4 Advice to Choose a linear cutting stapler

In the fast-paced world of modern medicine, surgical efficiency is paramount. Surgeons require tools that are not only reliable but also enhance their ability to perform complex procedures with precision and speed. Disposable linear staplers have emerged as an invaluable addition to the surgical armamentarium, significantly contributing to improved patient outcomes and reduced overall healthcare costs.

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Understanding Disposable Linear Staplers

Disposable linear staplers are surgical instruments designed to close wounds, such as incisions or incisions made during surgical procedures, by using metal staples. These staplers are single-use devices, eliminating the need for sterilization and reducing the risk of cross-contamination. Their linear design allows for the application of multiple staples in a single action, greatly enhancing surgical efficiency.

Benefits of Disposable Linear Staplers

1. Enhanced Efficiency

Disposable linear staplers significantly reduce the time required to close surgical wounds. Their ability to apply multiple staples simultaneously allows surgeons to focus on other aspects of the procedure, ultimately leading to shorter operative times.

2. Reduced Risk of Infection

As single-use devices, disposable linear staplers eliminate the risk of cross-contamination associated with reusable instruments. This reduced risk of infection is crucial in maintaining patient safety and reducing post-operative complications.

3. Improved Wound Closure

The precision and uniformity of staple placement provided by disposable linear staplers result in improved wound closure. This, in turn, leads to faster healing and reduced scarring, enhancing patient outcomes.

4. Selecting the Right Disposable Linear Stapler

Choosing the right disposable linear stapler for a particular surgical procedure is crucial. Factors such as the size and location of the wound, the type of tissue involved, and the surgeon's preference should all be taken into consideration.

5. Staple Length and Tissue Thickness

The staple length must be selected based on the thickness of the tissue being stapled. Selecting a staple that is too short may result in incomplete wound closure, while a staple that is too long can cause tissue damage. VERYKIND MEDICAL offers a range of staple reload options, allowing surgeons to select the perfect staple length for each surgical procedure.

6. Unique Design of Staple Slot

The unique design of the staple slot on VERYKIND MEDICAL's disposable linear staplers ensures better positioning of the staples during operation. This results in more precise staple placement and improved wound closure.

7. Cutting Guide

The staple holder sides on VERYKIND MEDICAL staplers provide a cutting guide that ensures easy and complete cutting of the tissue. This results in a smooth cut edge, reducing the risk of tissue tearing or damage.

Operating Tips for Disposable Linear Staplers

1. Preparation

Ensure that the stapler is loaded with the correct staple reload for the procedure. Inspect the stapler for any damage or malfunction before use.

2. Technique

Apply gentle pressure when closing the stapler to ensure even staple placement. Avoid excessive force, which can damage the tissue or cause staple misplacement.

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3. Removal

Once the stapler has been fired, carefully remove it from the surgical site. Ensure that all staples have been properly applied and the wound is completely closed before proceeding.

Conclusion

Disposable linear staplers are invaluable tools in modern surgery, enhancing efficiency, reducing infection risk, and improving wound closure. By selecting the right stapler and utilizing proper operating techniques, surgeons can take full advantage of these devices and provide their patients with the best possible outcomes. VERYKIND MEDICAL's disposable linear staplers, with their unique staple slot design and cutting guide, offers surgeons the perfect tool for achieving these goals.

MATERIALS AND METHODS

This prospective randomized study was performed between January and May in the Department of General Surgery, Mersin University Medical Faculty Hospital. Fifty consecutive patients undergoing elective GIS stapled anastomosis using a linear cutter (Proximate®, Ethicon Endo-Surgery, Cincinnati, OH) for benign or malign diseases were included in the study. This study was approved by the ethics committee at Mersin University Medical Faculty Hospital, and written informed consent was obtained from all of the patients. Patients with coagulopathy, sepsis, multiple organ failure, stapled anastomosis using a different brand and those patients who refused randomization were excluded from the study. Nine patients (two with sepsis, two with coagulopathy, three using a different brand stapler, one with multiple organ failure and one who refused randomization) were excluded. Finally, 41 patients were randomized into two groups according to the type of linear cutter used: a standard 4-row (S, n'='20) group and a new 6-row (N, n'='21) group. Randomization was performed using a computer-generated program run by an independent computer consultant.

Surgical Technique

The patients were routinely prepared for surgery. The laboratory parameters, including the plasma leukocyte, hematocrit and albumin levels, were recorded preoperatively. Nutritional support was supplied when necessary. According to our department policy, no bowel preparation was performed before the surgery. Each patient received a single dose of cephalosporin for prophylaxis; metronidazole was also used if a colectomy was performed.

The operations were performed open by the same two expert surgeons (AS, TC). The standard linear cutter had two types of cartridges: blue (3.5 mm staple) and green (4.8 mm staple). The cartridge was selected according to the tissue thickness. The blue cartridge was preferred for bowel resections, while green was preferred for gastric resections. The new cutter had a selectable staple height feature that accommodated various tissue thicknesses using one cartridge with staple heights of 1.5, 1.8, and 2.0 mm. Following the appropriate surgery, both sides of the anastomosis were prepared. The stapler was closed after checking for any tissue slippage out of the distal end of the instrument. Following the decompression of the tissue for 20 seconds, the stapler was fired with a single move. The anastomotic integrity was tested with air and evaluated with regard to bleeding and dehiscence. Bleeding that needed cauterization after firing the stapler was accepted as anastomotic line bleeding and was controlled by stitching with 3-0 polyglactin suture. If dehiscence was observed, the line was buttressed with 3-0 polyglactin separated suture. An abdominal drain was introduced for all the patients. The total amount of perioperative blood transfusions was recorded. The operating time was defined as the time from the first incision to the placement of the last suture.

A fast-track protocol (early oral feeding, early mobilization) was performed for each patient after surgery. Postoperative anastomotic leakage was determined by observing the intestinal content from the abdominal drain. The patients who did not exhibit any surgical problems were discharged from the hospital.

The patients were evaluated with regard to their demographic data, the laboratory parameters, the preoperative diagnosis, the surgery performed, the operation time, the perioperative complications, the time to oral tolerance and the length of the hospital stay.

Statistical analysis

A power analysis was calculated using a test for the non-inferiority hypothesis. We considered a difference of less than 10% in the anastomotic line bleeding rate to be of non-clinical importance; therefore, the non-inferiority margin was chosen to be 10%. According to the non-inferiority test, approximately 20 patients should be present in each group to detect a clinically important difference in the anastomotic line bleeding with an α error of 5% and a β error of 20%. The sample size was established at 20 patients in each group to provide appropriate statistical power analyses. The data obtained were summarized in a computerized spreadsheet, and statistical analyses were performed using SPSS 11.5 for Windows. The differences between the treatment groups were analyzed using χ2 tests and Student's t-test. The results were expressed as the mean±standard deviation (SD) and as number and percent. The χ2 tests were performed to compare the categorical variables, and Student's t test was used to compare the parametric values.

RESULTS

There were 24 (58.5%) male (M) and 17 (41.5%) female (F) patients with a mean age of 64±11.8 years in the study group. The S group included 11 M and 9 F patients with a mean age of 65±12 years, while the N group included 13 M and 8 F patients with a mean age of 62±11 years (p'='0.448, p'='0.443, respectively). The demographic data, the preoperative laboratory parameters needed for nutritional support and the need for patient blood transfusion are summarized in Table 1.

Table 1.

S (n'='20) N (n'='21) p-value Age (years) 65±12 62±11 0.448 Gender (M/F) 11/9 13/8 0.443 Leukocyte (x103 µl) 10.78±5.8 10.77±8.2 0.999 Hematocrit (%) 32.47±4.6 36.65±8.7 0.066 Albumin (g/dl) 2.81±0.4 2.81±0.6 0.982 Nutritional support (n) 11 10 0.937

The preoperative diagnoses of the patients and the operations performed are summarized in Table 2. The mean operation time was 190.5±34.1 min in the S group and 192.3±50.6 min in the N group (p'='0.89). The mean amount of preoperative blood transfusions was 0.85±0.8 IU in the S group and 0.95±1.0 IU in the N group (p'='0.914). Anastomotic line bleeding was observed in eight (40%) patients in the S group and in one patient (4.7%) in the N group (p'='0.006). Dehiscence of the anastomosis line was noted in two (10%) patients in the S group and none in the N group (p'='0.131).

Table 2.

Diagnosis Operation Standard New Gastric cancer Gastric resection 2 3 Colon cancer Colectomy 12 11 Small bowel cancer Small bowel resection 4 4 Ulcerative colitis Ileal J-pouch 1 2 Pancreas cancer Whipple-gastroenterostomy 1 1 Total 20 21

Concerning the postoperative complications, anastomosis leakage developed in three (15%) patients in the S group and in one (4.7%) patient in the N group (p'='0.269). One patient with leakage in each group was treated conservatively, whereas two patients who underwent colonic resection in the S group were re-operated because of high-output intestinal fistula. The two re-operated patients expired from multiple organ failure, one on the 5th postoperative day and the other on the 10th. Wound infection developed in six (30%) patients in the S group and three (14.2%) patients in the N group (p'='0.228). All the infections were superficial and were treated conservatively. An oral diet was first tolerated on a mean of 4.2±0.9 and 4.4±1.0 days in the S and N groups, respectively (p'='0.465). The mean hospital stay was 12.65±6.1 days in the S group and 9.52±2.9 days in the N group (p'='0.043). The intraoperative and postoperative patient courses are summarized in Table 3.

Table 3.

S (n'='20) N (n'='21) p-value Intraoperative Bleeding 8 (40%) 1 (4.7%) 0.006 Dehiscence 2 (10%) 0 0.131 Mean operation time (min) 190.5±34.1 192.3±50.6 0.890 Postoperative Anastomotic leakage 3 (15%) 1 (4.7%) 0.262 Wound infection 6 (30%) 3 (14.2%) 0.228 Re-operation 2 (10%) 0 0.131 Mortality 2 (10%) 0 0.131 Mean hospital stay (days) 12.65±6.1 9.52±2.9 0.043

DISCUSSION

Staplers are widely used instruments in GIS surgery because they allow the quick and easy creation of uniformly sutured, less traumatic anastomosis with a better blood supply. In many studies, no significant differences in elective surgery complications have been revealed between stapled and hand-sewn anastomosis (7-9). In recent studies, however, the incidence of complications with stapled anastomosis has reportedly declined in parallel with increasing experience and improved instrumentation (10,11).

Linear cutters are commonly used to create a GIS anastomosis because of their ability to cut and staple simultaneously. In particular, they are almost indispensable in bariatric, gastric and pouch surgery, surgeries in which complications lead to a high rate of morbidity and mortality. To minimize the incidence of anastomotic leakage and bleeding related to the standard 4-row linear cutter, recently a new 6-row linear cutter that provides optimal tissue compression to create safer anastomosis was introduced by the manufacturer (6). However, the superiority of the new stapler to the standard one (in terms of the clinical outcomes of the patients) was unclear. Hence, this study was planned.

The new linear cutter provides some advantages to the surgeon. Its selectable staple height feature (with a single cartridge) accommodates various tissue thicknesses. This accommodation may be helpful in case of the absence of a suitable cartridge for the standard instrument for an operation. In addition, the new instrument, which has a two-sided firing feature, can be easily manipulated even by left-handed surgeons. One of the surgeons in this study was left-handed and was satisfied with this feature.

The staple line should be checked for hemostasis, pneumostasis, and proper closure after firing the stapler. In particular, intraoperative dehiscence of the anastomosis line after firing the stapler should be noted to avoid further complications. Insufficient tissue compression, inappropriate cartridge selection and tissue slippage from the tip of the stapler are among the possible causes of this complication (12,13). Dehiscence was observed in 5% of our patients in the S group due to our possible technical errors. Although there was no significant difference in anastomotic dehiscence between the two groups, the selectable staple heights (with respect to the tissue thicknesses), the optimal compression and the tissue slippage prevention mechanism are useful features of the new stapler that may help prevent this intraoperative complication.

Bleeding is another common complication that can be attributed to the stapling device. The incidence of bleeding reported in the literature ranges from 2% to 20% of patients (14-16), while our overall rate was 19.7%. Although intraoperative bleeding of the anastomosis line was encountered significantly more often in the S group, it was easily managed by appropriately suturing the anastomosis line during the open surgery. Although the incidence of intraoperative bleeding was approximately zero with the new stapler because of its optimal tissue compression feature, this effect may be an advantage in laparoscopic surgery but negligible in open surgery. This opinion has been supported by our results. Postoperative bleeding occurred in none of our patients, although a 2.5% rate has been reported in the literature (14).

Anastomotic leakage still remains a major surgical problem in GIS surgery regardless of whether the anastomosis was hand-sewn or stapled. Despite the identification of several factors that may contribute to anastomotic leakage, the actual cause and contributory factors remain unclear (12,13,17). Note that regardless of the specific technique, the basic surgical principles such as a satisfactory blood supply without tension of the suture line are essential. In addition, correct usage of the proper stapling instruments is important for preventing leakage (12,18). Note that the surgical technique used and concurrent patient health issues that disrupt wound healing, such as nutrition and systemic diseases, may also contribute to anastomotic leakage. The incidence of anastomotic leakage related to stapled anastomosis in various operations has been reported at a mean rate of 2.5% (14), 3.2% (11), 16.7% (15), and 5.2% (19) of the patients for bariatric, gastric, intestinal/colorectal, and pouch surgery, respectively. Our overall incidence of leakage was 9.7%, and all of the cases occurred after colonic resection. However, in all cases the patients were in advanced stages of cancer, malnourished and diabetic. Although the incidence of leakage was slightly lower in group N, no significant difference was found between the two groups.

Another interesting outcome of our study was the shorter hospital stay of the patients who underwent surgery with the new stapler. Despite some specific advantages of the new stapler, it is difficult to ascertain whether this result was related to the type of stapler used or if it was a result of the operation performed.

In conclusion, the results of this study reveal that the new 6-row 3-D linear cutter is as safe as the standard linear cutter and is easily used to create GIS anastomosis. In addition, the new 6-row 3-D linear cutter causes less anastomotic line bleeding than the standard cutter.