local & regional flaps / orthodontic courses by indian dental academy
TRANSCRIPT
LOCAL & REGIONAL
FLAPS INDIAN DENTAL ACADEMY
Leader in continuing dental education www.indiandentalacademy.com
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INTRODUCTION• The compelling drive of human beings to
reconstruct deficient or missing parts and the desire of victims to undergo such reconstruction are best appreciated by recognizing the early development and use of pedicle-flap transfers long before the advent of anesthesia. Imagine, the tolerance a patient must have had to undergo nasal reconstruction using a fore-head pedicle flap without anesthesia.
• The seminal work of Sushruta in the pre-christian era must have resulted in meager success; however, the basic principle behind the “Indian flap” is so sound that the procedure is still used in contemporary surgery.
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• The later-day developments in anesthesia, antibiotics, hematology, instrumentation, and wound healing research have given surgeons devoted to reconstruction the opportunity to achieve results that would have been considered miraculous only four decades ago.
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History• Sushruta Samshita, circa,700 B.C. first to describe a
facial (forehead) flap for the reconstruction of a nose.
• 695 A.D., Justinian II of the Byzantine Empire had a flap restoration of his mutilated nose.
• Gaspar Tagliocozzi (1597), University of Bologna, Italy:
Experimented with the fabrication of noses from the tissues of the upper arm.
• Gentleman’s Magazine (1794), article by Thomas Cruso and James Findlay, "Indian Flap".
• J.D. Carpue (1816) learned this technique and reconstructed two patients in U.K.
• Tansini (1896), described the concept of muscle and skin flap (LDMF)
• George Monks (1898), Boston Medical and Surgical Journal: First island flap ever designed in the US.
• Owens (1952): SCM flap. • Conley (1960): Regional flaps. • Bakamjian (1965): Deltopectoralis flap. • Ariyan & Biller (1977): Pectoralis flap. www.indiandentalacademy.com
MANUEL LA ROSA-CRAIG, DDS SOFT TISSUE FLAPS IN ORAL SURGERY University of Illinois at Chicago Department of Oral & Maxillofacial
Surgery
FLAPS
• Definition• (1440) Dutch word "flappe": something broad to strike
with, specially a flyswatter. • (1522) English: anything that hangs broad and loose,
fastened only by one side.• (1807) English (surgical context):portion of the skin or
flesh, separated from the underlying part, but remaining attached at the base.
• Definition• Mass of tissue having and maintaining its own blood
supply. • Describe different tissue transfer techniques • Implied that the tissue to be transferred is to be used for
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DefinitionA flap is one which contains within
its substance a network of blood vessels, arterial,venous ,cappilaries and it is the effectiveness of the circulation through this network in perfusing the tissues of the flap at each stage of its transfer from donor to recipient site which determines its survival.
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Alternate wound closure tech. include
1. Secondary healing-small biopsed lesions2. Wound contraction-lesions in region of
medial canthus3. Primary closure-where there is minimal
tension4. Skin grafting-open wounds with healthy bed.5. Many wounds have poor beds and are
deeper in nature and skin grafting would result in unacceptable contour deformities.
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In Irradiated beds use of flaps brings improved blood supply to the wound .
When major structures are exposed ex: facial nerve and carotid artery flap coverage of the wound is needed.
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GENERAL CONSIDERATIONS
• Criteria for Choosing a Flap:
• Adequate amount of skin or mucosa • Adequate bulk • Good location & colour match • Predictable blood supply • Distance from irradiated sites • Low donor morbidity
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Basic Principles of Flaps• Plan • Design • Cannot violate its blood supply • Should generously fit the wound • Ratio length:width (avg) 2:1 • Avoid areas of tension• Transfer • Avoid kinking, compression, tension or severe
angulation. • Always favor gravity and venous drainage. • Positioning • Use always two layers of sutures • Support
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CLASSIFICATION
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CLASSIFICATION: By the tissues they contain
• Skin Flaps: Donor tissue containing skin and subcutaneous
tissue only. Maintains its vascular supply via a pedicle attached to adjacent tissue.
• Composite Flaps: Contains more than a single type of tissues
including skin, subq., muscle and/or bone.
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By the vascular system on which they are based • Axial Incorporate an anatomically recognized arterio-venous
system running along the long axis of the flap. • Random Does not incorporate a dominant vascular supply, relying
on the networks of small diameter vessels. Facial Skin.
By the way o transfer
• Pedicle Flaps: More than a single layer of tissues, which can include skin
+ subcutaneous tissue and any combination of muscle, fascia, bone, fat.
• Free Flaps: Detached at the donor site from arterial and venous
connection and reanastomosed at the recipient site.
• FREE FLAPS Iliac crest flap Radial forearm flap Fibula flap
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By method of movement from the donor site
• Advancement • Rotation • Transposition
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Advancement flaps• Undermining an area of tissue and advancing it forward
to cover a defect. • Requires pliable and elastic tissue.
Rotational flaps• Rotation of skin around an arch to fill a triangular defect. • Design for non-elastic tissues (scalp, forehead). • Arch of approximately 180 degrees. • Base at least twice the width of the defect.
Transposition flaps• Exchange or transposition of tissue to an adjacent site. • Single or multiple, unilobed or multilobed and of an
infinite variety of shapes and sizes.
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By distance from donor site
Local Flaps: • Donor site is in close proximity with the
defect. • Defect requires minimum amount of tissue.
Regional Flaps: • Amount of soft tissue adjacent to the
defect is not adequate. • Donor site is distant to the defect area.
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Transposition flap• When a flap moves laterally into the primary defect it
is called transpositional flap.
• It is designed as a square immediately adjoining to the triangular defect.
• Transfer leaves secondary defect which is closed by split skin graft.
• Length : breadth ration should be considered for the safe vascularity
• Rich perfusion in face & scalp enhances the length: bredth restrictions to be some what relaxed ,allowing the flap to be planned even in absence of an anatomically recognized axial system.www.indiandentalacademy.com
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• In designing the flap and before any inscion is made the pivot point must be clearly defined and the distance from it from each point of the flap compared with its estimated distance to the same point and the transposition is complete.
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• Clinical role of the transpositional flap is confined to the situations where a secondary graft is not contraindicated for cosmetic reasons and so it is used mainly out side the face.
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Advancement flap• The primary motion of this flap is in a
straight line from the donor site to recipient site with out rotation/lateral moment.
• 1. single pedicle:a rectangular skin is moved forward by virtue of its elastic properties
• 2 Bipedicle: here an incision is made parallel to the defect and the flap is undermined and advanced
• 3. V-Y flap: with this flaps a V shape incision in the skin is closed by advancing the sides of the V and closing it in the shape of Y.
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Rotational flap• Random pattern sliding pivotal flaps with curvilinear design.
• Used to close triangular defects.
• Raised most often on the cheek, extending to a varying degree on a submandibular region.
• Inferiorly based
• Superiorly based
• Pivot point – base line, approximately mid way.
• Should be designed so that the distance between pivot and any point on circumference of flap is equal.
• Rely entirely on its subdermal circulation.
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Interpolated flap
• Here the donor site is separated from recipient site , and the pedicle of the flap must pass over or under the tissue to reach the recipient area ex; nasolabial flap for nose reconstruction.
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Z-plasty:• Involves the transposition of two interdigitating
triangular flaps.
• Flap transposition fallows naturally from the change in the shape of parallelogram, as do the lengthening and shortening.
• Single Z-plasty – achieves 2 cm lengthening and 2cm of shortening in transverse axis.
• Multiple Z-plasty, each of foure Z-plasties achieve 0.5cm lengthening with a corresponding 0.5cm of shortening at each transverse axis.
• Common usage: treatment of contracted scars management of facial scars.
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Analysis of the defect and planning of reconstruction using local flaps.
• Any defect/deformity in head and neck area presents several choices to the surgeon in terms of closure and or reconstruction
• Various factors that must be considered:
• 1. origin,condition,size, shape ,depth and location of the defect/deformity
• 2. the condition of the surrounding tissue and its availability for use n reconstructive procedure
• 3. pts desire and expectations• 4. surgeons experience and professiencywww.indiandentalacademy.com
Viability of flap :
Blood flow in the local skin flap is characterized by intrinsic vascular architecture, the nature of which determines the dimensions of the flap that will survive.
Flap creation decreases the cutaneous blood flow and renders it dependent on only a few vessels requiring the fundamental capacity of intrinsic vascular system to reequilibrate.
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BLOOD SUPPLY:A.MUSCULOCUTANEOUS ARTERIESB.SEPTOCUTANEOUS ARTERIES
COMPOSITION:CutaneousFaciocutaneousMusculocuaneousMuscleOsteocutaneous
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PATHOPHYSIOLOGY OF FLAPS• Flaps undergo necrosis secondary to lack of nutrient blood inflow
rather than lack of venous out flow.
• The sympathetic nervous system is primarily responsible for determining blood flow to the skin.
• Two main ressions: 1)vassoconstriction 2)arteriovenous shunt
• cutting the skin causes a release of norepinephrine from the severed sympathetic nerves and the release of thromboxane A from platelets, both of which are potent vassoconstrictors.
• Arteriovenous shunting is a lack of nutrient blood flow to the distal part of a flap through pathological AV shunts.
• Closure of these shunts either pharmacologically are spontaniously will lead to improvement in the sruvival of the distal portion of the flap.
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Clinical factors associated with ischemic flap necrosis:1. Excessive tension from taut sutures2. Compressive dressings3. Infection4. Hematoma 5. Subcutanious epinephrin6. Smoking• Despite fixed length-width ratio rules for flap,
widening of the pedicle will not always improve vascularity in the distal parts of the flap.
• However a thicker flap may improve distal vascularity by including deeper plexus containing larger caliber vessels.
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Therapeutic innervations for flaps:
1. Direct vassodilators- phenethylamines,calcium chanal blockers and topical nitroglyerin.
2. Adrenergic blockage-isoflurane3. Growth factors-topical endothelial cell GF.4. Hyperbaric O2- 48hrs before or 4hrs after
surgery.5. Decreasing temp6. Tissue expansion7. Flap delay
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Leech therapy: Hermaphroditic ectoparasites Hirudo medicinalis leech saliva-hirudin ( inhibitor of thrombin,
vassodilators and hyaluronidase) leech can ingest up to 8-10 ml of blood and wound
can continue to ooze 50ml of blood thus leech therapy is indicated to relieve venous
congestion in failing flap. skin flap delay: tech to increase vascular teritory of a flap prier to
its definitive transfer to recipient site.
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MONITERING OF FLAP CIRCULATION1. Lasser doppler flowmetry
2. Thermocupple probe 3. Temp probe4. Pulseoximetry5. Fluorescein dye6. Doppler ultrasonography
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Pivot point• This point is the center of the arc
around which the flap is moving in its transfer.
• The distance between the pivot point and each point of the flap prior to transfer must be equal or not less than the distance after transfer.
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LOCAL FLAPS• Forehead flap • Temporal flap • Nasolabial flap • Labial flap • Palatal flap • Tongue flapREGIONAL MYOCUTANEOUS FLAPS• Pectoralis major flap • Trapezius flap • Deltopectoralis flap • Sternocleidomastoid flap • Latissimus dorsi flap • Temporalis flap • Masseter flap • Platysma flap
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TEMPORALIS FLAP• TEMPORALIS MUSCLE• Origin • Deep: Temporal fossa calvarium • Superficial: Deep temporalis fascia • Insertion • Coronoid process & anterior ramus of
mandible • Innervation • Motor: Anterior and deep temporal
branches • Sensory: Auriculotemporal nerve
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• TEMPORALIS MUSCLE• Blood supply • Deep temporal fascia: middle temporal branch
(superficial temporal artery). • Anterior deep temporal artery. • Posterior deep temporal artery.
• TEMPORALIS FLAP• Orbital, skull base and small intraoral defects. • Is in close proximity to defect area. • Small scar with minimal cosmetic deformity • Muscular flap only with a good rotational arch. • Facial nerve injury is not uncommon
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MASSETER FLAP• MASSETER MUSCLE• Origin • Deep: inner surface of ZGM arch • Superficial: ant 2/3 lower border ZGM arch • Insertion • Deep: lateral surface of the coronoid process • Superficial: lower portion of mandibular ramus • Innervation • Masseteric nerve (CN V3) • Blood supply • Masseteric artery (internal maxillary artery)
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• MASSETER FLAP• Reconstruction of ablative procedures of
parotid gland, mandible, palate and nasopharynx.
• Treatment & reanimation of paralyzed face.
• Does not restore emotional mimetic movement, therefore training is necessary.
• Limited arch of rotation, size and amount.
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PLATYSMA FLAP• PLATYSMA MUSCLE• Origin • Subcutaneous tissues, caudal to the clavicle
and acromion. • Insertion • Just cephalad to inferior border of mandible • Innervation • Motor: Cervical branches of the facial nerve • Sensory: Cervical branches of C2-C4.
• Blood supply: (Randomized)
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• Antero superior – facial, submental, submandibular
arteries• Posteiro superior
– occipital and posterior auricular arteries
• Midportion – superior thyroid artery
• Inferiorly – Transverse or superficial cervical
arteries – Direct branches of subclavian arteries
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PLATYSMA FLAP• Close proximity to defects. • Good arch of rotation.(180 degrees) • Primary closure of the donor site can
be easily done. • Thin, delicate, pliable flap.• Vulnerable to radical ablations • Not suitable where bulk is necessary
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FOREHEAD SKIN FLAPIntroduction:- one of the first pedicled flap to be
described.
Advantages:- • reliability of its vascular supply• Excellent colour match • Proximity to the face• Larger area provided• Pt not confined to bed with limitation of neck
movements as in other flaps.
Disadvantages:- • Secondary defect
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Anatomy:-• Lateral forehead- zygomatic and
ant branches of superficial temporal artery( branch of external carotid)
• Middle forehead- supplied bilaterally by supra trochlear artery, supraorbital artery (branches of opthalamic artery)
• All 4 vessels anastomose and supply forehead as a whole.
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Operating tech:• Due to large amount of anastomosis of
the contraletral arteries, flap can be elevated from one malar bone to another
• Flap can reach up to 25 cm in length• Pedicle should not be more than 2 cm
wide at its base to provide max mobility
• Pedicle should of sufficient length to transpose the flap with out tension
• First, course of superficial temporal artery is marked.
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• As the flap is raised , care must be taken not to lift the periostium from bone, and usage of diathermy should be minimal.
• If these two are not fallowed, delayed healing of applied skin graft will result.
• A cosmetic result is achieved by beveling the flap borders by 45 degrees so the marginal step deformity is kept to the minimum.
• Upper inscission line should be just below the hair line, lower inscission line just above the eyebrows and at midline it is carried down to the glabellar region of the nose.
• Donar site closed with a sheet of skin obtained by a dermotome.
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NAS0LABIAL SKIN FLAP Indications:Bilateral nasolabial flap:1. Small tumors of the ant floor of mouth2. Mucosal defect of the lip3. Ventral surface of the tongue4. Nose
Unilateral nasolabial flaps:• Adjoining buccal
mucosa,lips ,alveoli,buccal sulci(upper & lower),palate and tonsillar area
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• Anatomy:
• Blood supply: angular.a (branch of ant facial),infraorbital.a , transverse facial.a , infra trochelear.a
• These are random flaps because no attempt is usually made to include any specific arterial supply.
• Because of the rich anastomosis pof arteries and veins, superior, medial, lateral, inf, pedicles are possible.
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• Operating tech:
• Incision is placed passing upwards from base lateral to angle of mouth and centered approximately along the line of the nasolabil fold.
• Then the flap is raised superficial to the facial muscles and stopped a little short of the canthal area.
• Then the tunnel is made through the soft tissue of the cheek near the base of the flap to take the most direct route to the defect.
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TONGUE FLAPS IN MAX FACS
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• Tongue – Excellent donor site because of its abundant vascularity and low morbidity .
• Tongue has been used in reconstruction of oral cavity since from 100 years .
• Eiselsberg was first to use pedicled tongue flaps in 1901.
• Cadennat etal described the rich submucous vascular plexus found in the Tongue and this allows elevation of thin flaps (3 mm).
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RANDOM FLAP DESIGN
Dorsal tongue flap: most commonly used Posterior based : Soft palate, Retromolar region, Post buccal mucosa. Anteriorly based: Defects of Hard
palate, Ant buccal mucosa, Ant floor of the mouth, Lip reconstruction.
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• Elevation of flap post to the circumvalate papilla is avoided to maximize flap survival .
• Length of the flap should be sufficient to cover the defect and to allow the mobility of the Tongue, which can make flap more versatile.
• Following and adequate healing period of 14 – 21 days, the pedicle is severed.
• Reinserting of maximal muscular bulk is strongly recommended to prevent post opp tongue deformity.
• Debulking of recipient site should not be performed before 3 months after separation of the pedicle.
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• Lateral Tongue flap: Buccal mucosa
Lateral palate
Alveolus • Incisions are made on the ventral and
dorsal surface of the Tongue in a V shaped fashion, which allows primary closure of the donor site.
• Pedicle is severed at 14th day.
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Double Door Tongue flap:• Large defects of buccal
mucosa extending from the commissure to the Ant mandibular Ramus.
• Horizontal incision is placed on the lateral border of the Tongue of the same length of the defect.
• Flaps are elevated and swung upwards and downwards and sutured to the margin of the buccal mucosa defect .
• Flaps are divided after 3 weeks and the donor site is closed primarily.
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Median Transit Tongue flap:• Defects of Sublingual region.• An incision is made in the Sagittal
midline of the Tongue of the same length as the width of the flap,
• Tunnel is created to allow the flap to reach the floor of the mouth.
• The relative avascularity of the median raphe allows easy formation of the tunnel.
• Pedicle is divided after 2 – 3 weeks.
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Sliding posterior Tongue flap:• This flap design allows coverage of lateral
Tongue defects and it is the modification of Hemitongue advancement flap.
• Mayomucosal flap is created by releasing the Tongue from the Hyoid bone and maintaining the Dorsolingual branch of Lingual A as feeding vessel.
• To allow the complete mobilization the entire ipsilateral base must be freed from vertical septum.
Clinical indications:• Repair of oronasal communication,• Repair of oroantral communications,• Lip reconstructions,• Buccal mucosa reconstructions,• Reconstruction of Hypopharynx.
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REHRMAN BUCCAL ADVANCEMENT FLAP• Commonly used for closure
of oroantral fistulas.
• Trapezoidal in shape, with its base at the buccal sulcus to maintain adequate blood supply.
• Small horizontal relieving incisions through periosteum at the base of the flap allows for greater lengthning.
• Moajor drawback is reduction in vestibular depth.
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MOCZAIR BUCCAL SLIDING ADV FLAP
• Minimizes the reduction in vestibular depth.
• Similar to rehrman flap but it is shifted one tooth distally to reduce tension on vestibular tissues.
• Drawback- when used in dentate patient, bone is exposed on the facial aspect of the adjacent tooth.
• So mainly used in edentulous patients.
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Buccal transposition flap• Flap is taken horizontally, parallel to
the buccal sulcus, and may be pedicled mesially or distally.
• After adequate reflection, the flap is rotated 90 degrees to cover the defect.
• Drawback – loss of keratinized mucosa and distortion of buccal sulcus.
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BUCCAL FAT PAD• First described by Egyedi in 1977.Anatomy :• Consists of a central body and 4 processes. (buccal,
pterygoid, superfeecial & temporal extensions.
Blood supply:1. Buccal and deep temporal branches of the
maxillary.a2. Transversefacial branches of the superfecial
temporal.a3. Small branches of facial.a
INDICATION-closure of oral defects up to an area of 50x60mm and a thickness of 6mm.
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TECH:• The buccal fat is exposed through a 1
cm vertical incision placed through the sulcus post to the zygomatic buttress.
• The fat is gently advanced over the defect and secured with sutures.
• Epithelialization of the exposed adipose tissue occurs between 2 to 4 weeks post opp.
ADVANTAGES:• Little decrease in vestibular depth• Low morbidity • Abundant tissue availability• Expandable tissue
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Palatal flaps
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PALATAL MUCOPERIOSTEAL FLAP (ASHLEY’S
FLAP) • This flap is mainly based on
the G.P artery• Flap is thick and inelastic, so
it must be made longer than would appear necessary
• Rotation posterior to the second molar is not recommended but can be used for the contralateral side.
• An incision is made along the mid palatal line just ant to the junction of hard and soft palate and curved laterally toward the affected side, when it has reached the canine and lateral incissor region.
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PALATAL ISLAND FLAP:
• this procedure dissects out an island of palatal mucosa but retains its connection to the G.P artery.
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BRIDGE FLAP:
• Incisions are placed transversly across the line of the arch with limited on the palatal side to preserve the blood supply (GPA) but can be extended buccally to reduce tension.
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COMPOSITE PALATAL FLAP:• In this procedure the palatal flap is divided
in to an upper mucosal layer and an underlying connective tissue layer.
• The connective tissue layer is used to cover the defect and the epithelial layer is replaced over the donor site to allow primary closure.
COMPOUND FLAP:• This procedure involves mobilization of
both buccal and palatal flaps over the defect and suturing them to each other.
• Buccal sulcus obliteration is minimised.
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ABBE-ESTERLANDER FLAP REPAIR
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KARPANDZIC FLAP REPAIR
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BERNARD RECONSTRUCTION
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PECTORALIS MAJOR MYOCUTANEOUS FLAPPECTORALIS MAJOR MUSCLE
• Fan-shaped, • clavicular & sternocostal segments • Boundaries • Superior: Clavicle • Medial: Sternum • Lateral: Axillary fold • Fascia connects: serratus anterior & rectus abdominis
Origin • Clavicular: Medial aspect of clavicle • Sternocostal: Lateral sternum, 1st - 7th costal cartilages
and rectus abdominus muscle
Insertion • Bicipital groove humerus
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THORACOACROMIAL.A
AXIAL ARTERY
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Blood supply • Thoraco-acromial artery (axillary a.) • Internal (thoracic) mammary artery • Lateral thoracic artery (Subclavian
a.) Innervation • C5, C6 & C7 (lateral pectoral nerve) • C8, T1 (medial pectoral nerve) • Sensation: Intercostal nerves
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• Island Type
• Paddle Type
• Gemini Type
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ADVANTAGES• Non-delayed, one-stage procedure • Highly reliable • Primary closure of the donor site • Maybe used along with other flaps • It may be transposed with an attached rib • Skin coverage, muscle bulk and good blood
supply
DISADVANTAGESDISADVANTAGES• Excessive bulk and thickness may
compromise its blood supply • Hair bearing area • Shoulder disability
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TRAPEZIUS MUSCLE FLAPTRAPEZIUS MUSCLE
• Origin: nuchal line of occipital bone to spinal process of C7.• Insertion: Lateral third of the clavicle, acromion and
scapula. • Function: Elevation, flexion and adduction of the upper
arm. Movement of the scapula.
• Blood supply: • Transverse cervical artery • Occipital artery • Perforating blood vessels from the intercostal system
through its paraspinous portion.
• Venous drainage: • subdermal veins and concomitant veins of the
paravertebral venous system. • Innervation: • Motor: Spinal accessory nerve. • Sensory: Cervical and intercostal nerves.
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• TRAPEZIUS FLAP• 3 different types: superior, lateral &
inferiorly base flaps. • Gives considerable bulk, treating
defects of up to 10x20 cm. • Arch of rotation of up to 180 degrees. • ADVANTAGES• Minimal defect at donor area • Moderate shoulder-drop after surgery.
• Cannot be easily tubed.
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DELTOPECTORAL FLAP• Excellent reliability in head and neck defects, but
color match and texture is less than ideal. • Donor site requires STSG. • Horizontal flap design with round tip. • Perfused by intercostal perforating branches of the
internal mammary artery. • DELTOPECTORAL FLAP• Outlined along the inferior border of the clavicle,
beginning > sternum extending lateral > acromion process. Returning at the level of 5th rib.
• Elevation beneath the level of the pec. muscle fascia, lateral to medial.
• Base: 2 cm from the lateral sternal border.• Provides only skin, subq tissue & muscular fascia. • If used for oral reconstruction, oral cutaneous fistula
will be created and repaired in a second procedure
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STERNOCLEIDOMASTOID (SCM) FLAP• SCM MUSCLE
• Origin: sternum and medial half of clavicle (2 heads)
• Insertion: lateral surface of mastoid process • Blood supply: • Superior: branches of occipital artery. • Middle: branches of the superior thyroid artery. • Inferiorly: branches of the thyrocervical trunk. • Innervation: spinal accessory nerve.• can be used as muscle flap only, myocutaneous
flap or as a composite flap • Can be based superiorly or inferiorly. • The superior thyroid vessels should be
preserved at all times. • Limited rotational angle (random-pattern).
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LATISSIMUS DORSI MYOCUTANEOUS
PEDICLE FLAP• LATISSIMUS DORSI MUSCLE
• Origin: posterior iliac crest, thoracolumbar fascia, external oblique fascia and the lower six vertebrae.
• Insertion: Intertubercular groove of the humerus
• Blood supply: Circumflex subscapular artery Thoracodorsal artery
• Innervation: Thoracodorsal nerve.
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• LATISSIMUS DORSI FLAP• Good for scalp, forehead & anterior
cranial defects. • Can be transferred as a pedicle flap
or as a free flap. • As only muscle or as
musculocutaneous flap (bulky). • Reliable and provides large amount
of soft tissues > massive defects. • Not good for reconstruction of thin,
esthetic defects
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