Electroacupuncture anesthesia for laparotomy in goats.

Background: The objective of the study to evaluate the effect of electroacupuncture during laparotomy in goats. Aim: To study the abdominal anesthesia in goats by electroacupuncture using the physiological variables, vital parameters, hematological, biochemical, cortisol hormone, pain threshold, and wound healing for laparotomy in goats.
Methods: Fifteen healthy adult bucks were used to receive electroacupuncture in 10 newly selected acupoints. The data (M ± SD) were assessed at intervals (0 minutes) before induction (control group), (5 minutes), (10 minutes), (15 minutes), and (20 minutes) during induction, (30 minutes), (45 minutes), and (60 minutes) throughout surgery and (24 hours) after surgery, cortisol levels in serum at (0), (24 hours), and (72 hours) throughout laparotomy.
Results: The goats of the study showed improvement in the rates of eyelid closure, head, and neck relaxation, rumen motility, and tympany which were graded into mild (+), moderate (++), and severe (+++) degrees. The respiratory rates, body temperatures, and capillary fill times were not significantly different. The total mean of hematocrit was (19.9 ± 2.68), the total mean of hemoglobin was (9.9 ± 0.94), the total mean of red blood cells was (7.9 ± 0.8), the total mean of platelets was (244,861.3 ± 138,444.8) and the total mean of SPO2 was (70.5 ± 4.6). ALT and AST showed no significance. The significant mean cortisol level was (2.6 ± 2.01) and the significant mean pain threshold level was (0.02 ± 0.03). The results proved that electroacupuncture had a lot of significant parameters. The wound healing was improved by early epithelization and immature granulation tissue (at 7 days). Thick keratinized epithelization and collagen deposition in the dermal tissue with enhanced angiogenesis (at 14 days). Mild restoration of skin and the dermal tissue was well-organized (at 21 days). Besides, well-formed scar tissue covering a highly cellular organized dermal tissue (at 28 days). Conclusions: Electroacupuncture had been considered a powerful anesthetic for abdominal surgery in goats. Moreover, wound healing proved excellent and better healing.

Introduction

Electroacupuncture (EA) involves the electrical stimulation of acupoints via inserted needles. The ancient practice of acupuncture started in China approximately 3,000 years ago. This procedure was first introduced in human practice in 1960 and was successfully used to relieve pain during Caesarean section, gastrectomy, enterectomy, and castration in domestic animals along with maintaining a stable physiologic index (Wang and Jin, 1989; Parmen, 2014).

Electroacupuncture is one of the alternative therapies in the production of analgesia for surgical interferences (Groppetti ). Abdominal surgery has been performed in equine under electroacupuncture analgesia (Rogers, 1995; Sheta ).

Pain is blocked by acupoints stimulation with the release of endogenous opioids and neurotransmitters (Janssens ), which also affects the blood pressure receptors and be used to increase or decrease blood pressure (Asayama ).

Electrical stimuli were induced through the acupuncture analgesia points in the peripheral sensory nerves to the spinal cord. The stimuli reached the midbrain through the ascending spinothalamic tracts. In the midbrain, the ascending signals caused release of endorphins, serotonin, and other neurotransmitters, which activated a descending inhibition mechanism and prevented the pain signals from the surgical area from reaching the cerebral cortex (Rogers, 1995; Tian ).

The purpose of the study reported here was to explore the physiological variables, vital parameters, hematologic, biochemical, cortisol hormone, pain threshold, and histopathological healing of electroacupuncture in goat's laparotomy.

Materials and Methods

The study was carried out on 15 healthy uncastrated bucks (mean ± SD age, 1.72 ± 0.08 years; mean body weight 37.27 ± 0.89 kg). The goats were placed under identical conditions and fed on concentrates, green fodder, and allowed to graze for 4 hours a day. Physiological variables (head and neck relaxation, teeth grinding, tongue protrusion, salivation, close eyelids, rumen motility, and tympany), vital parameters (temperature, heart rate, respiratory rate, and capillary refill time) These parameters are used to evaluate the effect of abdominal anesthesia under electroacupuncture. Hematologic data [hematocrit, red blood cell (RBCs), white blood cells (WBCs), staff cells, segmented cells, lymphocytes, monocytes, eosinophils, hemoglobin, platelets, SPO2], and biochemical data (ALT and AST) were analyzed and recorded at intervals (0 minute) before induction (control group), (5 minutes), (10 minutes), (15 minutes), (20 minutes) during induction, (30 minutes), (45 minutes) (60 minutes), during surgery and (24) hours post-surgery. Cortisol levels in serum at (0), (24 hours), and 72 hours) were calculated (Cadoy and Acorda, 2018). SPO2 was measured by Description Infunix technology Pure scope IP-3050 (Pugh ).

Experimental surgery design

Laparotomy was carried out on 15 bucks, instead of does, to avoid the physiological changes of does on the results, electroacupuncture performed in 10 newly selected acupoints by the authors.

For surgery, the goats were starved for 24 hours and water withheld for 6 hours before induction of anesthesia. The start of the experiment was the moment when EA started (0 minutes). During EA stimulation, the first 20 minutes were regarded as the induction period of EA analgesia, followed by 60 minutes as the maintenance period of EA analgesia. This maintenance time was based on our experiences of commonly performed surgeries.

Electro acupuncture stimulator KWD 808I- multipurpose Health Device, delivers a bipolar waveform (+) and (−) at each electrode through needles in the correct points. It induces dense dispersed wave output at frequencies 20–30 Hz for surgery (Sheta ). Acupuncture sites were clipped, antiseptically prepared with 10% povidone–iodine solution, and the sterile acupuncture needles inserted into the newly selected acupoints, besides two-parallel needles, away from each other inserted subcutaneously and muscle layers at the surgery area (Fig. 1)

Fig. 1.

Showing map of the newly selected acupoints.

The 10 newly selected acupoints for laparotomy in goats were Qi-jia (Withers) (+ve) concerted with St 36 (Tsu-San-Li) (−ve); Tianping (+ve) concerted along Da-Kua (Greater Trochanter) (−ve); Gov 20 (Baihui) (+ve) concerted with Sp 6 (Sanyinjao) (−ve); BL 30 (Baihuanshu) (+ve) concerted along Liv 14 (Chimen) (−ve) and BL 30 (Baihuanshu) (+ve) connected to TW 8 (Triple Warmer or Triple Heater) (−ve). In addition to two-parallel needles, away from each other inserted subcutaneously and muscle layers at the surgery area Table 1.

Table 1.

The selected acupoints and location for abdominal surgery in goats.

Location	Acupoints
Located between GV-13 and GV-14; it located in the depression along midline between 3rd thoracic and 4th thoracic vertebrae or at the most elevated point in the withers. It was reached by perpendicular insertion with round sharp needle 2 cm deep, under the ligamentum supraspinale.	Qi-jia (Withers)
Located on the dorso-median line in the center of the depression between the neural spines of the thirteenth thoracic and first lumbar vertebrae. The needle passed to a depth of 1.5 - 2 centimeters.	Tianping
Located on the dorso-median line in the center of the depression between the neural spines of the last lumbar and first sacral vertebrae. The needle was passed perpendicularly to a depth of 1.5 to 2 centimeters, penetrating the fascia supraspinous ligament and extending up to the dura mater.	Gov 20 (Baihui)
Located at the caudal part of the lateral sacral crest and about 6 centimeters from the middorsal line. The needle at this point penetrated subcutaneously downwards and forward to a distance of 0.5 to 1.0 centimeter. This point was bilateral.	BL 30 (Baihuanshu)
Located 6 cm cranioventral to the greater trochanter of the femur. It reached by angular insertion caudoventrally with round sharp needle 2 cm deep, in the depression between musculi tensor fasciae lata and gluteus superficialis.	Da-Kua (Greater Trochanter)
Located on the medial surface of the leg just behind tibia and approximately 1.5 centimeters cranial to the medial malleolus. The needle was passed subcutaneously in an upward direction to a length of 1.5 - 2 centimeters.	Sp 6 (Sanyinjao)
Located at the. dorsolateral aspect of the leg, about 2.5 centimeters distal to the head of the fibula near the base of the tibial crest. The needle was passed obliquely towards the foot to a distance of 1.5 - 2 centimeters.	St 36 (Tsu-San-Li)
Located on the lateral aspect of the thorax at the 8th intercostal space on a level with the point of elbow. The needle at this point was passed subcutaneously to a depth of 1.5 - 2 centimeters in a downward direction.	Liv 14 (Chimen)
Located at a point about 6 centimeters below the elbow on the lateral groove of the forearm about 1.5-3 centimeters ventral to the lateral ligament of radius. The needle at this point directed at an angle of 20 degrees along the posterior border of radius and then passed posterior medially to a depth of 6 centimeters. The tip of the needle could felt on the medial side.	TW 8 (Triple Warmer)
Away from each other inserted subcutaneously and muscle layers at the surgery area.	Two-parallel needles

Pain threshold recording

It was measured at the center of the left flank. The site was clipped, washed with soap and water, and rinsed with 75% ethanol. Two electrodes were penetrated the skin 2 cm apart. Digital Multipara meter-monitor, Shenzhen (VL9205A), apparatus was used to deliver the pulsed direct current to the electrodes, which forced potassium ions into the subcutaneous tissues. Voltage was continuously increased. The pain threshold voltage was recorded at the moment when obvious contractions of the local skin and muscles, turning of the head toward the abdomen, hunching of the back, and evasive body movements were observed. The electrical current was then turned off. Measurement of pain threshold was repeated 5 times. Percentage change in the pain threshold was calculated as follows: Percentage change = [(Vn − V0)/V0] × 100% where Vn is the mean voltage for the pain threshold during the experiment and V0 is the mean voltage for the pain threshold before the experiment (time 0).

After surgery, a prophylactic antibiotic (250,000 units of amoxicillin penicillin and 250 mg Dihydrostreptomycin per 10 kg body weight), was administered intramuscularly to each goat once a day for five consecutive days. Thereafter, the bucks were put under the same conditions before surgery.

Histopathological study

The wound skin tissue samples were taken by a scalpel on days 7, 14, 21, and 28 for histological observation. The skin tissues were fixed with 10% formalin. After fixation, samples were embedded in paraffin, cut into 3 mm frozen sections with a cryostat microtome then stained with Hematoxylin and Eosin (Bancroft ). Collagen fiber, inflammatory cell, blood vessel, fibroblast, and granulation tissue of the goatskin were examined by a light microscope (Olympus BX50, Japan).

Statistical analyses

Data were analyzed using PASW Statistics, Version 18.0 software (SPSS Inc., Chicago, IL). Results were analyzed by student-T-test. Significance was set at p ≤ 0.05.

Ethical approval

The Ethical Committee of the Faculty of Veterinary Medicine, Cairo University, Cairo, Egypt (No. of experimental protocol CU06202019053) approved the study of “Electroacupuncture anesthesia for laparotomy in goats” to be performed at the Department of Surgery, Anesthesiology and Radiology.

Results

Physiological variables findings

To draw the physiological variables, assumed as (+) equal to 10, and (++) equal to 20. The eyelid closure rates were significantly different. The rate of head and neck relaxation was not significantly different (15%). The rate of tympany was graded into mild (+), moderate (++), and severe (+++), were significantly low (23%). The head and neck relaxation were observed mild at 5 minutes, then severe at 15 to 20 minutes, teeth granting appeared mild at 5 minutes and reach to sever at 15 minutes. then disappeared. Tongue protrusion (23%) appeared moderate at 5 minutes and reached sever at 20 minutes, then moderate at 30–60 minutes, and then disappeared completely. Salivation was appeared moderate at 10 minutes, then sever at 15 minutes, and mild at 20 minutes, absent to 45 minutes, after that disappeared. Closed eyelids (15%) appeared at 15 minutes, then the sever at 20–30 minutes, moderate at 45 minutes Rumen motility (23%) was auscultated at 5 minutes, the moderate from in 10–60 minutes, after that disappeared or Absent. Tympany (23%) was appeared mild at 5–10 minutes, then moderate at 20–60 minutes (Fig. 2).

Fig. 2.

The physiological variables of the electroacupuncture.

Vital parameters findings

The vital parameters showed that the body temp was high significantly (p ≤ 0.059). The heart rate was significantly increase (p ≤ 0.246). The respiratory rate exhibited significance increase (p ≤ 0.043). The CRT demonstrated significance increase (p ≤ 0.691) (Fig. 3).

Fig. 3.

Vital parameters of the electroacupuncture.

Hematological findings

The hematocrit level was significantly high (21.5 ± 4.7). The hemoglobin concentration was significantly high (9.9 ± 0.9). The RBCs (8.4 ± 1.5), platelets (239164.1 ± 136567.1), staff cells (13.3 ± 2.96), and SPO2 (60.5 ± 4.14) levels were significantly increased. The eosinophils (4.1 ± 0.89), WBCs, lymphocytes, monocytes, and segmented cells showed no significance Table 2.

Table 2.

Hematological changes.

Hematological parameters	0 minutes	5 minutes	10 minutes	15 minutes	20 minutes	30 minutes	45 minutes	60 minutes	1,440 minutes
Hematocrit	23	25	23	24	26	25.6	27	26.6	27.6
RBC count	8.7	8.6	8.5	9.7	9.4	9.1	10	10	10
WBC count	1,904	19,920	20,760	19,640	14,464	19,700	58,800	17,720	52,960
Staff cells	2.0	2.8	5.2	2	2	2	2.8	3.6	4.6
Segmented cells	35.6	34.8	52	45.2	36.2	39.6	33.2	37.2	41.2
Lymphocytes	55.6	50.4	36.8	44.4	52.6	49.2	54.8	49.6	42.8
Monocytes	4.8	14	4	4.4	4.8	4.8	6	6	7.8
Esinophils	2	3.6	2	4	2	2.4	2.8	2	3.2
Hemoglobin	8.9	9.5	9.84	9.65	10.08	10.46	10.34	10.42	10.36
Platelets	333,132	314,152	275,498	249,496	244,834	3,373,384.4	333,636	288,624	365,064
SPO2	69.6	80	45	49	62.4	89.6	72	72	68

Biochemical findings

The ALT (41.2 ± 18.6) and AST (123.3 ± 46.5) showed no significance (Fig. 4).

Fig. 4.

Biochemical parameters of the electroacupuncture Group 1 (ALT), Group 2 (AST).

Hormonal findings

The cortisol was significantly increased (7.36 ± 1.00) (Fig. 5).

Fig. 5.

Percentage of cortisol levels the electroacupuncture.

Pain threshold findings

The pain threshold showed significance from (0.007 ± 0.00) to (0.02 ± 0.00) (Table 3).

Table 3.

Pain threshold values of the electroacupuncture of anaesthesia for laparotomy (M ± SD).

Pain threshold Laparotomy	0 minutes	5 minutes	10 minutes	15minutes	20 minutes	30 minutes	45 minutes	60 minutes
E*	0.0073 ± 0.00	0.0073 ± 0.00	0.0073 ± 0.00	0.014 ± 0.00	0.024 ± 0.00	0.0113 ± 0.009	0.024 ± 0.00	0.024 ± 0.00

Histopathological findings of wound healing

At 7 days post wounding; the inflammatory reaction was moderate and characterized by polymorphonuclear cells and macrophages infiltration with the presence of small scab covering the wound surface. Early evidence of epithelization was detected and represented by the proliferation of epidermal epithelium under the scab. There was marked thickening and hyperplastic proliferation of epidermal epithelium at the free wound edge (Fig. 6). The dermal tissue underlying the wound area showed few polymorphonuclear cells infiltration and more abundant mononuclear cells. Fibroplasia and angiogenesis were detected in the dermis and more extensive in deeper areas of the dermis which characterized by fibroblast and angioblast proliferation forming immature young granulation tissue (Fig. 7). At 14 days post wounding, the wound area was covered by a complete layer of epidermal epithelium indicating a good epithelization rate of the wound. Proliferation of cutaneous appendages was detected. The newly formed epithelium was thick and showed partial keratinization and epithelial differentiated stratum containing polyhedral keratinocyte with the appearance of keratohyalin granules in their cytoplasm (Fig. 8). The dermal tissue showed deposition of parallel well organized and interconnected collagen bundles that arranged parallel to epidermis associated with enhanced angiogenesis represented by well-developed blood capillaries (Fig. 9). At 21 days post wounding, remodeling of the formed epithelium with relatively small scar formation and mild restoration of skin appendages. Keratinized and differentiated stratum comprising the covering epithelium and the newly formed skin appendages from the basal epidermal epithelium were detected (Fig. 10). The dermal tissue revealed well-formed organized tissue consisted of parallel compact and interconnected bundles of collagen with scant angiogenesis (Fig. 11). At 28 days post wounding, well-formed scar tissue covering highly cellular organized tissue was detected (Fig. 12). The dermal tissue revealed well-arranged compact collagen bundles containing scarce blood vessels (Fig. 13).

Fig. 6.

Skin of a goat from electroacupuncture group at 7 days post wounding showing early evidence of epithelization, hyperplastic proliferation of epidermal epithelium (arrow head) at the free wound edge, and moderate inflammatory cells infiltrations in the dermis (arrow), (HE ×100).

Fig. 7.

Skin of a goat from electroacupuncture group at 7 days post wounding showing fibrin exudation at wound surface with dermal edema, hemorrhages (arrow) with moderate mononuclear cells infiltration associated with formation of immature granulation tissue consisted of fibroblast and angioblast forming small blood channels (arrow head), (HE ×200).

Fig. 8.

Skin of a goat from electroacupuncture group at 14 days post wounding showing enhanced reepithelization evidenced by differentiated polyhedral keratinocytes in the stratum spinosum and keratohyalin granules in the stratum granulosum (arrow) and keratinization (arrow head), (HE ×100).

Fig. 9.

Skin of a goat from electroacupuncture group at 14 days post wounding showing well organized and interconnected collagen bundles that arranged parallel to each other and to epidermis (arrow head) associated with enhanced angiogenesis represented by well-developed blood capillaries (arrow), (HE ×200).

Fig. 10.

Skin of a goat from electroacupuncture group at 21 days post wounding showing keratinized (arrow head) and differentiated stratum comprising the covering epithelium (*) and the newly formed skin appendages from the basal epidermal epithelium (HE ×200).

Fig. 11.

Skin of a goat from electroacupuncture group at 21 days post wounding showing well-formed organized tissue consisted of parallel compact and interconnected bundles of collagen with scant angiogenesis (arrow head) (HE ×200).

Fig. 12.

Skin of a goat from electroacupuncture group at 28 days post wounding showing well-formed scar tissue (arrow head) covering highly cellular organized tissue (HE ×100).

Fig. 13.

Skin of a goat from electroacupuncture group at 28 days post wounding showing well arranged compact collagen bundles (arrow head) containing scarce blood vessels (HE ×200).

Discussion

The goats of the present study showed statistically significance interactions concerned with rates of eyelid closure [F(4.69, 28.15) = 38.99, p < 0.0001], head and neck relaxation [F(5.60, 33.60) = 47.87, p < 0.0001], rumen motility [F(2, 12) = 24.52, p < 0.0001], salivation [F(2, 12) = 49.46, p < 0.0001], teeth grinding [F(2.15, 12.92) = 15.36, p < 0.0001], and tympany [F(2.95, 17.67) = 23.59, p < 0.0001]. However, there was non-significant interactions between the groups and the overtime rates of tongue protrusion [F(2, 12) = 1.00, p = 0.39].

Laparotomy blood test showed statistically significant interactions between the goats and the overtime changes of respiratory rates [F(4.49, 26.93) = 16.27, p < 0.0001], ALT levels [F(5.19, 30.99) = 4.28, p-value = 0.004], AST levels [F(3.17, 19.03) = 15.36, p < 0.0001], hematocrit [F(5.62, 33.74) = 18.03, p < 0.0001], hemoglobin concentrations [F(7.41, 44.47) = 2.27, p = 0.043], RBCs counts [F(8.04, 48.21) = 5.67, p < 0.0001], WBCs counts [F(4.83, 28.96) = 2.95, p = 0.030], lymphocytes [F(5.5, 32.97) = 3.23, p = 0.015], monocytes [F(4.11, 24.68) = 6.41, p = 0.001], segmented cells [F(4.02, 24.14) = 3.32, p = 0.027], SPO2 [F(5.04, 30.25) = 4.498, p = 0.003], and cortisol levels [F(2.66, 15.98) = 7.1, p = 0.004]. However, there were non-significant interactions between the goats and the overtime changes of body temperatures [F(3.25, 15.90) = 2.88, p = 0.059], heart rates [F(2.80, 16.77) = 1.52, p = 0.246], capillary refill times [F(2.65, 15.87) = 0.461, p = 0.691], eosinophils [F(6.61, 39.64) = 14.74, p = 0.711], platelets counts [F(3.38, 20.27) = 1.95, p = 0.149], and staff cells [F(66.26, 13.37) = 1.165, p = 0.347]. There was a statistically significant interaction between the goats and the overtime changes of pain threshold [F (2.32, 13.9) = 37.9, p < 0.0001].

The physiological variables in laparotomy have statistically significant interactions between the goats (Qu, ; Han, 1998). Electroacupuncture showed a significant rise in the rectal temperature, it may be due to initial apprehension of the animal for the needles and the current that believed to have been mediated at the hypothalamic level, and increased basal metabolic rate of animals. The antifebrile effect is believed to have been mediated at the hypothermic level (Rogers and Bossy, 1981). Nevertheless, electroacupuncture maintains sufficient excitation of the central nervous system (Han, 1998; Latimer ). However, laparotomy showed a gradual reduction in temperature that may have been attributable to a decrease in skeletal muscle tone, a decrease in metabolic rate, or muscle relaxation along with depression of thermoregulatory centers (Durga Prasanna Babu, 1988).

Heart rate in laparotomy is superior, this parasympathetic stimulation affects the cardiovascular system (Lee ) which led to a transient fall in the blood pressure and consequent rise of the heart rate. But the electroacupuncture maintains heart rate normal till the end of surgery as mentioned by Sali (2010) and Shah .

The respiratory rate of laparotomy is superior, this rise might be attributed to initial apprehension of the animal to the needles and current, and also due to increased heart rate (Wright and McGrath, 1981).

In the present study, it was found that the significant increase in hemodynamic led to rosy red CRT. The goats exhibited significant increase in hematocrit, and gradual increase of red blood cell, which stated that acupuncture increases red blood cell, and platelets were significantly increase group Secondary or reactive thrombocytosis assisted in blood clotting (Habibu ). The WBC count and staff cells showed is non-significant.

Electroacupuncture also can suppress the production of adrenocortical hormones in response to stress Electroacupuncture-induced transient changes in the present study may have been associated with constriction of the splenic sinuses are similar to that reported in normal goats (Egbe-Nwiyi ).

The significant increases of blood indices confirmed the data published in the National Institutes of Health Conference which stated that acupuncture increases red blood cells and treats thrombocytopenia, and increases immunity, also corresponding with World Health Organization recommendations that endorse acupuncture for treating leukopenia (Pais ). The study found increased levels of hematocrits, granulocytes, and monocytes before and after treatment, but this difference is not significant and also, the increases of hematological variables are within the normal values by the study of (Aiello ).

Eosinophils in laparotomy was not significant and maintain it until the end of the surgery, this helps the movement to inflamed areas, trapping substances, killing cells, anti-parasitic, and bactericidal activity, participating in immediate allergic reactions, and altering inflammatory responses (Murphy and Weaver, 2016).

In laparotomy showed no significance. The hemoglobin concentration was significantly high based on the results of hematologic evaluations, there were no changes in hemoglobin concentration for treated goats (Shah ).

SPO2 levels in laparotomy were significantly high. The increased permeability induced by oxygen in the alveolar-capillary wall as a development that increased permeability of the endothelial cell lining is needed before circulating antibodies, the oxyhemoglobin dissociation curve describes the relationship between the partial pressure of oxygen and the percent of hemoglobin saturated with oxygen and varies with chemical and physical (Burk and Orr, 2020).

ALT and AST are the levels of liver enzymes. It plays a crucial role in metabolism, the process that turns food into energy (Watkins ). When elevated ALT levels are found in the blood, the possible underlying causes can be further narrowed down by measuring other enzymes. The ALT and AST levels in laparotomy were not significantly different (Shah ).

The significant increases in serum cortisol levels after the end of the therapy are attributed to its effect on the central and peripheral nervous systems to activate the body's endogenous or natural pain relief mechanisms. It stimulates the release of several neurotransmitters, chemical secretions that cause a favorable reaction in another nerve, a muscle, or a gland. It also causes a release of β-endorphins and adrenocorticotropic hormone from the pituitary gland that induces the release of cortisol from the adrenal gland; this is in agreement with (Cadoy and Acorda, 2018).

In the study, cortisol level was significantly high. Also, the cortisol levels are attributed to its effect on the central and peripheral nervous systems to activate the body endogenous or natural pain relief mechanisms. It stimulates the release of several neurotransmitters, chemical secretions that cause a favorable reaction in another nerve, a muscle, or a gland. It also causes a release of β-endorphins and adrenocorticotropic hormone from the pituitary gland that induces the release of cortisol from the adrenal gland (Padilha ). Moreover, Cortisol regulates a wide range of vital processes throughout the body, including metabolism and the immune response. It also has a very important role in helping the body respond to stress (Ramamoorthy and Cidlowski, 2016).

Several investigators measured the pain threshold in goats with an algesimetry method based on a leg-lifting response to a subcutaneous electric stimulus. This method is not an involuntary reflex but represented cognitive behavior. Additionally, this technique could not be used for restrained animals. Potassium iontophoresis is a convenient and reliable pain stimulus that can be provided rapidly and repeatedly with minimal loss inconsistency of a subject’s reported pain level (Humphries ), this quantitative method is used to measure the pain thresholds. Electroacupuncture induced is sufficiently strong to completely block sharp, acute pain attributable to major surgery in some individuals (Han, 2015). The present work showed high significance in pain threshold which was induced by ACTCH that stimulated production of cortisol which acted as anti-inflammatory and painkilling. The evidence of electroacupuncture analgesia using 10 newly chosen acupoints can produce sufficient analgesia for right flank laparotomy in goats.

Electroacupuncture showed improvement in the rates of eyelid closure, head and neck relaxation, rumen motility, and tympany. The respiratory rates, body temperatures, and capillary fill times increase significance. Hematocrit, Hemoglobin, RBCs, Platelets, and SPO2 were significant. ALT and AST showed no significance. The cortisol and pain threshold showed a significant difference.

The healing of wounds in electroacupuncture is improved. At 7 days, the electroacupuncture group was characterized by early epithelization and immature granulation tissue. At 14 days, covered by thick epithelization and keratinization. The dermal tissue showed the deposition of collagen and enhanced angiogenesis. At 21 days, mild restoration of skin, and the dermal tissue was a well-organized tissue, at 28 days, showed well-formed scar tissue covering highly cellular organized dermal tissue, as previously mentioned by (Wang ) who stated that acupuncture enhances wound healing accelerators such as fibroblast growth factors and platelet-derived growth factors in experimental models.

Conclusion

Electroacupuncture anesthesia using the 10 newly selected acupoints and two-parallel needles, at the surgery area, can produce sufficient analgesia to the flank laparotomy in goats. Electroacupuncture works more potent and achieves sufficient abdominal anesthesia suitable for goat abdomen surgery superior. Also, the wound healing in laparotomy goats proved excellent and better healing with electroacupuncture regime.