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Dr. Vodder's Manual Lymph Drainage (eBook)

A Practical Guide
eBook Download: EPUB
2018 | 2. Auflage
153 Seiten
Thieme (Verlag)
978-3-13-257874-6 (ISBN)

Lese- und Medienproben

Dr. Vodder's Manual Lymph Drainage - Hildegard Wittlinger, Dieter Wittlinger, Andreas Wittlinger, Maria Wittlinger
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<p><strong><em>Fully updated guide to the theory and practice of <cite>Dr. Vodder's Manual Lymph Drainage</cite></em></strong></p><p>Written by the world's leading authorities on Dr. Emil Vodder's techniques for manual lymph drainage (MLD), this lavishly illustrated guide provides step-by-step descriptions of how to massage the lymph vessels to stimulate smooth lymphatic flow.</p><p>A concise text describing the basic anatomy and physiology of the circulatory and lymphatic systems is supplemented by full-color photographs and revelatory schematic drawings. The authors discuss indications and contraindications for the treatment techniques, based on the various types of swelling caused by lymphedema, as well as the ways in which Dr. Vodder's method affects different regions of the body.</p><p><strong>Key Features:</strong><ul><li>The latest information on complete decongestive therapy (CDT), including coverage of compression therapy, taping, respiratory treatment, and other complementary methods</li><li>More than 200 color photographs demonstrate the therapist's application of manual pressure and movement patterns</li><li>Each chapter includes numerous practical tips and sufficient space for personal notes</li><li>56 review questions enable self-study</li></ul></p><p><cite>Dr. Vodder's Manual Lymph Drainage: A Practical Guide</cite> is a comprehensive, one-stop reference for students, therapists, and practitioners of lymphology, manual medicine, or physical therapy.</p><p>This book includes complimentary access to a digital copy on <a href='https://medone.thieme.com' target='blank'>https://medone.thieme.com.</a></p>

1 Anatomy and Physiology of the Circulation of Blood


1.1 Blood


Blood can be regarded as a liquid tissue. It circulates in the body, driven by a pump, the heart. Our blood accounts for 7 to 8% of our body weight, which in a person of 70 kg (154 lb) body weight amounts to about 4.5 to 6 L of blood. Blood is made up of blood plasma and blood cells (erythrocytes, leukocytes, and thrombocytes; Fig. 1.1).

Red blood cells (erythrocytes) develop like all other blood cells from pluripotent stem cells in the bone marrow ( Fig. 1.2). Erythrocytes contain hemoglobin, which transports oxygen. They are not motile (i.e., they cannot move on their own), but are carried along in the bloodstream.

Fig. 1.1 Solid and liquid blood components.

Fig. 1.2 Family tree of blood cells.

White blood cells (leukocytes) include granulocytes (neutrophilic, basophilic, and eosinophilic), lymphocytes, plasma cells, and monocytes.

Thrombocytes are blood platelets, which play an im portant part in blood coagulation.

Blood plasma contains dissolved organic and inorganic molecules. Albumins make up the majority of plasma proteins. They are metabolized in the liver and have a role as transporters, for example, of hormones. Like all plasma proteins, albumins are water soluble and are thus responsible for the colloid osmotic pressure. The immunoglobulins (also called antibodies) are the molecular front of the body's defense system. They are released into the blood by certain lymphocytes, called plasma cells.

Both blood and lymph contain fibrinogen, which has a role in coagulation. Examples of organic substances found in blood are lipids, lipid–protein compounds (lipoproteins), hormones, vitamins, amino acids, and bile pigments. “Organic substances” is the name given collectively to all molecules containing the carbon atom C, except for CO (carbon monoxide) and CO2 (carbon dioxide).

Examples of inorganic substances are phosphate, iodine (I), iron (Fe), potassium (K), and sodium (Na).

The main task of blood is as a transporter. Oxygen is carried from the lungs directly to all tissues via the red blood corpuscles (erythrocytes), and carbon dioxide is carried back from the tissues to the lungs. The only structures excluded from this direct exchange are joint cartilage, a small section of the bone–tendon connection, and parts of the intervertebral disk. In addition, as a liquid medium, the bloodstream transports nutrients from the intestines to the tissues and metabolic waste to the organs of excretion.

1.1.1 Red Blood Cells (Erythrocytes)

Erythrocytes, which are non-nucleated, make up 99% of the corpuscular components of the blood. Their function is to transport oxygen, which bonds in the cell, to hemoglobin, the ferrous blood pigment.

Erythrocytes are formed in the bone marrow and have a life cycle of 120 days. They are broken down in the spleen. At maturity, they are 6 to 7 µm in size, which means they are larger than the diameter of the capillaries. Because they cannot move on their own, they have to be very pliable so that they can be pushed through the capillaries ( Fig. 1.3).

1.1.2 White Blood Cells (Leukocytes)

Leukocytes are not a uniform group of cells. Their three main groups comprise such differing cells as lymphocytes, granulocytes, and monocytes. Q 50

Fig. 1.3 Deformation of red blood cells as they pass through capillaries.

Granulocytes, which are nonspecific defense cells, make up 60% of leukocytes. They are divided into three groups ( Fig. 1.4a–c):

Neutrophilic granulocytes (95%).

Eosinophilic granulocytes (3%).

Basophilic granulocytes (2%).

With a diameter of 10 to 17 µm, they are considerably larger than the erythrocytes. Granulocytes remain in the blood only for a short period of time, moving on from there to the tissues, especially the mucous membranes, where they fulfill their defense function by destroying bacteria through phagocytosis.

Approximately 30% of white blood cells are lymphocytes. They are 7 to 12 µm in diameter, between erythrocytes and granulocytes in size. Only 4% of lymphocytes circulate in the blood. Most of them are to be found in the lymphatic organs: spleen, thymus, lymphatic intestinal tissue, and lymph nodes.

Lymphocytes are subdivided into two groups: T lymphocytes, which are formed in the thymus, and B lymphocytes, formed in the bone marrow. These two groups have reciprocal effects. Certain T cells, the T helper cells, can stimulate B lymphocytes after an antigen has sensitized the latter. These B lymphocytes develop into plasma cells, which specialize in producing antibodies. T suppressor cells inhibit the immune response of B lymphocytes and other T cells. Specialized B lymphocytes represent the body's antigen memory. Q 39

Lymphocytes come in contact with an antigen in the lymph node. This contact sensitizes them and causes them to reproduce. They leave the lymph node through the efferent lymph vessels, enter the blood, enter the tissues, and then return to the lymph nodes. Lymphocytes spend most of their lifespan in lymph nodes or other lymphatic tissue and only hours (up to 24) in the blood. Q 11

Monocytes remain in the blood for a few days and travel from there to the tissues, where they reside as macrophages for months or even years. For this reason, they are also called histiocytes (from the Greek histion, web, tissue). They have a nonspecific part in the defense system: they phagocytose cell debris and antigens. They are quite large (12–20 µm) and possess strong amoeboid motility ( Fig. 1.5). Q 50

Fig. 1.4 Granulocytes: (a) neutrophilic; (b) eosinophilic; (c) basophilic.

Fig. 1.5 Monocyte.

1.1.3 Blood Platelets (Thrombocytes)

Thrombocytes are small, flat, and round non-nucleated cells, 1 to 4 µm in diameter. Their lifespan is 9 to 12 days, during which time they remain in the blood. Their task is controlled coagulation of blood and wound sealing. If the endothelium of the inner vascular wall is damaged, platelets form a thrombus (clump) at the injury site.

Thrombocytes contain serotonin; serotonin causes vasoconstriction, which inhibits blood loss from the damaged vessel and promotes hemostasis.

1.2 Cardiovascular System


The cardiovascular system is made up of the heart and blood vessels. This system supplies oxygen and nutrients to all the cells in the body, and at the same time removes the waste products of metabolism, including carbon dioxide and substances excreted via the urinary system.

In the “greater” circulatory system, oxygen-rich blood coming from the lungs is pumped from the left cardiac ventricle, through the aorta, the arteries, the arterioles, and finally the capillaries into the periphery. Passing through the capillary system, the blood moves from the arterial into the venous system. From the venous part of the capillaries, the blood travels to the venules and veins. Propelled by various complementary mechanisms (valves that prevent the venous return), it travels to the right atrium of the heart, into the right ventricle ( Fig. 1.6). The muscle pump, which is activated by any movement of the body, exerts pressure on the veins, particularly in the lower extremities.

The venous valves steer the blood in the desired direction. In addition, inspiration creates negative pressure in the thoracic cavity relative to the abdominal cavity, producing a suction that transports the venous blood toward the heart. The pumping action of the right side of the heart also exerts suction on the vena cava, drawing the blood through this vessel toward the heart. Q 48

Fig. 1.6 The circulatory system.

At this point, the pulmonary or “lesser” circulation begins. The right cardiac ventricle pumps the blood into the lungs. Oxygen exchange takes place in the pulmonary alveoli, analogous to the exchange seen in the capillary system. In this case, carbon dioxide (CO2) is released and oxygen (O2) is taken up. The oxygen diffuses into the erythrocytes. There it forms a compound with hemoglobin, turning into oxyhemoglobin. The blood travels from the lungs back to the left cardiac ventricle and has come full circle. Thus, the arteries provide the blood flow into the tissues and the veins provide the blood flow out of them ( Fig. 1.7).

The blood pressure is relatively high in the arteries and drops away further down the branches of the system (e.g., the pressure in the brachial artery of the upper arm, where blood pressure is usually taken, is in the range of 120–140/80–90 mm Hg in the healthy adult). Precapillary sphincters lower the pressure in the capillaries to 30 mm Hg. The pressure in the venous system is about 10 to...

Erscheint lt. Verlag 7.11.2018
Sprache englisch
Themenwelt Medizin / Pharmazie Medizinische Fachgebiete
Medizin / Pharmazie Pflege
Medizin / Pharmazie Physiotherapie / Ergotherapie
Schlagworte Balance • Breast Cancer • Breathing • complementary medicine • compression • compression stockings • Dr. Vodder • Elephantiasis • Equilibrium • Herz-Kreislauf-System • history of lymph drainage • Indications • Indikationen • lymph • lymphatic cancer • Lymphatic system • lymph drainage • lymphedema • lymph flow • Lymphology • lymph system • lymph vessel • Manual Lymph Drainage • Manual medicine • manual therapy • massage techniques • Massage therapy • occupational therapy • physical therapy • Physiology • Respiratory Therapy • special techniques • Taping • treatment techniques • Wittlinger
ISBN-10 3-13-257874-6 / 3132578746
ISBN-13 978-3-13-257874-6 / 9783132578746
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