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NEET MDS 2023 : Special stray vacancy round

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  Unveiling the Special Stray Vacancy Round for NEET PG 2023 MDS: Your last Chance at Academic Glory --- Introduction: In a surprising turn of events, the NEET PG 2023 MDS (Master of Dental Surgery) academic year is set to witness a special stray vacancy round, providing aspiring candidates with a golden opportunity to secure a coveted spot in prestigious dental colleges. Breaking News GIF from Breaking News GIFs This additional round of admissions comes as a beacon of hope for those who might have missed the initial deadlines or are still aspiring to pursue their dream of mastering dental surgery. --- Important Dates: - Registration Period : November 17 to November 22    - Prospective candidates can register during this window, ensuring they don't miss their chance to participate in the special stray vacancy round. - Choice Filling and Locking: November 18 to November 22    - Once registered, candidates can carefully choose and pri

function of spleen: short answer questions

The spleen is an organ located in the upper left quadrant of the abdomen, below the ribcage. It is part of the lymphatic system and is involved in various functions related to blood filtration and immune response. Here are key aspects of the anatomy of the spleen: Welcome Back Students Zhivago1955 GIF from Welcome Back Students GIFs 1. Location:    - The spleen is situated in the left hypochondriac region of the abdomen, between the 9th and 11th ribs. I Need To Know Where Aziraphale GIF from I Need To Know Where GIFs 2. Shape and Size:    - The spleen is typically described as being somewhat oval or ellipsoidal in shape.    - In an adult, its dimensions can vary, but it is approximately 4 to 5 inches (10 to 12 cm) in length. Ghanta Jjust Music GIF from Ghanta GIFs 3. Surfaces:    - The spleen has two surfaces: the diaphragmatic surface (which is smooth and in contact with the diaphragm) and the visceral surface

difference between exocrine and endocrine glands: short answer questions

Exocrine Glands vs. Endocrine Glands: 1. Definition:    - Exocrine Glands:      - Secrete their products into ducts that lead to the body's cavities, surfaces, or organs.    - Endocrine Glands:      - Secrete hormones directly into the bloodstream, and these hormones travel to target organs or tissues. 2. Mode of Secretion:    - Exocrine Glands:      - Release their secretions through ducts onto a surface or into an organ.    - Endocrine Glands:      - Release hormones directly into the blood without the use of ducts. 3. Products Secreted:    - Exocrine Glands:      - Produce substances such as enzymes, sweat, saliva, mucus, or oil.    - Endocrine Glands:      - Produce hormones, which are chemical messengers that regulate various physiological processes. 4. Target of Secretions:    - Exocrine Glands:      - Act locally on nearby tissues or are released onto a body surface.    - Endocrine Glands:  - Act on distant target organs or tissues through the bloodstream. 5. Examples:    -

placenta: short answer questions

The placenta plays a crucial role in human embryonic development, serving as a unique and vital organ during pregnancy. Here are some significant aspects of the placenta: 1. Nutrient and Gas Exchange:    - The placenta facilitates the exchange of nutrients, oxygen, and waste products between the maternal and fetal circulatory systems. This is essential for the nourishment and growth of the developing embryo. 2. Waste Elimination:    - Metabolic waste products from the developing fetus, such as carbon dioxide and certain nitrogenous wastes, are transported across the placenta and eliminated from the fetal circulation into the maternal bloodstream. 3. Hormone Production:    - The placenta produces hormones that play a critical role in maintaining pregnancy and supporting fetal development. These hormones include human chorionic gonadotropin (hCG), human placental lactogen (hPL), progesterone, and estrogen. 4. Immunological Barrier:    - The placenta acts as a barrier to protect the devel

osteology of skull: short answer questions

Osteology of the Skull: The human skull is a complex structure comprising various bones that protect the brain and house sensory organs. Here's an overview of the osteology of the skull, detailing the individual bones and their features: 1. Cranium (Cranial Vault):    - Frontal Bone:      - Forms the forehead and part of the eye sockets (orbits).      - Contains the frontal sinus.    - Parietal Bones (2):      - Form the bulk of the cranial vault.    - Temporal Bones (2):      - Contain the ear structures.      - Consist of the squamous, tympanic, and mastoid parts.    - Occipital Bone:      - Forms the back and base of the skull.      - Contains the foramen magnum, allowing the spinal cord to connect with the brain.    - Sphenoid Bone:      - Butterfly-shaped bone at the base of the skull.      - Forms part of the eye socket and the floor of the skull.    - Ethmoid Bone:      - Located between the eyes.      - Forms part of the eye socket and nasal cavity. 2. Facial Bones:    - Ma

medulla oblongata: long answers questions

**Structure of the Medulla Oblongata:** 1. **Location:**    - The medulla oblongata is the lowermost part of the brainstem, situated between the pons and the spinal cord. 2. **Gray and White Matter:**    - It contains both gray and white matter. Gray matter houses cell bodies, while white matter consists of myelinated nerve fibers. 3. **Decussation of Pyramids:**    - Prominent structures called pyramids contain motor tracts, and a significant feature is the decussation (crossing over) of motor fibers. Motor signals from the brain cross to the opposite side of the body here. 4. **Cardiovascular and Respiratory Centers:**    - The medulla contains vital centers that regulate involuntary functions such as heartbeat and breathing. The cardiac center controls heart rate, while the respiratory center regulates breathing. 5. **Cranial Nerve Nuclei:**    - Several cranial nerve nuclei are located in the medulla, including nuclei for cranial nerves VIII to XII. These nuclei are associated with

epithelial cells and tissues: long answer questions

Structure of Epithelial Tissue: 1. Cellularity:    - Epithelial tissue is composed of tightly packed cells with little extracellular matrix between them. The cells are closely connected, forming continuous sheets. 2. Polarity:    - Epithelial cells exhibit polarity, having an apical (upper) surface facing the external environment or a lumen and a basal (lower) surface attached to the underlying connective tissue. 3. Attachment:    - The basal surface of epithelial cells is attached to a basement membrane, a specialized extracellular matrix that provides structural support and facilitates adherence to underlying tissues. 4. Avascularity:    - Epithelial tissues lack blood vessels. Nutrients and oxygen diffuse from nearby connective tissues. 5. Regeneration:    - Epithelial cells have a high regenerative capacity, continuously replacing damaged or lost cells through cell division. 6. Arrangement:    - The arrangement of epithelial cells can be simple (single layer) or stratified (multipl

notochord: short answer questions

The notochord is a flexible, rod-like structure that is part of the embryonic development in chordates. It serves as a defining feature of the phylum Chordata, which includes vertebrates like fish, amphibians, reptiles, birds, and mammals, including humans. Key characteristics of the notochord include: 1. Structural Role:  The notochord provides structural support to the developing embryo. It runs along the dorsal (back) side of the embryo, extending from the head to the tail. 2. Mesodermal Origin: The notochord originates from the mesoderm, one of the three primary germ layers in the early embryo. 3. Inductive Role: The notochord plays a critical role in inducing the formation of the neural tube, which gives rise to the central nervous system. 4. Temporary Structure:  In many vertebrates, the notochord is a transient structure. In some cases, it persists in certain regions of the spine in adult animals, contributing to the structure of intervertebral discs. 5. Evolutionary Significanc

gastrulation and it's significance: short answer questions

Gastrulation is a crucial process during embryonic development where a blastula, a hollow ball of cells, transforms into a structure with three germ layers: ectoderm, mesoderm, and endoderm. This marks the formation of a gastrula. Here's a step-by-step breakdown: 1. Blastula Formation:    - The early stage of embryonic development involves the rapid division of a fertilized egg into a hollow ball of cells called a blastula. 2. Initiation of Gastrulation:    - Gastrulation begins with the formation of a structure called the primitive streak in organisms like vertebrates. This is where cells start to move inward. 3. Cell Movements:    - Cells at the surface of the blastula undergo coordinated movements. Some cells migrate through the primitive streak and move toward the interior of the embryo in a process called invagination. 4. Formation of Germ Layers:    - As cells move, they give rise to three primary germ layers:      - Ectoderm: The outermost layer, which gives rise to the skin

blood supply of lower limb: short answer questions

The major blood supply to the lower limb is primarily provided by the femoral artery, which is a continuation of the external iliac artery. The femoral artery runs down the thigh and gives off various branches that supply blood to different parts of the lower limb. These branches include the deep femoral artery (profunda femoris), which contributes to the blood supply of the thigh muscles. As the femoral artery continues into the lower leg, it becomes the popliteal artery behind the knee. The popliteal artery further branches into the anterior tibial artery, posterior tibial artery, and fibular (peroneal) artery, supplying blood to the muscles and tissues of the leg and foot. Certainly! Let's delve into more detail: 1. External Iliac Artery:    - Originating from the common iliac artery, the external iliac artery runs down the pelvic region. 2. Common Femoral Artery:    - As the external iliac artery crosses under the inguinal ligament, it becomes the common femoral artery. 3. Supe