Human Body Parts That Start With V

Do you know what human body parts start with V? Check out this blog post to learn about some of them! This information might be helpful for you if you’re ever playing trivia or if you’re just curious about the human body. Stay tuned for more posts about the alphabet and human body parts!

Human Body Parts That Start With V

The first body part is the vocal cord. The vocal cord is a thin muscle that extends from the larynx to the thyroid cartilage. It helps us produce sound when we speak. Another body part that starts with V is the vas deferens. The vas deferens is a long, coiled tube that carries sperm from the testes to the urethra. It plays an essential role in reproduction. Many other human body parts start with V, and we will discuss them in detail:

Discussion about the Parts

• Vagina: The vagina extends from the vulva to the cervix and consists of tubular muscles. The outer portion of the vagina is typically covered by pubic hair, while the inner part is moist and lined with mucous membranes. The vaginal opening is also called the introitus. During sexual intercourse, but can also be used for childbirth and menstrual bleeding.
• Vagina, Vestibule: The vagina is a muscular tube that leads from the uterus to the body’s exterior. It’s about 3-6 inches long and covered with mucous membranes. The vaginal opening is called the vulva, including the labia (lips), clitoris, and urethra. This vestibule consists of the area between the labia minora (inner lips). It contains openings to the urethra and vagina and the Bartholin’s glands, which produce lubrication during sexual arousal.
• Vagus Nerve: Among all the nerves in the human body, the vagus nerve happens to be one of the longest. From the brainstem to the abdomen, the sympathetic nervous system regulates things such as heart rate, digestion, and immunity. The vagus nerve has recently been getting a lot of research attention, as it has links with the treatment of anxiety, depression, and Alzheimer’s disease in some cases.
• Vas (Ductus) Deferens: The vas deferens is a duct that carries sperm from the epididymis to the ejaculatory duct. It is a muscular tube about 20 cm long. The word “vas” is Latin for “duct.” The term “deferens” comes from the Latin verb “deferred,” which means “to carry.” So the name of this duct means “the carrying duct.”
• Vascular Artery: The vascular artery is a crucial part of the circulatory system, responsible for delivering oxygen and nutrients to all aspects of the body. A coronary artery consists of three layers: the tunica intima, the tunica media, and the tunica adventitia. It is the innermost tunica intima layer, consisting of a single layer of endothelial cells. These cells are responsible for maintaining blood flow and regulating nutrient uptake. The tunica media has smooth muscle cells, which contract to help propel blood through the artery.
• Vascular Tissue: Vascular tissue is responsible for carrying blood and other fluids throughout your body. It includes your arteries, veins, and capillaries. Blood leaves your heart through the streets and returns through the veins. Capillaries are the smallest of these vessels and connect arteries and veins. It is essential to keep your blood pressure stable and deliver oxygen and nutrients to your organs and tissues. Without it, you would quickly succumb to organ failure and death.
• Vasculature Of Abdomen: The abdomen’s vasculature is responsible for delivering oxygen and nutrients to its organs and tissues. All organs in the abdominal cavity receive blood through the aorta, the largest artery in the body. There are two blood vessels in the abdomen that supply the liver with blood: the hepatic artery and the portal vein. The hepatic artery carries high-oxygen blood from the lungs, while the portal vein carries low-oxygen blood from other body parts. 
• Vasculature Of Ankle: Vasculature of the ankle is an essential aspect of human anatomy. The vessels supplying blood to the ankle include the persistent mall Cook and accessory saphenous veins. As a consequence of the presence of veins, blood is constantly returning to the heart from the periphery. Without them, blood would pool in our extremities, and we would quickly become hypotensive. The venous system is also responsible for controlling fluid drainage from the tissues – think of edema. If you’ve ever seen someone with “pooling” in their ankles or feet, they have incompetent valves in their veins that don’t function properly to keep blood flowing in one direction – towards the heart.
• Vasculature Of Arm: There are three main types of vasculature in the arm: superficial, deep, and circulatory. The superficial veins extend closest to the skin’s surface, while the deep veins protrude further away from the surface. The circulatory veins are a combination of superficial and deep veins.
• Vasculature Of Foot: The vasculature of the foot consists of many veins, arteries, and capillaries that work together to bring blood to and from the feet. The anatomy of the vasculature is quite complex, but it ultimately works to keep the feet supplied with oxygen and nutrients while also helping to remove waste products. Veins are responsible for returning blood to the heart, and they are aided in this process by valves that prevent backflow. Arteries carry blood away from the heart, and they have smooth muscle tissue that helps regulate blood flow.
• Vasculature Of Head: The vasculature of the head refers to the blood vessels that supply oxygen and nutrients to the tissues of the head. The most important blood vessels in this region are the carotid arteries, which supply oxygenated blood to the brain. Many other important blood vessels in the head connect to the vertebral arteries, which supply oxygenated blood directly to the spinal cord, and the occipital arteries, which supply oxygenated blood directly to the back of the head.
• Vasculature Of Hip: The vasculature of the hip consists of a network of vessels that supply blood to the hip joint and surrounding tissues. The hip joint’s major arteries include the femoral artery, sciatic artery, and superficial iliac artery. Most of the blood in the hip joint comes from the femoral artery. The sciatic artery supplies blood to the posterior aspect of the hip joint and is a branch of the femoral artery. The superficial iliac artery supplies blood to the anterior part of the hip joint.
• Vasculature Of Knee: There are a lot of different vasculatures in the knee. The most common is the femoral artery, which supplies blood to the thigh and leg muscles. Other vasculatures include the popliteal artery, which helps to supply blood to the back of the knee joint, and the anterior tibial artery, which travels down the front of the shin bone. These different arteries help keep the knee joint health and functioning properly.
• Vasculature Of Leg: The vasculature of the leg refers to the network of veins, arteries, and capillaries that supply blood to the lower limbs. The main vessels that make up the vasculature of the leg are the femoral artery and vein, which run down the thigh; the popliteal artery and vein, which run behind the knee; and the tibial artery and vein, which run down the calf. The vasculature of the leg plays a vital role in blood circulation throughout the body. An artery carries oxygen-rich blood from the heart to the legs, and returns deoxygenated blood to the heart. 
• Vasculature Of Neck: The vasculature of the neck is essential because it helps to distribute blood throughout the head and body. The veins and arteries in the neck are responsible for carrying oxygenated and deoxygenated blood, respectively, to and from the brain. Two main arteries run through the neck: the carotid and vertebral arteries. It carries blood from the heart to the brain. The carotid artery has several branches, including the common carotid artery, which supplies blood to most of the head and neck, and the external carotid artery, which supplies blood to the face and scalp.
• Vasculature Of Pelvis: The vasculature of the pelvis refers to the blood vessels in and around the pelvis. These vessels include the femoral arteries, iliac arteries, and pudendal arteries. An artery’s femoral artery is a large artery that supplies blood to the thigh and leg. This large artery delivers blood to the lower abdomen and pelvic region through the iliac artery. It is a small artery that passes through the genitals and anus and supplies blood to them. They provide oxygenated blood and nutrients to the pelvic tissues.
• Vasculature Of Shoulder: The vasculature of the shoulder breaks down into two parts: the superficial and the deep. The shallow vessels are located just below the skin and include the veins, arteries, and lymphatic vessels. These blood vessels provide blood and lymph flow to and from the skin and muscles of the shoulder. Deep vessels are located deeper in the body and include the veins, arteries, and lymphatic vessels. A shoulder’s muscles, bones, and joints receive blood and lymph.
• Vasculature Of Thorax: The vasculature of the thorax includes the veins and arteries that supply blood to the heart, lungs and other structures in the chest. Thoracic veins return blood from the body to the heart, while arteries bring oxygenated blood from the heart to the body. Different body parts receive blood from smaller arteries that branch off from the aorta. Heart pumps deoxygenated blood to the lungs through the pulmonary artery.
• Vein: Veins are blood vessels that carry blood back to the heart. The blood goes from the left side to the right side of the heart. Blood flow is precluded from flowing backward in veins by the presence of a valve. There are four main types of veins in the human body: superficial veins, deep veins, perforating veins, and pulmonary veins. Simple veins are close to the skin’s surface and often visible through it. Deep veins are found deep in muscles and around bones. Perforating veins connect superficial and deep veins. Pulmonary veins carry carbon-dioxide rich blood from the lungs back to the heart.
• Vejiga: The vejiga is a human body part located in the pelvic region. It is a muscular, sac-like structure that holds urine until it is ready to be released from the body. The vejiga is connected to the urinary tract and helps control the release of urine from the body. Dysfunction of the vejiga can lead to incontinence or involuntary leakage of urine.
• Velum: The velum is a sheath of connective tissue that covers the chief muscle groups of the human body. It is the main component of the musculoskeletal system and protects against thermal injury. The velum also helps keep the body’s fluids in balance and provides a barrier against infection. Additionally, the velum allows for the free movement of muscles and bones and provides support for blood vessels and nerves.
• Vena Cava: This big vein takes blood from other parts of the body up to the heart’s right atrium. It divides into the superior and inferior vena cava. The superior vena cava carries blood from the head, neck, and arms. Blood goes into the inferior vena cava from the lower body and abdomen. The wall of the vena cava consists of three layers:
  • An inner layer of endothelial cells
  • A middle layer of smooth muscle cells
  • An outer layer of connective tissue
• Endothelial cells line the inside of the vein and contribute to blood moving through it.
• Ventricles: The ventricles are four cavities in the human brain. They are the most extensive cavities and make up most of the brain’s interior space. The two lateral ventricles are located in the cerebral hemispheres, while the third ventricle resides in the diencephalon and the fourth ventricle in the cerebellum. Each of these structures plays an essential role in regulating cerebrospinal fluid (CSF) flow and managing communication between different brain areas. CSF is responsible for cushioning and protecting the brain, providing nutrients, and removing waste products.
• Varicose Veins: Varicose veins look like swollen, twisted veins that you can see just below the skin’s surface. Their appearance resembles cords, and they are usually blue, purple, or red. In order to keep blood flowing in the right direction, veins have one-way valves that let blood flow only in one direction. These valves don’t work correctly, so blood pools in the veins and make them swell. Varicose veins form when too much pressure gets on the vein walls. This pressure can be from standing or walking for long periods, being pregnant, or wearing tight clothing. Obesity and age also increase your chances of getting varicose veins.
• Vermis: The vermis is a small, worm-like structure located in the cerebellum responsible for coordinating movement. Although it’s generally associated with human beings, vermis can appear in many animals, including reptiles and Fish. Not much information about this enigmatic structure is available, but scientists believe it plays a vital role in balance and coordination.
• Vertebra: The vertebrae are a series of bones that make up the spine. There are 33 vertebrae in total, each stacked on top of the other. The bones start at the base of the skull and go down to the tailbone. The vertebrae protect the spinal cord, a bundle of nerves that runs through the center of the spine.
• Vertebral Artery: The vertebral artery is a large, paired blood vessel that supplies blood to the brain. It arises from the subclavian artery below the clavicle (collarbone) and travels up through the neck, inside the vertebral column (spine), to supply blood to the brain. The vertebral artery is an important part of the human body because it delivers oxygen-rich blood to the brain. This is essential for the normal function of all of the body’s systems.
• Vertebral Column: The vertebral column, also known as the spine, is a vertical stack of bones in the human body that runs from the base of the skull to the tailbone. It houses and protects the spinal cord and supports the head and neck. A vertebra is an individual bone in the vertebral column responsible for keeping the body. These bones go into five regions: cervical, thoracic, lumbar, sacral, and coccygeal. There are seven small vertebrae at the base of the neck in the cervical region. A total of 12 medium-sized vertebrae exist in the thoracic region of the body. 
• Vertex: Vertex is one of the prominent bones in the human body. It is located at the top of the spine and connects to the ribs. There is a hole in each vertebra for the spinal cord to run through. The vertebrae make up the spine. Essentially, it is a bundle of nerves that travel from the brain to the rest of the body and carry signals from one part to another. The spinal cord gets shielded by a sheath of tough connective tissue called the dura mater. Dura mater surrounds the spinal cord and extends down to the Vertebral Column (the spine’s bones).
• Vesicle: Vesicles are small sac-like organelles that are membrane-bound. They perform various functions in eukaryotic and prokaryotic cells. In humans, vesicles play an essential role in transporting molecules within cells and the secretion of proteins from cells. There are three types of vesicles: secretory vesicles, transport vesicles, and endocytic vesicles. Secretory vesicles are involved in the secretion of proteins from cells. Transport vesicles transport molecules from one part of a cell to another. Endocytic vesicles form when a cell takes in the material by engulfing it with its plasma membrane.
• Vessel: The vessels of the human body are a network of tubes that carry blood, lymph, and other bodily fluids. There are three vessels in the human body: arteries, veins, and capillaries. Arteries carry blood away from the heart, while veins carry blood back to the heart. The capillaries are tiny vessels that connect the arteries and veins and allow nutrients and oxygen to diffuse between them.
• Vestibule: The vestibule is the inner ear area that lies between the cochlea and the semicircular canals. The vestibule is responsible for balance and detecting linear movement. It contains three small membranous sacs called the utricle, saccule, and lagena, filled with a viscous fluid called endolymph. The utricle detects rotational movement (such as when you turn your head), while the saccule detects vertical movement (such as jumping up or down). The lagena is responsible for detecting linear acceleration.
• Vestibulocochlear Nerve: The vestibulocochlear nerve is one of the most critical nerves in the human body. It helps us to keep our balance and enables us to hear. This nerve is also known as the acoustic nerve or the 8th cranial nerve. The vestibulocochlear nerve has two main parts: the cochlear and vestibular portions. The cochlear portion helps us hear by transmitting sound waves from the ears to the brain. The vestibular portion helps us maintain our balance by sending information about movement and head position to the brain.
• Villi: Villi are tiny, finger-like projections that line the small intestine and increase the surface area available for nutrient absorption. They are covered with mucus to protect them from digestive juices and bacteria. Each villus contains microscopic blood vessels that absorb nutrients from food as it passes through the intestine.
• Viscera: Viscera (singular: viscus) is the body’s internal organs. These include the heart, lungs, liver, spleen, and intestines in humans. They all do something special. There is blood flow throughout the body; there is gas exchange between blood and air; there is detoxification from the liver and bile production to aid digestion; the destruction of old red blood cells and infection resistance in the spleen.
• Vitreous Vein: The vitreous vein is a large, long vein that runs through the vitreous humor. This vein helps to drain blood from the eyeball and surrounding structures. It is important for maintaining healthy vision and preventing the buildup of toxins in the eye.
• Vocal Cords: The vocal cords are two thin pieces of muscle that vibrate when air passes over them, producing sound. They’re in the larynx, or voice box, in the front of the neck. The vocal cords work by several muscles that open and close the airway. These muscles include the thyroid cartilage (Adam’s apple), the cricoid cartilage, and the arytenoid cartilages. The vocal cords also open and close when you swallow.
• Voice Box: The human voice box, or larynx, is a crucial part of the body that allows us to talk. It is a small organ made of cartilage that sits at the top of the windpipe. Voice boxes contain the vocal cords, which are two thin bands of muscle tissue that vibrate as a result of producing sound.

Conclusion

Since so many human body parts start with V., We’ve highlighted some of the more unique and interesting ones in this post. Hopefully, you enjoyed learning about them as much as we did! For more information on these fascinating topics, check out our other posts on anatomy and physiology. Make sure you share this post with your friends – after all, knowledge is power!