Suture placement and secure knot-tying represent fundamental technical skills in oral and maxillofacial surgery where proper technique directly impacts wound healing, infection prevention, and esthetic outcomes. While often appearing simple, subtle variations in knot configuration, tension application, and material selection substantially affect knot security and tissue approximation. This article examines suture material characteristics, knot-tying mechanics, proper tension application, and evidence-based protocols ensuring secure, reliable wound closure in intraoral and extraoral surgical sites.
Suture Materials and Properties
Sutures are characterized as absorbable (biodegradable over time) or non-absorbable (persistent in tissue indefinitely), and as monofilament (single strand) or multifilament (braided or twisted).
Absorbable Sutures: These disappear through hydrolysis or enzymatic degradation, eliminating need for removal. Gut sutures (chromic and plain) were historically standard but have largely been replaced by synthetic alternatives. Plain gut loses strength rapidly (7-10 days), while chromic gut retains strength longer (2-3 weeks).Synthetic absorbable sutures offer more predictable absorption:
- Polyglactin 910 (Vicryl): Braided, multifilament suture losing strength by 2 weeks, fully absorbed by 60-90 days. Excellent handling and knot security make it popular for intraoral sites.
- Polydioxanone (PDS II): Monofilament, retains strength up to 4 weeks, absorbs completely by 180 days. Superior strength retention suits areas requiring longer wound support.
- Poliglecaprone 25 (Monocryl): Monofilament, rapid strength loss by 1-2 weeks, full absorption by 90-120 days. Good handling but lowest knot security among commonly used materials.
Nylon (monofilament and braided) offers excellent strength, minimal inflammatory response, and good visibility. Braided nylon handles well but absorbs fluid increasing volume and tissue irritation. Monofilament nylon has excellent strength and minimal tissue response but is slippery, requiring more knots for security.
Polypropylene (monofilament) provides excellent strength and minimal tissue reaction but proves slippery. Its low friction enables smooth removal without tissue trauma.
Non-absorbable sutures suit extraoral closure where esthetics demands precise closure duration and removal at optimal timing (5-7 days for face). Suture removal timing requires judgment; removal too early risks wound dehiscence, while late removal risks track marks and suture material incorporation.
Suture Gauge Selection
Suture gauge directly impacts strength, visibility, and tissue reaction. Smaller gauge (larger number: 4-0, 5-0, 6-0) provides delicate closure for fine tissue approximation. Larger gauge (3-0, 2-0) offers greater strength suited for supporting tissues.
Intraoral closure typically uses 3-0 or 4-0 sutures providing adequate strength with minimal tissue trauma. Extraoral closure varies by location; facial closure often uses 5-0 or 6-0 for esthetics, while scalp and body tissues use 3-0 or 4-0.
Needle Selection and Suture Placement Technique
Needle geometry (cutting, reverse-cutting, round-body) affects tissue penetration and holding. Cutting needles (triangular cross-section) penetrate dense tissues but may cut through friable tissue. Reverse-cutting needles have the cutting edge on the inner curve, reducing tissue trauma while maintaining penetration. Round-body needles suit delicate tissues, though requiring greater force for penetration.
Proper Placement Technique: Secure wound closure requires proper needle penetration depth and angle. The needle should penetrate tissue at perpendicular angle (90 degrees), traveling parallel to wound edges. Oblique needle trajectories create beveled margins preventing coaptation.Penetration depth should be approximately 2-3 mm from wound margin, enabling tissue layers to be brought together. Shallow penetration risks tissue cut-out; excessive penetration creates unnecessary trauma.
Suture spacing in primary closure is typically 3-5 mm apart, creating approximately one stitch per tooth height in oral sites. Closer spacing improves approximation but increases inflammation; wider spacing risks bleeding between stitches and gaping.
Square Knot Versus Surgeon's Knot
Two primary hand-tied knot configurations dominate surgical practice:
Square Knot: The most secure, reliable knot consists of two throws where the second throw opposes the first (right-left-right or left-right-left pattern). The square knot's inherent stability comes from friction between parallel strands created by opposing throws.Technique: The first throw is created by looping the long suture end around the short end (or vice versa), passing the long end back through, and tightening. The second throw repeats this process with strands reversed (if first throw was right over left, second throw is left over right). The resulting knot presents two parallel strands opposing each other, creating exceptional security.
Surgeon's Knot: This knot adds a double first throw (two loops around the post before pulling through), then completes with a single square throw. The double first throw creates friction locking the knot even before tightening completely.Technique: The long suture end loops twice around the short end before pulling through (creating a double loop). After tightening this throw, a single square throw completes the knot. The surgeon's knot excels when working with slippery suture materials (monofilament nylon, polypropylene) as the double first throw prevents slippage.
Knot Security Comparison: Both knots, properly tied, achieve excellent security. The square knot requires precise technique and appropriate tension. The surgeon's knot offers margin of error, particularly with slippery materials. Studies comparing knot security show both achieve similar strength when executed properly, with differences emerging primarily with poor technique or inappropriate material selection.Hand-Tied Versus Instrument-Tie Techniques
Hand-Tied Knots: Using fingers alone to create knots provides excellent tactile feedback enabling tension adjustment. The surgeon feels knot security as it forms, discontinuing tightening when appropriate tension is achieved. Hand-tying works well with braided sutures and when precise tension control is essential.Technique limitations include difficulty reaching deep or posterior sites, and hand-tie technique variability between surgeons affecting consistency.
Instrument-Tie Knots: Using needle driver and forceps to form knots enables faster, more consistent results. The technique's mechanical nature reduces variability and enables tight access in deep wounds.Technique: The needle driver grasps the suture, forming the first loop around an instrument end. Forceps grasp the suture tail pulling through to create the first throw. Repeating this process creates subsequent throws. Instrument-tying's speed and consistency make it popular for high-volume surgery, though some loss of tactile feedback occurs.
Tension Application and Tissue Approximation
Excessive tension strangulates tissue causing ischemia, necrosis, and tissue cut-out. The suture should bring wound edges into intimate contact without blanching tissue or causing ischemia.
Optimal tension is judged visually and tactilely; wound edges should be approximated without visible tension in tissue adjacent to the suture. Overly tight sutures create white zones around the wound indicating ischemia. This tension must be relieved by loosening the knot slightly.
Insufficient tension leaves gaps between wound edges preventing approximation, requiring bleeding and granulation tissue bridging, ultimately creating weaker scars.
Proper tension application requires experience and judgment. The knot is tightened sufficiently to approximate edges, then slightly loosened to achieve optimal tension.
Specific Technique: Hand-Tied Square Knot
Step-by-step execution:1. Depth Verification: Ensure needle enters at appropriate depth (2-3 mm) and angle (perpendicular).
2. First Throw: Hold suture ends in opposite hands (left hand holds short end steady, right hand manipulates long end). Wrap the long end around the short end toward the operator, crossing over itself. Pass the long end back under and through the loop created, and pull tight. This first throw should be a single loop opposing direction (right-handed wrap, right-handed pull-through).
3. Tension Adjustment: Before tightening the second throw, adjust first throw tension to appropriate level (snug but not strangulating).
4. Second Throw: Now reverse directions (if first throw was right-over-left, perform left-over-right). Loop the long end around the short end in opposite direction. Pass back through and pull tight. This reversed direction creates the square configuration.
5. Knot Verification: Inspect the completed knot; proper square knot presents two parallel strands opposing each other. The knot should lie flat against tissue without rolling or flipping.
6. Tail Trimming: Cut suture tails approximately 2-3 mm from the knot. Longer tails create irritation; shorter tails risk knot unraveling if knot is inadequately secured.
Managing Difficult Suturing Situations
Deep Wounds: Use instrument-tie technique with needle driver and forceps enabling reach into deep areas impossible with hand-tie. Multiple throws (3-4) increase security in slippery materials. Slippery Materials: Increase throws (surgeon's knot with additional throws) and ensure maximum tension control before finalizing knot. Some surgeons prefer surgeon's knot specifically for monofilament materials. Friable Tissue: Use larger needle diameter with gentle handling to avoid tissue cut-out. Consider absorbable braided sutures (Vicryl) with superior tissue handling compared to monofilament. Esthetic Concerns: Buried knots (placing knot below tissue surface or on mucosal side) improve esthetics for facial closure. This technique requires slightly different needle placement to enable knot positioning away from visible surfaces.Post-operative Wound Care and Healing
Proper wound care maximizes healing and minimizes infection. Intraoral sutures benefit from chlorhexidine rinses (0.12%) beginning 24 hours post-operatively, reducing bacterial load without delaying healing. Extraoral sutures should be kept clean and dry; gentle washing with soap and water maintains cleanliness without excessive manipulation.
Suture removal timing permits adequate wound strength development while avoiding track mark formation. Intraoral absorbable sutures resorb naturally. Non-absorbable intraoral sutures are typically left in place as removal proves difficult and risks reopening healing wounds; they eventually shed as mucosal epithelium granulates over them.
Extraoral sutures are typically removed at 5-7 days for facial wounds (excellent blood supply accelerates healing), 7-10 days for scalp, and 10-14 days for trunk or extremities (slower healing).
Troubleshooting Common Issues
Knot Unraveling: Indicates inadequate throws or improper knot technique. Secure with additional throws after tightening. Suture Breaking During Tightening: Suggests excessive tension or material defect. Replace with new suture using slightly less aggressive tension. Tissue Cut-Out: Results from excessive tension, inadequate depth, or fragile tissue. Prevent by reducing tension and using larger gauge suture with broader needle if possible. Persistent Bleeding: May indicate vessel adjacent to suture tract. Apply gentle pressure and assess for ongoing oozing. Additional hemostasis may be needed before continuing.Mastery of suture placement and knot-tying techniques represents a surgical fundamental affecting wound healing, infection prevention, and patient satisfaction. Practice, attention to detail, and appropriate material selection enable reliable surgical closure optimizing patient outcomes in oral and maxillofacial surgery.