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Your surgical toolbox should include topical hemostatic agents—here is why

Vessel-sealing devices and hemostatic adjuvants are expanding the surgical armamentarium. These products provide a spectrum of alternatives that can serve you and your surgical patient well when traditional techniques for obtaining hemostasis fail to provide a satisfactory result. (Keep in mind, however, that technology is no substitute for excellent technique!)

In this article, we highlight three common scenarios in which topical hemostatic agents may be useful during gynecologic surgery. In addition, in the sidebar, five surgeons describe the hemostatic products they rely on most often—and tell why.


Following hysterectomy, persistent oozing along the anterior vaginal margin, distal to the cuff and adjacent to the site of bladder mobilization, may be managed with the aid of a topical hemostatic agent—in this case, a fibrin sealant.

When the site of bleeding is difficult to reach

CASE 1: Oozing at the site of bladder mobilization


You perform total hysterectomy in a 44-year-old woman who has uterine fibroids. After the procedure, you notice persistent oozing along the anterior vaginal margin, distal to the cuff and adjacent to where the bladder was mobilized.

How do you manage the oozing?

Wide mobilization of the bladder is a vital step in the safe performance of hysterectomy. Adhesions may complicate the process if the patient has had previous abdominal surgery, infection, or inflammation. Following mobilization of the bladder and removal of the uterus, bleeding may be visible along the adventitia of the posterior bladder wall or along the anterior surface of the vagina, distal to the cuff, as it is in this case (see the illustration).

Judicious application of an energy source is an option, but thermal injury to the bladder is a concern. A good alternative is proper placement of a hemostatic suture, but it can sometimes be difficult to avoid incorporating the bladder or injuring or obstructing the nearby ureter.

In this case, the location of the bleeding deep in the operative field poses a challenge, because of limited exposure and the proximity of the bladder and ureters. Virtually any hemostatic agent would work well in this circumstance (TABLE). For example, a flowable agent or fibrin sealant could be thoroughly applied to the area during a minimally invasive or open procedure and would naturally conform to the irregularities in the tissue, particularly the junction between the vagina and bladder flap.

A pliable product such as Surgicel Nu-Knit or Fibrillar would also work well in these circumstances, although successful application during laparoscopy may depend on the size of the trocar. For example, Nu-Knit would require trimming to a size suitable for passage through a trocar, made easier by moistening with saline. The weave of Fibrillar makes it more challenging to pass, intact, through a trocar; rolling the material into a cylindrical shape may reduce its diameter and allow it to pass more easily.

CASE 1: Resolved

You apply a fibrin sealant to the site of bleeding, and the oozing abates. Once complete hemostasis is ensured, you conclude the surgery and transfer the patient to recovery, where she does well.

Profiles in hemostasis: Strengths and weaknesses of topical agent

Agent (brands)CompositionForms availableMechanism of actionAdvantagesCaveatsDurationRelative cost*
Physical agents
Gelatin matrix (Gelfoam, Gelfilm, Surgifoam)Porcine- derived collagenSponge, film, powderProvides physical matrix for clot formationNon-antigenic; neutral pH; may be used with thrombinMaterial expansion may cause compression; Not for use in closed spaces or near nerve structures4–6 weeks$
Oxidized regenerated cellulose (Surgicel Fibrillar, Surgicel Nu-Knit)Wood pulpMesh or packed fibersProvides physical matrix for clot formation; acidic pH causes hemolysis and local clot formationPliable, easy to place through laparoscope; acidic pH has antimicrobial effectWorks best in a dry field. Acidic pH inactivates biologic agents, such as thrombin, and may increase inflammation. Avoid using excess material.2–4 weeks$
Microfibrillar collagen (Avitene, Instat, Helitene Helistat)Bovine-derived collagenPowder, non-woven sheet, spongeAbsorbable acid salt. Provides physical scaffold for platelet activation and clot initiation.Sheet form may be passed through laparoscope; minimal expansionRare allergic reactions reported; may contribute to granuloma formation8–12 weeks$$
Biologically active agents
Topical thrombin (Thrombin-JMI, Recothrom, Evithrom, rh Thrombin)Bovine, human, or recombinantLiquidPromotes conversion of fibrinogen to fibrinMay be combined effectively with physical agents of neutral pH; recombinant human thrombin will be available in the near futureRisk of blood-borne infection with non-recombinant human thrombin; risk of anaphylaxis and antibody formation with bovine thrombinN/A$$
Hemostatic matrix (Floseal, Surgiflo)Thrombin plus gelatinFoamGelatin granules provide expansion and compression while thrombin initiates clot formationMay be used in areas of small arterial bleedingRequires contact with blood6–8 weeks$$$
Fibrin sealants (Evicel, Tisseel, Crosseal)HumanLiquidCombination of fibrinogen and thrombin causes cleavage of fibrinogen to fibrin and resultant clot initiationFast-acting; hemostatic and adhesive properties; works well for diffusely oozing surfacesContraindicated in patients who have a history of anaphylactic reaction to serum-derived products or IgA deficiency10–14 days$$$
* Median cost for use in one case
Key: $=inexpensive; $$=moderately expensive; $$$=expensive
 

 

Controlling bleeding without injuring underlying tissue

CASE 2: After adhesiolysis, bleeding at multiple sites


You perform adnexectomy on a 47-year-old woman who has a large (7 to 8 cm), benign ovarian mass. As you operate, you discover that the lesion is adherent to the sigmoid mesentery and the posterior aspect of the uterus; it is also adherent to the pelvic sidewall, directly along the course of the ureter. Although you are able to release the various adhesive attachments, persistent bleeding is noted at multiple pinpoint areas along the mesentery, uterine serosa, and pelvic sidewall, even after the application of direct pressure.

What do you do next?

Although cautery can be used liberally on the uterus, its application to mesentery carries a risk of injury to the mesenteric vessels and bowel wall. Caution is advised when you are attempting to control bleeding on the peritoneum overlying the ureter, whether you are using suture ligature or an energy source. Ideally, you should identify the ureter using a retroperitoneal approach and mobilize it laterally before employing any of these techniques.

There are several potential approaches to the bleeding described in Case 2, all of them involving hemostatic adjuvants. The first decision you need to make, however, is whether to address each region separately or all sites in unison. If you opt to address them together—either during an open procedure or laparoscopy—a fibrin sealant (e.g., Evicel, Tisseel) is one option. It can be applied using a dripping technique or aerosolization, either of which allows for broad application of a thin film of the agent. The limitation of this approach is the volume of agent required to resolve the bleeding, with a potential need for multiple doses to completely coat the area.

Because fibrin sealants function independently of the patient’s coagulation cascade, they are particularly useful in the presence of disseminated intravascular coagulation (DIC) and other coagulopathies that might limit the effectiveness of preparations that require the patient’s own serum.

An alternative approach to Case 2 is to apply an oxidized regenerated cellulose (ORC) derivative directly to the affected areas. Various forms are available (e.g., Surgicel Fibrillar, Surgicel Nu-Knit). These ORC products can be cut and customized to the area in need of hemostasis, allowing each site to be addressed individually. These agents typically remain adherent after they are applied due to the nature of the interaction between the product, blood, and tissue.

A liquid or foam hemostatic agent (e.g., Surgiflo, Floseal, topical thrombin) could also be employed in this case, but application can be a challenge on a large area with a heterogeneous topography because of the tendency of such agents to migrate under the force of gravity, pooling away from the source of bleeding.

Is combining agents a good idea?

Although they are not typically approved for use in combination, sequential application of hemostatic agents may be considered when bleeding persists.

All hemostatic agents work best in combination with the application of pressure. It usually is advisable to use moist gauze for this purpose because it can be lifted away without significant adherence to the underlying hemostatic complex, avoiding clot

disruption.

CASE 2: Resolved

You opt to use an ORC product, customizing it to fit each bleeding site, and apply direct pressure. When hemostasis has been achieved at all sites, you complete the operation. The patient has an uneventful postoperative course.

Protect structures along the pelvic sidewall

CASE 3: When the application of pressure isn’t enough


While performing a left salpingo-oophorectomy for a 12-cm ovarian lesion, you use a retroperitoneal approach to identify the structures along the pelvic sidewall. During identification of the ureter, you encounter bleeding from a small vessel in the adjacent fatty areolar tissue. After a period of observation, during which you apply pressure to the area of concern, bleeding persists.

What hemostatic agent do you employ to stop it?

The careful application of steady pressure is often enough to safely control bleeding in the area of the pelvic sidewall. In the event that pressure alone fails to resolve the bleeding, however, it is critical to choose a remedy that avoids injuring the ureter, iliac vessels, and infundibulopelvic ligament. Wide exposure of the space may allow for direct identification of the point of bleeding and precise application of cautery, a hemoclip, or a tie. When this approach is not feasible, other solutions must be sought.

When traditional hemostatic techniques fail in delicate anatomic sites, such as the periureteral area, hemostatic agents are an effective option that can minimize the risk of injury to surrounding vital structures. The contour of the space calls for a product that can intercalate, such as a foam, sealant, or Surgicel Fibrillar. Direct, precise application to the point of bleeding is critical, and the “bunching up” of a more rigid and bulky agent may limit its application to the area of concern. Use of a moist gauze to apply direct pressure after application of the agent will increase the likelihood of success.

 

 

CASE 3: Resolved

You decide to apply a foam hemostatic agent because of its ability to conform to the irregular space. You also continue to apply gentle pressure to the point of bleeding, using a moist gauze. Within minutes, hemostasis is achieved. You are then able to finish the operation.

Other variables to consider

As these three cases illustrate, the use of hemostatic agents to control surgical bleeding requires an individualized approach. The site and amount of bleeding, as well as the patient’s hemodynamic and coagulation status, are key variables to be considered when selecting an agent.

For instance, because of their components, fibrin sealants can function independently of the patient’s coagulation status. ORC products provide a matrix that facilitates platelet aggregration and may be less effective when anti-platelet agents have been used.

It is also appropriate for the surgeon to be familiar with the relative cost of the agents available at his or her institution. In particular, when several agents may be equally effective in a particular set of circumstances, cost may be the determining factor.

Availability of these agents varies from one institution to the next; as a result, it can be challenging to maintain familiarity with all of the products in the marketplace. Having access to a diverse, readily available set of “go to” agents is critical to ensure rapid application in a clinical setting.

The surgeon’s preference also is important, particularly in regard to the ease of preparation and handling. Some agents may not be as suitable for minimally invasive procedures (see TABLE). For others, special laparoscopic applicators are available.

When using a hemostatic agent, it pays to consider the duration of its effect in the surgical site. Both the quantity of the agent that is applied and characteristics of the local operative site influence how quickly the agent degrades. Keep this in mind when imaging studies are planned for the early postoperative period. An ORC preparation, for example, may appear with small pockets of air that resemble an abscess. Effective communication with the radiology team is critical to avoid the misinterpretation of findings.

Choosing a topical agent? First, consider surgical technique.

Curious to discover the preferences and practices of surgeons likely to utilize topical hemostatic agents, OBG Management polled several experienced and expert surgeons, including members of the journal’s Board of Editors and Virtual Board of Editors. Their diverse responses offer a snapshot of gynecologic surgical practice in 2012—but all agree that hemostatic products are no substitute for sound surgical technique.
JANELLE YATES, SENIOR EDITOR






We want to hear from you! Tell us what you think.

References

Recommended reading

Achneck HE, Sileshi B, Jamiolkowski RM, et al. A comprehensive review of topical hemostatic agents: efficacy and recommendations for use. Ann Surg. 2010;251(2):217-228.

Chapman WC, Singla N, Genyk Y, et al. A phase 3, randomized, double-blind comparative study of the efficacy and safety of topical recombinant human thrombin and bovine thrombin in surgical hemostasis. J Am Coll Surg. 2007;205(2):256-265.

Holub Z, Jabor A. Laparoscopic management of bleeding after laparoscopic or vaginal hysterectomy. JSLS. 2004;8(3):235-238.

Sharma JB, Malhotra M. Laparoscopic oxidized cellulose (Surgicel) application for small uterine perforations. Int J Gynaecol Obstet. 2003;83(3):271-275.

Sharma JB, Malhotra M. Topical oxidized cellulose for tubal hemorrhage hemostasis during laparoscopic sterilization. Int J Gynaecol Obstet. 2003;82(2):221-222.

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Author and Disclosure Information


Lisa A. dos Santos, MD
Dr. dos Santos is Attending Physician, Division of Gynecologic Oncology, at North Shore University Hospital–Long Island Jewish Medical Center in Manhasset, NY, and Assistant Professor of Obstetrics and Gynecology at Hofstra North Shore—LIJ School of Medicine in Hempstead, NY.


Andrew W. Menzin, MD
Dr. Menzin is Vice Chairman for Academic Affairs and Associate Chief of Gynecologic Oncology at North Shore University Hospital–Long Island Jewish Medical Center in Manhasset, NY.

Dr. dos Santos reports no financial relationships relevant to this article. Dr. Menzin reports that he is a consultant to Ethicon Biosurgery.

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Lisa dos Santos MD;Andrew Menzin MD;Joseph Sanfilippo MD;Cheryl Inglesia MD;Robert DelRosario MD;Kurian Thott MD;Devin Namaky MD;topical hemostatic agents;hemostasis;microsurgical principles;Gelatin matrix;Gelfoam;Gelfilm;Surgifoam;Oxidized regenerated cellulose;Surgicel Fibrillar;Surgicel Nu-Knit;Microfibrillar collagen;Avitene;Instat;Helitene Helistat;Topical thrombin;Thrombin-JMI;Recothrom;Evithrom;rh Thrombin;Hemostatic matrix;Floseal;Surgiflo;Fibrin sealants;Evicel;Tisseel;Crosseal;
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Lisa A. dos Santos, MD
Dr. dos Santos is Attending Physician, Division of Gynecologic Oncology, at North Shore University Hospital–Long Island Jewish Medical Center in Manhasset, NY, and Assistant Professor of Obstetrics and Gynecology at Hofstra North Shore—LIJ School of Medicine in Hempstead, NY.


Andrew W. Menzin, MD
Dr. Menzin is Vice Chairman for Academic Affairs and Associate Chief of Gynecologic Oncology at North Shore University Hospital–Long Island Jewish Medical Center in Manhasset, NY.

Dr. dos Santos reports no financial relationships relevant to this article. Dr. Menzin reports that he is a consultant to Ethicon Biosurgery.

Author and Disclosure Information


Lisa A. dos Santos, MD
Dr. dos Santos is Attending Physician, Division of Gynecologic Oncology, at North Shore University Hospital–Long Island Jewish Medical Center in Manhasset, NY, and Assistant Professor of Obstetrics and Gynecology at Hofstra North Shore—LIJ School of Medicine in Hempstead, NY.


Andrew W. Menzin, MD
Dr. Menzin is Vice Chairman for Academic Affairs and Associate Chief of Gynecologic Oncology at North Shore University Hospital–Long Island Jewish Medical Center in Manhasset, NY.

Dr. dos Santos reports no financial relationships relevant to this article. Dr. Menzin reports that he is a consultant to Ethicon Biosurgery.

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Article PDF

Vessel-sealing devices and hemostatic adjuvants are expanding the surgical armamentarium. These products provide a spectrum of alternatives that can serve you and your surgical patient well when traditional techniques for obtaining hemostasis fail to provide a satisfactory result. (Keep in mind, however, that technology is no substitute for excellent technique!)

In this article, we highlight three common scenarios in which topical hemostatic agents may be useful during gynecologic surgery. In addition, in the sidebar, five surgeons describe the hemostatic products they rely on most often—and tell why.


Following hysterectomy, persistent oozing along the anterior vaginal margin, distal to the cuff and adjacent to the site of bladder mobilization, may be managed with the aid of a topical hemostatic agent—in this case, a fibrin sealant.

When the site of bleeding is difficult to reach

CASE 1: Oozing at the site of bladder mobilization


You perform total hysterectomy in a 44-year-old woman who has uterine fibroids. After the procedure, you notice persistent oozing along the anterior vaginal margin, distal to the cuff and adjacent to where the bladder was mobilized.

How do you manage the oozing?

Wide mobilization of the bladder is a vital step in the safe performance of hysterectomy. Adhesions may complicate the process if the patient has had previous abdominal surgery, infection, or inflammation. Following mobilization of the bladder and removal of the uterus, bleeding may be visible along the adventitia of the posterior bladder wall or along the anterior surface of the vagina, distal to the cuff, as it is in this case (see the illustration).

Judicious application of an energy source is an option, but thermal injury to the bladder is a concern. A good alternative is proper placement of a hemostatic suture, but it can sometimes be difficult to avoid incorporating the bladder or injuring or obstructing the nearby ureter.

In this case, the location of the bleeding deep in the operative field poses a challenge, because of limited exposure and the proximity of the bladder and ureters. Virtually any hemostatic agent would work well in this circumstance (TABLE). For example, a flowable agent or fibrin sealant could be thoroughly applied to the area during a minimally invasive or open procedure and would naturally conform to the irregularities in the tissue, particularly the junction between the vagina and bladder flap.

A pliable product such as Surgicel Nu-Knit or Fibrillar would also work well in these circumstances, although successful application during laparoscopy may depend on the size of the trocar. For example, Nu-Knit would require trimming to a size suitable for passage through a trocar, made easier by moistening with saline. The weave of Fibrillar makes it more challenging to pass, intact, through a trocar; rolling the material into a cylindrical shape may reduce its diameter and allow it to pass more easily.

CASE 1: Resolved

You apply a fibrin sealant to the site of bleeding, and the oozing abates. Once complete hemostasis is ensured, you conclude the surgery and transfer the patient to recovery, where she does well.

Profiles in hemostasis: Strengths and weaknesses of topical agent

Agent (brands)CompositionForms availableMechanism of actionAdvantagesCaveatsDurationRelative cost*
Physical agents
Gelatin matrix (Gelfoam, Gelfilm, Surgifoam)Porcine- derived collagenSponge, film, powderProvides physical matrix for clot formationNon-antigenic; neutral pH; may be used with thrombinMaterial expansion may cause compression; Not for use in closed spaces or near nerve structures4–6 weeks$
Oxidized regenerated cellulose (Surgicel Fibrillar, Surgicel Nu-Knit)Wood pulpMesh or packed fibersProvides physical matrix for clot formation; acidic pH causes hemolysis and local clot formationPliable, easy to place through laparoscope; acidic pH has antimicrobial effectWorks best in a dry field. Acidic pH inactivates biologic agents, such as thrombin, and may increase inflammation. Avoid using excess material.2–4 weeks$
Microfibrillar collagen (Avitene, Instat, Helitene Helistat)Bovine-derived collagenPowder, non-woven sheet, spongeAbsorbable acid salt. Provides physical scaffold for platelet activation and clot initiation.Sheet form may be passed through laparoscope; minimal expansionRare allergic reactions reported; may contribute to granuloma formation8–12 weeks$$
Biologically active agents
Topical thrombin (Thrombin-JMI, Recothrom, Evithrom, rh Thrombin)Bovine, human, or recombinantLiquidPromotes conversion of fibrinogen to fibrinMay be combined effectively with physical agents of neutral pH; recombinant human thrombin will be available in the near futureRisk of blood-borne infection with non-recombinant human thrombin; risk of anaphylaxis and antibody formation with bovine thrombinN/A$$
Hemostatic matrix (Floseal, Surgiflo)Thrombin plus gelatinFoamGelatin granules provide expansion and compression while thrombin initiates clot formationMay be used in areas of small arterial bleedingRequires contact with blood6–8 weeks$$$
Fibrin sealants (Evicel, Tisseel, Crosseal)HumanLiquidCombination of fibrinogen and thrombin causes cleavage of fibrinogen to fibrin and resultant clot initiationFast-acting; hemostatic and adhesive properties; works well for diffusely oozing surfacesContraindicated in patients who have a history of anaphylactic reaction to serum-derived products or IgA deficiency10–14 days$$$
* Median cost for use in one case
Key: $=inexpensive; $$=moderately expensive; $$$=expensive
 

 

Controlling bleeding without injuring underlying tissue

CASE 2: After adhesiolysis, bleeding at multiple sites


You perform adnexectomy on a 47-year-old woman who has a large (7 to 8 cm), benign ovarian mass. As you operate, you discover that the lesion is adherent to the sigmoid mesentery and the posterior aspect of the uterus; it is also adherent to the pelvic sidewall, directly along the course of the ureter. Although you are able to release the various adhesive attachments, persistent bleeding is noted at multiple pinpoint areas along the mesentery, uterine serosa, and pelvic sidewall, even after the application of direct pressure.

What do you do next?

Although cautery can be used liberally on the uterus, its application to mesentery carries a risk of injury to the mesenteric vessels and bowel wall. Caution is advised when you are attempting to control bleeding on the peritoneum overlying the ureter, whether you are using suture ligature or an energy source. Ideally, you should identify the ureter using a retroperitoneal approach and mobilize it laterally before employing any of these techniques.

There are several potential approaches to the bleeding described in Case 2, all of them involving hemostatic adjuvants. The first decision you need to make, however, is whether to address each region separately or all sites in unison. If you opt to address them together—either during an open procedure or laparoscopy—a fibrin sealant (e.g., Evicel, Tisseel) is one option. It can be applied using a dripping technique or aerosolization, either of which allows for broad application of a thin film of the agent. The limitation of this approach is the volume of agent required to resolve the bleeding, with a potential need for multiple doses to completely coat the area.

Because fibrin sealants function independently of the patient’s coagulation cascade, they are particularly useful in the presence of disseminated intravascular coagulation (DIC) and other coagulopathies that might limit the effectiveness of preparations that require the patient’s own serum.

An alternative approach to Case 2 is to apply an oxidized regenerated cellulose (ORC) derivative directly to the affected areas. Various forms are available (e.g., Surgicel Fibrillar, Surgicel Nu-Knit). These ORC products can be cut and customized to the area in need of hemostasis, allowing each site to be addressed individually. These agents typically remain adherent after they are applied due to the nature of the interaction between the product, blood, and tissue.

A liquid or foam hemostatic agent (e.g., Surgiflo, Floseal, topical thrombin) could also be employed in this case, but application can be a challenge on a large area with a heterogeneous topography because of the tendency of such agents to migrate under the force of gravity, pooling away from the source of bleeding.

Is combining agents a good idea?

Although they are not typically approved for use in combination, sequential application of hemostatic agents may be considered when bleeding persists.

All hemostatic agents work best in combination with the application of pressure. It usually is advisable to use moist gauze for this purpose because it can be lifted away without significant adherence to the underlying hemostatic complex, avoiding clot

disruption.

CASE 2: Resolved

You opt to use an ORC product, customizing it to fit each bleeding site, and apply direct pressure. When hemostasis has been achieved at all sites, you complete the operation. The patient has an uneventful postoperative course.

Protect structures along the pelvic sidewall

CASE 3: When the application of pressure isn’t enough


While performing a left salpingo-oophorectomy for a 12-cm ovarian lesion, you use a retroperitoneal approach to identify the structures along the pelvic sidewall. During identification of the ureter, you encounter bleeding from a small vessel in the adjacent fatty areolar tissue. After a period of observation, during which you apply pressure to the area of concern, bleeding persists.

What hemostatic agent do you employ to stop it?

The careful application of steady pressure is often enough to safely control bleeding in the area of the pelvic sidewall. In the event that pressure alone fails to resolve the bleeding, however, it is critical to choose a remedy that avoids injuring the ureter, iliac vessels, and infundibulopelvic ligament. Wide exposure of the space may allow for direct identification of the point of bleeding and precise application of cautery, a hemoclip, or a tie. When this approach is not feasible, other solutions must be sought.

When traditional hemostatic techniques fail in delicate anatomic sites, such as the periureteral area, hemostatic agents are an effective option that can minimize the risk of injury to surrounding vital structures. The contour of the space calls for a product that can intercalate, such as a foam, sealant, or Surgicel Fibrillar. Direct, precise application to the point of bleeding is critical, and the “bunching up” of a more rigid and bulky agent may limit its application to the area of concern. Use of a moist gauze to apply direct pressure after application of the agent will increase the likelihood of success.

 

 

CASE 3: Resolved

You decide to apply a foam hemostatic agent because of its ability to conform to the irregular space. You also continue to apply gentle pressure to the point of bleeding, using a moist gauze. Within minutes, hemostasis is achieved. You are then able to finish the operation.

Other variables to consider

As these three cases illustrate, the use of hemostatic agents to control surgical bleeding requires an individualized approach. The site and amount of bleeding, as well as the patient’s hemodynamic and coagulation status, are key variables to be considered when selecting an agent.

For instance, because of their components, fibrin sealants can function independently of the patient’s coagulation status. ORC products provide a matrix that facilitates platelet aggregration and may be less effective when anti-platelet agents have been used.

It is also appropriate for the surgeon to be familiar with the relative cost of the agents available at his or her institution. In particular, when several agents may be equally effective in a particular set of circumstances, cost may be the determining factor.

Availability of these agents varies from one institution to the next; as a result, it can be challenging to maintain familiarity with all of the products in the marketplace. Having access to a diverse, readily available set of “go to” agents is critical to ensure rapid application in a clinical setting.

The surgeon’s preference also is important, particularly in regard to the ease of preparation and handling. Some agents may not be as suitable for minimally invasive procedures (see TABLE). For others, special laparoscopic applicators are available.

When using a hemostatic agent, it pays to consider the duration of its effect in the surgical site. Both the quantity of the agent that is applied and characteristics of the local operative site influence how quickly the agent degrades. Keep this in mind when imaging studies are planned for the early postoperative period. An ORC preparation, for example, may appear with small pockets of air that resemble an abscess. Effective communication with the radiology team is critical to avoid the misinterpretation of findings.

Choosing a topical agent? First, consider surgical technique.

Curious to discover the preferences and practices of surgeons likely to utilize topical hemostatic agents, OBG Management polled several experienced and expert surgeons, including members of the journal’s Board of Editors and Virtual Board of Editors. Their diverse responses offer a snapshot of gynecologic surgical practice in 2012—but all agree that hemostatic products are no substitute for sound surgical technique.
JANELLE YATES, SENIOR EDITOR






We want to hear from you! Tell us what you think.

Vessel-sealing devices and hemostatic adjuvants are expanding the surgical armamentarium. These products provide a spectrum of alternatives that can serve you and your surgical patient well when traditional techniques for obtaining hemostasis fail to provide a satisfactory result. (Keep in mind, however, that technology is no substitute for excellent technique!)

In this article, we highlight three common scenarios in which topical hemostatic agents may be useful during gynecologic surgery. In addition, in the sidebar, five surgeons describe the hemostatic products they rely on most often—and tell why.


Following hysterectomy, persistent oozing along the anterior vaginal margin, distal to the cuff and adjacent to the site of bladder mobilization, may be managed with the aid of a topical hemostatic agent—in this case, a fibrin sealant.

When the site of bleeding is difficult to reach

CASE 1: Oozing at the site of bladder mobilization


You perform total hysterectomy in a 44-year-old woman who has uterine fibroids. After the procedure, you notice persistent oozing along the anterior vaginal margin, distal to the cuff and adjacent to where the bladder was mobilized.

How do you manage the oozing?

Wide mobilization of the bladder is a vital step in the safe performance of hysterectomy. Adhesions may complicate the process if the patient has had previous abdominal surgery, infection, or inflammation. Following mobilization of the bladder and removal of the uterus, bleeding may be visible along the adventitia of the posterior bladder wall or along the anterior surface of the vagina, distal to the cuff, as it is in this case (see the illustration).

Judicious application of an energy source is an option, but thermal injury to the bladder is a concern. A good alternative is proper placement of a hemostatic suture, but it can sometimes be difficult to avoid incorporating the bladder or injuring or obstructing the nearby ureter.

In this case, the location of the bleeding deep in the operative field poses a challenge, because of limited exposure and the proximity of the bladder and ureters. Virtually any hemostatic agent would work well in this circumstance (TABLE). For example, a flowable agent or fibrin sealant could be thoroughly applied to the area during a minimally invasive or open procedure and would naturally conform to the irregularities in the tissue, particularly the junction between the vagina and bladder flap.

A pliable product such as Surgicel Nu-Knit or Fibrillar would also work well in these circumstances, although successful application during laparoscopy may depend on the size of the trocar. For example, Nu-Knit would require trimming to a size suitable for passage through a trocar, made easier by moistening with saline. The weave of Fibrillar makes it more challenging to pass, intact, through a trocar; rolling the material into a cylindrical shape may reduce its diameter and allow it to pass more easily.

CASE 1: Resolved

You apply a fibrin sealant to the site of bleeding, and the oozing abates. Once complete hemostasis is ensured, you conclude the surgery and transfer the patient to recovery, where she does well.

Profiles in hemostasis: Strengths and weaknesses of topical agent

Agent (brands)CompositionForms availableMechanism of actionAdvantagesCaveatsDurationRelative cost*
Physical agents
Gelatin matrix (Gelfoam, Gelfilm, Surgifoam)Porcine- derived collagenSponge, film, powderProvides physical matrix for clot formationNon-antigenic; neutral pH; may be used with thrombinMaterial expansion may cause compression; Not for use in closed spaces or near nerve structures4–6 weeks$
Oxidized regenerated cellulose (Surgicel Fibrillar, Surgicel Nu-Knit)Wood pulpMesh or packed fibersProvides physical matrix for clot formation; acidic pH causes hemolysis and local clot formationPliable, easy to place through laparoscope; acidic pH has antimicrobial effectWorks best in a dry field. Acidic pH inactivates biologic agents, such as thrombin, and may increase inflammation. Avoid using excess material.2–4 weeks$
Microfibrillar collagen (Avitene, Instat, Helitene Helistat)Bovine-derived collagenPowder, non-woven sheet, spongeAbsorbable acid salt. Provides physical scaffold for platelet activation and clot initiation.Sheet form may be passed through laparoscope; minimal expansionRare allergic reactions reported; may contribute to granuloma formation8–12 weeks$$
Biologically active agents
Topical thrombin (Thrombin-JMI, Recothrom, Evithrom, rh Thrombin)Bovine, human, or recombinantLiquidPromotes conversion of fibrinogen to fibrinMay be combined effectively with physical agents of neutral pH; recombinant human thrombin will be available in the near futureRisk of blood-borne infection with non-recombinant human thrombin; risk of anaphylaxis and antibody formation with bovine thrombinN/A$$
Hemostatic matrix (Floseal, Surgiflo)Thrombin plus gelatinFoamGelatin granules provide expansion and compression while thrombin initiates clot formationMay be used in areas of small arterial bleedingRequires contact with blood6–8 weeks$$$
Fibrin sealants (Evicel, Tisseel, Crosseal)HumanLiquidCombination of fibrinogen and thrombin causes cleavage of fibrinogen to fibrin and resultant clot initiationFast-acting; hemostatic and adhesive properties; works well for diffusely oozing surfacesContraindicated in patients who have a history of anaphylactic reaction to serum-derived products or IgA deficiency10–14 days$$$
* Median cost for use in one case
Key: $=inexpensive; $$=moderately expensive; $$$=expensive
 

 

Controlling bleeding without injuring underlying tissue

CASE 2: After adhesiolysis, bleeding at multiple sites


You perform adnexectomy on a 47-year-old woman who has a large (7 to 8 cm), benign ovarian mass. As you operate, you discover that the lesion is adherent to the sigmoid mesentery and the posterior aspect of the uterus; it is also adherent to the pelvic sidewall, directly along the course of the ureter. Although you are able to release the various adhesive attachments, persistent bleeding is noted at multiple pinpoint areas along the mesentery, uterine serosa, and pelvic sidewall, even after the application of direct pressure.

What do you do next?

Although cautery can be used liberally on the uterus, its application to mesentery carries a risk of injury to the mesenteric vessels and bowel wall. Caution is advised when you are attempting to control bleeding on the peritoneum overlying the ureter, whether you are using suture ligature or an energy source. Ideally, you should identify the ureter using a retroperitoneal approach and mobilize it laterally before employing any of these techniques.

There are several potential approaches to the bleeding described in Case 2, all of them involving hemostatic adjuvants. The first decision you need to make, however, is whether to address each region separately or all sites in unison. If you opt to address them together—either during an open procedure or laparoscopy—a fibrin sealant (e.g., Evicel, Tisseel) is one option. It can be applied using a dripping technique or aerosolization, either of which allows for broad application of a thin film of the agent. The limitation of this approach is the volume of agent required to resolve the bleeding, with a potential need for multiple doses to completely coat the area.

Because fibrin sealants function independently of the patient’s coagulation cascade, they are particularly useful in the presence of disseminated intravascular coagulation (DIC) and other coagulopathies that might limit the effectiveness of preparations that require the patient’s own serum.

An alternative approach to Case 2 is to apply an oxidized regenerated cellulose (ORC) derivative directly to the affected areas. Various forms are available (e.g., Surgicel Fibrillar, Surgicel Nu-Knit). These ORC products can be cut and customized to the area in need of hemostasis, allowing each site to be addressed individually. These agents typically remain adherent after they are applied due to the nature of the interaction between the product, blood, and tissue.

A liquid or foam hemostatic agent (e.g., Surgiflo, Floseal, topical thrombin) could also be employed in this case, but application can be a challenge on a large area with a heterogeneous topography because of the tendency of such agents to migrate under the force of gravity, pooling away from the source of bleeding.

Is combining agents a good idea?

Although they are not typically approved for use in combination, sequential application of hemostatic agents may be considered when bleeding persists.

All hemostatic agents work best in combination with the application of pressure. It usually is advisable to use moist gauze for this purpose because it can be lifted away without significant adherence to the underlying hemostatic complex, avoiding clot

disruption.

CASE 2: Resolved

You opt to use an ORC product, customizing it to fit each bleeding site, and apply direct pressure. When hemostasis has been achieved at all sites, you complete the operation. The patient has an uneventful postoperative course.

Protect structures along the pelvic sidewall

CASE 3: When the application of pressure isn’t enough


While performing a left salpingo-oophorectomy for a 12-cm ovarian lesion, you use a retroperitoneal approach to identify the structures along the pelvic sidewall. During identification of the ureter, you encounter bleeding from a small vessel in the adjacent fatty areolar tissue. After a period of observation, during which you apply pressure to the area of concern, bleeding persists.

What hemostatic agent do you employ to stop it?

The careful application of steady pressure is often enough to safely control bleeding in the area of the pelvic sidewall. In the event that pressure alone fails to resolve the bleeding, however, it is critical to choose a remedy that avoids injuring the ureter, iliac vessels, and infundibulopelvic ligament. Wide exposure of the space may allow for direct identification of the point of bleeding and precise application of cautery, a hemoclip, or a tie. When this approach is not feasible, other solutions must be sought.

When traditional hemostatic techniques fail in delicate anatomic sites, such as the periureteral area, hemostatic agents are an effective option that can minimize the risk of injury to surrounding vital structures. The contour of the space calls for a product that can intercalate, such as a foam, sealant, or Surgicel Fibrillar. Direct, precise application to the point of bleeding is critical, and the “bunching up” of a more rigid and bulky agent may limit its application to the area of concern. Use of a moist gauze to apply direct pressure after application of the agent will increase the likelihood of success.

 

 

CASE 3: Resolved

You decide to apply a foam hemostatic agent because of its ability to conform to the irregular space. You also continue to apply gentle pressure to the point of bleeding, using a moist gauze. Within minutes, hemostasis is achieved. You are then able to finish the operation.

Other variables to consider

As these three cases illustrate, the use of hemostatic agents to control surgical bleeding requires an individualized approach. The site and amount of bleeding, as well as the patient’s hemodynamic and coagulation status, are key variables to be considered when selecting an agent.

For instance, because of their components, fibrin sealants can function independently of the patient’s coagulation status. ORC products provide a matrix that facilitates platelet aggregration and may be less effective when anti-platelet agents have been used.

It is also appropriate for the surgeon to be familiar with the relative cost of the agents available at his or her institution. In particular, when several agents may be equally effective in a particular set of circumstances, cost may be the determining factor.

Availability of these agents varies from one institution to the next; as a result, it can be challenging to maintain familiarity with all of the products in the marketplace. Having access to a diverse, readily available set of “go to” agents is critical to ensure rapid application in a clinical setting.

The surgeon’s preference also is important, particularly in regard to the ease of preparation and handling. Some agents may not be as suitable for minimally invasive procedures (see TABLE). For others, special laparoscopic applicators are available.

When using a hemostatic agent, it pays to consider the duration of its effect in the surgical site. Both the quantity of the agent that is applied and characteristics of the local operative site influence how quickly the agent degrades. Keep this in mind when imaging studies are planned for the early postoperative period. An ORC preparation, for example, may appear with small pockets of air that resemble an abscess. Effective communication with the radiology team is critical to avoid the misinterpretation of findings.

Choosing a topical agent? First, consider surgical technique.

Curious to discover the preferences and practices of surgeons likely to utilize topical hemostatic agents, OBG Management polled several experienced and expert surgeons, including members of the journal’s Board of Editors and Virtual Board of Editors. Their diverse responses offer a snapshot of gynecologic surgical practice in 2012—but all agree that hemostatic products are no substitute for sound surgical technique.
JANELLE YATES, SENIOR EDITOR






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References

Recommended reading

Achneck HE, Sileshi B, Jamiolkowski RM, et al. A comprehensive review of topical hemostatic agents: efficacy and recommendations for use. Ann Surg. 2010;251(2):217-228.

Chapman WC, Singla N, Genyk Y, et al. A phase 3, randomized, double-blind comparative study of the efficacy and safety of topical recombinant human thrombin and bovine thrombin in surgical hemostasis. J Am Coll Surg. 2007;205(2):256-265.

Holub Z, Jabor A. Laparoscopic management of bleeding after laparoscopic or vaginal hysterectomy. JSLS. 2004;8(3):235-238.

Sharma JB, Malhotra M. Laparoscopic oxidized cellulose (Surgicel) application for small uterine perforations. Int J Gynaecol Obstet. 2003;83(3):271-275.

Sharma JB, Malhotra M. Topical oxidized cellulose for tubal hemorrhage hemostasis during laparoscopic sterilization. Int J Gynaecol Obstet. 2003;82(2):221-222.

References

Recommended reading

Achneck HE, Sileshi B, Jamiolkowski RM, et al. A comprehensive review of topical hemostatic agents: efficacy and recommendations for use. Ann Surg. 2010;251(2):217-228.

Chapman WC, Singla N, Genyk Y, et al. A phase 3, randomized, double-blind comparative study of the efficacy and safety of topical recombinant human thrombin and bovine thrombin in surgical hemostasis. J Am Coll Surg. 2007;205(2):256-265.

Holub Z, Jabor A. Laparoscopic management of bleeding after laparoscopic or vaginal hysterectomy. JSLS. 2004;8(3):235-238.

Sharma JB, Malhotra M. Laparoscopic oxidized cellulose (Surgicel) application for small uterine perforations. Int J Gynaecol Obstet. 2003;83(3):271-275.

Sharma JB, Malhotra M. Topical oxidized cellulose for tubal hemorrhage hemostasis during laparoscopic sterilization. Int J Gynaecol Obstet. 2003;82(2):221-222.

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OBG Management - 24(04)
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OBG Management - 24(04)
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Your surgical toolbox should include topical hemostatic agents—here is why
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Your surgical toolbox should include topical hemostatic agents—here is why
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Lisa dos Santos MD;Andrew Menzin MD;Joseph Sanfilippo MD;Cheryl Inglesia MD;Robert DelRosario MD;Kurian Thott MD;Devin Namaky MD;topical hemostatic agents;hemostasis;microsurgical principles;Gelatin matrix;Gelfoam;Gelfilm;Surgifoam;Oxidized regenerated cellulose;Surgicel Fibrillar;Surgicel Nu-Knit;Microfibrillar collagen;Avitene;Instat;Helitene Helistat;Topical thrombin;Thrombin-JMI;Recothrom;Evithrom;rh Thrombin;Hemostatic matrix;Floseal;Surgiflo;Fibrin sealants;Evicel;Tisseel;Crosseal;
Legacy Keywords
Lisa dos Santos MD;Andrew Menzin MD;Joseph Sanfilippo MD;Cheryl Inglesia MD;Robert DelRosario MD;Kurian Thott MD;Devin Namaky MD;topical hemostatic agents;hemostasis;microsurgical principles;Gelatin matrix;Gelfoam;Gelfilm;Surgifoam;Oxidized regenerated cellulose;Surgicel Fibrillar;Surgicel Nu-Knit;Microfibrillar collagen;Avitene;Instat;Helitene Helistat;Topical thrombin;Thrombin-JMI;Recothrom;Evithrom;rh Thrombin;Hemostatic matrix;Floseal;Surgiflo;Fibrin sealants;Evicel;Tisseel;Crosseal;
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