Surgical staples are commonly used in healthcare to close a wide variety of wounds during surgery. They are put in place using a surgical stapler. The staples may be made out of an alloy, and these types are not suitable for use in patients with metal allergies, e.g. nickel, but there are alternatives available, such as plastic. Staples are frequently used over sutures because they are faster and may give a more accurate, consistent result.
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In this article, we detail the history of surgical staples and how the technology has evolved, contributing to the development of modern surgical techniques, as well as information about when surgical staples should be utilized and how to use them.
The development of surgical staples began in the nineteenth century thanks to surgeons Christian Albert Theodor Billroth and William S. Halsted.
Austrian surgeon Billroth was born in Prussia and became a pioneer in gastrointestinal surgery who developed the Billroth I and Billroth II procedures. The Billroth I is a subtotal gastrectomy used to treat peptic ulcers and involved removing as much as 70% of the stomach before maintaining gastrointestinal continuity by performing a gastroduodenostomy to reattach the stomach and duodenum. The technique is still used today, albeit in a more refined form that only removes up to 50% of the stomach.
The Billroth II is a variation on the Billroth I procedure and is used in circumstances where a gastroduodenostomy would be difficult, e.g. due to a short abdominal esophagus, and reattaches the stomach to the jejunum.
The Billroth I and II procedures set a benchmark for gastrointestinal anastomoses. A surgical anastomoses, a procedure where a new, artificial connection is made between two separate fluid-carrying body structures, e.g. blood vessels or bowel. This was then further developed by New Yorker William S. Halsted, who was considered to be the father of modern American medical education. He established good practice guidelines for anastomosis and tissue management, calling for the use of small-gauge sutures and needles combined with skilled surgical methods and the minimization of tissue trauma. As part of his methodology, he discovered that single-layered anastomotic sutures gave results that were as good as double-layered sutures, but with less potential tissue damage.
In , Halsted developed a prototype device that would enable non-suture anastomosis, but his invention did not make it to the market. However, his work laid the foundation for the creation of surgical staplers that applied a single layer of staples to close wounds during surgery.
Initially, other types of devices were trialed, some inspired by the sewing machines of the time. It was clear that there was a need for automated devices and clamps to assist surgeons in optimizing their suture placement. However, these early inventions did not prove popular and it wasnt until that Hungarian Dr. Humer Hultl developed the first surgical stapler.
Dr. Hultls initial stapler contained some of the features that are still used in modern devices. Although it was hefty, weighing a whopping 8 pounds (3.6 kgs) and was difficult to manipulate needing two hours to set up and load, it was designed to minimize the chance of leakage through the staple line and featured B shaped staples that were placed in four staggered rows of wire staples. Nowadays surgical staplers typically only place two or three staggered rows and use titanium staples.
Dr. Hultl sold just 50 of his surgical staplers. This was partly due to the expense and problems with reloading, but there was also the simple fact that many surgeons were reluctant to try out new technology. Nevertheless, Hultls stapler inspired another Hungarian, Dr. Aladár Petz, to improve on the design. The Von Petz stapler was much lighter and easier to manipulate and used silver staples. A major bonus was that it was much cheaper and Von Petz staplers were sold globally, making it easier for surgeons to see for themselves the benefits of this modern innovation.
There were problems with the Von Petz stapler. Surgeons could only use it once during surgery. It would need to be cleaned, reloaded and sterilized before a second use. This changed in when German Dr. H. Friedrich developed the replaceable cartridge which allowed the stapler to be used multiple times. This new stapler design allowed for adjustable tissue compression and paved the way for the development of a triangular technique of end-to-end anastomosis that had not been previously possible.
In the mid-twentieth century, the Scientific Research Institute for Experimental Surgical Apparatus and Instruments was set up in Moscow due to the demand for quality training for surgeons who would be carrying out complex procedures far away from main cities. As well as providing training and education, the Institute was instrumental in developing surgical equipment, including a range of single line, linear cutter and circular staplers to be used in a range of circumstances. This was groundbreaking, but since all the devices were made by hand, individual parts were not always interchangeable.
In , American Dr. Mark M. Ravitch was visiting the Moscow Thoracic Surgical Institute where he and three other American doctors were able to observe the use of the bronchial stapler and evaluate the patients it had been used on. It was sheer chance that led Dr. Ravitch to purchase one of these staplers in a store whereupon he was able to have it calibrated by staff at the Thoracic Institute so that he could take it back to America to use in his own surgery.
Working alongside Dr. Felicien Steichen, Dr. Ravitch started to experiment with his new device. Their combined efforts are largely responsible for the development and improvement of the linear stapler, the linear cutter, and the circular stapler, tools which are still in use today.
Their work was then built upon by the American medical industry, leading to the development of reloadable reusable surgical staplers and disposable reloadable surgical staplers. This also had a positive effect on surgical techniques. As laparoscopic surgery became common practice in gynecology, this led to the development of laparoscopic surgical staplers.
We continue to see innovation in this exciting field. New stapling technologies are being developed all the time. Recent developments have included tools that allow for the viscoelastic behavior of tissue when rapidly compressed, staplers that can provide multiple height staple lines, and microstaplers to name just a few. NOTES (Natural Orific Transluminal Endoscopic Surgery) has seen the invention of smaller surgical staplers that can be passed through a flexible endoscope allowing for greater control and choice.
We are still a long way from having exhausted all the possibilities offered by surgical staples and staplers.
Surgical staplers are used in a wide range of surgeries, and are specialized for specific purposes, whether that be during the removal of part of an organ (resection), cutting through an organ or tissue (transection) or connecting structures together (anastomoses). A surgical stapler comprises of the stapler body, a staple cartridge/reload with lines of staplers, an anvil, and a firing mechanism. The surgeon loads a staple cartridge into the stapler (unless they are using a preloaded device) before placing the tissue to be connected between the stapler jaws (comprising of the cartridge and anvil). They then activate the firing mechanism to shoot a staple into place. Some types of staplers also include a knife that transects tissue as the stapler is fired.
Surgical staplers have enabled the development of more complex surgical techniques while at the same time reducing the amount of time required for surgery. They are available in a range of sizes and versions to allow for ease of use. Surgical staple removers are also available for removing the staples when appropriate.
Linear cutting staplers are used in the resection and transection of organs and/or tissues in abdominal, thoracic and pediatric surgery as well as gynecology. Designed for effective anastomosis, they have a knife built into the stapler body to allow for cutting as well as joining tissues and organs.
Linear staplers are designed for the anastomosing of organs and tissues.
Circular staplers are used in general surgery as well as thoracic surgery, bariatric surgery and colo-rectal surgery. They are designed to enable end-to-end, side-to-end and side-to-side anastomoses and, as the name suggests, place staples in a circular shape consisting of two concentric rings.
Internal leakage from badly executed suturing of the bowel is a major contributing factor to post-surgical mortality rates. Surgical staples have been a revolution in eliminating the risk of this. They may be left in the body, e.g. after clamping blood vessels, but are unlikely to cause any problems to the patient when this is necessary.
However, not all staples are suitable for all types of surgery and using the wrong type can have serious consequences. This is why different sizes and shapes have been developed to accommodate different tissue types and circumstances. This is a summary of the most commonly used types of staples.
Circular staples, sometimes referred to as EEA devices, are usually used when attaching a vessel to the side of a larger vessel, a process known as end-to-end anastomosis. End-to-end anastomosis is carried out after bowel resection that has been performed to remove a diseased section of the large intestine and circular staples are the preferred method of closing the wounds. Circular staples are also used in cervical esophagogastric anastomosis following the elimination of cancer cells in the area. This approach is becoming more popular over suturing since circular staples can mean a shorter surgery time.
Laparoscopic staples have been adapted for use in laparoscopic surgery. They are longer and thinner than the staples used in circular staples so that they can be easily manipulated through trocar ports and are used for end-to-side anastomosis. Laparoscopic surgery is less invasive than traditional surgical techniques and laparoscopic staples are left in the patients body tissue. They are used for a range of surgery types, including liver resection, removing a kidney affected by cancer and gastroplasty surgery.
Typically stainless steel is the material used in skin stapling and clips but titanium is generally preferred for internal surgeries due to its flexibility, strength and lightweight nature. The International Titanium Association claims that titanium is less likely to trigger a reaction from a patients immune system and easily adhere to bone and tissue. Titanium staples are not pure titanium. All surgical staples include a certain percentage of nickel. This means that it should be determined whether a patient has a nickel allergy and, if so, any possible side effects need to be discussed with their surgeon before proceeding with the surgery.
Surgical staplers have a wider application than just for surgery. They can also be used externally to close wounds.
Approximately 7 million traumatic wound lacerations are treated in emergency rooms and countless more dealt with in practitioners offices. Ideally, in each of these situations, medical professionals should have access to a wound closure technique and/or device that:
Although there are a number of options available staples, sutures, surgical tapes and tissue adhesives none of them fulfil all of these criteria, which means that in any given situation, a choice needs to be made for the best solution for a specific circumstance.
Most lacerations, particularly wounds that are half an inch in length or longer, will benefit from the use of some form of closure. Not only does this minimize the chance of infection, it will also improve the appearance of the healed skin, help stop bleeding and enable a faster return to normal function.
When a patient has stitches, silk, nylon or polypropylene threads are used to sew through the skin to close a wound. Usually, the stitches will be left in for a few days until the wound is sufficiently healed for them to be removed, but sometimes, absorbable synthetic or animal-derived stitches are used, which will be broken down naturally by the body over time. Absorbable stitches are generally used as part of a multi-layer wound closure when it would be difficult to remove them, since they are in a deep tissue level.
Staples are most frequently used to close deep lacerations when it would be difficult or awkward to use sutures. As well as during surgery, they may also be used for wounds on the abdomen, leg, arm, scalp or back, but are not advised for use on the neck, feet or face.
Other alternatives for wound closure are surgical tapes and tissue adhesives. These are relatively modern innovations, and the Federal Drug Administration has only started supporting the general use of tissue adhesives over the last 20 years. (Although the first successful use of tissue adhesive was in .) Clinical trials are therefore only available for the past couple of decades, with the first randomized controlled clinical trial examining the use of tissue adhesives in pediatric facial lacerations being carried out in .
Tissue adhesives are best suited to low tension or linear lacerations, as well as for use underneath casts and splints or when dealing with fragile skin. The main features of tissue adhesives are:
Surgical tape is useful for low tension or linear lacerations, as well as for use underneath casts and splints and with fragile skin. It is also helpful to provide extra support for suture and staple removal. The main features of surgical tape are:
With deep lacerations, whichever method is used, there will be some scarring, but stitches and staples give comparable cosmetic results and this should not be a factor in deciding which one to choose. In general, medical professionals choose based on their personal experience, skill level, and preference, but there are a few other features to bear in mind when comparing stitches to staples:
When it comes to choosing staples over stitches and vice versa, attitudes are constantly shifting as research demonstrates which approach is better suited to any given situation. For example, surgeons have been inclined to use staples after a cesarean section because of how quick and easy they are to use, but recent research suggests that sutures have a 57% less chance of developing complications, with sutures 80% less likely to result in wound separation of 1cm or more. However, many surgeons still prefer to use staples following c-sections partly out of tradition but also because they are faster which makes them not only cost effective but also less likely to result in infection, which is associated with longer surgery time. Thus staples may be better suited to patients with a greater risk of complication, e.g. those who are obese, diabetic or have had repeat surgery.[1]
Surgical staples require a specialized staple extractor to be removed. Before removing them, the wound should be inspected to confirm that it has healed sufficiently to allow for staple removal and checks should be made for any specific instructions surrounding removal. In general, staples are removed in two stages. At first, every other staple should be taken out with the rest following at a later date. Usually, all staples will be taken out within 7-14 days.
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Although every facility will have their own specific protocol for staple removal, as a general guideline, there are a number of safety considerations that need to be taken into account. These include:
Once all safety checks have been carried out, these are the steps involved in staple removal:
Although staple removal is usually a straightforward procedure, complications do sometimes occur. Wound dehiscence (when the wound has not properly healed and separates) is still a concern, and healthcare professionals should be on the alert for this. Patients with an increased risk of dehiscence include: obese patients; patients over the age of 75 years; patients with COPD, cancer, anemia, sepsis, or diabetes; patients who are malnourished; patients who are anemic; patients who smoke; patients with a history of chemo- or radiotherapy. If there are any problems during the procedure, advice should be sought from a physician immediately.
On average, there are 8-9,000 adverse event reports per year concerning surgical staplers. The overwhelming majority of these were down to malfunctions (90%) with 9% concerning injuries. Less than 1% of the adverse events involving surgical staplers resulted in death.[2]
The most frequent types of malfunctions were that staples did not form, the stapler misfired or did not fire at all, and suture lines separated. The injuries experienced by patients were most commonly anastomosis failure, prolonged surgery, bleeding and infection.
The use of surgical staplers has superseded the need for manual suturing in many instances and in most cases this results in an easier surgery for the patient, allowing the surgeon to carry out complex surgeries that would not be possible without staples. However, where there has been an equipment malfunction, the impact on the patient can be devastating or even fatal, even if the mortality rate is low.
In addition, user error can also be a contributing factor. Although the devices are simple to use, there is still an element of skill required. The correct stapling cartridge must be selected for the correct tissue thickness and the tissue should be appropriately positioned within the stapler jaws. The following issues are the most frequently occurring user errors:
All of these errors can have a serious impact on the patient. When stapler jaws are incorrectly positioned, this can result in leakage, blood loss and/or staple line opening, all of which can extend or negate the surgery. If a problem occurs during vascular stapling, the resulting blood loss can be fast and extensive, necessitating immediate corrective surgery.
If a staple that is too small has been used, this could tear away from the tissue, opening up the staple line. Conversely, using an overly large staple could mean there are gaps in the staple line, which could result in leakage, which is a major cause of complications.
If the stapler hasnt been properly fired, the staples will be formed incorrectly and may pull out of the tissue, opening up the wound.
Given the potential consequences of user error, it is crucial that medical professionals are skilled in using surgical staplers. Although on analysis the benefits of surgical staplers and the resulting shorter surgery time outweigh the risks for most patients, care should be taken to ensure that there arent any avoidable problems, especially now the Hospital-Acquired Condition Reduction Program[4] can result in lower Medicare payments for facilities that do not take reasonable precautions to improve patient safety and long term results.
In the first instances, users of surgical staplers should read and familiarize themselves with the instructions for use so that they can more readily detect when something is wrong. However, not all potential complication will be detailed in the instructions, so it is important that all staff are aware that failures are always a possibility so that they can quickly and effectively tackle problems when they arise. If the staplers mechanism fails, being able to stay calm instead of reacting in panic will help minimize damage to the tissues/organs.
As well as analyzing the instructions, medical professionals using surgical staplers should also have in place contingency plans in the event of a malfunction. Have spare surgical staplers to hand so that if a device is suspected to be faulty it can be replaced immediately. In addition, make sure that clamps are available so that if a staple line fails, the wound can be closed off to minimize trauma.
Since surgical staples are made in a range of sizes and heights, it is important that the correct one is chosen for the task at hand. Most linear staplers come with at least three different staple heights and it is crucial that the right one is selected to avoid the possibility of leakage, bleeding, or dehiscence. At this present time, staple size is usually chosen based on experience and anecdotal evidence, which means that there is always the chance of the wrong size being chosen.[5]
With so many variables at play, including the type of stapler and staple, tissue site, compression time, tissue thickness, tissue compressibility, etc. it is crucial that surgeons update their knowledge base to take account of these factors, especially since there is also the human variable that should be factored in as well, i.e. the surgeons experience and technique.
Studies have shown that the individual surgeons experience with surgical staplers has a direct impact on successful procedures. A review carried out by the Royal Victoria Hospital in Belfast, Ireland found that while surgical staplers would give uniformity when creating anastomoses, the regularity of the staples would not make up for a lack of surgical technique and warned that regardless of technological advances, any problems with surgical technique would still cause issues.[6]
This was not the only study to identify a problem with surgical skill. A review of colon and rectal resections Brigham and Womens Hospital in Boston uncovered the fact that 19% of these surgeries had experienced a technical error due to the surgical stapler. Among the faults reported were misfires by the surgeon and incomplete anastomosis, all of which led to an increased risk of complications such as gastrointestinal bleeding, transfusions and unplanned proximal diversions.[7]
It is therefore imperative that a surgeon has the skill and experience to handle surgical staplers in order to give a patient the best possible chance of a positive outcome.
The surgical stapling market is growing and is predicted to hit USD 6.8 billion by . [8] This rise is thought to be due to the growth in bariatric procedures and further developments in endoscopic surgery. As more and more types of surgery lend themselves to an endoscopic approach, it is expected that surgical staplers will become increasingly popular and will see corresponding technological developments to keep pace with surgical techniques.
We are still seeing improvements to the design of surgical staplers, such as the recent introduction of the ECHELON FLEX Powered Surgical Stapler by Ethicon and this means that there remain more innovations yet to be discovered.
With improved devices come improved results and with the speed advantage offered by surgical staplers, it is little wonder that they are increasingly preferred over sutures. Disposable devices are particularly in demand due to the lowered risk of cross-contamination while disposable plastic staples mean that patients with nickel or metal allergies can also benefit from this approach.
As the technology behind surgical staplers becomes increasingly advanced, the risk of infection is minimized, although users need to be aware of all the different types available so that they can choose the most appropriate tool for the situation at hand. This may require ongoing training to ensure that healthcare professionals are fully abreast of current devices and their usage.
If you are a medical professional, do you prefer to use sutures or staples? Why? Have you had surgical staples following a surgery? What was your experience of them? Wed love to know your thoughts in the comments.
Sources:
[1] https://www.medpagetoday.com/obgyn/generalobgyn/
[2] https://www.fda.gov/MedicalDevices/ProductsandMedicalProcedures/GeneralHospitalDevicesandSupplies/ucm.htm
[3] https://www.ecri.org/Pages/User-Errors-with-Surgical-Staplers-Result-in-Patient-Injuries.aspx
[4] https://www.cms.gov/Medicare/Quality-Initiatives-Patient-Assessment-Instruments/Value-Based-Programs/HAC/Hospital-Acquired-Conditions.html
[5] https://www.ncbi.nlm.nih.gov/pmc/articles/PMC/
[6] https://www.ncbi.nlm.nih.gov/pubmed/
[7] https://www.ncbi.nlm.nih.gov/pubmed/
[8] http://www.grandviewresearch.com/press-release/global-surgical-stapling-market
Further reading:
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC/
http://www.medscape.com/viewarticle/_4
First of all, let's learn about the development history of surgical staplers, one of the most important medical surgical instruments today.
As early as the early twentieth century, foreign experts started to develop the stapler, but due to the bulky instruments, and time-consuming loading and unloading, the large volume can not be used in clinical. With the continuous exploration and improvement of experts, the stapler is getting closer to clinical application.
The surgical stapler (Auto Suture) that was really widely used in the clinic was invented by the American Surgical Corporation (USSC) in the s. In , a brand new kind of surgical staplers, the Liner stapler TA (Thoracic-AbdominaI) was first introduced. Another new operation stapler, the Linear cutter GIA (Gastro-lntestin Anastomosis) was first introduced in . The EEA circular stapler (End-End Anastomosis) was first introduced in , and this new invention of the operation stapler created a milestone in the history of modern surgery. Then, in the late s, surgical stapler manufacturers in China's major cities including Jiangsu, Shanghai, Beijing, and Hangzhou have begun to design and manufacture gastrointestinal staplers. In the early s, the USSC (United States Surgical Corporation) of the United States introduced a new generation of disposable surgical plastic stapler, which has been widely used in clinical practice.
The working principle of various surgical staplers is similar to the book stitcher, so it is generally called STAPLER. It fires two or three rows of interlaced staples into the tissue to cross-stitch the tissue. The nail forming effect is good and it is B-shaped
The main components of the stapler are staples anvil, cartridge, staple driver, firing handle, positioning needle, knob, and marking ruler.
Surgical staples are commonly used in healthcare to close a wide variety of wounds during surgery. They are put in place using a surgical stapler. The staples may be made out of an alloy, and these types are not suitable for use in patients with metal allergies, e.g. nickel, but there are alternatives available, such as plastic. Staples are frequently used over sutures because they are faster and may give a more accurate, consistent result.
In this article, we detail the history of surgical staples and how the technology has evolved, contributing to the development of modern surgical techniques, as well as information about when surgical staples should be utilized and how to use them.
The development of surgical staples began in the nineteenth century thanks to surgeons Christian Albert Theodor Billroth and William S. Halsted.
Austrian surgeon Billroth was born in Prussia and became a pioneer in gastrointestinal surgery who developed the Billroth I and Billroth II procedures. The Billroth I is a subtotal gastrectomy used to treat peptic ulcers and involved removing as much as 70% of the stomach before maintaining gastrointestinal continuity by performing a gastroduodenostomy to reattach the stomach and duodenum. The technique is still used today, albeit in a more refined form that only removes up to 50% of the stomach.
The Billroth II is a variation on the Billroth I procedure and is used in circumstances where a gastroduodenostomy would be difficult, e.g. due to a short abdominal esophagus, and reattaches the stomach to the jejunum.
The Billroth I and II procedures set a benchmark for gastrointestinal anastomoses. A surgical anastomoses, a procedure where a new, artificial connection is made between two separate fluid-carrying body structures, e.g. blood vessels or bowel. This was then further developed by New Yorker William S. Halsted, who was considered to be the father of modern American medical education. He established good practice guidelines for anastomosis and tissue management, calling for the use of small-gauge sutures and needles combined with skilled surgical methods and the minimization of tissue trauma. As part of his methodology, he discovered that single-layered anastomotic sutures gave results that were as good as double-layered sutures, but with less potential tissue damage.
In , Halsted developed a prototype device that would enable non-suture anastomosis, but his invention did not make it to the market. However, his work laid the foundation for the creation of surgical staplers that applied a single layer of staples to close wounds during surgery.
Initially, other types of devices were trialed, some inspired by the sewing machines of the time. It was clear that there was a need for automated devices and clamps to assist surgeons in optimizing their suture placement. However, these early inventions did not prove popular and it wasnt until that Hungarian Dr. Humer Hultl developed the first surgical stapler.
Dr. Hultls initial stapler contained some of the features that are still used in modern devices. Although it was hefty, weighing a whopping 8 pounds (3.6 kgs) and was difficult to manipulate needing two hours to set up and load, it was designed to minimize the chance of leakage through the staple line and featured B shaped staples that were placed in four staggered rows of wire staples. Nowadays surgical staplers typically only place two or three staggered rows and use titanium staples.
Dr. Hultl sold just 50 of his surgical staplers. This was partly due to the expense and problems with reloading, but there was also the simple fact that many surgeons were reluctant to try out new technology. Nevertheless, Hultls stapler inspired another Hungarian, Dr. Aladár Petz, to improve on the design. The Von Petz stapler was much lighter and easier to manipulate and used silver staples. A major bonus was that it was much cheaper and Von Petz staplers were sold globally, making it easier for surgeons to see for themselves the benefits of this modern innovation.
There were problems with the Von Petz stapler. Surgeons could only use it once during surgery. It would need to be cleaned, reloaded and sterilized before a second use. This changed in when German Dr. H. Friedrich developed the replaceable cartridge which allowed the stapler to be used multiple times. This new stapler design allowed for adjustable tissue compression and paved the way for the development of a triangular technique of end-to-end anastomosis that had not been previously possible.
In the mid-twentieth century, the Scientific Research Institute for Experimental Surgical Apparatus and Instruments was set up in Moscow due to the demand for quality training for surgeons who would be carrying out complex procedures far away from main cities. As well as providing training and education, the Institute was instrumental in developing surgical equipment, including a range of single line, linear cutter and circular staplers to be used in a range of circumstances. This was groundbreaking, but since all the devices were made by hand, individual parts were not always interchangeable.
In , American Dr. Mark M. Ravitch was visiting the Moscow Thoracic Surgical Institute where he and three other American doctors were able to observe the use of the bronchial stapler and evaluate the patients it had been used on. It was sheer chance that led Dr. Ravitch to purchase one of these staplers in a store whereupon he was able to have it calibrated by staff at the Thoracic Institute so that he could take it back to America to use in his own surgery.
Working alongside Dr. Felicien Steichen, Dr. Ravitch started to experiment with his new device. Their combined efforts are largely responsible for the development and improvement of the linear stapler, the linear cutter, and the circular stapler, tools which are still in use today.
Their work was then built upon by the American medical industry, leading to the development of reloadable reusable surgical staplers and disposable reloadable surgical staplers. This also had a positive effect on surgical techniques. As laparoscopic surgery became common practice in gynecology, this led to the development of laparoscopic surgical staplers.
We continue to see innovation in this exciting field. New stapling technologies are being developed all the time. Recent developments have included tools that allow for the viscoelastic behavior of tissue when rapidly compressed, staplers that can provide multiple height staple lines, and microstaplers to name just a few. NOTES (Natural Orific Transluminal Endoscopic Surgery) has seen the invention of smaller surgical staplers that can be passed through a flexible endoscope allowing for greater control and choice.
We are still a long way from having exhausted all the possibilities offered by surgical staples and staplers.
Surgical staplers are used in a wide range of surgeries, and are specialized for specific purposes, whether that be during the removal of part of an organ (resection), cutting through an organ or tissue (transection) or connecting structures together (anastomoses). A surgical stapler comprises of the stapler body, a staple cartridge/reload with lines of staplers, an anvil, and a firing mechanism. The surgeon loads a staple cartridge into the stapler (unless they are using a preloaded device) before placing the tissue to be connected between the stapler jaws (comprising of the cartridge and anvil). They then activate the firing mechanism to shoot a staple into place. Some types of staplers also include a knife that transects tissue as the stapler is fired.
Surgical staplers have enabled the development of more complex surgical techniques while at the same time reducing the amount of time required for surgery. They are available in a range of sizes and versions to allow for ease of use. Surgical staple removers are also available for removing the staples when appropriate.
Linear cutting staplers are used in the resection and transection of organs and/or tissues in abdominal, thoracic and pediatric surgery as well as gynecology. Designed for effective anastomosis, they have a knife built into the stapler body to allow for cutting as well as joining tissues and organs.
Linear staplers are designed for the anastomosing of organs and tissues.
Circular staplers are used in general surgery as well as thoracic surgery, bariatric surgery and colo-rectal surgery. They are designed to enable end-to-end, side-to-end and side-to-side anastomoses and, as the name suggests, place staples in a circular shape consisting of two concentric rings.
Internal leakage from badly executed suturing of the bowel is a major contributing factor to post-surgical mortality rates. Surgical staples have been a revolution in eliminating the risk of this. They may be left in the body, e.g. after clamping blood vessels, but are unlikely to cause any problems to the patient when this is necessary.
However, not all staples are suitable for all types of surgery and using the wrong type can have serious consequences. This is why different sizes and shapes have been developed to accommodate different tissue types and circumstances. This is a summary of the most commonly used types of staples.
Circular staples, sometimes referred to as EEA devices, are usually used when attaching a vessel to the side of a larger vessel, a process known as end-to-end anastomosis. End-to-end anastomosis is carried out after bowel resection that has been performed to remove a diseased section of the large intestine and circular staples are the preferred method of closing the wounds. Circular staples are also used in cervical esophagogastric anastomosis following the elimination of cancer cells in the area. This approach is becoming more popular over suturing since circular staples can mean a shorter surgery time.
Laparoscopic staples have been adapted for use in laparoscopic surgery. They are longer and thinner than the staples used in circular staples so that they can be easily manipulated through trocar ports and are used for end-to-side anastomosis. Laparoscopic surgery is less invasive than traditional surgical techniques and laparoscopic staples are left in the patients body tissue. They are used for a range of surgery types, including liver resection, removing a kidney affected by cancer and gastroplasty surgery.
Typically stainless steel is the material used in skin stapling and clips but titanium is generally preferred for internal surgeries due to its flexibility, strength and lightweight nature. The International Titanium Association claims that titanium is less likely to trigger a reaction from a patients immune system and easily adhere to bone and tissue. Titanium staples are not pure titanium. All surgical staples include a certain percentage of nickel. This means that it should be determined whether a patient has a nickel allergy and, if so, any possible side effects need to be discussed with their surgeon before proceeding with the surgery.
Surgical staplers have a wider application than just for surgery. They can also be used externally to close wounds.
Approximately 7 million traumatic wound lacerations are treated in emergency rooms and countless more dealt with in practitioners offices. Ideally, in each of these situations, medical professionals should have access to a wound closure technique and/or device that:
Although there are a number of options available staples, sutures, surgical tapes and tissue adhesives none of them fulfil all of these criteria, which means that in any given situation, a choice needs to be made for the best solution for a specific circumstance.
Most lacerations, particularly wounds that are half an inch in length or longer, will benefit from the use of some form of closure. Not only does this minimize the chance of infection, it will also improve the appearance of the healed skin, help stop bleeding and enable a faster return to normal function.
When a patient has stitches, silk, nylon or polypropylene threads are used to sew through the skin to close a wound. Usually, the stitches will be left in for a few days until the wound is sufficiently healed for them to be removed, but sometimes, absorbable synthetic or animal-derived stitches are used, which will be broken down naturally by the body over time. Absorbable stitches are generally used as part of a multi-layer wound closure when it would be difficult to remove them, since they are in a deep tissue level.
Staples are most frequently used to close deep lacerations when it would be difficult or awkward to use sutures. As well as during surgery, they may also be used for wounds on the abdomen, leg, arm, scalp or back, but are not advised for use on the neck, feet or face.
Other alternatives for wound closure are surgical tapes and tissue adhesives. These are relatively modern innovations, and the Federal Drug Administration has only started supporting the general use of tissue adhesives over the last 20 years. (Although the first successful use of tissue adhesive was in .) Clinical trials are therefore only available for the past couple of decades, with the first randomized controlled clinical trial examining the use of tissue adhesives in pediatric facial lacerations being carried out in .
Tissue adhesives are best suited to low tension or linear lacerations, as well as for use underneath casts and splints or when dealing with fragile skin. The main features of tissue adhesives are:
Surgical tape is useful for low tension or linear lacerations, as well as for use underneath casts and splints and with fragile skin. It is also helpful to provide extra support for suture and staple removal. The main features of surgical tape are:
With deep lacerations, whichever method is used, there will be some scarring, but stitches and staples give comparable cosmetic results and this should not be a factor in deciding which one to choose. In general, medical professionals choose based on their personal experience, skill level, and preference, but there are a few other features to bear in mind when comparing stitches to staples:
When it comes to choosing staples over stitches and vice versa, attitudes are constantly shifting as research demonstrates which approach is better suited to any given situation. For example, surgeons have been inclined to use staples after a cesarean section because of how quick and easy they are to use, but recent research suggests that sutures have a 57% less chance of developing complications, with sutures 80% less likely to result in wound separation of 1cm or more. However, many surgeons still prefer to use staples following c-sections partly out of tradition but also because they are faster which makes them not only cost effective but also less likely to result in infection, which is associated with longer surgery time. Thus staples may be better suited to patients with a greater risk of complication, e.g. those who are obese, diabetic or have had repeat surgery.[1]
Surgical staples require a specialized staple extractor to be removed. Before removing them, the wound should be inspected to confirm that it has healed sufficiently to allow for staple removal and checks should be made for any specific instructions surrounding removal. In general, staples are removed in two stages. At first, every other staple should be taken out with the rest following at a later date. Usually, all staples will be taken out within 7-14 days.
Although every facility will have their own specific protocol for staple removal, as a general guideline, there are a number of safety considerations that need to be taken into account. These include:
Once all safety checks have been carried out, these are the steps involved in staple removal:
Although staple removal is usually a straightforward procedure, complications do sometimes occur. Wound dehiscence (when the wound has not properly healed and separates) is still a concern, and healthcare professionals should be on the alert for this. Patients with an increased risk of dehiscence include: obese patients; patients over the age of 75 years; patients with COPD, cancer, anemia, sepsis, or diabetes; patients who are malnourished; patients who are anemic; patients who smoke; patients with a history of chemo- or radiotherapy. If there are any problems during the procedure, advice should be sought from a physician immediately.
On average, there are 8-9,000 adverse event reports per year concerning surgical staplers. The overwhelming majority of these were down to malfunctions (90%) with 9% concerning injuries. Less than 1% of the adverse events involving surgical staplers resulted in death.[2]
The most frequent types of malfunctions were that staples did not form, the stapler misfired or did not fire at all, and suture lines separated. The injuries experienced by patients were most commonly anastomosis failure, prolonged surgery, bleeding and infection.
The use of surgical staplers has superseded the need for manual suturing in many instances and in most cases this results in an easier surgery for the patient, allowing the surgeon to carry out complex surgeries that would not be possible without staples. However, where there has been an equipment malfunction, the impact on the patient can be devastating or even fatal, even if the mortality rate is low.
In addition, user error can also be a contributing factor. Although the devices are simple to use, there is still an element of skill required. The correct stapling cartridge must be selected for the correct tissue thickness and the tissue should be appropriately positioned within the stapler jaws. The following issues are the most frequently occurring user errors:
All of these errors can have a serious impact on the patient. When stapler jaws are incorrectly positioned, this can result in leakage, blood loss and/or staple line opening, all of which can extend or negate the surgery. If a problem occurs during vascular stapling, the resulting blood loss can be fast and extensive, necessitating immediate corrective surgery.
If a staple that is too small has been used, this could tear away from the tissue, opening up the staple line. Conversely, using an overly large staple could mean there are gaps in the staple line, which could result in leakage, which is a major cause of complications.
If the stapler hasnt been properly fired, the staples will be formed incorrectly and may pull out of the tissue, opening up the wound.
Given the potential consequences of user error, it is crucial that medical professionals are skilled in using surgical staplers. Although on analysis the benefits of surgical staplers and the resulting shorter surgery time outweigh the risks for most patients, care should be taken to ensure that there arent any avoidable problems, especially now the Hospital-Acquired Condition Reduction Program[4] can result in lower Medicare payments for facilities that do not take reasonable precautions to improve patient safety and long term results.
In the first instances, users of surgical staplers should read and familiarize themselves with the instructions for use so that they can more readily detect when something is wrong. However, not all potential complication will be detailed in the instructions, so it is important that all staff are aware that failures are always a possibility so that they can quickly and effectively tackle problems when they arise. If the staplers mechanism fails, being able to stay calm instead of reacting in panic will help minimize damage to the tissues/organs.
As well as analyzing the instructions, medical professionals using surgical staplers should also have in place contingency plans in the event of a malfunction. Have spare surgical staplers to hand so that if a device is suspected to be faulty it can be replaced immediately. In addition, make sure that clamps are available so that if a staple line fails, the wound can be closed off to minimize trauma.
Since surgical staples are made in a range of sizes and heights, it is important that the correct one is chosen for the task at hand. Most linear staplers come with at least three different staple heights and it is crucial that the right one is selected to avoid the possibility of leakage, bleeding, or dehiscence. At this present time, staple size is usually chosen based on experience and anecdotal evidence, which means that there is always the chance of the wrong size being chosen.[5]
With so many variables at play, including the type of stapler and staple, tissue site, compression time, tissue thickness, tissue compressibility, etc. it is crucial that surgeons update their knowledge base to take account of these factors, especially since there is also the human variable that should be factored in as well, i.e. the surgeons experience and technique.
Studies have shown that the individual surgeons experience with surgical staplers has a direct impact on successful procedures. A review carried out by the Royal Victoria Hospital in Belfast, Ireland found that while surgical staplers would give uniformity when creating anastomoses, the regularity of the staples would not make up for a lack of surgical technique and warned that regardless of technological advances, any problems with surgical technique would still cause issues.[6]
This was not the only study to identify a problem with surgical skill. A review of colon and rectal resections Brigham and Womens Hospital in Boston uncovered the fact that 19% of these surgeries had experienced a technical error due to the surgical stapler. Among the faults reported were misfires by the surgeon and incomplete anastomosis, all of which led to an increased risk of complications such as gastrointestinal bleeding, transfusions and unplanned proximal diversions.[7]
It is therefore imperative that a surgeon has the skill and experience to handle surgical staplers in order to give a patient the best possible chance of a positive outcome.
The surgical stapling market is growing and is predicted to hit USD 6.8 billion by . [8] This rise is thought to be due to the growth in bariatric procedures and further developments in endoscopic surgery. As more and more types of surgery lend themselves to an endoscopic approach, it is expected that surgical staplers will become increasingly popular and will see corresponding technological developments to keep pace with surgical techniques.
We are still seeing improvements to the design of surgical staplers, such as the recent introduction of the ECHELON FLEX Powered Surgical Stapler by Ethicon and this means that there remain more innovations yet to be discovered.
With improved devices come improved results and with the speed advantage offered by surgical staplers, it is little wonder that they are increasingly preferred over sutures. Disposable devices are particularly in demand due to the lowered risk of cross-contamination while disposable plastic staples mean that patients with nickel or metal allergies can also benefit from this approach.
As the technology behind surgical staplers becomes increasingly advanced, the risk of infection is minimized, although users need to be aware of all the different types available so that they can choose the most appropriate tool for the situation at hand. This may require ongoing training to ensure that healthcare professionals are fully abreast of current devices and their usage.
If you are a medical professional, do you prefer to use sutures or staples? Why? Have you had surgical staples following a surgery? What was your experience of them? Wed love to know your thoughts in the comments.
Sources:
[1] https://www.medpagetoday.com/obgyn/generalobgyn/
[2] https://www.fda.gov/MedicalDevices/ProductsandMedicalProcedures/GeneralHospitalDevicesandSupplies/ucm.htm
[3] https://www.ecri.org/Pages/User-Errors-with-Surgical-Staplers-Result-in-Patient-Injuries.aspx
[4] https://www.cms.gov/Medicare/Quality-Initiatives-Patient-Assessment-Instruments/Value-Based-Programs/HAC/Hospital-Acquired-Conditions.html
[5] https://www.ncbi.nlm.nih.gov/pmc/articles/PMC/
[6] https://www.ncbi.nlm.nih.gov/pubmed/
[7] https://www.ncbi.nlm.nih.gov/pubmed/
[8] http://www.grandviewresearch.com/press-release/global-surgical-stapling-market
Further reading:
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC/
http://www.medscape.com/viewarticle/_4
First of all, let's learn about the development history of surgical staplers, one of the most important medical surgical instruments today.
As early as the early twentieth century, foreign experts started to develop the stapler, but due to the bulky instruments, and time-consuming loading and unloading, the large volume can not be used in clinical. With the continuous exploration and improvement of experts, the stapler is getting closer to clinical application.
The surgical stapler (Auto Suture) that was really widely used in the clinic was invented by the American Surgical Corporation (USSC) in the s. In , a brand new kind of surgical staplers, the Liner stapler TA (Thoracic-AbdominaI) was first introduced. Another new operation stapler, the Linear cutter GIA (Gastro-lntestin Anastomosis) was first introduced in . The EEA circular stapler (End-End Anastomosis) was first introduced in , and this new invention of the operation stapler created a milestone in the history of modern surgery. Then, in the late s, surgical stapler manufacturersurgical stapler manufacturers in China's major cities including Jiangsu, Shanghai, Beijing, and Hangzhou have begun to design and manufacture gastrointestinal staplers. In the early s, the USSC (United States Surgical Corporation) of the United States introduced a new generation of disposable surgical plastic stapler, which has been widely used in clinical practice.
The working principle of various surgical staplers is similar to the book stitcher, so it is generally called STAPLER. It fires two or three rows of interlaced staples into the tissue to cross-stitch the tissue. The nail forming effect is good and it is B-shaped
The main components of the stapler are staples anvil, cartridge, staple driver, firing handle, positioning needle, knob, and marking ruler.