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Calf Muscle Pump, or “Second Heart” Leg muscles provide an important pump action designed to recirculate venous blood to the heart; this pump action is referred to as the veno-muscular pump or calf muscle pump (or sometimes the “second heart”). Any health concern that affects the foot, ankle, calf, knee, thigh, or the network of veins in the leg, may lead to impairment of the calf muscle pump, and reduce venous return to the heart (eg., vascular, musculoskeletal or neurological injury or disease; prolonged bedrest). Wearing high heels has been shown to interfere with the calf muscle pump function and reduce venous return (Tedeschi-Filho, W., et al. J Vasc Surg, 2012). Orthoses are indicated for conditions that affect calf muscle pump function in order to activate the muscles (eg., compression hose for venous insufficiency; ankle foot orthotic for foot drop; functional brace for ankle sprain). Calf Muscle Pump Overview 1. The foot pump initiates venous return of deoxygenated blood with each step; when the heel touches down, blood is pooled in the veins, and as the foot rolls forward the pooled blood is pumped upwards. 2. Blood pumped from the foot enters veins in the soleus and gastrocnemius muscles; the calf muscle pump applies pressure to the veins to push venous return to the knee, or popliteal pump. 3. The knee pumps blood into veins in the upper leg, where the thigh muscle pump pushes it further toward the groin and abdominal cavity, and on to the lungs and heart. Graphics from healthtide.com and blog.taedu.org Calf-strengthening exercises can improve calf muscle pump function: - walking, toe-walking, calf raises, lunges, or foot pumps (flexing the foot and ankle); - a foot stepper machine simulates walking and may be used while sitting..

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Calf Stretching and Strengthening Exercises
Julie Dass Injury Clinic 108 Milton Road Phone: 01234349464 Clapham Email: [email protected] Bedford MK416as Exercise plan: Patient: Date: Calf Stretches and Strengthening Mrs Julie Dass 31st Mar 2017 Exercises Eccentric calf strengthening exercise Stand with your toes on the edge of a step or a box. Hold onto something stable for support if required. We will assume the leg you are trying to strengthen is your left leg (the injured side). Lift your left leg off the step, and go onto your toes on your right leg. Now place your left foot beside the right, and place all your weight on your left leg. Drop your heels downwards below the level of the step. Use your right leg (non-injured leg) to lift yourself back to the start position. Make sure you keep your leg straight during the exercise. This exercise can help strengthen the calf muscle and may be useful for treating Achilles tendinopathy. Full squat single leg Stand on one leg, and bend your knee to the full squat (90 degrees) position. Make sure when you squat you keep the middle of your knee cap in line with the middle toes of your foot. Do not let your knee drift off to one side. Also keep your hips and pelvis level as you squat, so you go down in a straight line. Be careful not to slump forwards as you squat, maintain good posture. Always keep your foot flat on the ground, do not let your heel raise up. Video: http://youtu.be/afJNrDNonAc Full wall squat Open your legs slightly wider than shoulder width, stand with your back resting against a wall, and bend your knees to the full squat position (90 degrees).
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GLOSSARY of MEDICAL and ANATOMICAL TERMS
GLOSSARY of MEDICAL and ANATOMICAL TERMS Abbreviations: • A. Arabic • abb. = abbreviation • c. circa = about • F. French • adj. adjective • G. Greek • Ge. German • cf. compare • L. Latin • dim. = diminutive • OF. Old French • ( ) plural form in brackets A-band abb. of anisotropic band G. anisos = unequal + tropos = turning; meaning having not equal properties in every direction; transverse bands in living skeletal muscle which rotate the plane of polarised light, cf. I-band. Abbé, Ernst. 1840-1905. German physicist; mathematical analysis of optics as a basis for constructing better microscopes; devised oil immersion lens; Abbé condenser. absorption L. absorbere = to suck up. acervulus L. = sand, gritty; brain sand (cf. psammoma body). acetylcholine an ester of choline found in many tissue, synapses & neuromuscular junctions, where it is a neural transmitter. acetylcholinesterase enzyme at motor end-plate responsible for rapid destruction of acetylcholine, a neurotransmitter. acidophilic adj. L. acidus = sour + G. philein = to love; affinity for an acidic dye, such as eosin staining cytoplasmic proteins. acinus (-i) L. = a juicy berry, a grape; applied to small, rounded terminal secretory units of compound exocrine glands that have a small lumen (adj. acinar). acrosome G. akron = extremity + soma = body; head of spermatozoon. actin polymer protein filament found in the intracellular cytoskeleton, particularly in the thin (I-) bands of striated muscle. adenohypophysis G. ade = an acorn + hypophyses = an undergrowth; anterior lobe of hypophysis (cf. pituitary). adenoid G. " + -oeides = in form of; in the form of a gland, glandular; the pharyngeal tonsil. adipocyte L. adeps = fat (of an animal) + G. kytos = a container; cells responsible for storage and metabolism of lipids, found in white fat and brown fat.
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ANTERIOR KNEE PAIN Home Exercises
ANTERIOR KNEE PAIN Home Exercises Anterior knee pain is pain that occurs at the front and center of the knee. It can be caused by many different problems, including: • Weak or overused muscles • Chondromalacia of the patella (softening and breakdown of the cartilage on the underside of the kneecap) • Inflammations and tendon injury (bursitis, tendonitis) • Loose ligaments with instability of the kneecap • Articular cartilage damage (chondromalacia patella) • Swelling due to fluid buildup in the knee joint • An overload of the extensor mechanism of the knee with or without malalignment of the patella You may feel pain after exercising or when you sit too long. The pain may be a nagging ache or an occasional sharp twinge. Because the pain is around the front of your knee, treatment has traditionally focused on the knee itself and may include taping or bracing the kneecap, or patel- la, and/ or strengthening the thigh muscle—the quadriceps—that helps control your kneecap to improve the contact area between the kneecap and the thigh bone, or femur, beneath it. Howev- er, recent evidence suggests that strengthening your hip and core muscles can also help. The control of your knee from side to side comes from the glutes and core control; that is why those areas are so important in management of anterior knee pain. The exercises below will work on a combination of flexibility and strength of your knee, hip, and core. Although some soreness with exercise is expected, we do not want any sharp pain–pain that gets worse with each rep of an exercise or any increased soreness for more than 24 hours.
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SOP DC-407 Calving Cows-Heifers
Macdonald Campus Farm Cattle Complex Standard Operating Procedure # DC-407 CALVING COWS/ HEIFERS 1. PURPOSE To facilitate comfort and ease of calving and to identify and address any complications which may arise. 2. RESPONSIBILITY 2.1 All permanent, casual and student staff 2.2 Dairy Manager and Technician 2.3 Herd Veterinarian 3. MATERIALS 3.1 Halter 3.2 Chains and handles 3.3 Pail with Endure® and warm water 3.4 Lubricating gel 3.5 Insemination gloves 3.6 Paper towel 3.7 Calf puller 3.8 Iodine 4. GENERAL 4.1 3 general stages of Calving: Stage and Time Events I – Preparatory Calf rotates to upright position Uterine contraction begins (15 minute intervals) (2 to 6 hours) Water sac expelled Cow usually lying down II – Delivery Fetus enters birth canal (30 minutes – 4 hours) Uterine contractions: (2-minute intervals) Expulsion and delivery of the calf Expulsion of the fetal membrane or placenta III – Cleaning (2 to 8 hours) 4.2 Normal delivery should be completed within 2 to 3 hours after the water sac appears in the heifers, and 1 to 2 hours in cow/heifers. If prolonged, the calf may be born dead or weak. 4.3 Most calf fatalities are caused by injuries or suffocation resulting from difficult or delayed parturition. (See Table 2: Factors Contributing to Calving Problems). 4.4 Any abnormal fetal positions must be corrected in the early stages of delivery. 4.5 Heifers and cows with small pelvic areas will likely need assistance. 4.6 If a cow has had more than one calf, the calving time may be considerably shorter.
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Thigh and Calf Discrimination in the Motor Innervation of the Chick Hindlimb Following Deletions of Limb Segments1
0270~6474/83/0306-1199$02.00/0 The Journal of Neuroscience Copyright 0 Society for Neuroscience Vol. 3, No. 6, pp. 1199-1215 Printed in U.S.A. June 1983 THIGH AND CALF DISCRIMINATION IN THE MOTOR INNERVATION OF THE CHICK HINDLIMB FOLLOWING DELETIONS OF LIMB SEGMENTS1 VIRGINIA WHITELAW** AND MARGARET HOLLYDAY$3 * Departmen,t of Biophysics and Theoretical Biology and $ Department of Pharmacological and Physiological Sciences, The University of Chicago, Chicago, Illinois 60637 Received August 11, 1982; Revised December 27, 1982; Accepted January 17, 1983 Abstract In this paper we report studies on the organization of the motor projections to chick hindlimbs lacking limb segments as a result of surgical manipulations during early embryonic development. The innervation of partial limbs, missing either a thigh or both a calf and a foot, was studied using both retrograde and orthograde horseradish peroxidase nerve-tracing techniques, as well as by serial reconstruction. In addition, [3H]thymidine autoradiography was used to characterize motoneuron production and loss. Motor organization was assessed both before and after the period of naturally occurring motoneuron death. Prior to the period of cell death, we verified by autoradiography that the organization of the motor column (i.e., motoneuron birthdates and settling patterns) was normal despite deletions of the periphery. It was also found that, initially, the entire motor column projected to the partial limbs, entering via normal crural and sciatic pathways. The proximal branching patterns of the nerves leaving the plexus were normal; however, the distal projections of the nerves which would normally serve the missing limb segment were truncated.
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Communicating with the Calf
12 Communicating with the calf This chapter describes how to interpret the wellbeing of a calf from its behaviour and appearance. The main points in this chapter • Calves give many signals that indicate that they are in good (or poor) health and quick observations by the rearer can help treat any disease conditions early. • It is important for rearers to form bonds with their calves so the calves will cooperate more fully, particularly following treatment for diseases. • It is important for rearers to develop their own ‘dictionary of calf language’. • Rearers should learn to closely observe and interpret changes in both calf appearance and in their normal behaviour, which might be symptomatic of stress. • Calf scours comes in many forms and colours, all of which can be used to help diagnose a cause. • It is important to understand how calves react to people so that rearers’ management practices can be changed accordingly. • Farm owners and managers should communicate with their calf rearers. • Developing a set of standard operating procedures, and writing them down, can help maintain consistency in managing and training new staff in the desired skills of calf rearing. • Contract calf rearers can provide the right motivation and skills to rear calves better than staff on the home farm. Success or failure in raising calves depends to a great extent on the rearers’ attitude to the calves and their ability to react promptly to the calves’ numerous signals (Figure 12.1). Interpreting these signals is a skill that can be easily learnt. Recent developments in calf rearing are directed towards reducing the average time spent with each calf.
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Cattle Behaviour
4 Cattle behaviour This chapter discusses the details of cattle behaviour (in other words, what cattle do) such as the relative importance of the five body senses, the various ways stock communicate with each other and their keepers and behavioural problems arising from clashes with their environment. The main points of this chapter • Of the five senses cattle possess, sight is the most dominant. Hearing and smell also play important roles in how cows assess their environment. • As a prey species, cattle have an inherent fear of unfamiliar objects, situations, smells, sudden movements and noises. As well they can experience fearfulness in situations where they are solitary or isolated. Understanding this is critical to managing them in a low stress manner. • Cattle are less expressive of pain and injury than humans. Therefore, behavioural indicators of pain that cattle do express are subtle. An animal experiencing pain has compromised welfare, and consequences to their health and productivity are also likely. • The presence of stereotypic behaviours indicate that a cow is in a compromised welfare state, and is feeling frustrated at the inability to behave naturally. In cattle, oral stereotypies, which relate to nutritional and foraging deficits, and ambulatory stereotypies, the result of restricted movement, are common. 05_Chapter_04.indd 37 01-12-2014 08:25:00 38 Cow Talk • The intensification of cattle housing, feeding and management contributes to behavioural problems not seen in grazing animals. Frustrations lead to some cows engaging in often repetitive and pointless (stereotyped) behaviour that can be interpreted as a reflection of reduced activity, hence restricted normal behaviour, in intensively managed housing systems.
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Different Foot Positioning During Calf Training to Induce Portion-Specific
Short Research Report Different Foot Positioning During Calf Training to Induce Portion-Specific Gastrocnemius Muscle Hypertrophy Joa˜ o Pedro Nunes,1 Bruna D.V. Costa,1 Witalo Kassiano,1 Gabriel Kunevaliki,1 Pˆamela Castro-e-Souza,1 Andre ´ L.F. Rodacki,2 Leonardo S. Fortes,3 and Edilson S. Cyrino1 1Metabolism, Nutrition, and Exercise Laboratory, Physical Education and Sport Center, Londrina State University, Londrina, Brazil; 2Department of Physical Education, Federal University of Parana, ´ Curitiba, Brazil; and 3Department of Physical Education, Federal University of Paraıba,´ Joa˜o Pessoa, Brazil 07/31/2020 on BhDMf5ePHKbH4TTImqenVBaqevB2sTM0VHxvq5oSfttfNyeDNoqo9iBK/DJWAIsv by http://journals.lww.com/nsca-jscr from Downloaded Abstract Downloaded Nunes, JP, Costa, BDV, Kassiano, W, Kunevaliki, G, Castro-e-Souza, P, Rodacki, ALF, Fortes, LS, and Cyrino, ES. Different foot from positioning during calf training to induce portion-specific gastrocnemius muscle hypertrophy. J Strength Cond Res 34(8): http://journals.lww.com/nsca-jscr 2347–2351, 2020—The aim of this study was to compare the changes in gastrocnemius muscle thickness (MT) between con- ditions such as which foot was pointed outward (FPO), foot was pointed inward (FPI), or foot was pointed forward (FPF). Twenty-two young men (23 6 4 years) were selected and performed a whole-body resistance training program 3 times per week for 9 weeks, with differences in the exercise specific for calves. The calf-raise exercise was performed unilaterally, in a pin-loaded seated horizontal leg-press machine, in 3 sets of 20–25 repetitions for training weeks 1–3 and 4 sets for weeks 4–9. Each subject’s leg was randomly assigned for 1 of the 3 groups according to the foot position: FPO, FPI, and FPF.
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Heel Pain 2299 W
Heel Pain 2299 W. Grand River Ave. Okemos, MI 48864 517-349-3803 (Plantar Fasciitis) www.playmakers.com • Sharp pain in the bottom of the heel • Pain is usually most intense in the morning or after sitting for prolonged periods. The tissue shortens while we are not on our feet, and when we then stand and apply forces onto the foot, it stretches the fascia and pulls at the insertion point (calcaneal tuberosity) on the bottom of the heel. • Pain often worsens after activity, not necessarily during activity. • Poor foot biomechanics: Pronation is a necessary function of the foot. Pronation allows the foot to disperse shock, reduce the impact felt on the body up the chain, and adapt to the surface of the ground. However, overpronation is an excessive amount of pronation in which the arch can collapse with each step. Overpronation can cause the foot to flatten out and the plantar fascia to pull more at the insertion point on the heel, which over time can cause irritation. Conversely, if the foot does not pronate enough, due to either a rigid foot or an overly supportive shoe or insert, it might not allow for proper shock absorption and may stress the rigid tissues of the foot. • Improper footwear: If you overpronate, your arch tends to collapse as you walk or run. Putting a medial arch support under your foot doesn’t allow the foot to flatten, which leads to less stress on the insertion point on the heel. If you have a rigid foot, you may want to avoid shoes that are overly supportive and don't allow adequate pronation to occur.
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Vaginal Surgery in the Cow - Laura Elvira-Partida, Susana Astiz, Natividad Perez- Villalobos, Juan Vicente Gonzalez-Martin
REPRODUCTION IN LIVESTOCK – Vaginal Surgery in the Cow - Laura Elvira-Partida, Susana Astiz, Natividad Perez- Villalobos, Juan Vicente Gonzalez-Martin VAGINAL SURGERY IN THE COW Laura Elvira-Partida, TRIALVET S.L., C/ Encina, 22, 28721 Cabanillas de la Sierra, Madrid, Spain Susana Astiz, Department of Animal Reproduction, INIA, Avda Pta. de Hierro s/n, 28040 Madrid, Spain Natividad Perez-Villalobos, TRIALVET S.L., C/ Encina, 22, 28721 Cabanillas de la Sierra, Madrid, Spain Juan Vicente Gonzalez-Martin TRIALVET S.L., C/ Encina, 22, 28721 Cabanillas de la Sierra, Madrid, Spain and Prof. Department of Animal Medicine and Surgery, Faculty of Veterinary Medicine, Universidad Complutense de Madrid (UCM), Avda Pta. de Hierro s/n, 28040 Madrid, Spain Keywords: vaginal surgery, anatomy of external cow genitalia, vaginal prolapse, pneumovagina, vaginal tears, rectovaginal fistula, urovagina, congenital abnormalities, vestibular gland cyst, Gartner duct cysts, vaginal tumors, perivaginal fat prolapse, presurgical considerations, surgical resolution Contents 1. Introduction 2. Anatomy Fundamentals 3. Genital Tract Exploration 4. General Presurgical Considerations 5. Vaginal Pathologies and Surgical Resolution Glossary Bibliography Biographical Sketch SummaryUNESCO-EOLSS Farmers and veterinarians usually fail to appreciate the medical and economic benefits of vaginal surgicalSAMPLE techniques. Some of these CHAPTERStechniques are sufficient by themselves to solve fertility problems. They also solve problems such as urovagina, pneumovagina, vaginal
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Calf Muscle Injury
Tyneside Integrated Musculoskeletal Service Information for Patients www.tims.nhs.uk Calf Muscle Injury Introduction The purpose of this information leaflet is to provide you with advice and exercises to help you to self-manage your injury and improve strength, flexibility and function in the calf muscle as well as your balance and overall function to help return your calf back to normal. What is a Calf Muscle Injury? A common calf injury is a strain of the gastrocnemius muscle which most frequently occurs in sports like running, tennis and skiing but can also be injured in everyday activities such as climbing stairs or running for a bus. Middle-aged athletes with tight calf muscles taking part in physical activity are commonly affected by this injury; however, unlucky everyday circumstances can also be responsible. It is caused when the calf muscle is suddenly forcibly lengthened and overstretched against its own contraction. The tear can occur centrally or on either side of the muscle. The degree of this strain is graded from one to three. Grade 1: A mild strain where only a few of the muscle fibers are strained. This usually takes 1-3 weeks for recovery. Often this grade of strain has little pain and does not impair functional activity. Grade 2: A moderate strain where more muscle fibers are torn but there is not a complete rupture. This usually takes 4-8 weeks for recovery and the individual can feel significant pain and loss of normal function of the calf muscle due to pain. Grade 3: A severe tear where most of the muscle fibers are torn and can cause a complete rupture of the muscle.
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The Human Eye!
Page 10 - Quebec Farmers’ Advocate / July - August 2010 One more tool at hand: the human eye! Rough, patchy and greasy-looking hair indicates that the animal is suffering from a deficiency or excessive A runny nose may be a sign of rumen instability. stress. Depending on whether it is hollow or filled out, this triangle on the animal’s flank provides us with informa- As is the case in humans, a bowed head is an indication that something is amiss. tion about the animal’s appetite and the digestibility of the ration. Steve Adam, agr. language and the environment in our cows. That means we have dietary or parasitic nature. period, when we want the Dairy Production Expert – which they live. This idea of to pay attention and take time to Rough, patchy, greasy-looking rumen to be full. At the peak of Comfort, Behaviour, Welfare observing animals from all angles watch our animals every day. hair, for example, indicates that lactation, the rate of passage of Research and Development originates mainly from Europe There are many signs that tell the animal is suffering from a feed should be relatively high. Valacta and is gradually gaining ground us something is amiss in our deficiency or excessive stress. That means we want a rumen on this side of the Atlantic. cows’ immediate environment. The appearance of a young calf’s that is full after feeding but Greater productivity, heavy Since cows don’t speak the Whether it’s a question of com- coat tells us a great deal about its which empties out quite fre- work load, increased responsi- language of humans, their body fort, stress—potential or actu- health status.
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