Atnaujinkite slapukų nuostatas

Visceral Osteopathy: The Peritoneal Organs [Kietas viršelis]

5.00/5 (4 ratings by Goodreads)
  • Formatas: Hardback, 426 pages, aukštis x plotis x storis: 284x221x25 mm, weight: 1451 g, Figures; Illustrations, color; Illustrations, black and white
  • Išleidimo metai: 01-Apr-2010
  • Leidėjas: Eastland Press Inc
  • ISBN-10: 093961670X
  • ISBN-13: 9780939616701
Kitos knygos pagal šią temą:
Visceral Osteopathy: The Peritoneal OrgansDidesnis paveikslėlis
  • Formatas: Hardback, 426 pages, aukštis x plotis x storis: 284x221x25 mm, weight: 1451 g, Figures; Illustrations, color; Illustrations, black and white
  • Išleidimo metai: 01-Apr-2010
  • Leidėjas: Eastland Press Inc
  • ISBN-10: 093961670X
  • ISBN-13: 9780939616701
Kitos knygos pagal šią temą:
Pastovi nuoroda: https://www.kriso.lt/db/9780939616701.html
Raktažodžiai:
Visceral Osteopathy: The Peritoneal Organs is concerned with the application of osteopathic concepts to the abdominal viscera, specifically the organs of the gastrointestinal tract. It lays out a comprehensive manual approach to these viscera based on physiological research and extensive clinical experience. The visceral paradigm developed in this book is centered on the mechanical expression of the biological forces within the organs themselves. In this paradigm, the most important aspect of the viscera of the gut is their intrinsic, autonomous regulation. The focus is therefore on the inner mechanical architecture and power centers of the viscera.Visceral Osteopathy offers a comprehensive and clinically sound system of diagnosis and treatment of the digestive organs, and firmly establishes visceral manipulation in the context of contemporary physiological research. The diagnostic and therapeutic approaches of visceral osteopathy are described in detail and are accompanied by hundreds of photographs and drawings that clearly illustrate each of the techniques, including an original bi-manual form of palpation for all the viscera. A separate chapter is devoted to each of the peritoneal organs.

Visceral Osteopathy: The Peritoneal Organs is concerned with the application of osteopathic concepts to the abdominal viscera, specifically the organs of the gastrointestinal tract. It lays out a comprehensive manual approach to these viscera based on physiological research and extensive clinical experience.
Foreword xiii
Ch. 1 Preface/A New Approach to Manual Treatment of the Digestive Organs
1(2)
Ch. 2 Concepts of Visceral Osteopathy
3(8)
2.1 Mechanics of the Gut
3(1)
2.2 From Intrinsic Autonomy to Extrinsic Compensation
3(2)
2.2.1 Gut Structure: Three in One
3(1)
2.2.2 Autonomy of the Mucosa
4(1)
2.2.3 Autonomy of the Muscles and Pacemaker Cells
4(1)
2.2.4 Autonomy of Neurohormonal Control
4(1)
2.2.5 Intrinsic Movement
4(1)
2.2.6 Chronology in Visceral Diagnosis and Treatment of the Gut
5(1)
2.3 Elasticity
5(1)
2.4 What to treat?
5(1)
2.4.1 Normal Function, Loss of Autonomy, Compensatory Movements
5(1)
2.4.2 Physiological Hyperfunction, Loss of Compensation
6(1)
2.4.3 Loss of Compensation, Dysfunction, Ptosis
6(1)
2.5 Importance of Intravisceral Motion and its Relation to Morphogenetic Growth
6(1)
2.6 Visceral Movements and Dynamic Forces
7(1)
2.6 Stability of Form and Position
8(1)
2.7 Intravisceral Organization: Duality and Bimanual Palpation
8(1)
2.8 Diagram of Visceral Concepts
8(1)
2.8.1 Autonomy: Relationships Inside the Circle
8(1)
2.8.2 Compensation: Relationships Outside the Circle
9(1)
2.9 Visceral, Cranial, and Musculoskeletal System
9(2)
Ch. 3 Peritoneum and Intraperitoneal Viscera
11(26)
3.1 Embryology
11(14)
3.1.1 Development of the Digestive Tube
11(1)
3.1.2 Development of the Coelomic Cavity
12(1)
3.1.3 Visceral Descent
12(1)
3.1.4 Separation of the Cavities
13(1)
3.1.5 First Fusion and Spatial Growth
14(6)
3.1.6 Peritoneal Relationships
20(3)
3.1.7 Development of Extraperitoneal Cavities
23(2)
3.2 Anatomy
25(9)
3.2.1 Peritoneal Cavity
25(1)
3.2.2 Connections between the Organs in the Peritoneum
25(7)
3.2.3 Connections of the Peritoneum to its Environment
32(1)
3.2.4 Functional Subdivision
32(2)
3.3 Innervation and Vascularization
34(1)
3.3.1 Innervation
34(1)
3.3.2 Vascularization
34(1)
3.4 Functional Histology
35(2)
3.4.1 Peritoneal Serosa
35(1)
3.4.2 Peritoneal Fluid
35(2)
Ch. 4 Elasticity: Inherent Activity of the Gut
37(14)
4.1 Elasticity as a Measure of Intrinsic Visceral Activity
37(6)
4.1.1 Gut Wall and Luminal Contents
38(1)
4.1.2 Expansive Force from Within
39(1)
4.1.3 Structure of the Digestive Tube
39(1)
4.1.4 Tension of the Intestinal Wall
40(1)
4.1.5 Tone of the Mucosa
40(1)
4.1.6 Compliance of the Musculature of the Intestinal Wall
41(1)
4.1.7 Elasticity and Autonomy
42(1)
4.1.8 Gut
42(1)
4.2 Diagnostics
43(6)
4.2.1 Normality, Function, Dysfunction
43(1)
4.2.2 Results of the Rebound Test
44(1)
4.2.3 Rebound Test
45(1)
4.2.4 Inhibition and Provocation Test
45(1)
4.2.5 Test Procedure and Interpretation of Findings
46(3)
4.3 Therapy
49(2)
Ch. 5 Intrinsic and Extrinsic Motility
51(32)
5.1 Physiological and Osteopathic Terminology
51(1)
5.2 Dynamics of Embryonic Development
52(8)
5.2.1 Spatial Development
52(6)
5.2.2 Morphogenetic Growth and Directional Elasticity
58(2)
5.3 Extrinsic Motility
60(7)
5.3.1 Arteries as Support and Holding Structures
60(2)
5.3.2 Vasomotion --- Flow Motion
62(1)
5.3.3 Intrinsic and Extrinsic Control Mechanisms in the Vessels
63(2)
5.3.4 Is Extrinsic Motility a Compensatory Mechanism?
65(2)
5.4 Intrinsic Motility
67(11)
5.4.1 Possible Causative Factors for Intrinsic Motility
69(1)
5.4.2 Manifestations of Intrinsic Motility
70(1)
5.4.3 Compensatory Efforts during Loss of Intrinsic Motility
71(1)
5.4.4 Relational Motility
72(6)
5.5 Diagnosis and Therapy
78(5)
5.5.1 Diagnosis
78(2)
5.5.2 Therapy
80(3)
Ch. 6 Thoracic Respiration and Visceral Mobility
83(26)
6.1 Introduction
83(1)
6.2 Control of Thoracic Respiration
83(3)
6.2.1 Respiratory Neurons and Rhythmogenesis of Breathing
83(1)
6.2.2 Shared Cardiorespiratory Network
84(1)
6.2.3 Reflexive Control of Breathing
84(1)
6.2.4 Chemical Breathing Control
84(1)
6.2.5 Acid-Base Balance
84(1)
6.2.6 Central Influences on the Neurological Control of the Diaphragm
85(1)
6.3 The Diaphragm
86(5)
6.3.1 Embryological Development
86(1)
6.3.2 Anatomy
87(4)
6.4 Diaphragmatic Function during Quiet Breathing
91(2)
6.5 Movement of the Diaphragm and the Thorax During Deep Breathing: Moblization of the Peritoneum and its Content
93(10)
6.5.1 Mobilization Phase 1
93(4)
6.5.2 Mobilization Phase 2
97(3)
6.5.3 Mobilization Phase 3
100(3)
6.6 Increased Activity of the Diaphragm during Quiet Breathing
103(1)
6.7 Mobility as a Compensation for an Intraperitoneal Dysfunction
103(2)
6.8 Compensation and Change of Mobility Direction
105(1)
6.9 Diagnosis and Therapy
106(3)
6.9.1 Diagnosis
106(1)
6.2.9 Therapy
107(2)
Ch. 7 Motricity: Locomotor and Postural Activity for the Viscera
109(20)
7.1 Definition
109(1)
7.2 Neurological Control
110(1)
7.3 An Example of Motricity
110(1)
7.4 The Balance between Abdominal Content and the Somatic Container
110(1)
7.5 Normal Tone of the Abdominal Muscles (Resting Supine Position)
111(1)
7.6 Pressure in the Visceral Cushion: Tone of the Musculoskeletal Container
112(2)
7.7 Mechanical Visceroparietal Connections
114(1)
7.8 Motricity as Compensation
114(5)
7.9 Diagnosis and Therapy
119(10)
7.9.1 Diagnosis
119(8)
7.9.2 Therapy
127(2)
Ch. 8 Glenard's Apron System
129(10)
8.1 Glenard's Theory
129(5)
8.1.1 Six Curves and Six Angles
129(2)
8.1.2 Three Aprons of Glenard
131(1)
8.1.3 Glenard's Aprons: A Relational Elasticity System
132(1)
8.1.4 Aprons of Glenard: Intrahepatic Pressure and Mobility
132(1)
8.1.5 Cogwheel System of the Intestines: Relational Extrinsic Motility
133(1)
8.2 Practical Application
134(5)
8.2.1 Diagnosis
134(2)
8.2.2 Therapy
136(3)
Ch. 9 Fascial Skeleton of the Viscera and Peritoneal Cavity
139(14)
9.1 Introduction: What is the fascial skeleton?
139(1)
9.2 Development and Function of the Fascial Skeleton
140(4)
9.2.1 Development of the Peritoneum
140(1)
9.2.2 Spatial Growth of the Fascial Skeleton
141(1)
9.2.3 Elastic Quality of Fascial Skeleton
142(1)
9.2.4 Transmitter and Coordinator of Visceral Information
142(2)
9.2.5 Intravisceral Fascial Skeleton and Directional Elasticity
144(1)
9.3 Communicating and Balancing Forces in the Fascial Skeleton
144(2)
9.3.1 Intervisceral Balance
144(1)
9.3.2 Balance between Viscera and Parietal System
145(1)
9.4 Histogenesis of Fascial Elasticity
146(1)
9.5 Dynamic Stimulation and Resting Activity of the Visceral Fasciae
147(2)
9.6 Diagnosis and Therapy
149(4)
9.6.1 Diagnosis
149(1)
9.6.2 Therapy
150(3)
Ch. 10 Viscerocranial Relationships
153(6)
10.1 Mechanical Information Transmission to, and Stimulation of, the Cranial System
153(1)
10.2 Mechanical Linkages
154(2)
10.3 Sacral Connection
156(1)
10.4 Embryological Relationships
157(1)
10.5 Other Influences
157(2)
Ch. 11 Autonomic Innervation
159(16)
11.1 Enteric Nervous System
159(3)
11.1.1 Anatomy
159(1)
11.1.2 Embryology
160(1)
11.1.3 Histology
160(1)
11.1.4 Local Neurotransmitters and Neuropeptides
160(1)
11.1.5 Functional Autonomy of the ENS
161(1)
11.1.6 Pacemaker Cells, Slow Waves, and Motility
161(1)
11.1.7 Mechanical Nerve Stimulation in the ENS
162(1)
11.2 Extrinsic Innervation of the Gut
162(7)
11.2.1 ENS, Intramesenteric Nerves, Preaortic Ganglia
162(1)
11.2.2 Preaortic (Prevertebral) Plexuses
163(1)
11.2.3 Ganglia-CNS
164(1)
11.2.4 Digression: Mechanical Functioning of the Sympathetic Trunk
165(1)
11.2.5 Segmental Control
166(1)
11.2.6 Central Control
167(2)
11.3 Neurodynamic Activity
169(2)
11.3.1 Embryology
169(1)
11.3.2 Histology
169(1)
11.3.3 Innervation
169(1)
11.3.4 Vascularization
170(1)
11.3.5 Facilitation
170(1)
11.4 Parasympathetic and Sympathetic Nervous System
171(2)
11.4.1 Sympathetic Innervation
171(1)
11.4.2 Sympathetic Innervation
172(1)
11.4.3 Mixed Plexuses
172(1)
11.5 Synergy of Parasympathetic and Sympathetic Nervous Systems
173(2)
Ch. 12 Diagnosis
175(16)
12.1 Medical History
175(1)
12.2 Assessment
176(2)
12.2.1 Posture
176(2)
12.3 Palpation (with Patient Standing)
178(2)
12.4 Assessment (with Patient in Supine Position)
180(1)
12.5 Topography
181(1)
12.6 Percussion
181(2)
12.7 Jarricot Test (Test for Skin Sensitivity and Pain)
183(1)
12.8 Palpation
183(2)
12.9 Rebound Test
185(1)
12.10 Tone of the Body Wall
185(1)
12.11 Diagnosis of the Diaphragm
185(1)
12.12 Test of the Upper Abdomen
185(3)
12.13 Diagnosis of an Organ
188(1)
12.14 Relational Diagnosis
189(2)
Ch. 13 Stomach and Esophagus
191(38)
13.1 Embryology
191(3)
13.1.1 Finding a Position through Spatial Growth
191(1)
13.1.2 Internal Morphogenetic Growth
192(2)
13.2 Anatomy and Physiology
194(1)
13.3 Esophagus
194(5)
13.3.1 Esophageal Divisions
194(1)
13.3.2 Function
194(1)
13.3.3 Wall Structure
195(2)
13.3.4 Upper Esophageal Sphincter (Constriction Closure)
197(1)
13.3.5 Lower Esophageal Sphincter (Stretch Closure)
197(1)
13.3.6 Attachments
198(1)
13.3.7 Vascular Supply
198(1)
13.3.8 Autonomic Innervation
199(1)
13.4 Stomach
199(6)
13.4.1 Division
199(1)
13.4.2 Functions
200(1)
13.4.3 Histology
200(1)
13.4.4 Wall Structure
201(1)
13.4.5 Vascular Supply
201(1)
13.4.6 Autonomic Innervation
202(1)
13.4.7 Attachments
203(2)
13.5 Intrinsic Activity and Elasticity
205(2)
13.5.1 Interdigestive Phase
205(1)
13.5.2 Postprandial Phase
205(2)
13.6 Osteopathic Motility: Intrinsic and Spatial
207(1)
13.7 Mobility: Spatial and Intravisceral Movements due to Thoracic Respiration
207(4)
13.7.1 Relational Mobility of the Stomach
208(3)
13.8 Motricity
211(2)
13.8.1 Relationships
212(1)
13.9 Diagnosis and Therapy
213(6)
13.9.1 Topography
213(1)
13.9.2 Inspection
213(1)
13.9.3 Jarricot Test
214(2)
13.9.4 Percussion
216(1)
13.9.5 Palpation
216(1)
13.9.6 Elasticity
217(1)
13.9.7 Movement
218(1)
13.9.8 Relational Diagnosis
219(1)
13.10 Treatment Techniques for the Stomach
219(6)
13.10.1 Hyper-resistance of the Stomach: Metabolic, Mechanical, or Psychorelational Trauma
220(1)
13.10.2 Compensation via Mobility
220(2)
13.10.3 Compensation via Motricity
222(1)
13.10.4 Stomach Atony
222(1)
13.10.5 Stimulation of Neurovascular Structures in the Lesser Omentum
223(1)
13.10.6 Stimulation of Intrinsic and Extrinsic Motility
224(1)
13.10.7 Stimulation of the Gastrolienal Ligament
224(1)
13.10.8 Stimulation of the Gastrocolic Ligament
225(1)
13.11 Techniques for Treating the Esophagus
225(4)
13.11.1 Hiatal Hernia
226(3)
Ch. 14 Liver
229(24)
14.1 Embryology
229(3)
14.2 Anatomy and Physiology
232(4)
14.2.1 Vascular Supply
232(1)
14.2.2 Segmentation of the Liver
232(1)
14.2.3 Attachments
233(1)
14.2.4 Autonomic Innervation
234(1)
14.2.5 Histology
234(1)
14.2.6 Functions
235(1)
14.3 Elasticity and Inherent Activity
236(1)
14.4 Osteopathic Motility: Intrinsic and Extrinsic
237(1)
14.5 Mobility
237(4)
14.5.1 Mobility between Viscera
239(2)
14.6 Motricity
241(1)
14.7 Diagnosis
241(5)
14.7.1 Topography
241(1)
14.7.2 Inspection
241(1)
14.7.3 Jarricot Test
242(1)
14.7.4 Percussion
242(1)
14.7.5 Palpation
242(2)
14.7.6 Rebound Test
244(1)
14.7.7 Tests for Motility, Mobility, and Motricity
244(1)
14.7.8 Relational Diagnosis
245(1)
14.8 Therapy
246(7)
14.8.1 Opening of the Functional and Anatomical Sphincters
246(1)
14.8.2 Decongestion
247(1)
14.8.3 Decongestion and Lifting of the Liver
247(2)
14.8.4 Stimulation of the Liver Pedicle
249(1)
14.8.5 Stimulation of the Celiac Trunk
250(1)
14.8.6 Treatment of Fixations
250(1)
14.8.7 Stimulation of Extrinsic and Intrinsic Motility
251(1)
14.8.8 Stimulation of the Liver Parenchyma
251(2)
Ch. 15 Bile Duct and Gallbladder
253(18)
15.1 Embryology
253(4)
15.1.1 Extrahepatic Bile Ducts
253(3)
15.1.2 Intrahepatic Bile Ducts
256(1)
15.2 Anatomy and Physiology
257(6)
15.2.1 Pathways
257(1)
15.2.2 Supply Vessels
258(1)
15.2.3 Wall Structure
259(1)
15.2.4 Innervation
260(1)
15.2.5 Attachments and Connections
261(1)
15.2.6 Bile
261(1)
15.2.7 Function of Bile
261(1)
15.2.8 Enterohepatic Circulation
261(1)
15.2.9 Control of Bile Flow
262(1)
15.3 Elasticity and Inherent Activity
263(1)
15.4 Osteopathic Motility
264(1)
15.5 Mobility
265(1)
15.6 Motricity
266(1)
15.7 Diagnosis
267(2)
15.7.1 Topography
267(1)
15.7.2 Inspection
267(1)
15.7.3 Jarricot Test
268(1)
15.7.4 Percussion
268(1)
15.7.5 Palpation
268(1)
15.7.6 Elasticity
269(1)
15.7.7 Movement
269(1)
15.8 Therapy
269(2)
Ch. 16 Duodenum
271(20)
16.1 Embryology
271(4)
16.2 Anatomy and Physiology
275(5)
16.2.1 Vascular Supply
275(1)
16.2.2 Autonomic Innervation
276(1)
16.2.3 Attachments and Connections
276(3)
16.2.4 Metabolic Controls
279(1)
16.3 Elasticity and Reactivity
280(1)
16.4 Osteopathic Motility
280(1)
16.5 Mobility
281(1)
16.6 Motricity
282(1)
16.7 Diagnosis
282(6)
16.7.1 Topography
283(1)
16.7.2 Inspection
283(1)
16.6.3 Jarricot Test
283(1)
16.7.4 Percussion
283(1)
16.7.5 Palpation in Right Side-Lying Position
283(2)
16.7.6 Palpation in Supine Position
285(2)
16.7.7 Palpation in Left Side-Lying Position
287(1)
16.8 Therapy
288(3)
Ch. 17 Small Intestine: Jejunum and Ileum
291(20)
17.1 Embryology: Spatial Movement and Intrinsic Growth
291(2)
17.2 Anatomy and Physiology
293(8)
17.2.1 Topography
293(1)
17.2.2 Macroscopic Anatomy
293(1)
17.2.3 Attachments and Connections
294(2)
17.2.4 Structure and Functions of the Small Intestine
296(1)
17.2.5 Arterial Supply
297(2)
17.2.6 Venous Drainage
299(1)
17.2.7 Lymphatic Drainage
299(1)
17.2.8 Innervation
300(1)
17.3 Duality
301(1)
17.4 Motility
302(1)
17.5 Mobility
302(2)
17.6 Diagnosis
304(2)
17.6.1 Inspection
304(1)
17.6.2 Jarricot Test
304(1)
17.6.3 Percussion
304(1)
17.6.4 Palpation and Rebound Test
304(1)
17.6.5 Rebound Test of the Mesentery
305(1)
17.6.6 Movement
305(1)
17.7 Therapy
306(5)
17.7.1 Gut Tube, Mesentery, Root of Mesentery
306(2)
17.7.2 Loss of Intrinsic Motility
308(1)
17.7.3 Extrinsic Motility
308(1)
17.7.4 Relational Motility
308(1)
17.7.5 Compression
308(1)
17.7.6 Mobilization Techniques
309(1)
17.7.7 Releasing the Ileocecal Invagination
309(2)
Ch. 18 Cecum
311(16)
18.1 Embryology
311(2)
18.1.1 Extrinsic and Intrinsic Growth
311(2)
18.2 Anatomy
313(3)
18.2.1 Topography
313(1)
18.2.2 Ileocecal Junction
313(1)
18.2.3 Attachments and Connections
314(1)
18.2.4 Structure of the Large Intestine
315(1)
18.3 Physiology of Volumetric Change in a Functional Diverticulum
316(3)
18.3.1 Vascularization
318(1)
18.3.2 Innervation
319(1)
18.4 Motility
319(1)
18.5 Mobility
320(1)
18.6 Diagnosis
320(3)
18.6.1 Topography
320(1)
18.6.2 Inspection
320(1)
18.6.3 Jarricot Test
321(1)
18.6.4 Percussion
321(1)
18.6.5 Palpation
321(1)
18.6.6 Tension of Ligaments
321(1)
18.6.7 Rebound Test (including Percussion)
321(1)
18.6.8 Movement
322(1)
18.6.9 Relational Diagnosis
322(1)
18.7 Therapy
323(4)
18.7.1 Passive Mobilization of the Intestinal Tube
323(1)
18.7.2 Stimulating Dynamic Technique: Compression
323(1)
18.7.3 Stimulation of the Supply Structures
323(1)
18.7.4 Mobilization and Stimulation of the Mesentery
323(1)
18.7.5 Intrinsic Motility
323(1)
18.7.6 Extrinsic Motility
324(1)
18.7.7 Listening Technique for Motility of the Colic Frame
324(1)
18.7.8 Mobility
324(1)
18.7.9 Ileocecal Invagination
324(1)
18.7.10 Mobilization of the Ascending Colon and Toldt's Fascia
325(1)
18.7.11 Opening of the Hepatic Flexure
325(2)
Ch. 19 Colon
327(18)
19.1 Embryology
327(4)
19.2 Anatomy
331(4)
19.2.1 Topography of the Ascending, Transverse, and Descending Colons
331(1)
19.2.2 Attachments and Spatial Relationships
331(3)
19.2.3 Structure of the Gut Tube
334(1)
19.3 Physiology
335(2)
19.3.1 Vascular Supply
335(1)
19.3.2 Extrinsic Innervation
336(1)
19.4 Compensation through Neurovascular Anastomoses
337(1)
19.5 Osteopathic Motility
338(1)
19.6 Mobility
338(2)
19.7 Diagnosis
340(2)
19.7.1 Topography
340(1)
19.7.2 Inspection
340(1)
19.7.3 Jarricot Test
340(1)
19.7.4 Percussion
340(1)
19.7.5 Palpation and Elasticity
340(1)
19.7.6 Movement
341(1)
19.8 Therapy
342(3)
19.8.1 Stimulating the Gut Tube
342(1)
19.8.2 Mobilization and Stimulation of the Right/Left Toldt's Fascia
342(1)
19.8.3 Stimulating the Transverse Colon
342(1)
19.8.4 Opening and Activating the Colic Flexures
342(1)
19.8.5 Stimulating the Transverse Mesocolon
343(1)
19.8.6 Stimulating the Left Phrenicocolic Ligament
343(1)
19.8.7 Motility
343(1)
19.8.8 Compression
343(1)
19.8.9 Mobility
344(1)
19.8.10 Stomach---Transverse Colon
344(1)
19.8.11 Liver---Transverse Colon
344(1)
Ch. 20 Sigmoid Colon
345(10)
20.1 Embryology
345(1)
20.2 Anatomy
346(3)
20.2.1 Vascular Supply
346(1)
20.2.2 Topography and Functional Division
347(1)
20.2.3 Attachments and Spatial Relationships
347(2)
20.2.4 Innervation
349(1)
20.2.5 Gut Tube
349(1)
20.3 Elasticity and Volumetric Changes
349(1)
20.4 Osteopathic Motility
350(1)
20.5 Mobility
350(1)
20.6 Diagnosis
351(1)
20.6.1 Topography
351(1)
20.6.2 Inspection
351(1)
20.6.3 Palpation
351(1)
20.6.4 Elasticity Test
351(1)
20.6.5 Movement
351(1)
20.6.6 Relational Diagnosis
352(1)
20.7 Therapy
352(3)
20.7.1 Stimulation of the Gut Tube
352(1)
20.7.2 Stimulating Elasticity through Rhythmic Compression
352(1)
20.7.3 Stimulation of the Trophic State of the Sigmoid Colon
353(1)
20.7.4 Mobilization and Stimulation of Mesentery and Roots
353(1)
20.7.5 Motility
353(1)
20.7.6 Mobility
354(1)
Ch. 21 Spleen
355(18)
21.1 Embryology
355(4)
21.2 Anatomy and Physiology
359(8)
21.2.1 Vascularization
359(3)
21.2.2 Topography
362(1)
21.2.3 Attachments and Connections
362(3)
21.2.4 Autonomic Innervation
365(1)
21.2.5 Macroscopic Anatomy
365(1)
21.2.6 Histology
365(2)
21.2.7 Functions
367(1)
21.3 Elasticity and Rhythmic Activity
367(1)
21.4 Osteopathic Motility
368(1)
21.5 Mobility
368(1)
21.6 Diagnosis
368(3)
21.6.1 Topography
368(1)
21.6.2 Jarricot Test
368(1)
21.6.3 Percussion
368(1)
21.6.4 Palpation
369(1)
21.6.5 Elasticity
369(1)
21.6.6 Movement
370(1)
21.6.7 Relational Diagnosis
370(1)
21.7 Therapy
371(2)
21.7.1 Extrinsic Motility
371(1)
21.7.2 Mobility
371(1)
21.7.3 Combined Technique for Splenic Ptosis
371(1)
21.7.4 Compression Technique
371(1)
21.7.5 Stimulation of the Hilum
371(1)
21.7.6 Gastrosplenic Ligament
372(1)
Ch. 22 Gastrointestinal Sphincters
373(8)
22.1 Embryology
373(1)
22.1.1 Intrinsic Growth and Motility
373(1)
22.2 Anatomy, Histology, and Physiology
374(1)
22.3 Autonomy and Functional Synergy of the Sphincters
374(1)
22.4 Compensatory Function
375(1)
22.4.1 Stimulation of Elasticity via Sphincter Closure or Mechanical Support
375(1)
22.4.2 Torsion to Restore Normal Function (Mobility and Extrinsic Motility)
376(1)
22.5 Diagnosis
376(1)
22.5.1 Symptoms
376(1)
22.5.2 Palpation
377(1)
22.5.3 Jarricot Test
377(1)
22.5.4 Inhibition and Provocation Tests
377(1)
22.5.5 Intrinsic Motility
377(1)
22.5.6 Relational Movements
377(1)
22.6 Therapy
377(4)
22.6.1 Tissue Techniques
377(1)
22.6.2 Techniques for Treating Sphincter Function
378(3)
Glossary 381(8)
Bibliography 389(12)
Index 401