Congenital Malformations (CMF) are functional or structural anomalies resulting from errors in human morphogenesis that can change the musculoskeletal system.1 Some of these changes shorten the limb, as in some syndromes, congenital deficiencies, and hemimelia cases. In these conditions, the use of External Fixators (EF) is recommended for bone lengthening and/or deformity corrections.2

EF has been used to treat osteoarticular disorders since 1853.3 Circular and unilateral EF are the most used in people with CMF. Circular EF helps form not only bone tissue but also soft tissue,4 and unilateral EF is more suitable for simple lengthening as it often does not support excessive lengthening, presenting secondary misalignment and premature consolidation as potential complications.5

Changes such as pain, decreased Range of Motion (ROM), pin-site infections, and fractures are expected during the use of the EF. Bone and soft tissue complications may occur, compromising functionality. The severity of these complications varies with diagnosis, the extent of lengthening or correction, tissue quality, surgical technique, and EF used. Due to these changes, multidisciplinary rehabilitation is essential for the success of this treatment.2

Of the therapeutic modalities, Aquatic Therapy (AT) has specific benefits because of the distinguished hydrodynamic properties and physical principles of the liquid environment, which optimizes gains and improves the desired results.5 This environment allows for a differentiated approach, increasing freedom of movement and facilitating muscle activation.6 The effects of water on the immersed body can improve or hinder the activities proposed by the physiotherapist.

Warm water between 32–35°C has an analgesic effect, causing vasodilation, improving systemic blood circulation, and resulting in greater nutrient supply to the tissues. In addition, it improves the ROM due to muscle relaxation. Buoyancy is a force that acts as a vector against the action of gravity and is directly proportional to the individual's level of immersion, decreasing body weight.6 Body density is another factor that influences buoyancy as the denser the body, the lower its ability to float. Hydrostatic pressure assists in venous return, increasing its action with depth. Viscosity is the magnitude of friction between the body and the fluid, which increases as the body increases its speed of motion. The response time to imbalances increases during immersion, providing and helping the participant with challenging activities.7,8

The literature shows few studies on the use of AT for people with CMF using EF. Only one article was found that describes the prevalence of infection in individuals with an external fixator in the pool, but not only in individuals with CMF.9 Therefore, the objectives of this study are to describe the rehabilitation process of participants with CMF during the use of EF in AT at the Associação de Assistência à Criança Deficiente (AACD) from 2011 to 2019, and to analyze if there are associations between EF type and location and diagnosis with new surgical interventions, expected adverse effects (pain, fracture, infection, and limited ROM), and rehabilitation process outcomes in AT.

This retrospective observational study was approved by the AACD Research Ethics Committee (CAAE: 34269420.7.0000.0085). The authors signed a confidentiality agreement, and the data were collected so as not to identify the research participants. The study followed the recommendations of Strengthening the Reporting of Observational Studies in Epidemiology (STROBE).

The medical records were selected by screening the database of the CMF clinic at the AACD. The inclusion criteria were participants with CMF who used EF treated at the AACD between 2011 and 2019 of both genders and without age restriction. The exclusion criteria were incomplete medical record data or not undergoing AT while using EF.

The extracted data included diagnosis, gender, age, EF type and location, objective of the surgery, adverse events, surgical interventions, time of rehabilitation in AT, physiotherapeutic objectives, and rehabilitation process outcomes in AT.

The time the participant performed AT before placing or after removing the EF was disregarded. If the participant performed AT without interruptions, the outcome was considered reached and, if the participant was removed from AT due to absences, clinical complications, or the need for a surgical procedure, the outcome was not considered achieved.

A total of 342 medical records of participants with CMF were selected, of which 55 used EF. Of these, 36 performed AT while using EF. Seven participants were excluded due to insufficient data in the medical records, resulting in a total of 29 participants (Fig. 1).

Fig. 1.

Study flowchart (CONSORT, 2010).

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The sample consisted of 29 participants with a mean age of 12.1 ± 3.99 years and male predominance (16 medical records, 55 %). As for diagnosis, 11 (37 %) participants had hemimelia, 10 (35 %) had Congenital Femoral Deficiency (CFD) + hemimelia, 5 (17 %) had other diagnoses, and 3 (11 %) had CFD (Table 1).

As for the type of EF, 15 (51 %) participants used circular EF and 14 (49 %) used unilateral EF, with 11 (38 %) EFs in the femur, 8 (28 %) in the leg, 5 (17 %) in the femur + leg, and 5 (17 %) in the leg + foot.

The objective of the surgery in 15 (52 %) cases was bone lengthening, in 2 (6 %) it was deformity correction, and in 12 (42 %), lengthening + correction (Table 1).

The mean time of EF use was 11.5 ± 4.46 months, and the rehabilitation time in AT was 6.8 ± 3.65 months (Table 1).

During the rehabilitation process, skin pin-site infections occurred in 18 cases (62 %), fractures in 3 (10 %), pain in 22 (76 %), limited ROM in 21 (72 %), and only 1 (3 %) had no complications or adverse events. Of these, 10 cases (37 %) had complications requiring surgical intervention (Table 1).

Of the total, 22 (76 %) participants completed the rehabilitation process, and 4 (13 %) were removed from AT due to absences (not undergoing surgery).

The objectives established in the AT, in descending order of frequency, were: muscle activation, 29 (100 %) participants; weight bearing, 23 (79.3 %); mobility gain, 17 (58.6 %); balance, 16 (55.1 %); muscle stretching and gait with assistive devices, 15 (51.4 %); gait without assistive devices, 10 (34 %); stand, analgesia, and cardiorespiratory conditioning, 2 (6.80 %); and going up and down steps, 1 (3.4 %) (Table 2).

Variables, diagnosis, and EF type and location showed no association with the completion of the rehabilitation process, the need for surgical intervention, or the presence of complications such as fracture, pain, limited ROM, or infection. Complications and rehabilitation outcomes are not associated with diagnosis and EF type and location (Table 3).

Few studies report the physiotherapy results in patients with CMF using EF, especially regarding AT. AADC has been pioneering this approach since 2011, with medical support and monitoring. Therefore, the objective of this study was to discuss the rehabilitation process of these patients, analyzing their main outcomes and complications in recent years at the institution.

There was a predominance of male participants with CMF, corroborating the latest epidemiological bulletin of the Ministry of Health,10 with an incidence of 24.43/10,000 live births, with a predominance of males (51.2 %) and 48.8 % female live births.

Regarding the diagnosis, most participants had tibial or fibular hemimelia and used a circular EF during the rehabilitation process. According to the literature, circular and unilateral EFs are widely used in patients with CMF;4 however, no data reinforce the main type of EF used, as it depends on the objective of the surgery.

As for EF location, the femur was the most frequent site and the main reason for surgery was bone lengthening. As for expected adverse events, there was a prevalence of infection, pain, and limited ROM. The main complications present during limb lengthening EF are not related to the surgical technique used, and the spectrum of potential complications is the same: muscle contracture, joint subluxation, axial deviation, nerve injury, vascular injury, premature union, delayed union, pin problems, fracture recurrence, joint stiffness, and pain.11 In the present study, the main complications were pin-site infection, fracture-associated infection, pain, and limited joint ROM.

Pain was the most recurrent complication in this study, found in 22 participants (76 %). It is the main cause of delayed functional acquisitions during the use of EF, especially circular,12 in addition to being cited as one of the main causes of discomfort.13 The literature demonstrates that aquatic physiotherapy can have positive effects on reducing pain in individuals with chronic dysfunctions, strengthening the rationale for using this therapeutic modality for this outcome.14 From a pathophysiological point of view, pain can be caused by increased nociceptive stimuli by interruption of painful sensitive afferent discriminative pathways (deafferentation pain) or by the association of both mechanisms.

No studies were found relating the risk of fractures or increased pain with AT in patients with EF. However, the temperature of the water has an analgesic effect, as it is a tactile stimulus that acts on the central nervous system through the gate control theory.13 Simply being in contact with the warm liquid medium, the patient may already experience a decreased pain perception. Turbulence is a great ally in pain treatment for providing several sensory stimuli that can be intensified with manipulation therapy to promote analgesia, being one of the main approaches at this stage of rehabilitation in this institution.6

ROM limitation was the second most recurrent complication in this study, due to the tensions exerted by the muscles in the regions to be lengthened or corrected.11 Therefore, the musculature has its heat conduction facilitated when immersed in heated water and the entire body warms, increasing blood flow. These factors, associated with the therapist's manipulation, increases the ROM.15

Pin-site infection is cited as the main complication, with a variable incidence that can affect up to 100 % of patients.16 Some variables affect its frequency, such as the duration of the process, materials used, type of surgical procedure, and pin region care. These data corroborate the findings of the present study, which reported pin-site infection as the third most frequent complication. In some cases, infections were associated with fractures or required surgical intervention. The onset of pin-site secretions is decisive for the suspension of treatments in the liquid medium, requiring medical clearance to return to therapy.

The literature reports fractures as the main complication in limb correction and lengthening in children.17 However, no correlations were found between lengthening, diagnosis, and fractures, which reinforces the variable onset of complications. Congenital diseases correlate to a more fragile bone, which can predispose to fractures during the lengthening process.

Rehabilitation during bone lengthening or correction can be divided into four phases: 1) Hospitalization (post-operative days 1–3), 2) Lengthening or correction, 3) Consolidation, and 4) Post-device removal.2 During phases 2 and 3, the patients will have the device attached to the limb. Physiotherapy aims at improving ROM, decreasing pain and atherogenic muscle inhibition, preventing muscle trophic changes, and facilitating bone consolidation through the piezoelectric effect promoted by weight bearing and muscle traction.2 In phase 2, the main objectives are to maximize joint mobility and maintain muscle tone and flexibility, and in phase 3, the objective of physical therapy is to maximize ROM and improve muscle strength.2 Some authors reinforce the importance of AT in helping bone consolidation and early weight bearing to optimize the rehabilitation process.3

The main objectives established in the AT rehabilitation process in this study were muscle activation, weight-bearing, mobility gain, balance, muscle stretching and gait with assistive devices, gait without assistive devices, standing, analgesia, cardiorespiratory conditioning, and going up and down steps. The most frequent objectives were muscle activation, weight-bearing, and mobility gain, which play a crucial role in helping bone consolidation and ROM maintenance and are related to the main complications and limitations present in the rehabilitation process of these patients.

The physical and thermodynamic effects exerted by heated water on the immersed body can facilitate or hinder movements depending on the depth and proposed activity and may accelerate the rehabilitation process of these individuals, bringing benefits such as improved ROM, muscle activation, balance, and gait performance.18

Hydrostatic pressure is stated in Pascal's principle as: “Pressure applied to a fluid in a closed container is transmitted equally to every point of the fluid and to the walls of the container”. The greater the depth, the greater the pressure exerted on the body, thus improving venous return, and reducing edema. It also acts as a resistance to movement, which associated with the action of viscosity, promotes greater neuromuscular activation than on the ground, where the patient has greater difficulties due to pain and arthrogenic inhibition.7

Buoyance compensates for the EF weight, improves muscle activation, and allows weight bearing (Fig. 2) at the beginning of the limb lengthening and/or correction process even in case of weight-bearing restrictions on the ground. With water up to the nipple line, which equates to 35 % weight bearing, patients can use water buoyancy to protect their tissues against gravity, decrease compressive forces for ambulation, and improve cardiovascular conditioning.2

Fig. 2.

Balance training and weight bearing using the physical properties of water.

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Hydrodynamic properties optimized the rehabilitation process of these patients, with 76 % of them completing the rehabilitation process for reaching the established objectives, 13 % not concluding for not adhering to the treatment, with an excessive number of absences, and only (11 %) not completing the rehabilitation process due to clinical complications.

The current study demonstrated that it is possible to treat this population with aquatic physiotherapy. In this way, the authors can aim for new research to verify whether this treatment can really accelerate the rehabilitation process and measure the results of the exercises. This will benefit the patient and may reduce costs and optimize the flow of the public health system.

The current study was able to describe the rehabilitation process of people with CMF during the use of EF in AT. There was no association between EF type and location and diagnosis and the need for surgical interventions and adverse effects during AT.

Caio Roberto Aparecido de Paschoal Castro: Conceptualization; Project administration; Software; Writing Original and Review & Editing; Methodology; Investigation.

Alessandra Mitie Kakihata: Conceptualization; Writing Original; Investigation.

Carla Borges Fleuri de Barros: Conceptualization; Writing Original; Investigation.

Monica Gonçalves: Conceptualization; Writing Original; Investigation.

Beatriz Carvalho de Souza: Writing Original.

Larissa Soares da Silva: Writing Original.

Douglas Martins Braga: Conceptualization; Supervisor; Writing Original.