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Physiotherapy in disease prophylaxis and treatment: A review of applications

Physiotherapy in disease prophylaxis and treatment: A review of applications . Presenter Dr Vladimir Gurevich EL Physiotherapy. Physiotherapy. Use of specific physical factors for disease prophylaxis and treatment Physiotherapy modalities are used by themselves or in combination with drugs

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Physiotherapy in disease prophylaxis and treatment: A review of applications

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  1. Physiotherapy in disease prophylaxis and treatment: A review of applications Presenter Dr Vladimir Gurevich EL Physiotherapy

  2. Physiotherapy Use of specific physical factors for disease prophylaxis and treatment Physiotherapy modalities are used by themselves or in combination with drugs Physiotherapy is one of key fields in modern clinical practice Applies essentially to every clinical discipline Allows effective treatment and prophylaxis of various diseases Often it is the most appropriate clinical approach to achieve a rapid and efficient improvement of the conditions of patients

  3. Advantages of physiotherapy treatment • Quick – the results are achieved in a rapid fashion • Efficient – addresses both the aetiology and the pathogenesis to eliminate the cause not just symptoms • Safe – causes minimum side effects or adverse reactions • Specific – drugs or treatment delivered to the affected organs or tissues • Painless – uses non-invasive procedures • Stressless – avoids unnecessary surgical procedures and use of general anaesthetics

  4. Physiotherapy applies to a variety of pathological conditions: musculoskeletal respiratory gynecological dermatological gastroenterological urological endocrine neurological cardiovascular other diseases Major physiotherapy techniques: Electrotherapy Clinical Pilates Hydrotherapy Thermal therapy Cryotherapy Ozonetherapy Vacuum therapy Pressure therapy Manual therapy Exercise therapy Balneotherapy Use of physiotherapy

  5. Electrotherapy • Electrostimulation • Interferential • Ultrasound • Magnetotherapy • Pharmacological phoresis • SCENAR • Combination therapy

  6. Electrostimulation Uses various types of electrical currents (e.g. TENS, Russian, Galvanic, Diadynamic etc.) to stimulate the body’s organs and systems Acts through different pathways e.g. high-intensity TENS (50-100 Hz) reduces pain by inducing pre-synaptic inhibition of nociceptive fibers but low-intensity TENS (2-10 Hz) provides antinociceptive effect through releasing endogenous opioids Stimulates secretory and motoric function of the gastrointestinal tract Provides neurostimulating and voluntary and involuntary muscle stimulation activity Can be used in disease treatment and prophylaxis or for cosmetic purposes Helps strengthen muscles and improves their tone

  7. Interferential Interferes with the transmission of pain messages at the spinal cord level, leading to pain relief Reaches deep muscles and nerves Stimulates voluntary muscles Stimulates peripheral blood circulation Provides immediate and strong analgesia Accelerates bone healing

  8. Ultrasound Therapeutic effect achieved by using high frequency sound waves which enhance the healing process in injured organs or tissues of the body The mechanical and thermal actions of ultrasound applications lead to physicochemical reactions at the cellular, tissue and systemic levels resulting in the treatment effect Provides vasodilating effect for blood and lymphatic vessels, improves peripheral blood circulation Stimulates enzymatic activity and cellular metabolism Induces processes of pro-inflammatory optimisation Improves membrane permeability, accelerates cellular diffusion and osmosis

  9. Magnetotherapy Therapeutic effect through creation of a continuous or pulsative magnetic flux (low intensity technique) Stimulates cellular and humoral immunity Modulates endocrine regulation and enzymatic activity Improves blood and lymphatic circulation and modulates haemocoagulation processes Activates metabolic processes in different organs and systems Modulates skeletal and smooth muscle contraction and relaxation Stimulates tissue regeneration

  10. SCENAR therapy This treatment method uses the SCENAR (Self Controlled Energo-Neuro Adaptive Regulator) device SCENAR helps the body heal itself through locating problem areas and subsequently re-activating the body’s self-regulatory mechanism which was destroyed by an accident or disease Advantages of SCENAR therapy: • One of the best electrotherapy tools available • No negative side effects • Very few contraindications • Totally safe • No medications required • Re-actives the body’s self-regulatory mechanism • Effects felt after just a few sessions

  11. Pharmacological phoresis The main problem with the conventional oral and parenteral drug administration is its inability to deliver the drugs specifically to the affected organ or tissue Conventional oral and parenteral drug administration usually creates a need for high doses of the drug to achieve the required effect Pharmacological phoresis utilises different physiotherapy modalities to enhance the delivery of topically applied drugs to the affected organs or tissues In this approach transdermal or transmucosal administration of drugs allows achieving a rapid treatment effect Specific clinical effects are determined by the combined effect of the corresponding drug delivery system e.g. ultrasound and the pharmacological preparation Used for both local topographically specific and systemic drug administration and has proven efficiency in disease treatment Suitable for various drug groups (corticosteroids, NSAIDs, analgesics, vasodilators, hormones, anticoagulants, antibiotics, vaccines, antfungal, antimicrobial etc.)

  12. Advantages of pharmacological phoresis • Effectively enhances the delivery of topically applied drugs • Allows drug delivery specifically to the affected organ or tissue • Avoids or minimises adverse reactions of the drug • Maintains local drug effect for a prolonged period • Avoids potential gastrointestinal degradation of the drug • Reduces the dose required • Permits effective dosage control during the drug administration

  13. Combination therapy Simultaneous or interchangeable use of different physiotherapy modalities to achieve a synergistic treatment effect Combination schemes: • Iontophoresis and magnetotherapy • Iontophoresis and ultrasound • SCENAR and iontophoresis • SCENAR and magnetotherapy • Interferential and phonophoresis • Ultrasound and interferential

  14. Electrostimulation Anti-inflammatory Analgesic Sedative Tranquilising Spasmolytic Vasodilating Trophic Stimulation of secretion function Metabolic Interferential Analgesic Trophic Spasmolytic Defibrosing Ultrasound Anti-inflammatory Analgesic Spasmolytic Metabolic Defibrosing Clinical effects of electrotherapy

  15. Magnetotherapy Sedative Trophic Spasmolytic Vasoactivating Antiedemic Hypocoagulating Myorelaxation Metabolic SCENAR therapy Metabolic Immunostimulating Vasoactivating Endorphine and encephaline release Correction of DNA spontaneous structural changes Neurotransmitters release

  16. Clinical effectiveness of electrotherapy modalities for treatment of some pathological conditions (shown in descending order) Analgesic effect: • Electrostimulation (diadynamic, TENS, galvanic) • Ultrasound • Pharmacological phoresis • Magnetotherapy Vasoactive and circulatory effect: • Magnetotherapy • Pharmacological phoresis • Ultrasound • Electrostimulation (diadynamic) Anti-inflammatory effect: • Electrostimulation (galvanic) • Pharmacological phoresis • Ultrasound

  17. Indications for electrotherapy • Musculoskeletal pathologies e.g. rheumatoid arthritis, osteoarthritis, osteochondrosis, tendinitis, bone fractures, plantar fasciitis, etc. • Cardiovascular diseases e.g. hypertension, ischemic heart disease, angina, vascular dystonia, varicose veins, atherosclerotic occlusions, phlebitis, thrombophlebitis, etc. • Gynecological diseases e.g. endometritis, salpingits, dysmenorrhea, mastitis, incontinence, etc. • Dermatological diseases e.g. throphic ulcers, hyperhidrosis and bromidrosis, eczema, neurodermitis, herpes, etc. • Gastroenterological diseases e.g. gastric and duodenal ulcers, reflux, oesophagitis, duodenitis, enteritis, gastritis, colitis, biliary dyskinesia, hepatitis, pancreatitis, cholecystitis, etc. • Respiratory diseases e.g. chronic obstructive pulmonary disease, bronchitis, bronchial asthma, tonsillitis, pharyngitis, laryngitis, pneumonia, etc. • Neurological diseases e.g. stroke, carpal tunnel syndrome, trigeminal nerve lesion, neuralgia, peripheral lesion etc. • Urological diseases e.g. pyelonephritis, cystitis, prostatitis, urethritis, etc. • Other diseases

  18. Mechanisms of action • Induction of endogenous opioids e.g. endorphins, enkephalins • Opioid receptor activation in the spinal cord and rostral-ventral medulla • Improvement of the oxygen transport and metabolic processes • Reduction of nociceptive response • Stimulation of neurotrophins release • Regulation of the endocrine system secretory activity • Pro-inflammatory optimisation through mobilisation of cellular and humoral defense mechanisms e.g. lymphocytes, neutrophils, macrophages, platelets • Modulation of the release of inflammatory mediators (serotonin, histamine, eicosanoids, prostaglandins, leukotreine, sympatomimetic amines) • Membrane polarisation and improved permeability • Regulation of cellular acid-alkaline balance • Stimulation of processes of cellular diffusion and osmosis

  19. Clinical effectiveness of electrotherapy Assessed in: • RCT (randomised controlled trials) • Clinical studies • Practical clinical observations Results sourced from: • Journal publications e.g. research, review, clinical papers • Cochrane library • Databases e.g. PubMed • Conference proceeding

  20. Use of low-intensity pulsed ultrasound for fracture treatment (J. Busse et al., CMAJ, 2002)

  21. SCENAR therapy of maxillary and mandibular furuncles and phlegmons(Y. Perfiliev et al., Rostov State Medical University, Department of Maxillofacial Surgery, Proceedings of 1st Russian Conference on SCENAR Therapy, 2007)

  22. Analgesic effect of interferential treatment on chronic pain in knee osteoarthritis (R. Defrin et al., Pain, 2005)

  23. Effect of combined interferential and patterned muscle stimulation as compared to TENS in treatment of knee osteoarthritis (F. Burch et al., Osteoarthritis and Cartilage, 2005)

  24. Effect of combined ultrasound and interferential therapy on pre- and post-sleep and sleep pain parameters in fibromyalgia (T. Almeida et al., Pain, 2003) Pre- and post sleep parameters Sleep parameters

  25. Hypoalgesic effect of TENS following inguinal herniorrhaphy (J. De Santana et al., The Journal of Pain, 2008) Mean pain scores for TENS (n=20) and placebo (n=20) groups Mean number of doses of analgesic (dipyrone) for TENS and placebo groups (p = 0.001)

  26. Effect of transcutaneous electrical muscle stimulation (TEMS) on blood pressure and removal of urea and phosphate during haemodialysis(S. Farese et al., American Journal of Kidney Disease, 2008)

  27. Effect of TENS on the symptomatic management of chronic prostatitis/chronic pelvic pain syndrome(L. Sikiru et al., International Brazilian Journal of Urology, 2008) Analgesic group received ibuprofen treatment

  28. Effect of extracorporeal shock wave therapy on the treatment of chronic pelvic pain syndrome in males (R. Zimmermann et al., European Urology, 2009)

  29. Effect of transcutaneous electrical stimulation of specific acupuncture sites on functional dyspepsia symptoms and neuropeptide Y levels (S. Liu et al., Neurogastroenterlogy & Motility, 2008) Plasma neuropeptide Y levels

  30. Effect of electroacupuncture on gastric motoric function and dyspepsia symptoms (S. Xu et al., Digestive Diseases and Sciences, 2006 and C. Chang et al., Digestion, 2001)

  31. Peripheral trancutaneous neuromodulation (posterior tibial nerve electrical stimulation) in the treatment of idiopathic fecal incontinence (M. Queralto et al., International Journal of Colorectal Diseases, 2006) Incontinence score pre- and post-4-week neuromodulation

  32. Effect of transcutaneous electrical muscle stimulation on exercise capacity of patients with COPD(G. Bourjeily-Habr et al., Thorax, 2002)

  33. Effect of electrical stimulation on change of parameters in bed-bound patients with COPD receiving mechanical ventilation (E. Zanotti et al., Chest, 2003)

  34. Effect of Acu-TENS on the respiratory function of patients with asthma (S. Ngai et al., Respiratory Physiology & Neurobiology, 2009) Percentage change of forced expiratory volume in one second (FEV1) at 0 min (immediately post), 20 min, 40 min and 60 min post-exercise. Group 1 = pre-ex TENS, Group 2 = continuous TENS, Group 3 = placebo TENS. † Denotes difference between Groups 1 and 3 (p < 0.05); ‡ denotes difference between Groups 2 and 3 (p < 0.05). Percentage change of forced vital capacity (FVC) at 0 min (immediately post), 20 min, 40 min and 60 min post-exercise. Group 1 = pre-ex TENS, Group 2 = continuous TENS, Group 3 = placebo TENS. † Denotes difference between Groups 1 and 3 (p < 0.05); ‡ denotes difference between Groups 2 and 3 (p < 0.05).

  35. Effect of electrical neurostimulation for treating refractory angina pectoris (J. de Vries et al., European Journal of Pain, 2007)

  36. Effect of extracorporeal cardiac shock wave therapy on myocardial ischemia in patients with severe coronary artery disease (Y. Fukumoto et al., Coronary Artery Disease, 2006)

  37. Effect of functional electrical stimulation on stress, exercise capacity and some other parameters in patients with chronic heart failure (A. Karavidas et al., European Journal of Heart Failure, 2008)

  38. Effect of extracorporeal shock wave therapy (ESWT) on upper limb hypertonia in patients after stroke (P. Manganotti and E. Amelio, Stroke, 2005) Ashworth scale of finger flexors before and after treatment (p < 0.001) Ashworth scale for the finger flexors after different intervals following the ESWT (p < 0.001)

  39. Ultrasound treatment of carpal tunnel syndrome (D. O’Connor et al, Cochrane Database Systematic Review, 2003) Sensation Self-reported improvement

  40. Neuropathic pain (thoracic outlet syndrome with a lesion of the left brachial plexus) controlled using rTMS stimulation of the motor cortex(J. Lefaucheur et al., Clinical Neurophysiology, 2004) Effects of monthly sessions of repetitive transcranial magnetic stimulation (rTMS) of the motor cortex on pain level scored on a 0–10 visual analog scale (mean of daily scores for 5 days +/– standard deviation). Months 1 and 2 consisted of the basal pain level on the days before the first rTMS session. Months 3–18 corresponded to the days following each rTMS session. At months 6, 9 and 13 (*), the “real” coil was replaced by a “sham” coil. Months 22 and 25 took place 3 and 6 months following the surgical implantation of the cortical stimulator.

  41. Comparison of electric stimulation and oxybutynin chloride in management of overactive bladder with reference to urinary urgency (A. Wang et al., Urology, 2006) ES = electrical stimulation; Oxy = oxybutynin; Pl = placebo Data presented as measurements after treatment minus that before treatment † All measures are number of episodes per 24 hours

  42. Effect of interferential and biofeedback treatment on urinary stress incontinence (F. Demiturk et al., Swiss Medical Weekly, 2008)

  43. Effect of Acu-TENS treatment on pain relieve during the first stage of labour (A. Chao et al., Pain, 2007) a Only the first applications were counted

  44. Reduction of itch in allergic dermatitis following electrical cutaneous field stimulation (J. Wallengren, Allergy, 2002) 1 – reactions after 1 h of CSF treatment administered 30 min prior to provocation (n = 12) 2 – reactions after 4 daily (CSF) treatments, the last treatment given 1 day before provocation (n = 10)

  45. Use of electrotherapy which demonstrated effective clinical results (PubMed database)

  46. Clinical Pilates The aim is to develop “core stability” Helps to restore and maintain the musculoskeletal health Uses specialised Pilates equipment e.g. reformer machines and trapeze tables Use of real-time ultrasound to help train “core stability” muscles and monitor the progress The program is formed based on the outcome of the diagnostic assessment The effect of treatment sessions is regularly monitored and the conditions are reassessed at regular intervals

  47. Indications for clinical pilates Musculoskeletal pathologies • Back and neck conditions such as scoliosis, disc bulge/prolapse, degenerative changes and others • Joint pathologies, such as muscle tears, ligament sprains, impingement syndromes and others • Osteoarthritis and rheumatoid arthritis • Post fracture rehabilitation Metabolic disorders e.g. obesity, diabetes Sports injuries and post-traumatic rehabilitation Post-surgical rehabilitation e.g. hip and knee replacements etc. Rehabilitation after cardiovascular diseases e.g. myocardial infarction, coronary artery by-pass surgery etc. Prenatal, antenatal and postnatal training of deep abdominal (core stability) and pelvic floor muscles Improving muscle tone, strength, body shape and overall image

  48. Advantages of clinical pilates • Training and strengthening core stability muscles • Improving respiratory and cardiac function • Stimulating peripheral blood circulation • Improving body balance and coordination • Stimulating metabolic processes

  49. Combination of electrotherapy and clinical pilates Treatment combining clinical pilates with different electrotherapy modalities Performed during the same or alternate sessions or in blocks Treatment schemes usually start with electrotherapy and then clinical pilates is applied to prolong and maintain the effect Efficient for treating both acute and chronic processes and disease prophylaxis

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