CHAPTER 36

                 Neck: Cysts, Sinuses, and Fistulas



                                                    James O. Adeniran
                                                      Kokila Lakhoo






                           Introduction                        Table 36.1: Common causes of lumps in the necks of children
        Lumps in the neck are a common problem in children. Some of the   Location  Cause
        lumps may not be obvious at birth but slowly get bigger and become   Lateral side of neck  Lymph nodes due to scalp or throat infections, tubercu-
        worrying  to  the  parents.  Most  of  the  lumps  are  asymptomatic,  but   losis, or lymphomas
        some can cause respiratory or swallowing difficulties.  Some lumps     Cystic hygromas
                                                1,2
        become infected and require urgent medical attention. Most sinuses are   Sternomastoid tumour
        usually not noticed at birth, but as the child grows, there is persistent   Teratomas
        discharge from the ostia. Many of these lumps and sinuses are rem-     Thyroid masses
        nants of structures that form the face and neck. Some sinuses are due   Branchial cyst—first, second, third, fourth
        to chronic infections.                                  Midline of neck  Thyroglossal cysts
           Lumps that appear around the necks of children may be due to various   Dermoids
        conditions, as listed in Table 36.1. This chapter focuses on cysts, sinuses, and   Haemangiomas
        fistulas of the neck, which are remnants of branchial apparatus, and remnants   Ectopic thyroid tissue
        of the thyroid gland. Sinuses due to tuberculosis, human immunodeficiency
        virus (HIV), and fungi also are discussed. Lymphadenopathy is discussed
        in  Chapter  37,  sternomastoid  tumours  in  Chapter  38,  thyroid  masses  in
        Chapter 40, and lymphangiomas in Chapter 44.
              Branchial Arches, Clefts, and Pouches
        Embryology and Pathology
        Branchial  arches  appear  as  four  pairs  of  ridges  on  the  lateral  side
        of  the  face  of  the  5-week  old  embryo  (Figures  36.1  and  36.2).  The
        arches bulge into the side walls of the foregut and meet each other in
        its floor, displacing the heart caudally to establish the neck region of the
              3
        embryo.  The ridges are separated by four pairs of external, ectodermal
        grooves (branchial clefts) matched internally by four pharyngeal, endo-
        dermal pouches. The arches form the skeleton, musculature, and blood
        vessels of the jaws, palate, larynx, and pharynx, as well as the muscles
        of the face. As the dorsal ends of each arch approach the hindbrain,
        these structures are invaded by nerve fibres from the branchial efferent
        column. The ventral ends of the arches also converge on the pericar-
        dium to connect capillaries from the truncus arteriosus.  Each arch has   Source: FitzGerald MJT. Human Embryology: A Regional Approach. Harper & Row Publishers,
                                                3
                                                                1978. Used by permission.
        mesenchyme, which develops into bone, cartilage, blood vessels, and
        muscles innervated by the nerve of that arch.           Figure 36.1: Five-week embryo showing the position of
                                                                branchial arches.
        First Branchial Arch
        Embryology                                               Differentiation of the first branchial arch is shown below:
        The first, or mandibular, arch appears on the 22nd gestational day, and   • Skin: skin of lower part of face
        by the 6th week fuses in the midline to form the mesenchymal primor-
                                                                • Bones: malleus, incus, mandible, maxilla
        dium that develops into the anterior two-thirds of the tongue. The core
        of  the  arch  chondrifies  to  form  Meckel’s  cartilage,  which  develops   • Muscles: muscles of mastication, floor of the mouth, tensor palati,
        into the malleus and incus bones. The muscles of mastication develop   tensor tympani, anterior belly digastric and mylohyoid
        from the first arch mesoderm, all innervated by the motor root of the
                                                                • Nerve: mandibular branch of trigeminal nerve
        trigeminal. The first branchial cleft forms the external acoustic meatus.
           The first pharyngeal pouch is recognised after the formation of the   • Artery: maxillary
        head fold about the 20th day of embryonic life. The first pair of grooves
                                                                • Membrane: mucous membrane of nasopharynx
        and pouches persists to form the auditory canal and eustachian tube,
        which  is  separated  by  the  tympanic  membrane. The  first  pouch  and   Remnants
        membrane persist as the pharyngotympanic tube, middle ear cavity, and   Abnormal development of the first branchial arch results in cleft lip and
        tympanic membrane.                                     palate, pinna deformities, and malformed malleus and incus, which may
                                                               produce congenital deafness. 3–5