GAS-DISCHARGE VISUALIZATION (GDV) OR BIOELECTROPHOTOGRAPHY IN DIAGNOSIS OF PATELLA DISLOCATION IN SMALL DOGS

Our study was focused on gas-discharge visualization as a mean of diagnostic of patella displacement in small dogs. We intended to show that bioelectrophotography provided very important method of pathology process and health state evaluation in animals. Our research was based on the readings of GDV-chamber, an instrument developed by Russian scientists for visualization and recording of gas-discharge glowing effects. This high-tech precision equipment allows real-time monitoring of biofields in test animals. Diagnosis of pathologic processes in the patella is impeded by unclear and implicit clinical manifestations (absence of pain, claudication). Repeated displacement of patella from its sliding path causes arthrosis of the knee-joint. Our clinical trials carried out with GDV apparatus were aimed at diagnosis of patella pathologic processes (including displacements) in small dogs. All animals were divided in 2 groups: healthy and with patella displacement. Examination was performed in the GDV-chamber and images were recorded in static mode using GDV Capture software. Data was processed with GDV Scientific Laboratory software. Analysis of observation results showed bursts beyond general contour, apparent changes in the distribution of glowing, and disrupted glowing corona of the leg in virtually all dogs with patella pathology. Experimental data was analyzed based on such characteristics of GDV-grams as entropy, area, average intensity, and length of isolines (either with filter eliminating effect of perspiration and gassing on skin or without). Resulting statistical calculations and analysis reliably validated significant difference in GDV-gram characteristics in sick and healthy dogs. Application of gas-discharge visualization (filter mode seems more accurate and correct) along with other diagnostic means provide for sufficient

Газоразрядная визуализация, ГРВ, биоэлектрография, ГРВ-камера, вывих коленной чашечки, средняя интенсивность, длина изолинии, площадь изображения, энтропия

1. Баньковский Н.Г.,Коротков К.Г. Изучение физики газоразрядной визуализации// Письма ЖТФ. 1982.Т.8,№4 с.216-300.

2. Борисов М.С., Мамашева Р. Р., Жариков Д. Н. Эффективность лечения животных при болезнях суставов и сухожилий// Ветеринария 2008 №1

3. Вельховер Е.С., Кушнир Г.В. Экстерорецепторы кожи /Штиинца. Кишинев, 1986. 125с.

4. Коротков К.Г., Муромцев Д.И.,Бабацкий М.А. и др. Практические основы метода Газоразрядной Визуализации (ГРВ)// СПб. 2009

5. Коротков К.Г. Основы ГРВ биоэлектрографии// СПб. 2001

6. Коротков К.Г. Принципы анализа в ГРВ биоэлектрографии// СПб.2007

7. Полушин Ю.С., и др. Перспективные направления применения метода газоразрядной визуализации в медицине критических состояний// Наука, Информация, Сознание: материалы 9-ого международного конгресса СПб.СПбИТМО 2005

8. Пономаренко Г.Н. Физические методы лечения // СПб.1999. 252с.

9. Слесаренко Н.А. Бабичев Н.В. и др. Анатомия собаки. Соматические системы: //Учебник Под ред. проф. Н.А. Слесаренко. - СПб.: Издательство «Лань», 2003

10. Сергеев С.С, Писарева С. А. Первичная диагностика состояния здоровья методом ГРВбиоэлектрографии// Мат. 9-международного конгресса по биоэлектрографии «Наука. Информация. Сознание» СПб 2005.