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King's Applied Anatomy of the Abdomen and Pelvis of Domestic Mammals. Geoff SkerrittЧитать онлайн книгу.

King's Applied Anatomy of the Abdomen and Pelvis of Domestic Mammals - Geoff Skerritt


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perineum is the part of the body wall that occludes the caudal opening of the pelvic cavity; it surrounds the anus and the urogenital opening. The major portion of the perineum, comprising the levator ani and coccygeus muscles, is called the pelvic diaphragm. A hernia through the pelvic diaphragm can occur as a result of a defect in the musculature. This is a fairly complex anatomical area including the external anal sphincter, superficial gluteal muscle and sacrotuberous ligament.

      Perineal hernias occur mainly in older male dogs and certain breeds, e.g. the Boxer, Boston Terrier, Pekingese and crossbreds.

      1.7.4 Diaphragmatic hernia

      The diaphragm separates the abdominal cavity from the thorax. Sudden increases in pressure in the abdomen can result in tears of the diaphragm with the consequence that abdominal organs can be forced into the thoracic cavity. This situation can occur as the result of a road traffic accident. Congenital hernias of the diaphragm are of rare occurrence in the dog and horse.

      1.7.5 Post‐operative hernia

      A surgical incision in the abdominal wall is normally closed either with sutures or staples. If there is breakdown along the incision, there is a risk of herniation of abdominal organs. This situation may result from a variety of circumstances, e.g. poor healing of the incision due to inadequate vascularisation, pressure from the weight of the abdominal organs, faulty suturing technique and interference with the wound by the patient.

      2.1 Introduction

      In simple life forms, e.g. unicellular organisms such as the amoeba, food particles are ingested by a process of active envelopment with the resulting formation of a food vacuole within the cytoplasm. In higher orders of animal life this process plays no significant part in the process of digestion, although it is retained by macrophage cells in certain cellular activities such as phagocytosis, the ingestion or engulfing of particulate matter. Macrophages are a type of white blood cell found mainly in connective tissue and blood.

      The development of the digestive tract involves cell specialisation occurring within the different regions of the tract and in relation to the functions of these different regions. Thus, while certain cells are specialised for absorbing food in a suitably processed form, other cells are primarily protective in function or are associated with transportation and with pre‐ treatment of the food to allow its utilisation. Further specialisation has evolved in relation to the nature of the food, so that marked variations occur in the gastrointestinal anatomy in herbivores as compared to carnivores. In general, however, the tract of higher vertebrates is divided into distinct anatomical regions, namely the buccal cavity, oesophagus, stomach, small intestines, large intestines and rectum. Further subdivisions of these regions are present.

      These may be considered under the following four principal headings:

      1 Transport

      2 Physical treatment

      3 Chemical treatment

      4 Absorption.

      2.2.1 Transport of food

      In the oesophagus these layers are made up either wholly of striated skeletal muscle or partly of striated skeletal muscle and partly of smooth muscle. In the remainder of the tract the muscle layers comprise only smooth muscle innervated by the autonomic nervous system, which may either stimulate or inhibit muscular contraction. The muscle fibres can also operate independently of the nervous system; intermittent excitation is an intrinsic property of smooth muscle cells themselves, electrical transmission from muscle cell to muscle cell taking place at sites of low electrical resistance where one cell is in close apposition to another as at gap junctions. These are intimate connections between the cytoplasm of cells that allow the interchange of molecules, ions and electrical impulses.

      Entry of food through the cardia into the stomach can occur following receptive relaxation of the smooth muscle of the gastric wall. The arrival of food boluses, round masses of food mixed with saliva, results in a vagal reflex that induces inhibition of muscle tone.

      Transport is brought about by progressive waves of muscular contraction known as peristalsis. This results in a travelling constriction of the circular muscles arising at a point just cranial to the side of the food mass or bolus that has the effect of pushing the food caudally along the tract. Peristalsis occurs in the oesophagus, stomach and small intestines. Peristalsis also occurs in the large intestines, though the time interval between contractions is longer. An additional factor in the transport of food is the production of mucus by cells of the lining epithelium, thereby lubricating the passage of food along the intestines.

      2.2.2 Physical treatment of food

      To facilitate the action of enzymes upon the food taken into the digestive tract, it is necessary that the food be reduced to a soft pulp known as chyme. This is achieved largely by two types of contractile movement of the small intestines: (i) segmenting movements, which are single non‐travelling constrictions of the muscular wall and have the effect of churning and mixing the food; and (ii) pendular movements that involve primary contractions of the longitudinal muscle and that induce marked shortening of individual loops of the intestines and consequently shaking the contained chyme from one end of the loop to another.

      2.2.3 Chemical treatment of food

      An important additional facility to the above general mammalian pattern occurs in herbivores, where special provision is made for the breakdown of cellulose by bacterial fermentation, and in these species one portion of the digestive tract has structural modifications for this purpose; these modifications include the additional compartments of the stomach of the ruminant and the greatly enlarged caecum and colon of the horse.

      2.2.4 Absorption

      Following the physical and chemical treatment of the food and the breakdown of the major constituents into simple sugars, amino acids, fatty acids, etc., these relatively simple substances are absorbed by the columnar cells that line the small intestines and, to a lesser extent, the large intestines.

      To facilitate absorption, and to increase the available surface area


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