The parietal bone is a large, curved bone forming the superolateral wall and roof of the skull. It meets its contralateral counterpart at the midline and contributes to the calvaria (the protective dome over the brain). In this article, we shall look at the anatomy of the parietal bone – its bony landmarks, articulations and clinical correlations. By TeachMeSeries Ltd (2026) Fig 1Bones of the calvarium and cranial base. Pro Feature - 3D Model You've Discovered a Pro Feature Access our 3D Model Library Explore, cut, dissect, annotate and manipulate our 3D models to visualise anatomy in a dynamic, interactive way. Learn More Anatomical Structure The parietal bone forms part of the cranial vault and contributes to the upper lateral aspects of the skull. It is situated between the frontal, occipital, and temporal bones. It consists of an external surface facing the scalp, and an internal surface facing the cranial cavity. External Surface The external surface of the parietal bone is smooth and convex. It is marked by the parietal eminence – a raised area marking the primary ossification centre. This is a rounded swelling easily palpable on the lateral skull. Two curved ridges cross the external surface of the parietal bone: Inferior temporal line – upper limit of the attachment of the temporalis muscle. Superior temporal line – upper limit of the attachment of the temporal fascia. Near the midline, some individuals possess a small parietal foramen – an opening that allows an emissary vein to pass between the scalp and the superior sagittal sinus. Internal Surface The internal surface of the parietal bone is moulded to the shape of the cerebral hemispheres – and much of its detail reflects the course of blood vessels and meninges. A prominent feature are the branching grooves of the middle meningeal artery which supplies the dura mater. At the midline, the superior border forms half of the sagittal sulcus. Together with the opposite parietal bone, this sulcus houses the superior sagittal sinus- a major dural venous channel. The falx cerebri, a dural fold, attaches along its edges. By TeachMeSeries Ltd (2026) Fig 2The internal surface of the parietal bone. Borders & Articulations The parietal bone has four borders, each contributing to a cranial suture: Sagittal border – articulates with the opposite parietal bone along the sagittal suture. Frontal border – articulates with the frontal bone at the coronal suture. The meeting point with the sagittal suture is called the bregma. Squamous border – articulates with the temporal bone and the greater wing of the sphenoid, forming the parietomastoid and sphenoparietal sutures respectively. Occipital border – meets the occipital bone at the lambdoid suture. The junction of the lamboid suture with the sagittal suture is known as the lambda. The parietal bone contributes to the H-shaped pterion. This is an articulation with the temporal, sphenoid and frontal bones on the lateral aspect of the skull, and an area of potential weakness. By TeachMeSeries Ltd (2026) Fig 3The external surface and borders of the parietal bone. Ossification The parietal bone forms by intramembranous ossification. This means it develops directly from mesenchymal tissue rather than cartilage. This process begins around week 8 of foetal development at the parietal eminence. Bone growth spreads outward from this point, with the edges ossifying last. Clinical Relevance Extradural Haematoma The parietal bone articulates with the frontal, temporal, and sphenoid bones at a point known as the pterion. This region is a relative weak spot in the lateral skull, as multiple sutures converge and the bone is thin. Immediately deep to the pterion runs the middle meningeal artery, which lies between the skull and the dura mater. Trauma to this area can fracture the skull and damage the underlying artery. Injury to the middle meningeal artery leads to arterial bleeding into the extradural space, causing a rapidly expanding extradural haematoma and raised intracranial pressure. Patients classically develop a lucid interval followed by neurological deterioration, and management requires urgent imaging and surgical evacuation. By TeachMeSeries Ltd (2026) Fig 4Lateral view of the skull, showing the path of the meningeal arteries. Note the pterion, a weak point of the skull, where the anterior middle meningeal artery is at risk of damage. Do you think you’re ready? Take the quiz below Pro Feature - Quiz The Parietal Bone Question 1 of 3 Submitting... Skip Next Rate question: You scored 0% Skipped: 0/3 1800 More Questions Available Upgrade to TeachMeAnatomy Pro Challenge yourself with over 1800 multiple-choice questions to reinforce learning Learn More Frequent questions What is the parietal bone and where is it located? The parietal bone is a large, curved bone that forms the superolateral wall and roof of the skull. It is positioned between the frontal, occipital, and temporal bones, contributing to the protective dome over the brain. What are the key features of the external surface of the parietal bone? The external surface of the parietal bone is smooth and convex, marked by the parietal eminence, which is the primary ossification centre. It also features two curved ridges: the inferior temporal line and the superior temporal line, which indicate muscle and fascia attachments. How does the parietal bone articulate with other cranial bones? The parietal bone has four borders that articulate with adjacent bones: the sagittal border meets the opposite parietal bone, the frontal border connects with the frontal bone, the squamous border interacts with the temporal bone, and the occipital border articulates with the occipital bone, forming several important sutures. What is the clinical significance of the pterion in relation to the parietal bone? The pterion is a weak area on the lateral skull where the parietal bone meets the frontal, temporal, and sphenoid bones. Due to its thin structure and proximity to the middle meningeal artery, trauma to this region can lead to extradural haematoma and increased intracranial pressure. How does the parietal bone develop during fetal growth? The parietal bone develops through intramembranous ossification, starting around the eighth week of fetal development at the parietal eminence. This process allows the bone to form directly from mesenchymal tissue, with ossification spreading outward from the initial site. Rate This Article