Damage control surgery can be divided into the following three phases: Initial
laparotomy,
Intensive Care Unit (ICU)
resuscitation, and definitive reconstruction. Each of these phases has defined timing and objectives to ensure best outcomes. The following goes through the different phases to illustrate, step by step, how one might approach this. There are clearly different approaches throughout the country, and no one way is necessarily correct. However, the ability to evaluate objectively the differences and then choose the one that fits your team is important.
Initial laparotomy This is the first part of the damage control process whereby there are some clear-cut goals surgeons should achieve. The first is controlling hemorrhage followed by
contamination control, abdominal packing, and placement of a temporary closure device. Minimizing the length of time spent in this phase is essential. For groups (i.e.,
trauma centers) to be effective in damage control surgery, a multi-disciplinary team is critical. The approach to caring for such critically ill patients is dependent on nurses, surgeons,
critical care physicians, operating room staff, blood bank personnel, and administrative support. In addition to having the right team in place is having a prepared team. The more facile the team is enhances the ability for centers to effectively implement damage control surgery. This is referred to by some as damage control ground zero (DC0). The ability to mobilize personnel, equipment, and other resources is bolstered by preparation; however, standardized protocols ensure that team members from various entities within the health care system are all speaking the same language. This has been seen during implementation of complex processes such as the
massive transfusion protocol (MTP). Controlling of hemorrhage as discussed above is the most important step in this phase. Eviscerating the intra-abdominal small bowel and packing all four
abdominal quadrants usually helps surgeons establish initial hemorrhagic control. Depending up on the source of hemorrhage a number of different maneuvers might need to be performed allowing for control of
aortic inflow. Solid
organ injury (i.e., spleen, kidney) should be dealt with by
resection. When dealing with
hepatic hemorrhage a number of different options exist such as performing a
Pringle maneuver that would allow for control of hepatic inflow. Surgeons can also apply manual pressure, perform
hepatic packing, or even plugging penetrating wounds. Certain situations might require leaving the liver packed and taking the patient for
angio-
embolization or if operating in a hybrid operating room having perform an on table angio-embolization. Vessels that are able to be
ligated should, and one should consider
shunting other vessels that do not fall into this category. This has been described by Reilly and colleagues when they shunted the superior
mesenteric artery to decrease the length of time in the operating room. Once hemorrhage control is achieved one should quickly proceed to controlling intra-abdominal contamination from
hollow-viscus organs. The perception might be that one could quickly perform an
anastomosis. This should not be attempted in the damage control setting. The key is to simply prevent continued intra-abdominal contamination, and to leave patients in discontinuity. A number of different techniques can be employed such as using staplers to come across the
bowel, or primary suture closure in small perforations. Once this is complete the abdomen should be packed. Many of these patients become
coagulopathic and can develop diffuse oozing. It is important to not only pack areas of injury but also pack areas of surgical dissection. There are various methods that can be used to pack the abdomen. Packing with radiopaque laparotomy pads allow for the benefit of being able to
detect them via X-ray prior to definitive closure. As a rule abdomens should not be definitively closed until there has been
radiologic confirmation that no retained objects are present in the abdomen. The final step of this phase is applying a temporary closure device. Numerous methods of temporary closure exist, with the most common technique being a
negative-vacuum type device. Regardless of which method one decides to use it is important that the abdominal
fascia is not
reapproximated. The ability to develop
abdominal compartment syndrome is a real concern and described by Schwab. Temporary abdominal dressings with high negative pressures can be a cause of recurrent abdominal compartment syndrome and one should not hesitate to turn off the dressing's suction when evaluating a patient with signs of recurrent abdominal compartment syndrome. While it might sound counterintuitive since the fascia is left open during the placement of these temporary closure devices, they can create a similar type process that leads to abdominal compartment syndrome. If this occurs the temporary closure device should be taken down immediately.
Definitive reconstruction The third step in damage control surgery is addressing closure of the abdomen. Definitive
reconstruction occurs only when the patient is improving. At this point in process the critical care team has been able to correct the physiologic derangements. The optimization typically takes 24 to 48 hours, depending on how severe the initial insult is. Prior to being taken back to the operating room it is paramount that the resolution of acidosis, hypothermia, and coagulopathy has occurred. The first step after removing the temporary closure device is to ensure that all abdominal packs are removed. Typically the number of packs has been documented in the initial laparotomy; however, an abdominal
radiograph should be taken prior to definitive closure of the fascia to ensure that no retained sponges are left in the abdomen. Once the abdominal packs are removed the next step is to re-explore the abdomen allowing for the identification of potentially missed injuries during the initial laparotomy and re-evaluating the prior injuries. Attention is then turned to performing the necessary bowel anastomosis or other definitive repairs (i.e., vascular injuries). An attempt should be made to close the abdominal fascia at the first take back, to prevent complications that can result from having an open abdomen. The concern for early closure of the abdomen with development of compartment syndrome is a real one. A method to pre-emptively evaluate whether fascial closure is appropriate would be to determine the difference in peak airway pressure (PAP) prior to closure and the right after closure. An increase of over 10 would suggest that the abdomen be left open. As mentioned above, it is important to obtain an abdominal radiograph to ensure that no retained sponges are left intra-operatively. Considering that not all patients can undergo definitive reconstruction at first return, there are other options that surgeons can consider. Data would suggest that the longer the abdomen is left open from initial laparotomy the higher the rate of complications. After about one week, if surgeons can't close the abdomen, they should consider placing a Vicryl
mesh to cover the abdominal contents. This lets
granulation occur over a few weeks, with the subsequent ability to place a split-thickness
skin graft (STSG) on top for coverage. These patients clearly have a
hernia that must be fixed 9 to 12 months later. ==Resuscitation==