Tonsillectomy for most patients with chronic decompensated tonsillitis is the method of choice and often the only treatment. In this regard, tonsillectomy is one of the most common planned operations in ENT surgical practice. This method of surgical treatment, according to various authors, reaches up to 40% of all surgical interventions on the ENT organs [1-3]. Indications for surgical intervention are frequent tonsillitis, as well as local complications of tonsillitis, such as peritonsillar abscess, retropharyngeal abscess, neck phlegmon, suppurating cervical lymphadenitis, febrile convulsions, severe tonsillogenic intoxication, diseases of distant organs and systems associated with pharyngeal pathology [4]. In the postoperative period after tonsillectomy, pain remains extremely relevant and in most cases the only symptom. The causes of pain immediately after tonsillectomy and in the next few days are the extensive open postoperative surface in the tonsillar niches, swelling and infiltration of the palatal arches [5]. The mechanism of post-traumatic pain is associated with an increase in the excitability of nociceptors resulting from the action of algogens - substances released from cells damaged as a result of surgical exposure (histamine, serotonin, ATP, leukotrienes, interleukin-1, tumor necrosis factor, endothelins, prostaglandins, nitric oxide, neurokinin , A, etc.) and formed in the blood plasma (bradykinin). Most often after surgery, patients are bothered by severe sore throat, which often radiates to the ears and also intensifies when swallowing [6]. In these cases, it is necessary to resort to painkillers, as well as follow a special diet that excludes coarse, salty, and spicy foods. Postoperative pain negatively affects the patient's eating and return to active daily life.
In addition, there is a danger of microbial contamination of the wound surface against the background of a decrease in local immunity and anti-infective resistance of inflamed tissues. In this regard, an important problem after tonsillectomy is to reduce the phenomena of reactive inflammation of tissues and reduce the pain syndrome that occurs in response to surgical trauma.
To achieve optimal analgesic effect after tonsillectomy, the use of a large number of different analgesic drugs is required.
According to the literature, over the years of tonsillectomy, multiple attempts have been made to improve pain relief in the postoperative period, both with systemic and local drugs. However, many of them have side effects and are poorly applicable in modern practice.
Opioid use has side effects such as nausea, vomiting, constipation, respiratory depression and severe sedation.
Nonsteroidal anti-inflammatory drugs (NSAIDs) increase the risks of bleeding and gastrointestinal disorders. According to experts, ibuprofen has some advantages in terms of tolerability over other non-steroidal anti-inflammatory drugs [7]. Cyclooxygenase-2 inhibitors (celecoxib) have similar analgesic properties to nonselective NSAIDs and have minimal side effects such as platelet dysfunction and gastrointestinal bleeding. However, one study showed that celecoxib does not provide sufficient analgesic effect after tonsillectomy and also often causes vomiting [8].
H. Tolska et al. [9] conducted a meta-analysis of 29 studies representing a double-blind, placebo-controlled, randomized trial of systemic analgesics used in the postoperative period after tonsillectomy. This study confirmed the beneficial analgesic effects of paracetamol, NSAIDs, dexamethasone, gabapentinoids and dextromethorphan after tonsillectomy on the day of surgery. Dexamethasone in multiple doses had an analgesic effect exceeding 24 hours. However, the use of steroids with high total doses and/or long-term use after surgery should be carried out with caution, taking into account the possible risks. Well-known side effects of systemic corticosteroid therapy (eg, moon face, Cushing's syndrome, diabetes mellitus) develop with long-term treatment. The risk of side effects from short-term, 1-2 weeks, systemic glucocorticosteroid therapy is minimal if treatment is not given to patients with diabetes, glaucoma, cataracts and osteoporosis. However, an increase in blood glucose levels and a rise in blood pressure can be observed during treatment with systemic glucocorticosteroids and in patients without diabetes mellitus or hypertension. A single dose of analgesics or the use of dexamethasone alone does not provide a clinically significant long-term analgesic effect after tonsillectomy.
A. Khan et al. found that gabapentin, pregabalin, and dextromethorphan may be useful in moderate doses as adjuvants to other analgesics. However, gabapentin and pregabalin are antiepileptic drugs, and dextromethorphan is an antitussive drug, and therefore their analgesic effect itself is not justified. Ketamine, an NMDA antagonist used as an anesthetic, can be used for pain relief after surgery. Its use in subanesthetic doses is effective in various types of surgeries to reduce opioid requirements and pain sensitivity. However, a patient receiving ketamine should be under constant medical supervision [10].
Thus, systemic analgesic drugs do not always have a good analgesic effect and in most cases have side effects. In this regard, in order to avoid the systemic effect of NSAIDs and at the same time ensure direct contact of the drug with the mucous membrane of the oral cavity and pharynx, it was necessary to develop local anesthetic drugs.
Topical drugs used in the complex treatment of pathological conditions of the oral cavity and pharynx can be divided into analgesics, anti-inflammatory drugs, antiseptics, drugs with a decongestant effect on the mucous membrane, etc. [11]. Local preparations in the form of lozenges, sprays, and rinses have also begun to be used in patients after tonsillectomy.
Many studies conducted in adult patients after tonsillectomy have shown the therapeutic effectiveness of benzydamine, especially when using a 0.15% mouthwash or spray - rapid relief of sore throat, reflex otalgia, and the absence of secondary bacterial complications were noted. However, in these studies there is mention of such an unpleasant sensation in some patients as a burning sensation in the throat associated with the ethyl alcohol contained in these drugs. This may indicate the irritating effect of these drugs, as well as the risk of bleeding from the tonsil niches [12, 13]. Topical therapy for the oropharynx may include rinsing, spraying, and lozenges. Rinsing with medicinal preparations is effective in treating the oral cavity and the base of the tongue. The use of a spray allows you to irrigate the back wall of the pharynx, however, the use of sprays is not recommended for children under 6 years of age and for patients with bronchial asthma. When assessing the effectiveness of medications in the form of resorption, it was noted that the concentration of active ingredients in the pharyngeal mucosa is higher than when using a spray and rinse. There is also a slower cleansing of the pharyngeal mucosa from drugs when using drugs in a resorption form, which ensures the maintenance of a high concentration of the drug at the site of inflammation [14].
In the search for non-pharmacological analgesia, various types of non-traditional approaches to pain management are being used. One such approach is transcranial electrical stimulation. It has been established that under the influence of this method the sensitivity of peripheral pain receptors decreases. This effect is caused by an increased concentration of β-endorphin circulating in the blood. However, this method has a number of contraindications and reduces the severity of pain for a limited period of time, and it is also economically unprofitable [15].
The use of a visual analogue scale (VAS) to assess pain allows us to assess the level of acute postoperative pain syndrome in patients who have undergone tonsillectomy [16].
In connection with the problem of pain relief for patients in the postoperative period after tonsillectomy, attempts have been made in recent years to produce new, safe, modern drugs. One of these drugs is Arnica Montana C9 (BOIRON) - a homeopathic monocomponent drug of plant origin.
The purpose of the study was to identify the effect of the homeopathic monocomponent herbal preparation Arnica Montana C9 (BOIRON) on the condition of patients who underwent tonsillectomy.
What is tonsillectomy?
Removal of palatine tonsils is one of the most common operations in the practice of an ENT doctor.
Many people think that it is performed only for children, but this is not so. Adults may also need it if chronic tonsillitis has become severe and is accompanied by purulent complications, and enlarged tonsils interfere with swallowing and even breathing, causing sleep apnea syndrome - a short-term cessation of breathing during sleep. The palatine tonsils sometimes become inflamed. Inflammation of the tonsils (tonsils) is referred to as tonsillitis. It, in turn, can be acute and chronic.
Inflammation of the tonsils. Photo: James Heilman, MD / (Creative Commons Attribution-Share Alike 3.0 Unported license)
Acute tonsillitis is called tonsillitis. With chronic tonsillitis, the inflammatory process lasts for years, with periodic exacerbations. An exacerbation is usually accompanied by fever, sore throat and sore throat, including when swallowing.
The tonsils become coated, bad breath appears, and the cervical lymph nodes become enlarged. If exacerbations recur one after another, and conservative treatment does not help, you have to resort to surgical treatment - removal of the tonsils (tonsillectomy).
Diagnostics
The need for tonsillectomy is determined by an ENT doctor after a conversation with the patient, a visual and instrumental examination, and obtaining the results of diagnostic studies. Laboratory tests and instrumental examinations not only indicate the presence of chronic tonsillitis, but also reflect the degree of influence of the inflammatory process on the body. Some of the tests and examinations are necessary to ensure that there are no contraindications to surgery.
Before removing tonsils, the following is prescribed:
- general blood test with leukocyte formula;
- blood chemistry;
- blood clotting test;
- blood for syphilis, HIV, hepatitis;
- rheumatic tests;
- general urine analysis;
- ECG;
- FLG;
- culture from tonsils.
Difference from tonsillotomy
Along with tonsillectomy, there is another operation with a similar name - tonsillotomy, in which enlarged tonsils are removed not entirely, but partially (usually in children). The indication for such an operation is the hypertrophy of these tonsils, when they occupy the entire space from the anterior palatine arch to the midline of the pharynx. With tonsillotomy, only the “excess” of enlarged tonsils is removed, returning them to normal size. Tonsillotomy is less traumatic than radical removal of the tonsils, and allows you to preserve their protective functions.
Preparing for removal
Carrying out a tonsillectomy requires certain preparation. The patient must undergo a preoperative examination, which includes:
- conducting a number of laboratory tests (general blood test, urine test, coagulogram, test for HIV and infections, etc.);
- fluorography;
- ECG;
- taking a smear from the mucous membrane of the tonsils and the back wall of the pharynx;
- sanitation of the oral cavity;
- examination by a therapist and, if necessary, doctors of narrow specializations (rheumatologist, endocrinologist, gynecologist, etc.).
If the patient is taking medications that inhibit blood clotting (anticoagulants), they should be stopped a few days before the tonsillectomy. To relieve anxiety before having your tonsils removed, you can start taking sedatives.
On the appointed day, four to six hours before the intervention, it is necessary to finish eating so as not to provoke a gag reflex, and the anesthesia will work better.
Why doesn't conservative treatment help?
Due to immunodeficiency (congenital or acquired) or concomitant diseases that contribute to prolonged inflammatory processes (diabetes mellitus, chronic infection), conservative treatment of tonsillitis may be ineffective.
Important! Group A beta-hemolytic streptococcus can settle in the tonsils, which causes rheumatic damage to the heart, joints and kidneys. Removing the tonsils avoids these complications.
Other factors that complicate conservative treatment include smoking and alcohol abuse. For teachers, singers and actors, the risk factor is the need to talk long, loudly and a lot.
At what age is surgery performed?
Surgical treatment may be recommended for adults and children over 8 years of age. By this time, the tonsils are fully formed. The palatine tonsils are an integral part of the pharyngeal ring - a group of tonsils (paired palatine and tubal, unpaired nasopharyngeal and lingual) - an important organ of local immunity of the nasopharynx and respiratory tract. Early removal of tonsils can contribute to the development of atopic diseases - allergic rhinitis or bronchial asthma. Such operations are usually not performed on children under three years of age, since they rarely have tonsillitis - the tonsils are too small.
Important! Tonsils can be removed no earlier than six months after polio vaccination.
How is the operation performed?
Three hours before the start of the operation, the patient is not recommended to drink or eat. The patient is placed in a surgical chair, and his pharynx is treated with anesthesia. After the anesthesia takes effect, the doctor directs a special device that uses a laser beam to target the tonsils. To avoid burns and damage to healthy tissue, radiation treatment is carried out in 4-5 approaches, each laser session lasts approximately 10-15 seconds. To prevent bleeding, laser coagulation (sealing) of blood vessels is performed. Tonsil removal is performed when the patient pauses breathing after taking a deep breath. To completely remove purulent deposits, large depressions are artificially expanded, then they are smoothed out, and the scars are excised with a laser. Such manipulations make it possible to create a discharge of the contents of the lacunae of the tonsils. When performing tonsillectomy, purulent deposits of the tonsils are completely eliminated. In some cases, within one to two hours after surgery, to eliminate the risk of complications, the patient is monitored and then sent home. Since laser tonsil removal is the most gentle method of treatment, the doctor can perform this manipulation in several stages.
Contraindications
They can be absolute (excluding the possibility of tonsillectomy) and relative, when everything is postponed until the reasons preventing the operation are eliminated.
Absolute contraindications:
- diseases with increased bleeding: hemophilia, hemorrhagic diathesis, Werlhof's disease, agranulocytosis, leukemia;
- heart failure grade 2–3;
- acute infectious diseases and exacerbation of chronic ones;
- active form of tuberculosis;
- cirrhosis of the liver.
Relative contraindications:
- caries (before sanitation - dental prophylaxis of the oral cavity);
- inflammation of the gums;
- pustular diseases of the mouth and skin;
- ARVI and influenza;
- exacerbation (decompensation) of chronic diseases;
- menstruation;
- pregnancy after the 26th week due to the risk of premature birth.
Types of tonsil removal surgeries
Classical
The surgeon installs a mouth retractor and separates the tonsil tissue along with the capsule from the surrounding tissues in a “blunt” way using a raspator. The bleeding is stopped, the vessels are cauterized with an electrocoagulator or laser. The whole process takes from 15 to 40 minutes.
Electrocoagulation
Figure 1. Incision at the base of the tonsil during electrocoagulation.
Source: Maxillofacial Plastic and Reconstructive Surgery / Open-i (Attribution 4.0 International) Instead of a scalpel, a high-frequency current electrode is used. The vessels are “sealed”, so blood loss is minimal. Recovery may take longer due to associated injuries to surrounding tissues.
Removed tonsils. Maxillofacial Plastic and Reconstructive Surgery / Open-i (Attribution 4.0 International)
Cryodestruction
Tonsils are frozen with liquid nitrogen. As a result, they become pale, flat and hard, and after a day they die and are gradually rejected. The method is recommended for patients with an increased risk of bleeding (thrombocytopenic purpura, hemophilia, etc.), severe heart failure and endocrine pathology.
Important! The cryosurgical method is used in a series of procedures lasting up to 1.5 months. During this time, a relapse of the disease is possible if not all of the tonsil tissue has been destroyed. Cryosurgery is used when classical surgery is not possible.
Ultrasonic destruction
High-frequency sound vibrations warm up the tissues to prevent bleeding. Unlike exposure to liquid nitrogen or electricity, surrounding tissue is almost not damaged. Ultrasound method is one of the least traumatic.
Radio wave destruction
A probe is installed inside the tonsils, which generates radio waves. They evaporate the water from here and cause scarring. Ablation can be repeated several times. Anesthesia is not needed here - only local anesthesia or light sedation. Recovery is quick, but radical tonsil removal is almost impossible. Therefore, radio wave therapy is used for their hypertrophy, but not for chronic tonsillitis, when radical intervention is required.
Cold plasma destruction
A relatively new method of removing tonsils. It is based on the property of cold plasma (radio frequency energy converted into ionic dissociation) to separate molecular bonds in tissues without releasing thermal energy. Plasma is called cold because it causes minimal heating of the tissue, which means that pain after surgery will be insignificant, recovery will be easy and quick. The method is low-traumatic and can be used for partial or complete removal of tonsils.
Laser removal
Laser tonsillectomy can be complete or partial (with cutting of the upper layers of the tonsils). Different types of laser are used - carbon, infrared, etc. Only pathological tissues are removed, and healthy ones are not affected. Other advantages include immediate separation of the tonsil from the underlying tissues with coagulation of blood vessels, which reduces the risk of bleeding and infection.
Advantages of the laser method
The laser method is one of the most modern methods of treating tonsils.
- Coagulation of the tonsils that occurs during laser exposure accelerates healing, thereby reducing the possibility of bleeding.
- The duration of the laser operation is up to 30-40 minutes.
- Laser treatment does not leave open wound surfaces.
- Laser tonsillectomy surgery is performed on an outpatient basis and does not require a long recovery period. The patient remains able to work after the operation.
- The operation is performed using local anesthesia
- To minimize trauma and facilitate the recovery period, laser tonsillectomy is usually performed in several stages.
Laser exposure is sterile in nature, it allows you to reduce the risks of negative consequences of the operation and minimize interference in the body using the partial excision method.
Postoperative period
Figure 2. Appearance of the throat after tonsillectomy. Source: James Heilman MD, CC BY-SA 3.0.
Recovery usually takes 3–4 weeks, the first of which takes place in the hospital. This is necessary in order to respond in time to the most common complication of tonsillectomy – pharyngeal bleeding. To prevent it, hemostatic drugs are prescribed.
From the operating room the patient is transferred to a ward under the supervision of the attending physician. On the first day, it is forbidden to swallow, spit or expectorate saliva. You can only breathe through your mouth. In case of severe pain, the patient is prescribed painkillers.
A diet is recommended for all days of the postoperative period
- on the first day, adults should refrain from eating, and small children should not eat or drink for the next 6 hours;
- In the first week after surgery, it is recommended to eat liquid, smooth food;
- During the recovery period, food should be soft; it is not recommended to eat too hot, cold, sour, or spicy. This may irritate the mucous membranes of the throat and mouth.
- In the postoperative period, if necessary, a course of antibiotics is prescribed.
Figure 3. Memo: what you can and cannot eat after surgery.
Source: verywellhealth.com Bed rest must be observed for 2 days. In most cases, the patient is discharged from the hospital within a week for outpatient observation and treatment.
Conclusion
Based on the statistical analysis of the comparison of two groups of patients who underwent bilateral tonsillectomy, in patients who received, in addition to the anesthetic drug ketorolac, Arnica Montana C9 (BUARON) for resorption, 5 granules 3 times a day from the 2nd day, the recovery time was significantly reduced . This is indicated, in particular, by a faster time for normalization of body temperature, disappearance of pain and a decrease in the inflammatory reaction in the pharynx after tonsillectomy. This may have a positive effect on the quality of life in the early postoperative period of patients taking the drug Arnica Montana C9 (BOIRON).
The authors declare no conflict of interest.
The authors declare no conflicts of interest.
Complications after removal of tonsils
The most common of them is bleeding, which can develop both on the first day after the intervention (primary bleeding, and 5-6 days after it. The incidence of postoperative pharyngeal bleeding ranges, according to various observations, from up to almost 60%. Minor bleeding after removal of the tonsils is stopped using a tampon, electrocoagulation, or the anterior and posterior palatine arches are sutured together to reduce the area of bleeding.
Also, as a side effect of the procedure, there is a risk of blood aspiration (blood entering the respiratory tract). Then the blood is urgently removed with an electric suction and bronchoscopy is performed.
After removal of the tonsils, swelling of the soft palate and larynx is possible. If signs of difficulty breathing appear, decongestant therapy is carried out.
If the wound becomes inflamed after removal of the tonsils, antibiotic therapy is prescribed.
In most cases, the operation takes place without complications or side effects. If the patient experiences pain, the doctor will prescribe analgesics on the first day after removal of the tonsils, and then non-steroidal anti-inflammatory drugs.
Sometimes the patient may experience voice changes, taste disturbances, and nasal sounds.
It is extremely rare to experience damage to the temporomandibular joint due to forceful opening of the mouth with a mouth opener during tonsil removal.
Relief of pain symptoms in children after tonsillotomy
One of the most common diseases of the ENT organs in childhood, diagnosed according to some data in more than 50% of preschool children [1], is hypertrophy of the palatine tonsils. The high prevalence of this condition in children is associated with a high frequency of surgical interventions on the tonsils, in our country this is mainly tonsillotomy. In Russia, tonsillotomy accounts for 25–30% of planned surgical interventions in a children's hospital [2]. According to foreign authors, the share of tonsillotomy (adenotonsillotomy) in those countries where this intervention is practiced in the structure of surgical interventions in otorhinolaryngological departments is more than 55% (for the age group of patients from 1 to 3 years). The main indication for tonsillotomy is obstructive sleep apnea syndrome [3].
Among the most common complications in the early postoperative period during tonsillotomy and other surgical interventions on the tonsils are bleeding and severe pain, which should not be underestimated in pediatric practice. Thus, according to recent studies, complications in the early postoperative period in patients after surgical interventions on the organs of the lymphopharyngeal ring in 48.1% were severe sore throat, and bleeding was noted only in 3.9% of cases. In 29.0% of patients, severe sore throat was the cause of severe dysphagia, and in 4.6% it was clinically manifested by dehydration [4]. In children under 6 years of age, pain in the throat in the early postoperative period is mainly accompanied by nausea and vomiting [5].
Thus, one of the pressing problems of all modern clinical medicine and otorhinolaryngology in particular is postoperative pain relief. When analyzing previously published materials, one cannot fail to note the particularly great importance of non-steroidal anti-inflammatory drugs in minimizing pain after surgery on the tonsils [6].
The drug lysine salt of ketoprofen, which has anti-inflammatory, analgesic and antipyretic properties, with a rapid onset and duration of action of up to 8 hours, combined with very good tolerability, is of certain interest in terms of pain relief [7]. According to comparative randomized clinical studies of ketoprofen, lysine salt in a dose of 50–100 mg has a stronger analgesic effect than paracetamol/codeine combinations [8].
Taking into account the above problem, a clinical study was conducted at the clinical sites of the Department of Pediatric Otorhinolaryngology of the Federal State Educational Institution of Further Professional Education of the Russian Medical Academy of Postgraduate Education, the purpose of which was to increase the effectiveness of pain relief after tonsillotomy in children.
The study included 140 children aged 6 to 18 years (mean age 9.49 years) after radiowave tonsillotomy under endotracheal anesthesia. As a premedication before surgery, patients received only atropine solution (sublingually). In all patients, tonsillotomy (in 121 patients in combination with adenotomy using the Kozlov-Karpov method) was performed using a radio wave surgery device. A direct incision through the tissue of the palatine tonsil was made using a monopolar needle electrode in the “cut and coagulation” mode. Non-steroidal anti-inflammatory drugs were prescribed to relieve pain in the early postoperative period. All children, according to the sequential number randomization method, were divided into four groups.
Patients of the 1st group (35 people) received the drug ketoprofen lysine salt in the form of an oral solution (OKI drug, produced by Dompe, Italy) 40 mg (children aged 6 to 14 years) or 80 mg (children over 14 years old) and older) if there are complaints of severe, unbearable sore throat with an interval between doses of the drug of at least 8 hours.
Patients of the 2nd group (35 people) received the drug ketoprofen lysine salt in the form of an oral solution (OKI drug, produced by Dompe, Italy) 40 mg (children aged 6 to 14 years) or 80 mg (children from 14 years old and older) 3 times a day (at least 8 hours between doses) for 3 days after surgery.
Patients of the 3rd group (35 people) received ibuprofen orally (Nurofen, syrup 100 mg/5 ml, manufactured by Reckitt Benckiser Healthcare International Ltd., UK) 100-300 mg (child weight 17-20 kg - 150 mg each ; child weight 21-30 kg - 200 mg; child weight 31-40 kg - 300 mg) up to 3 times a day if there are complaints of severe, unbearable sore throat.
Patients of the 4th group (35 people) received the drug ketoprofen lysine salt in the form of a solution for topical use (OKI drug, produced by Dompe, Italy) 4 ml (children aged 6 to 12 years) or 6 ml (children over 12 years old) and older) 2 times a day (morning and evening) for 3 days after surgery. A single dose of rinsing solution was diluted in 100 ml of drinking water immediately before use. The patient performed the first gargling with this solution 3 hours after surgery, regardless of the severity of the pain syndrome.
Control examinations of patients were carried out 3, 6 hours after surgery, on the 1st, 2nd and 3rd days after surgery.
The study did not include children with diseases and conditions that are a contraindication for the prescription of the drug ketoprofen lysine salt in the form of granules for the preparation of an oral solution (for patients of the main groups) and ibuprofen (for patients of the control group), as well as patients with concomitant diseases, changing, in the opinion of the researcher, the natural course of the disease, affecting the result of therapy and/or violating the possibility of subjective assessment of the symptoms of the disease (psychoneurological pathology, diabetes mellitus, blood diseases, oncological diseases, immunodeficiency states, infectious diseases, etc.).
The evaluation of the effectiveness of treatment was carried out by the curator personally, noting the patient’s condition at the agreed time, entering into the primary documentation (inpatient card) the frequency of vomiting, the presence of nausea and the presence of bleeding from the surgical field. If bleeding occurred in the early postoperative period, the doctor carried out a set of measures to achieve stable hemostasis. If a patient vomits more than 2 times and severe nausea, the patient was given a single intravenous injection of metoclopramide solution (based on the patient’s body weight); if vomiting occurs more than 3 times, infusion therapy with glucose-saline solutions was performed.
Starting from the first day after surgical treatment (3 hours after surgery), the patient independently subjectively assessed the severity of pain in the throat and nausea on the basis of a 10-point visual analogue scale, where “0” points were the absence of a symptom, “10” points - maximum severity of the symptom. Patients of the 1st and 2nd groups, when taking the drug ketoprofen lysine salt in the form of an oral solution for the first and second time, assessed the ability to swallow the medicine (they could or not) and the organoleptic properties of the drug (whether they liked the taste or not). Patients of the 4th group, during the first and second gargling with a solution of ketoprofen lysine salt, assessed the possibility of using this form of medication and the organoleptic properties of the drug (whether they liked the taste or not).
The assessment of the safety of therapy was carried out by assessing the patient’s condition in a timely manner, noting in the primary documentation (inpatient card) the corresponding changes in the patient’s condition (the appearance of pathological elements on the skin, diarrhea, nausea, shortness of breath, etc.). On the 2nd day after surgery, all patients underwent capillary blood sampling for a general clinical blood test.
Statistical processing of the results was carried out using the Statistica v.6.0 program. To compare quantitative characteristics, Student's t-test was used, and to compare qualitative characteristics, Pearson's c2 test was used. The difference was considered statistically significant at p < 0.05.
Results and discussion
According to the visual analogue scale (VAS), at the first examination after surgery, patients of all groups had the same severity of sore throat (p > 0.05). This indicator was 6.4 ± 0.3 points in patients of the 1st group, 6.8 ± 0.5 points in the 2nd group, 6.2 ± 0.4 points in the 3rd group, 4th groups - 6.5 ± 0.5 points. Nausea and vomiting were noted in the 1st group in 7 (20%) people, in the 2nd group - in 8 (22.9%), in the 3rd - in 6 (17.1%) and in the 4th group - in 8 (22.9%) people. There was no bleeding in any patient. In the 1st group, 17 (48.6%) patients asked for an anesthetic drug, in the 3rd group - 14 (40%) patients.
During the control examination 6 hours after surgery, the severity of sore throat was 4.2 ± 1.2 points in patients of the 1st group, 1.6 ± 0.8 points in the 2nd group, 1.6 ± 0.8 points in the 3rd group - 4.8 ± 1.4 points, in group 4 - 3.4 ± 1.2 points. There was no statistically significant difference in indicators (p > 0.05). At the second examination (6 hours after surgery), 9 patients of the 1st group and 13 patients of the 3rd group asked for an anesthetic drug. However, none of the patients in groups 2 and 4 asked the doctor for an anesthetic during the follow-up examination.
During a control examination 6 hours after surgery, complaints of nausea and vomiting were reported by 9 (25.7%) patients of group 1 (all did not receive painkillers after the first examination), 1 (2.9%) patient of group 2, 11 (31.4%) patients (8 of them did not receive pain medication at the initial examination) of the 3rd group and 4 (11.4%) patients of the 4th group. 2 out of 3 patients of the 3rd group, who continued to have nausea after taking ibuprofen syrup, noted that a feeling of nausea arose after taking the drug. None of the patients had bleeding.
When examining patients 24 hours after surgery, according to VAS data, the severity of sore throat in patients of the 1st group was 3.5 ± 0.8 points, in the 2nd group - 1.2 ± 0.4 points, in 3 in group 4.5 ± 0.8 points, in group 4 — 3.2 ± 0.6 points. The severity of pain in patients of group 2 was significantly less than in patients of groups 1, 3 and 4 (p < 0.05). The difference between VAS scores for the severity of sore throat between patients of groups 1, 3 and 4 was not statistically significant (p > 0.05). One day after the operation, 1 (2.9%) child from the 1st observation group and 2 (5.7%) patients from the 3rd group complained of nausea. None of the patients had bleeding.
When examining patients 48 hours after surgery, according to VAS data, the severity of sore throat in patients of group 1 was 2.7 ± 0.6 points, in group 2 - 0.8 ± 0.2 points, in group 3 in group 3.6 ± 0.5 points, in group 4 — 2.5 ± 0.6 points. The severity of pain in patients of group 2, as at the previous examination, was significantly less than in patients of groups 1, 3 and 4 (p < 0.05). The difference between VAS scores for the severity of sore throat between patients of groups 1, 3 and 4 was not statistically significant (p > 0.05). No child complained of nausea. None of the patients had bleeding. According to the results of a clinical blood test taken on the second day after surgery, no pathological changes were detected in any patient under our supervision.
When examining patients 72 hours after surgery, according to VAS data, the severity of sore throat in patients of group 1 was 1.4 ± 0.5 points, in group 2 - 0.4 ± 0.05 points, in group 3 in group 1.8 ± 0.5 points, in group 4 — 1.4 ± 0.4 points. The severity of pain in patients of group 2, as at the previous examination, was significantly less than that in patients of groups 1, 3 and 4 (p < 0.05). The difference between VAS scores for the severity of sore throat between patients of the 1st, 3rd and 4th groups is not statistically significant (p > 0.05). No child complained of nausea. None of the patients had signs of bleeding.
According to the results of a follow-up examination of patients 10 days after surgery, not a single patient had complaints of bleeding from the oropharynx. None of the patients complained of discomfort in the throat. A retrospective assessment by patients (or their official representatives) of the ease of use of the drug ketoprofen lysine salt in the form of granules for the preparation of an oral solution (patients of the 1st and 2nd groups) showed that all patients noted the ease of use of this dosage form and only 3 ( 8.6%) patient of the 1st group and 1 (2.9%) patient of the 2nd group described the taste of the drug as “unpleasant”. However, this did not affect the possibility of further use of the drug. A similar survey of patients of the 4th group who used gargling with a solution of ketoprofen lysine salt for pain relief showed that 28 patients (80%) found this form of use convenient, while the remaining 7 patients were also able to use this form of the drug as prescribed by the doctor. Moreover, all 7 patients who noted some inconvenience in using this form of the drug were under the age of 10 years. The organoleptic properties of the rinse solution were rated as “pleasant” by 30 (85.7%) patients.
conclusions
Based on the above, we can conclude that in patients who have undergone radio wave tonsillotomy, a course of ketoprofen lysine salt solution for oral administration in the early postoperative period has an advantage over a single use (in the presence of severe sore throat) of this form of the drug or ibuprofen syrup according to effectiveness in relieving pain in the throat. A course of oral administration of a solution of ketoprofen lysine salt can reduce the frequency of complaints of nausea on the first day of surgery.
The form of the drug solution of ketoprofen lysine salt for gargling with a course of use in the early postoperative period in this category of patients gives an effect in reducing sore throat, comparable to a single oral administration of painkillers used during observation, but is inferior to the analgesic effect of a course of use of a ketoprofen solution lysine salt for oral administration. Also, this form of the drug is not always convenient for use in children under 10 years of age.
None of the patients under observation showed signs of serious adverse drug reactions from the use of the above-mentioned drugs, requiring the patient to be excluded from the study and provided with appropriate medical care. Complaints of a number of patients about nausea and vomiting are probably related to the anesthesia treatment the child underwent, since they were noted in patients of the 1st and 3rd groups, regardless of the fact that an anesthetic was used. However, in some cases, nausea cannot be ruled out as a consequence of taking an anesthetic drug.
The results of our observation in comparison with the available literature data allow us to conclude that a course of use in the early postoperative period of a solution of ketoprofen lysine salt for oral administration in patients who have undergone radio wave tonsillotomy has an advantage over a one-time use (due to severe sore throat) of a similar drug, ibuprofen syrup and ketoprofen lysine salt solution for gargling. At the same time, the subjectivity of a number of criteria for assessing the effectiveness of these drugs determines the relevance of further study of the issue of the peculiarities of the use of non-steroidal anti-inflammatory drugs in the early postoperative period in children after surgical interventions on the organs of the lymphopharyngeal ring.
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E. P. Karpova, Doctor of Medical Sciences, Professor D. A. Tulupov1, Candidate of Medical Sciences V. A. Grabovskaya F. A. Fedotov
Federal State Budgetary Educational Institution of Further Professional Education RMANPO Ministry of Health of the Russian Federation, Moscow
1 Contact information
Relief of pain symptoms in children after tonsillotomy / E. P. Karpova, D. A. Tulupov, V. A. Grabovskaya, F. A. Fedotov
For citation: Attending physician No. 1/2018; Page numbers in the issue: 22-25
Tags: children, tonsils, postoperative period
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