthwhile. As it stands, opinions differ dramatically. Surgeons report that, although the manufacturers of such systems provide training on this new technology, the learning phase is intensive and surgeons must perform 150 to 250 procedures to become adept in their use. During the training phase, minimally invasive operations can take up to twice as long as traditional surgery, leading to operating room tie-ups and surgical staffs keeping patients under anesthesia for longer periods. Patient surveys indicate they chose the procedure based on expectations of decreased morbidity, improved outcomes, reduced blood loss and less pain. Higher expectations may explain higher rates of dissatisfaction and regret.

Compared with other minimally invasive surgery approaches, robot-assisted surgery gives the surgeon better control over the surgical instruments and a better view of the surgical site. In addition, surgeons no longer have to stand throughout the surgery and do not get tired as quickly. Naturally occurring hand tremors are filtered out by the robot's computer software. Finally, the surgical robot can continuously be used by rotating surgery teams. Laparoscopic camera positioning is also significantly steadier with less inadvertent movements under robotic controls than compared to human assistance.

There are some issues in regards to current robotic surgery usage in clinical applications. There is a lack of haptics in some robotic systems currently in clinical use, which means there is no force feedback, or touch feedback. Surgeons are thus not able to feel the interaction of the instrument with the patient. Some systems already have this haptic feedback in order to improve the interaction between the surgeon and the tissue.

The robots can also be very large, have instrumentation limitations, and there may be issues with multi-quadrant surgery as current devices are solely used for single-quadrant application.

Critics of the system, including the American Congress of Obstetricians and Gynecologists, say there is a steep learning curve for surgeons who adopt the use of the system and that there's a lack of studies that indicate long-term results are superior to results following traditional laparoscopic surgery. Articles in the newly created Journal of Robotic Surgery tend to report on one surgeon's experience.

A Medicare study found that some procedures that have traditionally been performed with large incisions can be converted to "minimally invasive" endoscopic procedures with the use of the Da Vinci Surgical System, shortening length-of-stay in the hospital and reducing recovery times. But because of the hefty cost of the robotic system, it is not clear that it is cost-effective for hospitals and physicians despite any benefits to patients since there is no additional reimbursement paid by the government or insurance companies when the system is used.

Complications related to robotic surgeries range from converting the surgery to open, re-operation, permanent injury, damage to viscera and nerve damage. From 2000 to 2011, out of 75 hysterectomies done with robotic surgery, 34 had permanent injury, and 49 had damage to the viscera. Prostatectomies were more prone to permanent injury, nerve damage and visceral damage as well. Very minimal surgeries in a variety of specialties had to actually be converted to open or be re-operated on, but most did suffer some kind of damage and/or injury. For example, out of seven coronary artery bypass grafting, one patient had to go under re-operation. It is important that complications are captured, reported and evaluated to ensure the medical community is better educated on the safety of this new technology.

There are also current methods of robotic surgery being marketed and advertised online. Removal of a cancerous prostate has been a popular treatment through internet marketing. Internet marketing of medical devices are more loosely regulated than pharmaceutical promotions. Many sites that claim the benefits of this type of procedure had failed to mention risks and also provided unsupported evidence. There is an issue with government and medical societies promotion a production of balanced educational material. In the US alone, many websites promotion robotic surgery fail to mention any risks associated with these types of procedures, and hospitals providing materials largely ignore risks, overestimate benefits and are strongly influenced by the manufacturer.

Uses

Heart

As of 2004, three types of heart surgery are being performed on a routine basis using robotic surgery systems. These three surgery types were:
  • Atrial septal defect repair – the repair of a hole between the two upper chambers of the heart,
  • Mitral valve repair – the repair of the valve that prevents blood from regurgitating back into the upper heart chambers during contractions of the heart,
  • Coronary artery bypass – rerouting of blood supply by bypassing blocked arteries that provide blood to the heart.
There is also a system for robotic heart surgery that learns to tie knots using recurrent neural networks. The EndoPAR system is an experimental robotic surgical platform developed at the University of Munich. Four robotic arms have force-feedback instruments where the fourth one holds a 3-D endoscopic stereo camera. This robot is controlled by a PHANToM Premium 1.5 device that allows for the surgeon to finely control knot tying with stabilization filters and displaying forces in all translational directions.

Thoracic

Thoracic surgery has become more widespread in thoracic surgery for mediastinal pathologies, pulmonary pathologies and more recently complex esophageal surgery.

Gastrointestinal

Multiple types of procedures have been performed with either the 'Zeus' or da Vinci robot systems, including bariatric surgery and gastrectomy for cancer. Surgeons at various universities initially published case series demonstrating different techniques and the feasibility of GI surgery using the robotic devices. Specific procedures have been more fully evaluated, specifically esophageal fundoplication for the treatment of gastroesophageal reflux and Heller myotomy for the treatment of achalasia.

Robot-assisted pancreatectomies have been found to be associated with "longer operating time, lower estimated blood loss, a higher spleen-preservation rate, and shorter hospital stay[s]" than laparoscopic pancreatectomies; there was "no significant difference in transfusion, conversion to open surgery, overall complications, severe complications, pancreatic fistula, severe pancreatic fistula, ICU stay, total cost, and 30-day mortality between the two groups."

Gynecology

Robotic surgery in gynecology is of uncertain benefit with it being unclear if it affects rates of complications. Gynecologic procedures may take longer with robot-assisted surgery but may be associated with a shorter hospital stay following hysterectomy. In the United States, robotic-assisted hysterectomy for benign conditions has been shown to be more expensive than conventional laparoscopic hysterectomy, with no difference in overall rates of complications.

This includes the use of the da Vinci surgical system in benign gynecology and gynecologic oncology. Robotic surgery can be used to treat fibroids, abnormal periods, endometriosis, ovarian tumors, uterine prolapse, and female cancers. Using the robotic system, gynecologists can perform hysterectomies, myomectomies, and lymph node biopsies.

A 2017 review of surgical removal of the uterus and cervix for early cervical cancer robotic and laparoscopic surgery resulted in similar outcomes with respect to the cancer.

Bone

Robots are used in orthopedic surgery.

Spine

Robotic devices started to be used in minimally invasive spine surgery starting in the mid-2000s. As of 2014, there were too few randomized clinical trials to allow judgement as to whether robotic spine surgery is more or less safe than other approaches.

Transplant surgery

Transplant surgery (organ transplantation) has been considered as highly technically demanding and virtually unobtainable by means of conventional laparoscopy. For many years, transplant patients were unable to benefit from the advantages of minimally invasive surgery. The development of robotic technology and its associated high-resolution capabilities, three-dimensional visual system, wrist type motion, and fine instruments, gave an opportunity for highly complex procedures to be completed in a minimally invasive fashion. Subsequently, the first fully robotic kidney transplantations were performed in the late 2000s. After the procedure was proven to be feasible and safe, the main emerging challenge was to determine which patients would benefit most from this robotic technique. As a result, recognition of the increasing prevalence of obesity amongst patients with kidney failure on hemodialysis posed a significant problem. Due to the abundantly higher risk of complications after traditional open kidney transplantation, obese patients were frequently denied access to transplantation, which is the premium treatment for end-stage kidney disease.

General surgery

General surgeons focus on any abdominal contents. With regards to robotic surgery, this type of procedure is currently best suited for single-quadrant procedures, in which the operations can be performed on any one of the four quadrants of the abdomen.

Cost disadvantages are applied with procedures such as a cholecystectomy and fundoplication, but are suitable opportunities for surgeons to advance their robotic surgery skills.

Urology

Robotic surgery in the field of urology has become very popular, especially in the United States. It has been most extensively applied for excision of prostate cancer because of difficult anatomical access. It is also utilized for kidney cancer surgeries and to lesser-extent surgeries of the bladder

As of 2014, there is little evidence of increased benefits compared to standard surgery to justify the increased costs. Some have found tentative evidence of more complete removal of cancer and fewer side effects from surgery for prostatectomy.

In 2000, the first robot-assisted laparoscopic radical prostatectomy was performed.

History

The first robot to assist in surgery was the Arthrobot, which was developed and used for the first time in Vancouver in 1985. This robot assisted in being able to manipulate and position the patient’s leg on voice command. Intimately involved were biomedical engineer Dr. James McEwen, Geof Auchinleck, a UBC engineering physics grad, and Dr. Brian Day as well as a team of engineering students. The robot was used in an orthopaedic surgical procedure on 12 March 1984, at the UBC Hospital in Vancouver. Over 60 arthroscopic surgical procedures were performed in the first 12 months, and a 1985 National Geographic video on industrial robots, The Robotics Revolution, featured the device. Other related robotic devices developed at the same time included a surgical scrub nurse robot, which handed operative instruments on voice command, and a medical laboratory robotic arm. A YouTube video entitled Arthrobot- the world's first surgical robot illustrates some of these in operation.

In 1985 a robot, the Unimation Puma 200, was used to orient a needle for a brain biopsy while under CT guidance during a neurological procedure. In the late 1980s, Imperial College in London developed PROBOT, which was then used to perform prostatic surgery. The advantages to this robot was its small size, accuracy and lack of fatigue for the surgeon. In 1992, the ROBODOC was introduced and revolutionized orthopedic surgery by being able to assist with hip replacement surgeries. The latter was the first surgical robot that was approved by the FDA in 2008. The ROBODOC from Integrated Surgical Systems (working closely with IBM) could mill out precise fittings in the femur for hip replacement. The purpose of the ROBODOC was to replace the previous method of carving out a femur for an implant, the use of a mallet and broach/rasp. 

Further development of robotic systems was carried out by SRI International and Intuitive Surgical with the introduction of the da Vinci Surgical System and Computer Motion with the AESOP and the ZEUS robotic surgical system. The first robotic surgery took place at The Ohio State University Medical Center in Columbus, Ohio under the direction of Robert E. Michler.

AESOP was a breakthrough in robotic surgery when introduced in 1994, as it was the first laparoscopic camera holder to be approved by the FDA. NASA initially funded the company, Computer Motion, that had produced AESOP, for its goal to create a robotic arm that can be used in space, but ended up becoming a camera used in laparascopic procedures. Voice control was then added in 1996 with the AESOP 2000 and seven degrees of freedom to mimic a human hand was added in 1998 with the AESOP 3000.

ZEUS was introduced commercially in 1998, and was started the idea of telerobotics or telepresence surgery where the surgeon is at a distance from the robot on a console and operates on the patient. Examples of using ZEUS include a fallopian tube reconnection in July 1998, a beating heart coronary artery bypass graft in October 1999, and the Lindbergh Operation, which was a cholecystectomy performed remotely in September 2001. In 2003, ZEUS made its most prominent mark in cardiac surgery after successfully harvesting the left internal mammary arteries in 19 patients, all of which had very successful clinical outcomes.

The original telesurgery robotic system that the da Vinci was based on was developed at Stanford Research Institude International in Menlo Park with grant support from DARPA and NASA. Ademonstration of an open bowel anastomosis was given to the Association of Military Surgeons of the US. Although the telesurgical robot was originally intended to facilitate remotely performed surgery in the battlefield and other remote environments, it turned out to be more useful for minimally invasive on-site surgery. The patents for the early prototype were sold to Intuitive Surgical in Mountain View, California. The da Vinci senses the surgeon's hand movements and translates them electronically into scaled-down micro-movements to manipulate the tiny proprietary instruments. It also detects and filters out any tremors in the surgeon's hand movements, so that they are not duplicated robotically. The camera used in the system provides a true stereoscopic picture transmitted to a surgeon's console. Compared to the ZEUS, the da Vinci robot is attached to trocars to the surgical table, and can imitate the human wrist. In 2000, the da Vinci obtained FDA approval for general laparscopic procedures and became the first operative surgical robot in the US. Examples of using the da Vinci system include the first robotically assisted heart bypass (performed in Germany) in May 1998, and the first performed in the United States in September 1999; and the first all-robotic-assisted kidney transplant, performed in January 2009. The da Vinci Si was released in April 2009 and initially sold for $1.75 million.

In 2005, a surgical technique was documented in canine and cadaveric models called the transoral robotic surgery (TORS) for the da Vinci robot surgical system as it was the only FDA-approved robot to perform head and neck surgery. In 2006, three patients underwent resection of the tongue using this technique. The results were more clear visualization of the cranial nerves, lingual nerves, and lingual artery, and the patients had a faster recovery to normal swallowing. In May 2006 the first artificial intelligence doctor-conducted unassisted robotic surgery was on a 34-year-old male to correct heart arrythmia. The results were rated as better than an above-average human surgeon. The machine had a database of 10,000 similar operations, and so, in the words of its designers, was "more than qualified to operate on any patient". In August 2007, Dr. Sijo Parekattil of the Robotics Institute and Center for Urology (Winter Haven Hospital and University of Florida) performed the first robotic-assisted microsurgery procedure denervation of the spermatic cord for chronic testicular pain. In February 2008, Dr. Mohan S. Gundeti of the University of Chicago Comer Children's Hospital performed the first robotic pediatric neurogenic bladder reconstruction.

On 12 May 2008, the first image-guided MR-compatible robotic neurosurgical procedure was performed at University of Calgary by Dr. Garnette Sutherland using the NeuroArm. In June 2008, the German Aerospace Centre (DLR) presented a robotic system for minimally invasive surgery, the MiroSurge. In September 2010, the Eindhoven University of Technology announced the development of the Sofie surgical system, the first surgical robot to employ force feedback. In September 2010, the first robotic operation at the femoral vasculature was performed at the University Medical Centre Ljubljana by a team led by Borut Geršak.

Caesarean section

From Wikipedia, the free encyclopedia

Caesarean section
Cesarian the moment of birth3.jpg
A team performing a caesarean section
Other namesC-section, cesarean section, caesarean delivery
ICD-10-PCS10D00Z0
ICD-9-CM74
MeSHD002585
MedlinePlus002911

Caesarean section, also known as C-section, or caesarean delivery, is the use of surgery to deliver babies. A caesarean section is often necessary when a vaginal delivery would put the baby or mother at risk. This may include obstructed labor, twin pregnancy, high blood pressure in the mother, breech birth, or problems with the placenta or umbilical cord. A caesarean delivery may be performed based upon the shape of the mother's pelvis or history of a previous C-section. A trial of vaginal birth after C-section may be possible. The World Health Organization recommends that caesarean section be performed only when medically necessary. Some C-sections are performed without a medical reason, upon request by someone, usually the mother.

A C-section typically takes 45 minutes to an hour. It may be done with a spinal block, where the woman is awake or under general anesthesia. A urinary catheter is used to drain the bladder, and the skin of the abdomen is then cleaned with an antiseptic. An incision of about 15 cm (6 inches) is then typically made through the mother's lower abdomen. The uterus is then opened with a second incision and the baby delivered. The incisions are then stitched closed. A woman can typically begin breastfeeding as soon as she is out of the operating room and awake. Often, several days are required in the hospital to recover sufficiently to return home.

C-sections result in a small overall increase in poor outcomes in low-risk pregnancies. They also typically take longer to heal from, about six weeks, than vaginal birth. The increased risks include breathing problems in the baby and amniotic fluid embolism and postpartum bleeding in the mother. Established guidelines recommend that caesarean sections not be used before 39 weeks of pregnancy without a medical reason. The method of delivery does not appear to have an effect on subsequent sexual function.

In 2012, about 23 million C-sections were done globally. The international healthcare community has previously considered the rate of 10% and 15% to be ideal for caesarean sections. Some evidence finds a higher rate of 19% may result in better outcomes. More than 45 countries globally have C-section rates less than 7.5%, while more than 50 have rates greater than 27%. Efforts are being made to both improve access to and reduce the use of C-section. In the United States as of 2017, about 32% of deliveries are by C-section. The surgery has been performed at least as far back as 715 BC following the death of the mother, with the baby occasionally surviving. Descriptions of mothers surviving date back to 1500. With the introduction of antiseptics and anesthetics in the 19th century, survival of both the mother and baby became common.

Uses

A 7-week old caesarean section scar and linea nigra visible on a 31-year-old mother: Longitudinal incisions are still sometimes used.
 
Caesarean section is recommended when vaginal delivery might pose a risk to the mother or baby. C-sections are also carried out for personal and social reasons on maternal request in some countries.

Medical uses

Complications of labor and factors increasing the risk associated with vaginal delivery include:
Other complications of pregnancy, pre-existing conditions, and concomitant disease, include:
Other
  • Decreasing experience of accoucheurs with the management of breech presentation. Although obstetricians and midwives are extensively trained in proper procedures for breech presentation deliveries using simulation mannequins, there is decreasing experience with actual vaginal breech delivery, which may increase the risk.

Prevention

The prevalence of caesarean section is generally agreed to be higher than needed in many countries, and physicians are encouraged to actively lower the rate, as a caesarean rate higher than 10-15% is not associated with reductions in maternal or infant mortality rates. Some evidence supports a higher rate of 19% may result in better outcomes.

Some of these efforts are: emphasizing a long latent phase of labor is not abnormal and not a justification for C-section; a new definition of the start of active labor from a cervical dilatation of 4 cm to a dilatation of 6 cm; and allowing women who have previously given birth to push for at least 2 hours, with 3 hours of pushing for women who have not previously given birth, before labor arrest is considered. Physical exercise during pregnancy decreases the risk.

Risks

Adverse outcomes in low-risk pregnancies occur in 8.6% of vaginal deliveries and 9.2% of caesarean section deliveries.

Mother

In those who are low risk, the risk of death for caesarean sections is 13 per 100,000 vs. for vaginal birth 3.5 per 100,000 in the developed world—a numerically very small risk of death in either situation in resource-rich settings. The United Kingdom National Health Service gives the risk of death for the mother as three times that of a vaginal birth.

In Canada, the difference in serious morbidity or mortality for the mother (e.g. cardiac arrest, wound hematoma, or hysterectomy) was 1.8 additional cases per 100. The difference in in-hospital maternal death was not significant.

Transvaginal ultrasonography of a uterus years after a caesarean section, showing the characteristic scar formation in its anterior part
 
A caesarean section is associated with risks of postoperative adhesions, incisional hernias (which may require surgical correction), and wound infections. If a caesarean is performed in an emergency, the risk of the surgery may be increased due to a number of factors. The patient's stomach may not be empty, increasing the risk of anaesthesia. Other risks include severe blood loss (which may require a blood transfusion) and postdural-puncture spinal headaches.

Wound infections occur after caesarean sections at a rate of 3-15%.

Women who had caesarean sections are more likely to have problems with later pregnancies, and women who want larger families should not seek an elective caesarean unless medical indications to do so exist. The risk of placenta accreta, a potentially life-threatening condition which is more likely to develop where a woman has had a previous caesarean section, is 0.13% after two caesarean sections, but increases to 2.13% after four and then to 6.74% after six or more. Along with this is a similar rise in the risk of emergency hysterectomies at delivery.

Mothers can experience an increased incidence of postnatal depression, and can experience significant psychological trauma and ongoing birth-related post-traumatic stress disorder after obstetric intervention during the birthing process. Factors like pain in the first stage of labor, feelings of powerlessness, intrusive emergency obstetric intervention are important in the subsequent development of psychological issues related to labor and delivery.

Subsequent pregnancies

Women who have had a caesarean for any reason are somewhat less likely to become pregnant again as compared to women who have previously delivered only vaginally, but the effect is small.

Women who had just one previous caesarean section are more likely to have problems with their second birth. Delivery after previous caesarean section is by either of two main options:
  • Vaginal birth after caesarean section (VBAC)
  • Elective repeat caesarean section (ERCS)
Both have higher risks than a vaginal birth with no previous caesarean section. There are many issues which must be taken into account when planning the mode of delivery for every pregnancy, not just those complicated by a previous caesarean section and there is a list of some of these issues in the list of indications for section in the first part of this article. A vaginal birth after caesarean section (VBAC) confers a higher risk of uterine rupture (5 per 1,000), blood transfusion or endometritis (10 per 1,000), and perinatal death of the child (0.25 per 1,000). Furthermore, 20% to 40% of planned VBAC attempts end in caesarean section being needed, with greater risks of complications in an emergency repeat caesarean section than in an elective repeat caesarean section. On the other hand, VBAC confers less maternal morbidity and a decreased risk of complications in future pregnancies than elective repeat caesarean section.

Adhesions

Suturing of the uterus after extraction
 
Closed incision for low transverse abdominal incision after stapling has been completed
 
There are several steps that can be taken during abdominal or pelvic surgery to minimize postoperative complications, such as the formation of adhesions. Such techniques and principles may include:
Handling all tissue with absolute care
• Using powder-free surgical gloves
• Controlling bleeding
• Choosing sutures and implants carefully
• Keeping tissue moist
• Preventing infection with antibiotics given intravenously to the mother before skin incision
Despite these proactive measures, adhesion formation is a recognized complication of any abdominal or pelvic surgery. To prevent adhesions from forming after caesarean section, adhesion barrier can be placed during surgery to minimize the risk of adhesions between the uterus and ovaries, the small bowel, and almost any tissue in the abdomen or pelvis. This is not current UK practice, as there is no compelling evidence to support the benefit of this intervention. 

Adhesions can cause long-term problems, such as:
Infertility, which may end when adhesions distort the tissues of the ovaries and tubes, impeding the normal passage of the egg (ovum) from the ovary to the uterus. One in five infertility cases may be adhesion related (stoval)
• Chronic pelvic pain, which may result when adhesions are present in the pelvis. Almost 50% of chronic pelvic pain cases are estimated to be adhesion related (stoval)
• Small bowel obstruction: the disruption of normal bowel flow, which can result when adhesions twist or pull the small bowel.
The risk of adhesion formation is one reason why vaginal delivery is usually considered safer than elective caesarean section where there is no medical indication for section for either maternal or fetal reasons.

Child

Non-medically indicated (elective) childbirth before 39 weeks gestation "carry significant risks for the baby with no known benefit to the mother." Complications from elective caesarean before 39 weeks include: newborn mortality at 37 weeks may be up to 3 times the number at 40 weeks, and was elevated compared to 38 weeks gestation. These “early term” births were associated with more death during infancy, compared to those occurring at 39 to 41 weeks ("full term"). Researchers in one study and another review found many benefits to going full term, but “no adverse effects” in the health of the mothers or babies.

The American Congress of Obstetricians and Gynecologists and medical policy makers review research studies and find more incidence of suspected or proven sepsis, RDS, hypoglycemia, need for respiratory support, need for NICU admission, and need for hospitalization > 4–5 days. In the case of caesarean sections, rates of respiratory death were 14 times higher in pre-labor at 37 compared with 40 weeks gestation, and 8.2 times higher for pre-labor caesarean at 38 weeks. In this review, no studies found decreased neonatal morbidity due to non-medically indicated (elective) delivery before 39 weeks.

For otherwise healthy twin pregnancies where both twins are head down a trial of vaginal delivery is recommended at between 37 and 38 weeks. Vaginal delivery, in this case, does not worsen the outcome for either infant as compared with caesarean section. There is some controversy on the best method of delivery where the first twin is head first and the second is not, but most obstetricians will recommend normal delivery unless there are other reasons to avoid vaginal birth. When the first twin is not head down, a caesarean section is often recommended. Regardless of whether the twins are delivered by section or vaginally, the medical literature recommends delivery of dichorionic twins at 38 weeks, and monochorionic twins (identical twins sharing a placenta) by 37 weeks due to the increased risk of stillbirth in monochorionic twins who remain in utero after 37 weeks. The consensus is that late preterm delivery of monochorionic twins is justified because the risk of stillbirth for post-37 week delivery is significantly higher than the risks posed by delivering monochorionic twins near term (i.e., 36–37 weeks). The consensus concerning monoamniotic twins (identical twins sharing an amniotic sac), the highest risk type of twins, is that they should be delivered by caesarean section at or shortly after 32 weeks, since the risks of intrauterine death of one or both twins is higher after this gestation than the risk of complications of prematurity.

In a research study widely publicized, singleton children born earlier than 39 weeks may have developmental problems, including slower learning in reading and math.

Other risks include:
  • Wet lung: Retention of fluid in the lungs can occur if not expelled by the pressure of contractions during labor.
  • Potential for early delivery and complications: Preterm delivery may be inadvertently carried out if the due-date calculation is inaccurate. One study found an increased complication risk if a repeat elective caesarean section is performed even a few days before the recommended 39 weeks.
  • Higher infant mortality risk: In caesarean sections performed with no indicated medical risk (singleton at full term in a head-down position with no other obstetric or medical complications), the risk of death in the first 28 days of life has been cited as 1.77 per 1,000 live births among women who had caesarean sections, compared to 0.62 per 1,000 for women who delivered vaginally.
Birth by caesarean section also seems to be associated with worse health outcomes later in life, including overweight or obesity and problems in the immune system.

Classification

Caesarean sections have been classified in various ways by different perspectives. One way to discuss all classification systems is to group them by their focus either on the urgency of the procedure, characteristics of the mother, or as a group based on other, less commonly discussed factors.

It is most common to classify caesarean sections by the urgency of performing them.

By urgency

Conventionally, caesarean sections are classified as being either an elective surgery or an emergency operation. Classification is used to help communication between the obstetric, midwifery and anaesthetic team for discussion of the most appropriate method of anaesthesia. The decision whether to perform general anesthesia or regional anesthesia (spinal or epidural anaesthetic) is important and is based on many indications, including how urgent the delivery needs to be as well as the medical and obstetric history of the woman. Regional anaesthetic is almost always safer for the woman and the baby but sometimes general anaesthetic is safer for one or both, and the classification of urgency of the delivery is an important issue affecting this decision.

A planned caesarean (or elective/scheduled caesarean), arranged ahead of time, is most commonly arranged for medical indications which have developed before or during the pregnancy, and ideally after 39 weeks of gestation. In the UK, this is classified as a 'grade 4' section (delivery timed to suit the mother or hospital staff) or as a 'grade 3' section (no maternal or fetal compromise but early delivery needed). Emergency caesarean sections are performed in pregnancies in which a vaginal delivery was planned initially, but an indication for caesarean delivery has since developed. In the UK they are further classified as grade 2 (delivery required within 90 minutes of the decision but no immediate threat to the life of the woman or the fetus) or grade 1 (delivery required within 30 minutes of the decision: immediate threat to the life of the mother or the baby or both.)

Elective caesarean sections may be performed on the basis of an obstetrical or medical indication, or because of a medically non-indicated maternal request. Among women in the United Kingdom, Sweden and Australia, about 7% preferred caesarean section as a method of delivery. In cases without medical indications the American Congress of Obstetricians and Gynecologists and the UK Royal College of Obstetricians and Gynaecologists recommend a planned vaginal delivery. The National Institute for Health and Care Excellence recommends that if after a woman has been provided information on the risk of a planned caesarean section and she still insists on the procedure it should be provided. If provided this should be done at 39 weeks of gestation or later. There is no evidence that ECS can reduce mother-to-child hepatitis B and hepatitis C virus transmission.

By characteristics of the mother

Caesarean delivery on maternal request

Caesarean delivery on maternal request (CDMR) is a medically unnecessary caesarean section, where the conduct of a childbirth via a caesarean section is requested by the pregnant patient even though there is not a medical indication to have the surgery. Systematic reviews have found no strong evidence about the impact of caesareans for nonmedical reasons. Recommendations encourage counseling to identify the reasons for the request, addressing anxieties and information, and encouraging vaginal birth. Elective caesareans at 38 weeks in some studies showed increased health complications in the newborn. For this reason ACOG and NICE recommend that elective caesarean sections should not be scheduled before 39 weeks gestation unless there is a medical reason. Planned caesarean sections may be scheduled earlier if there is a medical reason.

After previous caesarean

Mothers who have previously had a caesarean section are more likely to have a caesarean section for future pregnancies than mothers who have never had a caesarean section. There is discussion about the circumstances under which women should have a vaginal birth after a previous caesarean.

Vaginal birth after caesarean (VBAC) is the practice of birthing a baby vaginally after a previous baby has been delivered by caesarean section (surgically). According to The American College of Obstetricians and Gynecologists (ACOG), successful VBAC is associated with decreased maternal morbidity and a decreased risk of complications in future pregnancies. According to the American Pregnancy Association, 90% of women who have undergone caesarean deliveries are candidates for VBAC. Approximately 60-80% of women opting for VBAC will successfully give birth vaginally, which is comparable to the overall vaginal delivery rate in the United States in 2010.

Twins

For otherwise healthy twin pregnancies where both twins are head down a trial of vaginal delivery is recommended at between 37 and 38 weeks. Vaginal delivery in this case does not worsen the outcome for either infant as compared with caesarean section. There is controversy on the best method of delivery where the first twin is head first and the second is not. When the first twin is not head down at the point of labor starting, a caesarean section should be recommended. Although the second twin typically has a higher frequency of problems, it is not known if a planned caesarean section affects this. It is estimated that 75% of twin pregnancies in the United States were delivered by caesarean section in 2008.

Breech birth

A breech birth is the birth of a baby from a breech presentation, in which the baby exits the pelvis with the buttocks or feet first as opposed to the normal head-first presentation. In breech presentation, fetal heart sounds are heard just above the umbilicus. 

Babies are usually born head first. If the baby is in another position the birth may be complicated. In a ‘breech presentation’, the unborn baby is bottom-down instead of head-down. Babies born bottom-first are more likely to be harmed during a normal (vaginal) birth than those born head-first. For instance, the baby might not get enough oxygen during the birth. Having a planned caesarean may reduce these problems. A review looking at planned caesarean section for singleton breech presentation with planned vaginal birth, concludes that in the short term, births with a planned caesarean were safer for babies than vaginal births. Fewer babies died or were seriously hurt when they were born by caesarean. There was tentative evidence that children who were born by caesarean had more health problems at age two. Caesareans caused some short-term problems for mothers such as more abdominal pain. They also had some benefits, such as less urinary incontinence and less perineal pain.

The bottom-down position presents some hazards to the baby during the process of birth, and the mode of delivery (vaginal versus caesarean) is controversial in the fields of obstetrics and midwifery.

Though vaginal birth is possible for the breech baby, certain fetal and maternal factors influence the safety of vaginal breech birth. The majority of breech babies born in the United States and the UK are delivered by caesarean section as studies have shown increased risks of morbidity and mortality for vaginal breech delivery, and most obstetricians counsel against planned vaginal breech birth for this reason. As a result of reduced numbers of actual vaginal breech deliveries, obstetricians and midwives are at risk of de-skilling in this important skill. All those involved in delivery of obstetric and midwifery care in the UK undergo mandatory training in conducting breech deliveries in the simulation environment (using dummy pelvises and mannequins to allow practice of this important skill) and this training is carried out regularly to keep skills up to date.

Resuscitative hysterotomy

A resuscitative hysterotomy, also known as a peri-mortem caesarean delivery, is an emergency caesarean delivery carried out where maternal cardiac arrest has occurred, to assist in resuscitation of the mother by removing the aortocaval compression generated by the gravid uterus. Unlike other forms of caesarean section, the welfare of the fetus is a secondary priority only, and the procedure may be performed even prior to the limit of fetal viability if it is judged to be of benefit to the mother.

Other ways, including the surgery technique

There are several types of caesarean section (CS). An important distinction lies in the type of incision (longitudinal or transverse) made on the uterus, apart from the incision on the skin: the vast majority of skin incisions are a transverse suprapubic approach known as a Pfannenstiel incision but there is no way of knowing from the skin scar which way the uterine incision was conducted.
  • The classical caesarean section involves a longitudinal midline incision on the uterus which allows a larger space to deliver the baby. It is performed at very early gestations where the lower segment of the uterus is unformed as it is safer in this situation for the baby: but it is rarely performed other than at these early gestations, as the operation is more prone to complications than a low transverse uterine incision. Any woman who has had a classical section will be recommended to have an elective repeat section in subsequent pregnancies as the vertical incision is much more likely to rupture in labor than the transverse incision.
  • The lower uterine segment section is the procedure most commonly used today; it involves a transverse cut just above the edge of the bladder. It results in less blood loss and has fewer early and late complications for the mother, as well as allowing her to consider a vaginal birth in the next pregnancy.
  • A caesarean hysterectomy consists of a caesarean section followed by the removal of the uterus. This may be done in cases of intractable bleeding or when the placenta cannot be separated from the uterus.
The EXIT procedure is a specialized surgical delivery procedure used to deliver babies who have airway compression. 

The Misgav Ladach method is a modified caesarean section which has been used nearly all over the world since the 1990s. It was described by Michael Stark, the president of the New European Surgical Academy, at the time he was the director of Misgav Ladach, a general hospital in Jerusalem. The method was presented during a FIGO conference in Montréal in 1994 and then distributed by the University of Uppsala, Sweden, in more than 100 countries. This method is based on minimalistic principles. He examined all steps in caesarean sections in use, analyzed them for their necessity and, if found necessary, for their optimal way of performance. For the abdominal incision he used the modified Joel Cohen incision and compared the longitudinal abdominal structures to strings on musical instruments. As blood vessels and muscles have lateral sway, it is possible to stretch rather than cut them. The peritoneum is opened by repeat stretching, no abdominal swabs are used, the uterus is closed in one layer with a big needle to reduce the amount of foreign body as much as possible, the peritoneal layers remain unsutured and the abdomen is closed with two layers only. Women undergoing this operation recover quickly and can look after the newborns soon after surgery. There are many publications showing the advantages over traditional caesarean section methods. There is also an increased risk of abruptio placentae and uterine rupture in subsequent pregnancies for women who underwent this method in prior deliveries.

Technique

Several caesarean sections:
Is: supra-umbilical incision
Im: median incision
IM: Maylard incision
IP: Pfannenstiel incision
 
Pulling out the baby
 
Illustration depicting caesarean section
 
Antibiotic prophylaxis is used before an incision. The uterus is incised, and this incision is extended with blunt pressure along a cephalad-caudad axis. The infant is delivered, and the placenta is then removed. The surgeon then makes a decision about uterine exteriorization. Single-layer uterine closure is used when the mother does not want a future pregnancy. When subcutaneous tissue is 2 cm thick or more, surgical suture is used. Discouraged practices include manual cervical dilation, any subcutaneous drain, or supplemental oxygen therapy with intent to prevent infection.

Caesarean section can be performed with single or double layer suturing of the uterine incision. Single layer closure compared with double layer closure has been observed to result in reduced blood loss during the surgery. It is uncertain whether this is the direct effect of the suturing technique or if other factors such as the type and site of abdominal incision contribute to reduced blood loss. Standard procedure includes the closure of the peritoneum. Research questions whether this is needed, with some studies indicating peritoneal closure is associated with longer operative time and hospital stay. The Misgave Ladach method is a surgery technical that may have fewer secondary complications and faster healing, due to the insertion into the muscle.

Anesthesia

Both general and regional anaesthesia (spinal, epidural or combined spinal and epidural anaesthesia) are acceptable for use during caesarean section. Evidence does not show a difference between regional anaesthesia and general anaesthesia with respect to major outcomes in the mother or baby. Regional anaesthesia may be preferred as it allows the mother to be awake and interact immediately with her baby. Compared to general anaesthesia, regional anaesthesia is better at preventing persistent postoperative pain 3 to 8 months after caesarean section. Other advantages of regional anesthesia may include the absence of typical risks of general anesthesia: pulmonary aspiration (which has a relatively high incidence in patients undergoing anesthesia in late pregnancy) of gastric contents and esophageal intubation. One trial found no difference in satisfaction when general anaesthesia was compared with either spinal anaesthesia.

Regional anaesthesia is used in 95% of deliveries, with spinal and combined spinal and epidural anaesthesia being the most commonly used regional techniques in scheduled caesarean section. Regional anaesthesia during caesarean section is different from the analgesia (pain relief) used in labor and vaginal delivery. The pain that is experienced because of surgery is greater than that of labor and therefore requires a more intense nerve block

General anesthesia may be necessary because of specific risks to mother or child. Patients with heavy, uncontrolled bleeding may not tolerate the hemodynamic effects of regional anesthesia. General anesthesia is also preferred in very urgent cases, such as severe fetal distress, when there is no time to perform a regional anesthesia.

Prevention of complications

Postpartum infection is one of the main causes of maternal death and may account for 10% of maternal deaths globally. A caesarean section greatly increases the risk of infection and associated morbidity, estimated to be between 5 and 20 times as high, and routine use of antibiotic prophylaxis to prevent infections was found by a meta-analysis to substantially reduce the incidence of febrile morbidity. Infection can occur in around 8% of women who have caesareans, largely endometritis, urinary tract infections and wound infections. The use of preventative antibiotics in women undergoing caesarean section decreased wound infection, endometritis, and serious infectious complications by about 65%. Side effects and effect on the baby is unclear.

Women who have caesareans can recognize the signs of fever that indicate the possibility of wound infection. Taking antibiotics before skin incision rather than after cord clamping reduces the risk for the mother, without increasing adverse effects for the baby. Whether a particular type of skin cleaner improves outcomes is unclear.

Some doctors believe that during a caesarean section, mechanical cervical dilation with a finger or forceps will prevent the obstruction of blood and lochia drainage, and thereby benefit the mother by reducing the risk of death. The evidence as of 2018 neither supported nor refuted this practice for reducing postoperative morbidity, pending further large studies.

Recovery

It is common for women who undergo caesarean section to have reduced or absent bowel movements for hours to days. During this time, women may experience abdominal cramps, nausea and vomiting. This usually resolves without treatment. Poorly controlled pain following non-emergent caesarean section occurs in between 13% to 78% of women. Abdominal, wound and back pain can continue for months after a caesarean section. Non-steroidal anti-inflammatory drugs can be helpful. For the first couple of weeks after a cesarean, women should avoid lifting anything heavier than their baby. To minimize pain during breastfeeding, women should experiment with different breastfeeding holds including the football hold and side-lying hold. Women who have had a caesarean are more likely to experience pain that interferes with their usual activities than women who have vaginal births, although by six months there is generally no longer a difference. Pain during sexual intercourse is less likely than after vaginal birth; by six months there is no difference.

There may be a somewhat higher incidence of postnatal depression in the first weeks after childbirth for women who have caesarean sections, but this difference does not persist. Some women who have had caesarean sections, especially emergency caesareans, experience post-traumatic stress disorder.

Usage

In Italy, the incidence of caesarean sections is particularly high, although it varies from region to region. In Campania, 60% of 2008 births reportedly occurred via caesarean sections. In the Rome region, the mean incidence is around 44%, but can reach as high as 85% in some private clinics.

With nearly 1.3 million stays, caesarean section was one of the most common procedures performed in U.S. hospitals in 2011. It was the second-most common procedure performed for people ages 18 to 44 years old. Caesarean rates in the U.S. have risen considerably since 1996. The procedure increased 60% from 1996 to 2009. In 2010, the caesarean delivery rate was 32.8% of all births (a slight decrease from 2009's high of 32.9% of all births). A study found that in 2011, women covered by private insurance were 11% more likely to have a caesarean section delivery than those covered by Medicaid.

China has been cited as having the highest rates of C-sections in the world at 46% as of 2008.

Studies have shown that continuity of care with a known carer may significantly decrease the rate of caesarean delivery but there is also research that appears to show that there is no significant difference in Caesarean rates when comparing midwife continuity care to conventional fragmented care.

More emergency caesareans—about 66%—are performed during the day rather than the night.

The rate has risen to 46% in China and to levels of 25% and above in many Asian, European and Latin American countries. The rate has increased in the United States, to 33% of all births in 2012, up from 21% in 1996. Across Europe, there are differences between countries: in Italy the caesarean section rate is 40%, while in the Nordic countries it is 14%. In Brazil and Iran the caesarean section rate is greater than 40%.

Increasing use

In the United States, C-section rates have increased from just over 20% in 1996 to 33% in 2011. This increase has not resulted in improved outcomes resulting in the position that C-sections may be done too frequently.

The World Health Organization officially withdrew its previous recommendation of a 15% C-section rate in June 2010. Their official statement read, "There is no empirical evidence for an optimum percentage. What matters most is that all women who need caesarean sections receive them."

Speculation explaining a relationship between birth weight and maternal pelvis size has been proposed. The explanation, based on Darwinian-inspired logic, states that since the advent of successful caesarean birth more mothers with small pelvises and babies with large birth weights survive. This hypothesis would predict an increased average birth weight, which has been observed. It is unclear what component contributes more to this effect; evolution or environment.

Brazil has one of the highest caesarean section rates in the world, with rates in the public sector of 35–45%, and 80–90% in the private sector.

Epidemiology

Global rates of caesarean section rates are increasing. It doubled from 2003 to 2018 to reach 21%, and is increasing annually by 4%. In southern Africa it is less than 5%; the rate is almost 60% in some parts of Latin America. In the United Kingdom, in 2008, the rate was 24%. In Ireland the rate was 26.1% in 2009. The Canadian rate was 26% in 2005–2006. Australia has a high caesarean section rate, at 31% in 2007. In the United States the rate of C-section is around 33%, varying from 23% to 40% depending on the state. One out three women who gave birth in the US delivered by caesarean in 2011. In 2012, close to 23 million C-sections were carried out globally. At one time a rate of 10% to 15% was thought to be ideal; a rate of 19% may result in better outcomes. More than 50 nations have rates greater than 27%. Another 45 countries have rates less than 7.5%. There are efforts to both improve access to and reduce the use of C-section. In the United States about 33% of deliveries are by C-section. The rates in the UK and Australia are 26.5% and 32.3% respectively. In China, the most recent CS rate reported was 41%. Globally, 1% of all caesarean deliveries are carried out without medical need. Overall, the caesarean section rate was 25.7% for 2004-2008.

Wound infections occur after caesarean sections at a rate of 3-15%. Some women are at greater risk for developing a surgical site infection after delivery. The presence of chorioamnionitis and obesity predisposes the woman to develop a surgical site infection.

History

A baby being removed from its dying mother's womb
 
Caesarean section usually resulted in the death of the mother. It was long considered an extreme measure, performed only when the mother was already dead or considered to be beyond help. By way of comparison, see the resuscitative hysterotomy or perimortem caesarean section. 

The mother of Bindusara (born c. 320 BC, ruled 298 – c. 272 BC), the second Mauryan Samrat (emperor) of India, accidentally consumed poison and died when she was close to delivering him. Chanakya, the Chandragupta's teacher and adviser, made up his mind that the baby should survive. He cut open the belly of the queen and took out the baby, thus saving the baby's life.

According to the ancient Chinese Records of the Grand Historian, Luzhong, a sixth-generation descendant of the mythological Yellow Emperor, had six sons, all born by "cutting open the body". The sixth son Jilian founded the House of Mi that ruled the State of Chu (c. 1030–223 BC).

An early account of caesarean section in Iran is mentioned in the book of Shahnameh, written around 1000 AD, and relates to the birth of Rostam, the legendary hero of that country. According to the Shahnameh, the Simurgh instructed Zal upon how to perform a caesarean section, thus saving Rudaba and the child Rostam.

In the Irish mythological text the Ulster Cycle, the character Furbaide Ferbend is said to have been born by posthumous caesarean section, after his mother was murdered by his evil aunt Medb.

The Babylonian Talmud, an ancient Jewish religious text, mentions a procedure similar to the caesarean section. The procedure is termed yotzei dofen. It also discusses at length the permissibility of performing a c-section on a dying or dead mother. There is also some basis for supposing that Jewish women regularly survived the operation in Roman times.

Pliny the Elder theorized that Julius Caesar's name came from an ancestor who was born by caesarean section, but the truth of this is debated (see the discussion of the etymology of Caesar). The Ancient Roman caesarean section was first performed to remove a baby from the womb of a mother who died during childbirth. 

The Catalan saint Raymond Nonnatus (1204–1240) received his surname—from the Latin non-natus ("not born")—because he was born by caesarean section. His mother died while giving birth to him.

In an account from the 1580s, in Siegershausen, Switzerland, Jakob Nufer a pig gelder, is supposed to have performed the operation on his wife after a prolonged labor, with her surviving. For most of the time since the 16th century, the procedure had a high mortality rate. 

In Great Britain and Ireland, the mortality rate in 1865 was 85%. Key steps in reducing mortality were:
A caesarean section performed by indigenous healers in Kahura, Uganda. As observed by medical missionary Robert William Felkin in 1879.
 
European travelers in the Great Lakes region of Africa during the 19th century observed caesarean sections being performed on a regular basis. The expectant mother was normally anesthetized with alcohol, and herbal mixtures were used to encourage healing. From the well-developed nature of the procedures employed, European observers concluded they had been employed for some time. James Barry was the first European doctor to carry out a successful caesarean in Africa, while posted to Cape Town between 1817 and 1828.

The first successful caesarean section to be performed in the United States took place in Mason County, Virginia (now Mason County, West Virginia), in 1794. The procedure was performed by Dr. Jesse Bennett on his wife Elizabeth.

Caesarius of Terracina

Saint Caesarius of Terracina, invoked for the good success of Caesarean delivery
 
The patron saint of caesarean section is Caesarius of Africa, a young deacon martyred at Terracina, who has replaced and Christianized the pagan figure of Caesar. The martyr (Saint Cesareo in Italian) is invoked for the good success of this surgical procedure.

Society and culture

Etymology

Fictional 15th-century depiction of the birth of Julius Caesar
 
The Roman Lex Regia (royal law), later the Lex Caesarea (imperial law), of Numa Pompilius (715–673 BC), required the child of a mother dead in childbirth to be cut from her womb. There was a cultural taboo that mothers should not be buried pregnant, that may have reflected a way of saving some fetuses. Roman practice requiring a living mother to be in her tenth month of pregnancy before resorting to the procedure, reflecting the knowledge that she could not survive the delivery. Speculation that the Roman dictator Julius Caesar was born by the method now known as C-section is apparently false. Although caesarean sections were performed in Roman times, no classical source records a mother surviving such a delivery. As late as the 12th century, scholar and physician Maimonides expresses doubt over the possibility of a woman's surviving this procedure and again falling pregnant. The term has also been explained as deriving from the verb caedere, "to cut", with children delivered this way referred to as caesones. Pliny the Elder refers to a certain Julius Caesar (an ancestor of the famous Roman statesman) as ab utero caeso, "cut from the womb" giving this as an explanation for the cognomen "Caesar" which was then carried by his descendants. Nonetheless, even if the etymological hypothesis linking the caesarean section to Julius Caesar is a false etymology, it has been widely believed. For example, the Oxford English Dictionary defines caesarean birth as "the delivery of a child by cutting through the walls of the abdomen when delivery cannot take place in the natural way, as was done in the case of Julius Caesar". Merriam-Webster's Collegiate Dictionary (11th edition) leaves room for etymological uncertainty with the phrase, "from the legendary association of such a delivery with the Roman cognomen Caesar".

Some link with Julius Caesar or with Roman emperors exists in other languages as well. For example, the modern German, Norwegian, Danish, Dutch, Swedish, Finnish, Turkish and Hungarian terms are respectively Kaiserschnitt, keisersnitt, kejsersnit, keizersnede, kejsarsnitt, keisarinleikkaus, sezaryen and császármetszés (literally: "emperor's cut"). The German term has also been imported into Japanese (帝王切開 teiōsekkai) and Korean (제왕 절개 jewang jeolgae), both literally meaning "emperor incision". Similarly, in western Slavic (Polish) cięcie cesarskie, (Czech) císařský řez and (Slovak) cisársky rez means "emperor's cut", whereas the south Slavic term is Serbian царски рез and Slovenian cárski réz, literally tzar's cut. The Russian term kesarevo secheniye (Кесарево сечение késarevo sečénije) literally means Caesar's section. The Arabic term (ولادة قيصرية wilaada qaySaríyya) also means "caesarean birth." The Hebrew term ניתוח קיסרי (nitúakh Keisári) translates literally as caesarean surgery. In Romania and Portugal, it is usually called cesariana, meaning from (or related to) Caesar.

Finally, the Roman praenomen (given name) Caeso was said to be given to children who were born via C-section. While this was probably just folk etymology made popular by Pliny the Elder, it was well known by the time the term came into common use.

Spelling

The term caesarean is spelled in various accepted ways, as discussed at Wiktionary. The Medical Subject Headings (MeSH) of the United States National Library of Medicine (NLM) uses cesarean section, while some other American medical works, e.g. Saunders Comprehensive Veterinary Dictionary, use caesarean, as do most British works. The online versions of the US-published Merriam-Webster Dictionary and American Heritage Dictionary list cesarean first and other spellings as "variants", an etymologically anhistorical position.

Presence of father

In many hospitals, the mother's partner is encouraged to attend the surgery to support the mother and share the experience. The anaesthetist will usually lower the drape temporarily as the child is delivered so the parents can see their newborn.

Special cases

In Judaism, there is a dispute among the poskim (Rabbinic authorities) as to whether the first-born son from a caesarean section has the laws of a bechor. Traditionally, a male child delivered by caesarean is not eligible for the Pidyon HaBen dedication ritual.

In rare cases, caesarean sections can be used to remove a dead fetus. A late-term abortion using caesarean section procedures is termed a hysterotomy abortion and is very rarely performed.

The mother may perform a caesarean section on herself; there have been successful cases, such as Inés Ramírez Pérez of Mexico who, on 5 March 2000, performed a successful caesarean section on herself. She survived, as did her son, Orlando Ruiz Ramírez.

Handedness

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