Introduction to Prolotherapy, PRP and Stem Cell Therapy

... temporary, low grade inflammatory response at the site of injection draws in fibroblasts to synthesize collagen and strengthen cartilage. It also provokes the production of growth factors that restart the healing cascade that never completed effective healing. (1-7) The process of prolotherapy is pr ...

Volume 1, Issue 2

... direct the stem cells to develop into pure populations of proliferating stem cells. By introducing other molecules to the mix, the pure cells could further develop into specialized mature intestinal cells. "This is an opportunity to generate a large number of relevant mature gastrointestinal cell ty ...

Tissue

... • The most abundant and widely distributed tissue in the body • Multiple types, appearances and functions • Relatively few cells in extracellular matrix (think: fruit “cells” floating or suspended in Jell-O) • Protein fibers • Ground substance • Fluid ...

Chapter 22

... • The actin filaments are anchored to one end of the sarcomere called the Z line. • Myosin is interspersed between a pair of actin filaments connected to either end of the sarcomere. • As the actin filaments are pulled by myosin, so are the Z lines; the sarcomere shortens, and the cell contracts. ...

chapter_5 - The Anatomy Academy

... Calcified matrix in lamellae around central canal  Osteocytes in lacunae between lamellae  Skeletal support; leverage for muscles; mineral storage ...

... • Single layer of cells with different heights; some do not reach the free surface • Nuclei are seen at different layers • Function in secretion and propulsion of ...

Peripheral Nervous System

... Exteroceptors - stimulation arising outside of the body (touch, pain, and temperature) Interoceptors - stimulation arising inside the body (chemical messengers, stretching of tissue, and internal temperature) ...

Tissues

... underlying areas where friction is common – Present in: • Skin • Mouth • Esophagus ...

Peripheral Nervous ppt

... Exteroceptors - stimulation arising outside of the body (touch, pain, and temperature) Interoceptors - stimulation arising inside the body (chemical messengers, stretching of tissue, and internal temperature) ...

lab_an_prep

... the cochlea. In order to visualize the AN small cotton pellets are inserted between the wall of the skull and the brain stem. This pushes the brainstem medially and exposes the eight nerve. The nerve consists of two branches, the caudal branch is the auditory nerve and the rostral branch is the vest ...

connective tissue

... • Goblet cells secret mucus which the cilia then moves away – Line respiratory system – trap dust or other particles and sweep it away ...

Research and Development into the Field

... Nanotechnology is technology on a scale of less than 100nm and this essential property means that it can control matter at the atomic scale. This is a unique asset which is very advantageous in the fast paced world of new materials and concepts in science. Medicine is just one of many branches of sc ...

Notes 1

... Since cells of meristematic tissue are highly active so they have dense cytoplasm. Vacuole is absent in these cells. These cells have high metabolic activity and rate of respiration. They grow and divide repeatedly. Functions: They take part in growth, produce new leaves, stem, flower, fruit etc , h ...

Slide 1

... -cells are cubes -nucleus is in the center of the cell – very round -simple cuboidal: regions of secretion and absorption e.g. kidney tubules pancreas & salivary glands – secretion of buffers & enzymes thyroid follicles – secretion of thyroid hormones ...

Connective Tissues - Excellence Gateway

... Organs perform specific functions for instance the lungs: We breathe in through the trachea, this is made of rings of cartilage tissue and lined with epithelial tissue, the lungs are made of epithelial tissue and elastic connective tissue to allow them to expand, the chest cavity is moved by the dia ...

1 Lec 4 Tissues V9

... • Three characteristics make connective tissues different from other primary tissues – Have mesenchyme (an embryonic tissue) as their common tissue of origin – Have varying degrees of vascularity (blood vessels) – Have extracellular matrix • Connective tissue not composed mainly of cells • Largely n ...

neurology_lab9_3_5_2011 - Post-it

... cross to opposite side posteriorly to emerge from post aspect of midbrain "the decussation will be post to cerebral aquiduct " Medial lemniscus tracts & lateral lamniscus & trigeminal lemniscus run post to substantia nigra . Crus cerebri "ant to substantia nigra" contain a lot of fibers . 1. middle ...

Inquiry into Life Twelfth Edition

... – Matrix: solid, semisolid, or liquid (non cellular material – solid to jelly like – Fibers: • White collagen (protein that stretches, elastic), • Reticular (thin collagen fibers, delicate, spider-web like) • Yellow elastic fibers, another protein, elastin, more elastic than collagen – Cells: variou ...

Stem Cells

... animals cannot do this, but scientists are studying how stem cells could be used to create new tissue and even new organs to treat disease, injury and conditions such as paralysis. What type of stem cells should be used? 10 of 18 ...

GENETIC ENGINEERING One of the first uses for genetic

... One of the first uses for genetic engineering was to produce insulin, which regulates your fats and carbohydrates, and is very important for patients with diabetes. Any discussion of genetic engineering pros and cons should include this fact. It was a revolutionary and new method of using genetic ma ...

CH 3 P3 Lecture

... • Tissues that regenerate poorly: – Skeletal Muscle ...

Anatomy & Physiology Chapter 3 – Part 3

... Bone Skeletal Muscle ...

Week 5 Lecture 1 Chapter 4 The Tissue Level of Organization

... – stratified = many cell layers thick. Located where protection from mechanical or chemical stresses are needed. ( skin , mouth ) – pseudostratified = single layer of cells where all cells don’t reach apical surface • nuclei at found at different levels so it looks multilayered ...

histology / tissue level of organization

... • erythrocytes transport oxygen and carbon dioxide between the lungs and the body tissues • leukocytes mount an immune response • platelets are involved with blood clotting ...

Types of Tissues

... Their cells are all touching one another Of all tissues, they are the most widely varied in structure and function ...

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Nerve guidance conduit

A nerve guidance conduit (also referred to as an artificial nerve conduit or artificial nerve graft, as opposed to an autograft) is an artificial means of guiding axonal regrowth to facilitate nerve regeneration and is one of several clinical treatments for nerve injuries. When direct suturing of the two stumps of a severed nerve cannot be accomplished without tension, the standard clinical treatment for peripheral nerve injuries is autologous nerve grafting. Due to the limited availability of donor tissue and functional recovery in autologous nerve grafting, neural tissue engineering research has focused on the development of bioartificial nerve guidance conduits as an alternative treatment, especially for large defects. Similar techniques are also being explored for nerve repair in the spinal cord but nerve regeneration in the central nervous system poses a greater challenge because its axons do not regenerate appreciably in their native environment.The creation of artificial conduits is also known as entubulation because the nerve ends and intervening gap are enclosed within a tube composed of biological or synthetic materials. Whether the conduit is in the form of a biologic tube, synthetic tube or tissue-engineered conduit, it should facilitate neurotropic and neurotrophic communication between the proximal and distal ends of the nerve gap, block external inhibitory factors, and provide a physical guidance for axonal regrowth. The most basic objective of a nerve guidance conduit is to combine physical, chemical, and biological cues under conditions that will foster tissue formation.Materials that have been used to make biologic tubes include blood vessels and skeletal muscles, while nonabsorbable and bioabsorbable synthetic tubes have been made from silicone and polyglycolide respectively. Tissue-engineered nerve guidance conduits are a combination of many elements: scaffold structure, scaffold material, cellular therapies, neurotrophic factors and biomimetic materials. The choice of which physical, chemical and biological cues to use is based on the properties of the nerve environment, which is critical in creating the most desirable environment for axon regeneration. The factors that control material selection include biocompatibility, biodegradability, mechanical integrity, controllability during nerve growth, implantation and sterilization.

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Nerve guidance conduit