62. Maxillofacialinjur
From Primary Surgery
62 Maxillofacial injuries
62.1 The general method for maxillofacial injuries
A patient with a severe facial injury is a very distressing sight -so distressing that you may feel that you can do nothing for him. In fact, you can do much, and maxillofacial injuries are no more difficult (or easy) than any others. They are usually the result of road accidents, and seat belts prevent most of them.
Not surprisingly, the parts of the face which stick out are those which are most often injured-a patient's nose, his zygoma, or his mandible. Fortunately, their injuries are usually not too difficult to treat. Much greater force has to be applied to fracture his maxilla, with the result that maxillary injuries are less common, but much more difficult. Although we describe each injury separately here, a patient is likely to have several of them, and other injuries also, especially injuries to his head and eyes.
Fractures of the middle third of the face are so complex that we shall not attempt to classify them except to say that the usual classification is that of Le Fort, who divided them into Types One, Two, and Three, as shown in Fig. 62-1. In a Type One fracture the alveolus, or tooth bearing part of the patient's upper jaw, breaks off, and may drop onto his lower teeth. In Types Two and Three the fracture lines are higher up in his maxilla.
These fracture types may be combined, and may occur on one or both sides. The radiology, reduction, and fixation of the more difficult Le Fort fractures is beyond a district hospital. But prompt treatment, particularly in securing a patient's airway, may save his life, after which you have several days in which to refer him for expert reduction and fixation. Failure to reduce one of these fractures can cause severe deformities, which include a jaw which does not close, 'dish face', and diplopia. If you cannot refer a patient, we describe some of the easier methods you can use.
WHAT OTHER INJURIES DOES THE PATIENT HAVE?
The critical displacement in Le Fort fractures of Types Two and Three is the downward movement of the bones of the middle of the patient's face, as shown in Fig. 62-2. The strong front of his cranium forms an inclined plane, down which his facial skeleton slides. (1) This lengthens his face. (2) It pushes his upper molars down onto his lower ones so that they gag (prevent his jaw closing properly). (3) It pushes his soft palate down onto his tongue and prevents him breathing through this mouth. At the same time, his fracture bleeds severely, and his nose is obstructed by blood clot. The result is that he may suffocate, so the immediate life saving procedure is to hook two of your fingers round the back of is hard palate, and pull his maxilla back up the inclined plane of his skull. This will allow him to breathe. His breathing can also be obstructed by bilateral fractures of his lower jaw which allow his tongue to fall back against his pharynx.
Fractures of the middle third of a patient's face have several
other unfortunate features: (1) They are always multiple,
sometimes with 50 or more fragments. (2) Several of his cranial
nerves may be injured, especially his infraorbital and superior
dental nerves. (3) His ethmoid may be fractured and his dura torn, so that CSF leaks from his nose. (4) His orbit may be fractured
(Fig. 62-3), sometimes with the displacement of its contents
into his maxillary sinuses (the orbital blow-out syndrome).
(5) The circulation to his eye may be obstructed and make him
blind if the obstruction is not relieved within minutes of the
accident (the ophthalmic canal syndrome). (6) His maxillary
sinuses may fill with blood. (7) His nasolachrymal ducts may
be injured and cause a flow of tears.
When you treat such a patient aim to: (1) Restore his airway. (2) Control bleeding. (3) Make his teeth bite normally. You should be able to do this with most fractures of his mandible, and some fractures of his maxilla. If either his maxilla or his mandible is intact, you can use one of them to splint the other. If you can make his bite normal, reduction will be perfect. (4) Prevent some deformities by reducing fractures of his nose and zygoma.
If you can refer a patient, do so early because the longer you wait, the more difficult reduction will become. If you cannot refer him, you can certainly save his life, but he may have to live with his deformities. Soon after the injury his face will look distressingly swollen, so do your best to reassure him and his family. The face has a good blood supply and will heal well, so that they can expect him to improve remarkably. But it can also swell quickly and hide underlying deformities, so examine him with care when you first see him.
The methods we describe assume you don't have a dental
laboratory, and so cannot make cap splints, etc. You will however
need a drill and some soft stainless steel wire (70.9). Occasionally
an arch bar is useful. If you can get the help of a dentist, always
do so.
- ARCH BAR, stainless steel, five only. Sometimes, the most convenient
way to fix the fragments of a patient's upper or lower jaw is to bend a metal bar, to shape it, and to wire it to his teeth. If you don't have a proper arch bar, you can use any tough piece of stainless steel wire, or even some paper clips twisted together.
A SWOLLEN FACE CAN CONCEAL A MAJOR INJURY
THE GENERAL METHOD FOR A MAXILLOFACIAL INJURY
This extends Section 51.3 on the care of a severely i njured patient. Injuries to his lower jaw are described i n Section 62.7.
IMMEDIATE TREATMENT
CAN THE PATIENT BREATHE?
If his breathing is difficult, look into his mouth to see if: (1) his airway has been obstructed by blood and vomit, (2) his soft palate has been driven down onto his tongue by displaced Le Fort fractures, or if, (3) his tongue has fallen backwards after a mandibular fracture?
If his soft palate has been driven onto his tongue, hook your fingers round the back of his hard palate, and pull the bones of the middle of his face gently upwards and forwards, so as to restore his airway and perhaps the circulation to his eyes. Reduction may not be easy, and you may need considerable force. If the fracture is impacted and you fail to reduce it, he may need a tracheostomy, as described below.
If necessary, grip his maxillary alveolus with the special forceps (Rowe's) for this purpose, or with suitable strong sharp toothed forceps, and rock it to disimpact the fragments.
If his tongue or lower jaw has fallen backwards, put some sutures or a towel clip through it, and gently pull it forwards. Lying him on his side will also help. When you transport him, lie him on his side.
If he has a severe jaw injury with much tissue loss, transport him lying on his front with his head over the end of the stretcher and his forehead supported by bandages between its handles, as in Fig. 62-4.
If he feels more comfortable sitting up, let him do so. His airway may improve remarkably when he does this.
Suck out his mouth, remove blood clots, debris, loose teeth, vomit, and foreign bodies.
A Guedel airway does not help, so don't waste time trying to insert one. Tracheal intubation is usually impractical.
If his nose is severely injured and bleeding, suck it clear and insert a nasopharyngeal tube, or any similar thick rubber tube, down one side. Put a safety pin through it to stop it slipping, as in A, Fig. 62-2.
CAUTION! A nasopharyngeal tube does not always ensure a clear airway because it may kink or block against the posterior pharyngeal wall, so watch it carefully and twist and adjust it as necessary. Keep it sucked out by passing a smaller tube down it, attached to a sucker. Use the same equipment to suck out the patient's mouth, and keep it beside his bed.
Tracheostomy
You may need to do a tracheostomy (52.2) if: (1) You cannot disimpact and reduce the fracture of the middle third of a patient's face. (2) You cannot control severe posterior bleeding. (3) He has oedema of his glottis, particularly following a neck injury. (4) He has a severe injury with much tissue loss. Tracheostomy will be difficult. Use ketamine, local anaesthesia and a cuffed tube.
CAUTION! If his breathing is in danger and you have to refer him, he will be safer with a tracheostomy than with a suture through his tongue to pull it forward, which is the other alternative.
STOP BLEEDING
Tie any large bleeding vessels. If there is troublesome oozing, apply an adrenaline soaked pack firmly to the bleeding surface. A postnasal pack (Chapter 24) will usually stop bleeding. If necessary, use large temporary haemostatic sutures (3.1), but take care not to strangle the tissues.
If a wound is deep, be prepared to pack it. Occasionally, you may have to tie a patient's external carotid artery (3.5).
SHOCK is unusual. If a patient is shocked, suspect that he also has an abdominal or a thoracic injury.
THE HISTORY AND EXAMINATION OF A MAXILOFACIAL INJURY
The patient is probably unable to talk, so enquire from observers if he lost consciousness and so might have a head injury (63.1).
Gently wash his face with warm water to remove caked blood. Look at it carefully for asymmetry. Compare one side with the other throughout the examination. Is his nose or his face flattened? If you suspect a fracture of his zygoma, look at it from above and below and use the two pencil test in Fig. 62-12.
BRUISING
This is a useful guide to underlying injuries. Zygomatic fractures There is always bruising round the patient's orbits, which develops rapidly as a uniform continuous sheet. It is limited peripherally by the attachments of his orbicularis muscle, and extends subconjunctivally towards his eye from the lateral side. Ask him to look inwards. You will see bruising extending back into his orbit without a posterior limit.
Look inside his mouth and examine his upper buccal sulcus for bruising, tenderness, and crepitation over his zygomatic buttresses.
Nasal fractures
There is bruising round his orbits which is most severe medially.
Black eye
This is the main differential diagnosis. Orbital bruising is most severe medially. It is subconjunctival, patchy, and bright red.
EYES
Has either of the patient's eyes sunk inwards or downwards? Are they level? Displacement may indicate herniation of the contents of his orbit through its floor into his maxillary sinus, or a fracture at the fronto-zygomatic suture line.
Separate his eyelids, and test the sight of each of his eyes separately. If an eye is blind, its optic nerve may be injured. Ask him to follow your finger as you test for diplopia. This may be due to: (1) displacement of his orbit, (2) displacement of his globe, (3) a 6th nerve palsy, or (4) oedema. If his eye is unable to look upwards, its inferior rectus is trapped, and his orbital floor is probably fractured. Note the size of his pupils and their reaction to light.
If he has massive proptosis, he has a retrobulbar haemorrhage which may be compressing his optic nerve. Make a small incision at his outer canthus, take a haemostat and push this into the incision (B, Fig. 62-5); blood will squirt out.
If you don't do this, his eye will become blind.
FRACTURES OF THE FACE AND SKULL
Carefully feel all over the patient's head and face for tenderness, step deformities, irregularity, or crepitus. Feel his zygomatic bones, the edges of his orbits, his palate, and the bones of his nose. In a Le Fort Type Two or Three fracture you will feel many small bony fragments under the skin in his ethmoid region.
Hold the root of his nose between your finger and thumb. At the same time put two fingers from your other hand into his mouth. If you can move his facial skeleton on his skull, he has a Le Fort fracture. You may feel it move more easily if you hold his upper gum between your thumb and index finger.
Can he open and shut his mouth, bite normally, move his jaw from side to side and protrude it? Do his teeth meet normally? If his bite is abnormal, one or both of his jaws have been fractured. Failure to move his jaw normally may indicate a displaced fracture of his zygoma or his mandible.
Examine the mucosa of both his jaws for bruising, tenderness, irregularity, and crepitus.
NERVE INJURIES
Test for anaesthesia of his cheeks (infraorbital nerves) and upper gums (superior dental nerves).
TOOTH INJURIES
Feel his teeth and try to rock them. Individual teeth may move abnormally, so may several adjacent teeth. Mobile teeth can be caused by: (1) A fracture. (2) Exposure of their roots. (3) Periodontal disease.
Inspect his teeth with a mirror and probe. Tap them; if they give a cracked cup' sound, the bone above them may be fractured.
If a piece of tooth is missing, X-ray the patient's chest in case he has inhaled it.
NOSE INJURIES
Epistaxis is usually unilateral or absent in zygomatic fractures, and bilateral in nasal ones. Examine the patient's nasal septum with a speculum. This may be displaced in a nasal fracture. However, it is often asymmetrical in otherwise normal people. If he has a haematoma of the septum, it needs evacuating, goto 61.4
LEAKING CSF
may be anterior or posterior, and is usually diagnosed after a few days when bleeding and oedema have subsided. The patient may complain of a salty taste in his mouth. If you are uncertain if a discharge is CSF or not, test it as in Section 63.12. CSF may leak in severe naso-ethmoidal fractures and in some Le Fort fractures.
OTHER INJURIES
Look for these (51.3), and especially for a head injury (63.1), or an injury to the patient's cervical spine (64.3). These may be more serious than those of his face. A maxillofacial injury does not usually cause shock, so if he is shocked, suspect some other injury, especially an abdominal one, which may take priority.
X-RAYS
are difficult to interpret, and involve turning the patient into a position which may obstruct his airway. Ask for: (1) An AP view of his mandible. (2) A Waters view of his skull in which you maybe able to recognise: (a) filling of his maxillary antra, and (b) irregularities in the outlines of his orbits showing they have been fractured.
WOUND TOILET AND CLOSURE AFTER A MAXILLOFACIAL INJURY
This must be thorough, especially if sand or tar are ingrained
In the patient's wounds. If you don't remove them, severe
fibrosis and disfigurement will follow. You will find a sterile
toothbrush useful.
Handle his tissues gently with skin hooks and fine forceps. Remove soiled tags of deeper tissues and mucosa with scissors. Trim only 1 or 2 mm of skin edge to provide non-bevelled uncontaminated skin edges which you can approximate accurately. Use a sharp No. 15 blade and ophthalmic scissors. Close his mucosa with 310 silk, or failing this with fine chromic catgut. Close his skin by primary suture after you have fixed any fractures. If necessary, you can undermine the skin of his face for 2 to 3 cm to assist closure.
If part of the patient's cheek is missing, refer him Immediately for primary reconstruction. If this is impractical, stitch his buccal mucosa to his skin (61-4). If necessary, do the same with his nose.
If there are loose bone fragments, conserve them unless they are grossly soiled. You can sterilize detached fragments in boiling water and replace them as chip grafts.
CAUTION! (1) Don't close his skin under tension. (2) Don't leave bone bare-try to cover all bony surfaces.
REDUCING FRACTURES AFTER A MAXILLOFACIAL INJURY
Reduce and, where necessary, fix any fractures of the patient's nose (62.4), zygoma (62.5), and mandible (62.7). These are not urgent operations, so resuscitate him first. For anaesthesia, see A 6.4, and A 16.10. You can do most operations on an injured jaw using pterygopalatine blocks, bilaterally if necessary.
CAUTION! Always protect a patient's eyes when you operate on his face.
If he has a Lie Fort fracture, or an orbital floor fracture, refer him. If you cannot refer him, the next section (62.2) describes some methods you may be able to use.
NURSING A MAXILLOFACIAL INJURY
If the patient is conscious, sit him well forward, so that his tongue falls forward, and blood and saliva can dribble out of his mouth. This will make him comfortable and also help him to breathe.
If he is unconscious, turn him onto his side into the recovery position (51-2), so that blood and saliva can run out of his nose and mouth. If other injuries prevent this, put a pillow under one shoulder, and turn his head to the other side.
FOOD AND FLUIDS
If the patient is to be operated on, withhold these. Otherwise feed him through a tube.
CLEANING AND DISINFECTION is critically important for
the healing of all wounds inside a patient's mouth. Ask him
to rinse out his mouth after eating, using :(1) a rinse containing 10 ml of 0.5% chlorhexidine, or (2) 2% salt solution, or
failing either of these, (3) plain water. As soon as possible,
encourage him to clean his teeth regularly with a toothbrush
or a clean chewing stick.
Coat his lips liberally with vaseline to stop them sticking together and interfering with his respiration.
DRUGS FOR A MAXILLOFACIAL INJURY
Give the patient amoxycillin, ampicillin, or fortified procaine penicillin for one week. Start immediately (2.7). This usually prevents bone infection, and is important if a fracture opens into his mouth.
If his CSF is leaking, give him 1 g of sulphadimidine 6 hourly until 48 hours after it has stopped. Most leaks stop spontaneously, except in severely comminuted fractures.
CAUTION ! Don't give him powerful analgesics, such as morphine, which will depress his cough reflex. If he is restless, give him paradelyde or diazepam.
Don't forget tetanus prophylaxis (54.11).
CHARTS
Start a head injury chart (63-4) and a fluid balance chart (A 15-5).
FURTHER MANAGEMENT OF A MAXILLOFACIAL INJURY
If possible, refer all more serious injuries. Read on for injuries to a patient's teeth and alveoli (62.2), simpler methods for maxillary fractures (62.3), fractures of the patient's nose (62.4), fractures of his zygomatic complex (62.5), dislocation of his jaw (62.6), the general method for a dislocated lower jaw (62.7), fractured condyles (62.8), fractures of the ascending ramus of his mandible (62.9), fractures of the angle and body of his mandible (62.10), difficulties with mandibular fractures (62.11), and fixing mandibular fractures with acrylic resin (62.8).
TRANSPORT MAXILLOFACIAL INJURIES PRONE OR LYING ON THEIR SIDES
62.2 Injuries to the teeth and alveolus
The front of a patient's upper jaw is most at risk. In less severe injuries only his teeth are damaged, in more severe ones his alveolus may be fractured. Although injured teeth do not threaten life, they are acutely painful, especially when the pulp is hanging out. When a tooth is hit: (1) its crown may fracture, (2) its root may fracture, (3) the whole tooth may subluxate, (4) it may be impacted into the surrounding tissue, or, (5) it may be inhaled, and be followed by a lung abscess.
INJURIES TO THE TEETH AND ALVEOLUS
If the patient's oral mucosa is torn, suture it with fine 4/0 waxed silk or chromic catgut.
If the crown of a patient's tooth is missing, its exposed pulp will be visible as a pink spot on the root surface. It will be acutely painful, so touch it with phenol on a small piece of cotton wool. This will kill and anaesthetize the nerve. Take a chest X-ray in case he has inhaled the missing fragment.
It will have to be removed by bronchoscopy.
If a tooth is only mildly subluxed, l eave it in place; it will probably tighten up and live. Meanwhile splint it with a piece of lead foil or the top of a milk bottle moulded to the tooth and gum.
If a tooth is so loose that you can lift it up and down in its socket, remove it. A dentist may be able to splint it and re-implant it, if he sees it soon enough, so don't delay. If there is an opening between a patient's antrum and his mouth, try to close it. If his antrum is already infected, leave it open and irrigate it daily. Don't pack it.
COMMINUTED FRACTURES OF THE ALVEOLUS
If the bony fragment with its teeth is still attached to periosteum, leave it, and splint the patient's teeth as best as you can with an arch bar. If the fragment of alveolus is completely detached from the periosteum, dissect it out and remove it.
GAPS IN THE MAXILLARY SINUS
Close these temporarily by packing them with gauze impregnated with bismuth, iodoform, and paraffin paste (BIPP), or with vaseline gauze.
As soon as the patient's general condition is stabilized, close the gap with a flap of mucosa from his adjacent cheek. Suture it carefully, preferably with 3/0 black waxed silk sutures. Tell him not to blow his nose and to sneeze with his mouth open.
MISSING DENTURES
A piece of denture can also be inhaled.
It is unlikely to be radio-opaque, so a normal chest X-ray does not exclude inhalation.
62.3 Simpler methods for maxillary fractures
There are few easy methods for Le Fort fractures. If the patient is lucky enough to have an intact mandible, you can wire his broken maxilla to it. Packing his maxillary sinuses and repairing his orbital floor are beyond a district hospital.
Le Fort Type One fractures with an intact mandible
Alveolar fractures are quite common, so to be able to do anything for them is useful. Although they are much easier to fix if the patient has an intact mandible, you may be able to fix a mandibular fracture with an arch bar, and then proceed as if his mandible were intact.
If he has a Le Fort Type One fracture on one side only, half his alveolus hangs loose on that side, as, in A, Fig. 62-8. If his mandible is intact you can wire it to the intact half of his alveolus, so that it holds the fractured half reduced.
If his alveolus has fractured on both sides, and he has an intact mandible, you can wire his zygomatic arches on both sides to his mandible, as in B, Fig. 62-8.
Type Two Fractures
In some Type Two fractures the zygomatic arches are intact, but the bones of the centre of the patient's face are displaced. You may be able to drill a Kirschner wire through one zygomatic arch, through the displaced central fragment of the face, and then out through the other arch.
WIRING THE ZYGOMATIC ARCH TO THE MANDIBLE INDICATIONS
Maxillary fractures with an intact mandible,
ANAESTHESIA
Premeditate the patient well and use infiltration anaesthesia of his gums (A 6.3), fix wire eyelets to his teeth on both sides of his lower jaw as in Section 62.10.
Protect his eyes as in Section 62.4. Push a blunt aspiration needle or large lumbar puncture needle through his skin just above his zygomatic arch and posterior to his outer canthus Push the needle downwards behind his zygomatic arch into his superior buccal sulcus, as in E, Fig. 62-8.
Thread wire through the needle and then remove the needle, leaving the wire in his tissues (F).
Now pass the needle up from his buccal sulcus, superficial to his zygomatic arch, under his skin, to come out of the same hole in his skin as the wire (G).
Pass the other end of wire through the needle so that it emerges in his buccal sulcus. Remove the needle. You will now have a loop of wire passing round his zygomatic arch with both ends emerging in his buccal sulcus.
Repeat the process on the other side, and then join the wire loops to the eyelets that you have previously fixed to his mandible.
62.4 Fractures of the nose
A patient's injured nose is displaced, swollen and bleeding. Sometimes the swelling hides his displaced bones underneath, so always suspect a fracture after any blow on the nose. He may have blood in his orbits and under the medial halves of both his conjunctivae.
A force applied to the side of the nose pushes it sideways.
A force applied from in front squashes it and splays it outwards.
If you don't treat these injuries, they produce the deformities shown in Fig. 62-9. If the force is severe enough, it can: (1) Fracture the frontal processes of a patient's maxillae. (2) Displace his nasal cartilages. (3) Dislodge his septal cartilage from its groove in his vomer. (4) Comminute his vomer. (5) Fracture his ethmoid bones so that CSF flows from his nose.
TREATING A BROKEN NOSE
See also Section 61.4.
CONTROLLING BLEEDING
If this is severe, pack the patient's nose with ribbon gauze soaked in saline. Treat him as soon as possible without waiting for the swelling to go down.
EQUIPMENT
If possible, use Walsham's forceps to reduce his nasal bones, and Ash's forceps to straighten his nasal septum.
If you don't have them, you can use any stout clamp, but don't close it tight. Walsham's forceps don't quite meet, and therefore don't crush tissue.
ANAESTHESIA
(1) Pterygopalatine block (A 6.4). (2) Give the
patient a general anaesthetic, and pass a tracheal tube (A
13.2). (3) Use local infiltration anaesthesia.
PROTECT THE PATIENT'S EYES
Put squares of vaseline gauze over both his eyes to prevent plaster getting into them.
REDUCTION
Clean the patient's face with cetrimide to
remove grease. Examine his nose carefully with your fingers.
Cover one blade of Walsham's forceps, or some other suitable instrument, with rubber tube. Pass it into his nose and lever the fragments of his bridge into place. Then do the same on the other side.
If necessary, mould his comminuted lachrymal bones, and the medial walls of his orbits, so as to reconstitute the bridge of his nose.
CAUTION! (1) Don't forget to protect his eyes. (2) Try hard to restore the full height of the bridge of his nose. When you have done this, pass one blade of Asch's septal forceps, or any other suitable instrument, down each side of the patient's septum and straighten it, so that it lies in the midline. If necessary, grasp his septal cartilage, bring it forward, and replace it in its groove in his vomer.
Pass an instrument down each side of the nose to make sure he has a clear nasal airway. Pack both his nostril's with 1 cm selvedgeless gauze soaked in liquid paraffin.
SPLINTING
If the fracture is mild, no splint is needed. If the
fracture is severe, splint it, either with a plaster cast, or with
lead splints.
A plaster cast Make eight thicknesses of plaster bandage into a T-shape. Wet this and put it on the patient's nose and forehead. If any plaster overlaps the lower end of his nose, turn it up like a brim. As it sets, mould it to his forehead and the sides of his nose. Strengthen the plaster over the bridge of his nose with two more layers of plaster bandage.
Remove the vaseline gauze squares from his eyes, and then wrap a crepe bandage round his head to hold the cast. Or, hold it in place with adhesive strapping. It will hold his nose in place by suction.
CAUTION! Don't fix the splint to a plaster headcap, because if this displaces, it will displace his broken nose. When oedema has subsided in a few days, fit afresh cast. Leave this for 2 weeks.
A lead splint I f the fracture is too severely comminuted to be held in a plaster splint, hold it with two lead plates, one on each side of the patient's nose. You can use two or three layers of the lead backing from some infra-oral X-ray films. Pass a mattress suture of 0.35 mm soft stainless steel wire through his nose with a straight needle.
62.5 Fractures of the zygomatic complex
A blow to the side of a patient's face drives his zygoma inwards, usually on one side only. The zygomatic bones are so closely united to the frontal and temporal bones, that, when they fracture, the neighbouring parts of these other bones usually do so too. The zygomatic complex therefore usually fractures as a whole. The displaced zygomatic fragment can rotate clockwise, or anticlockwise, and its orbital rim can be inverted or everted.
The floor of the orbit is always partly comminuted.
If you see a patient early enough, you may see that the side of his face is flattened. Oedema fills out this flattening within three hours, and it does not return for a week, after the oedema has subsided. If you are in doubt, there is a useful test for flattening of the zygoma. Put two pencils on either side of his face.
They should lie parallel to one another. If the lower end of a pencil is tilted inwards, the patient's zygoma is flattened on that side, as in Fig. 62-12. The obviousness of this flattening depends greatly on whether he has a thin bony, face which accentuates the displacement, or a fat one, which hides it.
When a patient's zygoma is injured, his maxillary sinus fills with blood, so that his nose bleeds from that side. Injury to his infra-orbital nerve makes his cheek numb, and displacement of the lower part of his orbit pushes his eye downwards, and restricts its movements. Herniation of the fat in his orbit into his maxillary sinus may also make his eye sink inwards and downwards, and cause diplopia. This can also be caused by injuries of his 6th nerve, or his ocular muscles or their attachments. It can be temporary or permanent. If it is due to a fracture of his zygomatic complex, reducing this may correct it.
Fractures of the zygomatic arch Sometimes, only the arch of a patient's zygoma is fractured. There is a depression over it, and the movement of the coronoid process of his mandible is restricted. Although the depression maybe obvious at the time of the injury, it may rapidly fill with oedema and become invisible. If his mouth was open when he was injured, he may be unable to close his jaw. Don't try to elevate the fragment, unless he has difficulty moving his jaw.
Reducing fractures of the zygomatic complex Fragments of the zygomatic arch are held by the zygomatic fascia, and although they may displace inwards, they don't move in other directions. The patient's temporalis fascia is attached to the superior border of his zygomatic arch, whereas his temporalis muscle is attached to his coronoid process. This enables you to pass an elevator between the fascia and the muscle, and lever his zygomatic arch outwards into place. Try to operate within the first 48 hours, when the replaced fragment is more likely to be stable and less likely to need wiring. After two weeks, the ends of the fragments will have softened and rounded, and you will probably need to wire them, after 4 weeks they will have united so that you cannot move them. After this length of time they will probably need open refracture, open reduction, and wiring.
The methods below do not include packing the maxillary sinus, and repairing the orbital floor. If the contents of a patient's orbit have prolapsed into his maxillary sinus, and you cannot refer him, he will have to live with his enophthalmos and wear an eye patch.
ELEVATING A FRACTURED ZYGOMA INDICATIONS
(1) Inability of the patient to open and close his jaw. (2) Diplopia. If you are inexperienced, and he can move his jaw normally and can see straight, disregard any deformity and don't operate.
The method described here is for the zygomatic arch. By a slight change in the position of the lever, you can also use it for fractures of the body of his zygoma and the adjacent part of his maxilla.
EQUIPMENT
A general set with a Bristowe's elevator, or a McDonald's elevator, or a long secrewdriver.
ANAESTHESIA
Give the patient a general anaesthetic and intubate him (13.2).
REDUCTION
Be sure to protect the patient's eyes. Make a
2 cm antero-posterior incision in his temporal fossa, just
above his hairline, as in A, Fig. 62-13.
Reflect his skin. Underneath the skin and the superficial fascia you will see his auricularis superior muscle. Cut in the line of Its fibres (B). If his hairline is low, and the incision is lower, you may meet the fibres of auricularis anterior. These run more horizontally, so separate them in a horizontal plane.
Underneath them lies his tough deep temporal fascia. Cut this to expose his temporalis muscle (C). The fascia may have two layers. If so, incise them both.
Pass a Bristow's elevator between his temporalis fascia, and the surface of his temporalis muscle. Push it down until its end lies between his zygomatic bone and his temporalis muscle (D). It should slip easily between the bone and the muscle.
Using a gauze roll as a fulcrum to protect the upper skin edge, gently lever his zygoma into a slightly overcorrected position (E).
If the body of a patient's zygoma is fractured, pass the elevator forwards, and lever it into position (F).
If the fragment is stable, no wiring is necessary.
If the fragment is unstable, wire its junctions with his frontal or maxillary bones, or with both of them, through separate small incisions.
WIRING A ZYGOMATIC-FRONTAL FRACTURE
Expose the fracture line by blunt dissection through an incision in one of the wrinkles at the corner of the patient's eye. Take care to avoid the branches of his facial nerve supplying his orbicularis muscle. Drill small holes in the bone and fix the fragments in place with soft stainless steel wire.
WIRING A ZYGOMATIC-MAXILLARY FRACTURE
Make a 1 cm incision just below the lower rim of the patient's orbit. Drill small holes and wire the fragments together.
ALTERNATIVELY, in some fractures you may be able to grasp the fragments through his skin with tenaculum forceps.
CLOSING THE WOUND
Close his deep temporal fascia with a few monofilament sutures. Put a firm pressure pad over the skin incision.
62.6 Dislocation of the jaw
When a patient dislocates his jaw, his mandibular condyles slip forward in their sockets over the articular eminences of his temporomandibular joints. This can happen when he laughs or yawns, or is hit in the face with his mouth open. The mouth of a patient with a dislocated jaw remains permanently half open in an anterior open bite. Swallowing is difficult, so that saliva dribbles from the corners of his lips. When you examine him, you find a small depression over his temporomandibular joints.
If his mandible dislocates one side only, it deviates away from the midline.
THERESA was cultivating her fields in Zaire when she yawned and dislocated
her jaw. She had been told that patients had to pay at the Catholic hospital,
and as she had no money, she had to wait some weeks to sell some produce
before she could go there. The doctors there failed, because her dislocation was
no longer recent, so she waited a few more weeks, sold some more produce,
and tried the Protestants. Her dislocation was now even older, and they too
failed, so she now walks about with her mouth permanently open. LESSONS
Dislocations of the jaw are much easier to reduce if they are done early. The
tragedy of this patient is that both hospitals would have treated her for free, if she had come early and told them she could not pay.
REPLACING A DISLOCATED JAW RECENT DISLOCATIONS
Most patients need no anaesthetic.
Sit the patient forward in a chair. Ask an assistant to stand behind him and hold his head. Put some gauze over his lower posterior teeth on each side. Press his premolar teeth downwards. At the same time press the underneath of his chin upwards and backwards.
If he opens his mouth too wide again, the dislocation may recur. So bandage his jaw to keep his mouth shut for 3 days. Allow him to open it just a little for eating.
OLD DISLOCATIONS
Fix arch bars to each jaw (62.10). Cut an ordinary rubber eraser into two pieces, and put a piece between the patient's posterior molars on each side to act as a fulcrum. Fix strong rubber bands between the arch bars in front. During the following few days they will exert steady traction and close his anterior open bite. If this fails, refer him.
62.7 The general method for an injured lower jaw
A patient is hit on his jaw. One or more fractures tear the mucoperiosteum covering the body of his mandible. He dribbles bloody saliva, and can neither speak, swallow, nor close his teeth normally. Moving his injured jaw may be so painful that he holds it in his hands. If you move it gently for him, you may be able to feel crepitus.
Mandibular fractures can be unilateral or bilateral. The weak parts of the bone and the common sites for fractures are: (1) the neck of the condyles (B in Fig. 62-15), (2) the angles of the mandible (E, and F), and (3) the premolar region (G). Fractures of the angle and body of the mandible are open, but not those of the rami, condyles, or coronoid processes. Often, the patient has other injuries too, and the combination of a jaw injury and a head injury is common. But, provided there is no gross comminution or tissue loss, you should be able to treat most of these fractures successfully. The mandible remodels readily, even after a comminuted fracture, and left untreated, many fractures will heal themselves, but only with considerable disability.
The purpose of the mandible is to bite, so decide whether or not the patient has a normal bite. If he has not, think how best you can restore it. The methods described below are for single fractures. You will have to adapt them for multiple ones.
THE GENERAL METHOD FOR AN INJURED LOWER JAW
This extends what has already been said in Section 62.1, on the care of a severe maxillofacial injury. If possible, consult a dentist early.
EXAMINATION
Feel both the patient's condyles with the tips of your fingers, and then continue feeling downwards along the borders of his mandible. Feel for tenderness, step defects, alterations in contour, and crepitus.
Look inside his mouth with a good light. Gently swab away any clotted blood. Lift any loose pieces of tooth and alveolus out of his mouth.
Examine his buccal and lingual sulci. Bruising in his buccal sulcus does not necessarily indicate a fracture, but bruisi ng in his lingual sulcus almost certainly does. Palpate his mandible down the whole length of each sulcus carefully. If you suspect a fracture, can you make the fragments move relative to one another?
Examine the patient's ears for bleeding. Put both your little fingers into them and compare the movement of his condyles.
If you cannot feel a condyle moving, suspect a fracture. BITE AND MOVEMENTS Examine the patient's bite. If he can cooperate, ask him to carry out a full range of mandibular movements, and note any pain and limitation of movement.
Test for anaesthesia of his mental nerve. Is he anaesthetic below his lower lip to one side of the midline?
X-RAYS
Take antero-posterior, and right and left lateral oblique views to show his rami, condyles, and coronoid processes.
SOFT TISSUE INJURIES
Do a careful wound toilet inside and outside his mouth. Remove any foreign bodies and all loose teeth in the line of the fracture, together with their roots. If there is loss of soft tissue, stitch his mucous membrane to the skin around the defect as best you can.
ANTIBIOTICS
If a patient has an open fracture, give him an antibitoic, such as amoxycillin, ampicillin, or fortified procaine penicillin, daily for 5 days in the hope of preventing bone infection.
BANDAGES
are usually unnecessary. If a patient needs one,
apply a simple suspensory barrel bandage, not a four-tail
bandage.
METHODS FOR PARTICULAR FRACTURES
Apply the appropriate methods for fractured condyles (62.8), for fractures of the ramus (62.9), and for fractures of the body of the mandible (62.10). The coronoid processes (C, Fig. 62-15) can also be fractured, but the diagnosis is difficult. The treatment is active movements, so disregard this fracture.
62.8 Fractured mandibular condyles
These are the most common mandibular fractures (B, Fig. 62- 15). They are often undiagnosed, and are often bilateral. Unilateral condylar fractures The patient has pain, swelling, and tenderness over his temporomandibular joint on the injured side. He cannot move his jaw normally. Movement away from the injured side is particularly difficult. When he tries to move his jaw, it deviates towards the side of the fracture. His bite may or may not be normal and he occasionally bleeds from his ear.
Bilateral fractures
All movements are painful and limited. Sometimes the patient's bite is normal, or he may have an anterior open bite. Often he has a midline fracture also.
The mandibular condyles are difficult to X-ray, and need special views, so it is fortunate that X-rays are not essential. Management depends on whether or not the patient has an anterior open bite. If you fail to correct this, his molar teeth may later have to be ground away, so that his incisors can meet. If he has no teeth, an anterior open bite is less important, because it can be corrected with dentures.
FRACTURES OF THE MANDIBULAR CONDYLES
If possible, refer the patient, because ankylosis and deviation of his jaw may follow unsuccessful treatment. If you cannot refer him, proceed as follows.
FRACTURES WITH A NORMAL BITE
All unilateral fractures have a normal bite (if there is no other associated fracture) and so do some bilateral ones. Encourage the patient to move his jaw. Deviation of his mandible towards the injured side is usually due to muscle spasm, and soon improves, so that his bite becomes normal. Observe him to make sure that it does so.
CAUTION ! If you decide to immobilize his jaw because of pain, don't do so for more than 10 days, or he may later have so little movement that he will be unable to open his mouth normally.
FRACTURES WITH AN ANTERIOR OPEN BITE
All these patients have bilateral fractures, or fracture dislocations.
If the fragments are not impacted, you may be able to splint them using interdental wiring. If the patient has few teeth, you may need to use an arch bar.
If the fragments are impacted, splint his jaws so as to distract the ramus in the condylar region. Take an ordinary rubber. Cut two pieces from it 6 mm thick, and put them between his molar teeth on both sides. Then use adhesive tape traction or interdental wiring to make his incisors meet, as in treating an old dislocation (62.6). Maintain this splinting for 5 weeks.
DIFFICULTIES WITH FRACTURES OF THE MANDIBULAR CONDYLES
If the patient is a CHILD, no treatment is needed initially. But follow him up carefully, because the growth of his mandible may be arrested. If a patient's BITE DOES NOT IMPROVE, refer him to a dentist. If serious malunion occurs condylectomy may be necessary.
FRACTURES OF THE CONDYLES ARE OFTEN MISSED
62.9 Fractures of the ascending ramus of the mandible
The ramus of the patient's injured mandible is tender, swollen, and bruised, both outside and inside his mouth (A, Fig. 62-15).
The fracture does not open into his mouth and there is little displacement unless violence has been extreme, because the muscles attached to the ramus splint it so well. If there is no displacement, encourage him to move his jaw. If there is significant displacement, fix his mandible by interdental wiring as described below.
62.10 Fractures of the angle or body of the mandible
The angle of the mandible is one of its weak points, and is the next most common site for fractures after the condyles. The fragments may or may not be displaced, depending on the severity of the injury and the direction of the fracture line (E, or F, in Fig. 62-15). If the fragments are displaced, the anterior one is pulled downwards by the muscles attached to it, while the posterior one is pulled upwards by the patient's masseter (F).
Sometimes there is a tooth on the posterior fragment.
Sometimes there is a tooth on the posterior fragment.
If the fragments are not displaced, as in A, Fig. 62-15, you can bandage the patient's jaws together, and need not wire them, although it is good practice to do so.
If the fragments are displaced, you will have to reduce and fix them. If they have enough teeth in them, you can use the patient's upper jaw as a splint and wire the teeth of both his jaws together (interdental eyelet wiring or intermaxillary fixation, IMF), or you can use an arch bar. Fortunately, most patients are young and have enough teeth to let you do this. Interdental eyelet wiring (occasionally with an arch bar) is thus all that is necessary in most cases. If you don't have an arch bar, you can use Risdon wiring, as in Fig. 62-19, which is as good if not better. Or you can make an improvised arch bar with paper clips or fencing wire. If you don't have the right kind of stainless steel wire, you can use ordinary brass wire, but it is not so strong.
If a patient does not have suitable teeth for interdental wiring, you can drill holes in the fragments and wire them together (interosseous wiring). Or, you can combine interdental and interosseous wiring. For example, if the anterior fragment has enough teeth to wire it to the maxilla, but the posterior fragment has not, you may be able to wire it to the anterior one.
Interosseous wiring is never enough by itself and is only an adjunct to interdental wiring.
Interosseous wiring is the most practical way of fixing those fractures in which there is no other way of controlling the posterior fragment. The inferior alveolar nerve runs through the centre of the mandible, so always wire the mandible through its edges. You may need to wire it anywhere along its length.
Wiring is easiest on the front of a patient's &:n. There are two approaches: (1) You can wire the lower border of his mandible from outside his mouth. (2) It is possible to wire the upper border from inside it, but this is more difficult, so avoid it if you can. The patient is likely to be elderly and will probably tolerate his malocclusion.
If a patient wears a denture, you may be able to use this as a splint, You can wire a lower denture to his mandible by circumferential wiring, or you can suspend an upper denture from his zygomatic arches by an adaptation of method B, in Fig. 62-8.
Fractures of the ramus are open, and are easily infected by bacteria from the mouth. Osteomyelitis, sometimes with extensive fistulae, is thus an important complication, and may follow interosseous wiring. Fortunately, prophylactic antibiotics will usually prevent it.
If for any reason you cannot fix these fractures, remodelling will occur in those which involve the angle with upward and forward displacement of the posterior fragment, and in most comminuted fractures. It will not occur in fractures near the genial tubercles.
CAREFUL REGULAR ORAL HYGIENE IS ESSENTIAL TO PREVENT OSTEOMYELITIS
Anaesthesia is critical. If neither you nor your assistant is an anaesthetic expert, the patient is probably safest under local anaesthesia. The alternative is to give him a general anaesthetic, pass a nasotracheal tube, and pack his throat. The dangerous moment comes when you remove the pack before you finally close his jaws. While you are doing this, blood and saliva can collect in his pharynx. You cannot suck this out through wired jaws. So, when you do finally pull the tube out, he may inhale the collected blod and saliva, perhaps fatally, or he may have a severe inhalation pneumonia. Another moment of danger occurs as he recovers from the anaesthetic, when he may try to cough or vomit through closed jaws, so that you have to open them urgently. Local anaesthesia also reduces this risk. You can use ketamine, but it is not ideal.
MOST FRACTURES OF THE BODY OF THE MANDIBLE NEED FIXING FRACTURES OF THE BODY OF THE MANDIBLE FRACTURES WITHOUT DISPLACEMENT
If the patient's upper and lower teeth oppose one another, so
that he bites normally, there is no displacement. Provided he
is cooperative, there is no need to wire his fracture, although
it is better practice to do so.
If the patient is cooperative, bandage his mandible to his maxilla, so that his teeth are firmly together. Use a crepe bandage, adhesive strapping, or a plaster bandage round his chin, his face, and his forehead. If you use a crepe bandage, rewrap it every day to maintain tension.
CAUTION! A bandage can be detrimental if you apply it in a displaced fracture.
If a patient is uncooperative, he may remove his bandage, so you had better wire his fracture.
FRACTURES WITH DISPLACEMENT BUT NO TISSUE LOSS
If the fracture lies within the tooth bearing area, you have two choices.
(1) If the patient is cooperative, unlikely to take the wires off, and has plenty of teeth, use interdental eyelet wiring.
(2) If he is uncooperative, if he has few teeth, or if there is gross displacement, use arch bars or Risdon wiring.
If the fracture lies outside the tooth bearing area, use interosseous wiring combined with interdental wiring, or arch bars or Risdon wiring on the same criteria as (1) and (2) above.
If he has no teeth, refer him. If you cannot refer him, do your best with interosseous wiring.
If you have no suitable wire, do your best with a head bandage, as in Fig. 62-17.
If possible, operate during the first 24 hours, but if oedema is severe, you can wait up to a week to let it subside. If you are in any doubt about the patient's general condition, wait.
FRACTURES WITH SEVERE TISSUE LOSS
Usually, there is severe displacement also. Toilet the patient's wound, replace the bone and soft tissues as best you can, and fix the remains of his mandible to his maxilla by any suitable method. Close his wound, suture his skin to his mucous membrane, and refer him.
INTERDENTAL EYELET WIRING FOR MANDIBULAR FRACTURES
INDICATIONS
Displaced fractures of the mandible with: (1) a sound maxillary arch, and (2) enough teeth opposite one another to take the wire.
CONTRAINDICATIONS
If a patient is drunk and there is any danger of vomiting, don't wire his teeth until his stomach is empty.
ANAESTHESIA FOR EYELET WIRING OR ARCH BARS
See above. There are several possibilities. (1) If displacement is mild and he is cooperative, use local anaesthesia only.
Premedicate him with pethidine and diazepam (A 5.2). Use pterygopalatine (A 6.4) and mandibular (A 6.3) blocks, if necessary on both sides. Supplement these where required, by infiltrating the mucosa round his teeth (A 6.3). Alternatively, use infiltration anaesthesia only. If you are using local anaesthesia, sit him in a dental chair. (2) If his injuries are severe and you are an anaesthetist expert, induce him with ether or halothane (A 11.3), and intubate him through his nose (A 13.4). (3) Ketamine can be used.
CAUTION! Pass a nasogastric tube and aspirate his stomach before inducing him.
WORKING WITH WIRE
Use soft 0.35 mm stainless steel wire, or any convenient soft wire. Stretch it before you use it, or it will become slack, but don't over-stretch it, or it will become hard and brittle.
Making eyelets
Cut the wire into 150 mm lengths, take hold of each end in a pair of artery forceps, and twist it round a 3 mm bar to make the eyelets shown in B, Fig. 62-17. Keep 20 of them ready in a box in the theatre.
Twisting wire inside the mouth Twist it by holding its ends in a stout pair of artery forceps. Pull the ends taught from time to time, and rotate them in your fingers, as in Fig. 62-18. You will need to make many twists and this is much the quickest way of making them.
Precautions with wire
Whenever you work with wire, protect the patient's eyes, because a loose end can spring back and injure them. (1) Close them, and cover them with vaseline gauze and a dressing. (2) When you are not working with the free end of a piece of wire, anchor it with a pair of forceps.
INSERTING THE EYELETS
Look carefully at the facets on the patient's teeth and study the way his jaws fit together.
If there is any abnormality in the way they occlude, allow for it when you immobilize the fragments.
Push an eyelet well down between two teeth (1) as shown in C, Fig. 62-17, bring the ends of the wire back between two adjacent teeth (2), pass one end of the wire through the eye (3), twist both ends together, pulling tightly as you do so, and cut them off (4). Tuck the sharp ends between his teeth. Pull on the eye to bring it nearer to the occlusal surface and make sure it is secure.
Fix about five eyelets in either jaw in suitable places, so that when they are joined by tie wires, these will run diagonally in both directions and brace his jaws together. Don't place the eyelets immediately above one another, or you will not be able to anchor the fragments.
Alternatively, wire the teeth directly as in D, and E, Fig. 62-19. This is a quick temporary measure if you have many casualties, but the wires loosen more easily.
REDUCING A FRACTURED MANDIBLE
If there are any loose teeth in the fracture line, this is the time to remove them. Bleeding sockets will not now obscure the wiring.
CAUTION! (1) Control bleeding. (2) If you have intubated the patient and his throat is packed, remove the pack before you wire his teeth. Leave his nasotracheal tube down. (3) Suck out his throat before you close his jaw.
Reduce the fracture by closing his jaws. When the patient's teeth fit together properly, the fragments will be aligned. Place the tie wires loosely at first, and only tighten them after you have checked the occlusion. Tighten them little by little, first in the molar area on one side, then in the molar area on the other side, working round towards the incisors as you do so.
CAUTION ! (1) If you tighten the wires firmly on one side only first, you will cause a crossover bite. (2) If you tighten the incisor wires first, you will cause a posterior open bite. (3) Don't twist the wire too tightly on a single rooted tooth, or you may pull it out. You can exert more tension on a multi-rooted one. (4) Make sure that you have not trapped his tongue.
Finally, run your finger round his mouth to make sure that there are no loose wires which might injure his lips. Coat his lips and the inner surfaces of his cheeks with vaseline.
ALTERNATIVE METHOD OF EYELET WIRING USING HOOKS AND RUBBER BANDS
This is shown in D, Fig. 62-17. Use it when there is any danger of vomiting, or if a patient has to travel. You will need thicker wire than with eyelet wiring.
Surround the neck of every second or third tooth with a loop of wire. Leave the two ends free towards the lips. Twist them a few times and then make a small hook with the free ends. Make sure they really are smooth.
Pass short rubber bands diagonally over these wire hooks. If necessary, cut them from a suitable size of rubber tube as in B, in this figure.
RISDON WIRING FOR A FRACTURED MANDIBLE
INDICATIONS
As an alternative to an arch bar for a fracture of the mandible that needs fixation. Some surgeons prefer a Risdon wire to an arch bar.
METHOD
Take two pieces of soft 1 mm stainless steel wire about 25 cm long. In the middle of each piece twist a loop that will fit over one of the posterior teeth of the patient's broken lower jaw.' Fit the loops over these teeth, and twist them secure. Then twist the ends of each wire double. Bring the twisted strands from each side together, reducing the fracture as you do so. Twist them together in the midline, so that they lie along the necks of the teeth. Cut the joined pieces of wire short. Fix the twisted wires to some individual teeth with 0.35 mm wire loops. Finally, wire the mandible to eyelets placed on the maxillae.
FITTING ARCH BARS FOR MANDIBULAR FRACTURES
This is not as easy as it looks! Use a pair of heavy cutting pliers to cut the bars to the right length for each jaw; try to make them span as many teeth as possible; and leave them long enough for the end to be bent towards the posterior surface of the last available tooth. Bend them to shape along the necks of the teeth with the hooks facing towards one another. The patient's lower jaw will be displaced, so shape the arch bar for it to fit round his upper jaw, or fit it round the lower jaw of another person with the same size of arch.
Use 15 cm lengths of 0.35 mm wire to wire the arch bar to the teeth. It is usually best to start in the premolar region by wiring one tooth on each side. Pass the wires round the necks of the teeth and wire as many as you can. Because of their shape, incisor teeth are usually difficult to wire, so you may have to leave them. If the wire tends to slip off, be prepared to raise the gum with a periosteal elevator. Tuck the ends of the wires aside where they will not injure the lips. Fix the arch bars with rubber bands.
AN IMPROVISED ARCH BAR
Take some paper clips, open them, twist them together, make side hooks on them, point these upwards on the top teeth, and downwards on the bottom ones. Fix this improvised arch bar to the teeth with ordinary stainless steel wire, and pass rubber bands between the hooks.
LOWER BORDER INTEROSSEOUS WIRING FOR MANDIBULAR FRACTURES
INDICATIONS
(1) Control of the posterior fragment when this has no teeth. (2) Control of both fragments when the patient has no teeth or insufficient teeth for interdental wiring. You will usually need interdental wiring or an arch bar also.
CONTRAINDICATIONS
(1) Established infection of the fracture site. (2) Children in whom unerupted teeth may be injured. ANAESTHESIA Endotracheal anaesthesia is essential (A 13.2).
METHOD
Make a 3 cm incision over the fracture site in line with the patient's facial nerve, as in A, Fig. 62-20. The exact site of the incision will depend on where his fracture is. Reflect the skin. Under the incision you will find the superficial fascia and the platysma muscle.
Cut across the fibres of his platysma, and use blunt dissection to find his facial artery and his anterior facial vein. These pass diagonally upwards and forwards across the lower border of his mandible at the anterior edge of his masseter.
Retract these vessels gently backwards or forwards away from the line of the fracture. If necessary, cut and tie them. Often, the fracture line will lie just posterior to the anterior edge of his masseter. If so, retract the vessels anteriorly. Use a rongueur to strip his masseter and the periosteum away from the lower border of his mandible (B).
Define the fracture line. You will probably find that the posterior fragment lies deep to the anterior one and overlaps it. Disimpact the two fragments and remove any oId blood clots and loose fragments of bone, which may prevent you aligning the two parts of his mandible.
Now pass your finger under the lower border of the patient's mandible (C), and separate It from the deep tissues of the floor of his mouth. Replace your finger with a flat broad retractor in this position (D).
Drill a hole in each fragment about 3 mm from the fracture edge-be certain the holes pass through both cortical plates of the bone. You will feel the drill touch your retractor when this has happened.
CAUTION! Don't make the holes in the middle of the patient's mandible, or you may injure his inferior alveolar nerve.
Keep the retractor blade in place deep to his mandible. Take two 15 cm lengths of wire. Pass the first wire through one of the holes in his mandible from the buccal to the lingual side. Secure it with artery forceps at both ends. Now take a second wire and twist a small eye onto one end. Pass this eye through the hole in the other fragment of his mandible from the buccal to the lingual side. Thread the deep end of the first wire through the loop and twist it round itself (E). Use it to pull the second wire through the first hole. Remove the 'eye' wire and twist the two ends of the first wire gently together to reduce the fracture until there is only a hair-line crack (F).
When you have secured the fracture (G), cut the twisted ends of the wire off short and tuck the cut end into one of the holes, so that it doesn't stick out into the soft tissues (H). Cut a very fine strip of rubber glove and insert this as a drain. Close the wound in layers and bandage it with a light pressure bandage. Remove the drain after 24 hours.
UPPER BORDER INTEROSSEOUS WIRING FOR MANDIBULAR FRACTURES
INDICATIONS
This is seldom necessary. In bilateral fractures insert an upper border wire to prevent the muscles pulling the anterior fragment downwards, and making the fracture line gape.
METHOD
Wire the upper border before the lower one. Make an incision along the crest of the alveolus inside the patient's mouth. Drill small holes on either side of the fracture line, pass a piece of soft stainless steel wire through it, reduce the fragments, and twist the ends of the wire tight. Cut the ends short and tuck them into the nearest drill hole. Close the incision very carefully, because infection is common.
POSTOPERATIVE CARE FOR MANDIBULAR FRACTURES
Don't remove the patient's tracheal tube until anaesthesia is really light. If you have wired his teeth under general anaesthesia, send him back to the ward with a nasopharyngeal airway in place and his tongue held with a strong suture. Use a large cutting needle to insert it transversely through the dorsum of the back of his tongue.
Lead Its end between his teeth and hold them with haemostats. Some surgeons consider this is unnecessary. Lie the patient on his side and have a sucker ready, with a tube attached which you can pass down his nasopharyngeal tube.
If he has been starved preoperatively, any vomit will be watery and will pass between his wired teeth.
CAUTION! Have wire cutters beside his bed or with the nurse, in charge. Be sure that the nurses know how to remove the wire, if he wants to vomit. Tell, them to cut the closing wires, not the eyelets. Later, he wll be more comfortable if you nurse him sitting up.
POST REDUCTION X-RAYS
If these are not satisfactory, correct the malposition as soon as possible.
ANTIBIOTICS
Give these as described earlier (A 62.7).
FEEDING A PATIENT WITH A CLOSED JAW
Feed him frequently with liquid food through a rubber tube between his
teeth. Let him suck between his teeth or round the back of
his molars. Feeding will be easier if he has a few teeth missing. He will probably lose much weight. If he cannot swallow,
feed him through a nasogastric tube.
Careful oral hygiene Is essential to prevent osteomyelitis.
Ask him to clean his teeth with a tooth-brush after every meal. Or, irrigate his mouth with saline or 0.5% chlorhexidine from a Higginson's syringe.
FOLLOW-UP FOR A MANDIBULAR FRACTURE
If you send a patient home wired, tell him to keep a pair of pliers available, so that he can remove the wire if necessary. Ask him to reattend regularly, so that his wire can be tightened or renewed.
Keep children wired for 4 weeks before you test for union, young adults for 5 weeks, and elderly ones for 7 weeks. If you immobilize a patient's jaw too long, it will ankylose.
TESTING FOR UNION
Remove the tie wires and gently test for union across the fracture line. If the fragments seem firm, clean the patient's mouth and remove the eyelet wires. Leave interosseous wire in place unless it becomes infected.
DIFFICULTIES WITH MANDIBULAR FRACTURES
If a patient CANNOT OPEN HIS JAW, don't worry for the first week or two. It will open more easily after a few weeks of active use. If, however, he fails to reattend to have the wires removed, so that his jaw remains closed for too long, his jaw movements may be limited permanently. Encourage him to exercise his jaw regularly and to progressively insert a wooden cone between his teeth, so as to separate them a little more each day.
If his JAW HAS FAILED TO UNITE, encourage him to accept his disability. Non-union is rare. It may follow infection, or be the result of leaving a tooth in the fracture line.
If his MANDIBLE HAS BECOME INFECTED, give him antibiotics (2.7), clean up his jaw as much as possible, remove loose teeth in the fracture site and rewire his teeth.
Osteomyelitis is an important complication and is more likely to occur if you fall to fix a fracture, so that the fragments are kept moving, of if you try to wire one which is already infected. Prevent it by always giving prophylactic antibiotics whenever the mucoperiosteum is torn.
If his LOWER LIP IS NUMB, i t will probably recover. Warn him of the danger of burning his lower lip with hot drinks or cigarettes.
If his TEETH DO NOT MEET when the fixation is removed, his malocclusion will probably correct itself if it is mild. If it is more severe, his cusps can be ground away. If it is gross, refer him for refracture of his mandible, or the removal of selected teeth. If he adopts a bite of convenience across a partly healed fracture, it may cause a fibrous union, so refer him for a suitable denture.
If the patient is a CHILD manage his fracture as if he were an adult, but remember the following differences: (1) Growth disturbances of his condyles may follow, particularly in condylar fractures. (2) Don't use interdental eyelet wiring unless he has a sufficient number of firm teeth, either deciduous or permanent. (3) Don't use interosseous wires, because you may damage his unerupted teeth. (4) Mild malocclusion will correct itself as his mandible grows and his deciduous teeth erupt. A bandage, as in A, Fig. 62-17, may be all he needs.
62.11 Fixing mandibular fractures with resins
You can use two types of synthetic resin to fix a patient's broken mandible, as an alternative to wiring it. The method is quick, easy, and non-traumatic. Fixing hooks with composite is easier than wiring them directly to his teeth, less traumatic, and more comfortable for him because there are no wire ends to scratch his mouth.
Cold curing quick setting acrylic resin is weaker than the composite material described below, but is cheap and widely available from dental supply houses or dental technicians. It will allow you to fix an arch bar to a mandible, but it is not strong enough to let you stick hooks to it.
Composite filling materials of the 'Adaptic' or 'Isopaste' type, together with a bonding agent are more expensive and less readily available than quick curing acrylic resin. A composite is supplied as two pastes which you mix together and which then set solid. It is usually used for filling cavities, but you can use it to make bridges between the teeth of a patient's upper and lower jaw, or you can use it to stick hooks to his teeth, and then pass rubber bands or wire over them as with interdental wiring (D, Fig. 62-17).
To allow the composite to stick you will have to clean the surfaces of his teeth at each fixation point, wash them, etch them with phosphoric acid, wash them again, dry them, coat them with a special bonding agent, and then press the composite onto them. This is not difficult, but it needs care. Be sure you follow the instructions exactly. If you use bridges of composite between a patient's jaws, one difficulty will be getting them into the right position and getting the composite into place simultaneously. Using hooks avoids this difficulty.
At present, proprietary dental resins are unnecessarily expensive, for example, proprietary compound filling material costs $75 for 100 g, whereas it only costs $6 to manufacture. Fortunately, cheaper 'generic' dental materials are now being made, and when they became available this method of fixing mandibular fractures will become more economically feasible.
FIXING THE MANDIBLE IN OTHER WAYS
ANAESTHESIA
(1) Mandibular block (A 6-3). (2) Ketamine (A 8.1). (3) Diazepam (A 8.6). Atropinize the patient to dry his saliva.
USING ACRYLIC TO FIX AN ARCH BAR MATERIALS
Ordinary cold cure acrylic ('Simplex'), as used by dental technicians to repair broken dentures. This is supplied as a liquid monomer and a powdered polymer. Put some of the powdered polymer into a small pot. Drop the liquid monomer onto it and stir it with a spatula until it is the consistency of putty.
METHOD
Sit the patient up in a chair. Make an arch bar from several strands of thick (2 mm) stainless steel wire, and fashion it to fit the arch of his mandible, lingually, or buccally, or both.
To stop the resin sticking, lightly spread vaseline on the patient's lips, mucous membrane and tongue-but not his teeth.
Hold the arch bar in place with blobs or a continuous wad of cold cure acrylic. Lightly spread vaseline on your fingers (to stop the acrylic sticking) and press the acrylic into place over the arch bar. Press it firmly between the bases of the patient's teeth. If the arch bar is going to stay in place, the resin must go between the overhanging parts of his adjacent teeth. If he is older, and his gingival papillae have resorbed, or he has missing teeth, the resin will be able to pass between them and stick more firmly.
Hold the arch bar in place until the resin has set (in about 10 minutes).
USING COMPOUND FILLING MATERIAL TO STICK HOOKS ON
INDICATIONS
(1) Conscious and cooperative patients. (2) This method is particularly suited to unilateral fractures. (3) Recent fractures that will be fairly easy to reduce.
CONTRAINDICATIONS
Much bleeding which makes cleaning and drying the surfaces of a patient's teeth impractical.
MATERIALS
Compound filling material, such as 'Adaptic' or 'Isopaste' and their special bonding compounds, or their generic equivalents. 50% phosphoric acid, 2 mm stainless steel wire. Rubber bands.
METHOD
The patient will probably need about six hooks depending on the site of his fracture.
Sit him up in a chair. Clean the surfaces of his teeth at each fixation point carefully, and dry them free of saliva. Use spirit on a pledget of cotton wool, or a dental engine brush. While his teeth are still dry, apply phosphoric acid on a paint brush for 60 seconds.
Wash his tooth for 30 seconds, and then dry it again. Keep his teeth dry with suction, rolls of paper tissue, or cotton wool in his buccal sulcus.
Apply the bonding material to the dry, etched surface with a small brush or a wisp of cotton wool.
Mix a little of the the compound material and the catalyst with a spatula on a small paper pad, and immediately press it into place with lightly vaselined fingers over the prepared surfaces of his upper and lower teeth. While it is still soft, press a hook into it.
Join up the hooks with rubber bands or wire. Rubber will place less strain on the hooks. If you join them with wire, take care not to exert too much force, or you may displace them.
After 6 weeks you can chip composite away quite easily. The last remaining pieces may have to be removed with a dental drill.
ALTERNATIVE NOT USING HOOKS
Hold the patient's jaws together with bridges of filling material passing from one jaw to another. You will probably only need about 4 bridges. As they set, keep his jaws aligned and his teeth in occlusion.
