Hyperbaric Oxygen Therapy for Diabetic Foot Ulcers Based on Wagner Grading: A Systematic Review and Meta-analysis.

Background: Diabetic foot ulcers (DFUs) are common complications of uncontrolled diabetes mellitus that can result in infection and amputation of the lower extremities. This study compared the benefits and risks of hyperbaric oxygen therapy with those of other DFU treatments, based on the Wagner grading system. Methods: Systematic searches for randomly controlled trials using hyperbaric oxygen therapy for DFUs were performed using PubMed, the Cochrane Library, and Embase. Data regarding demographics, wound healing, minor and major amputations, operative debridement, nonhealing wounds, and adverse effects were analyzed based on Wagner grades, using RevMan 5.4.1 and Microsoft Excel. Results: Hyperbaric oxygen therapy was significantly superior to other treatments for wound healing rates 8 or more weeks after the final treatment (RR = 2.39; 1.87-3.05; P < 0.00001) minor/distal amputations (RR = 0.58; 0.43-0.80; P < 0.007), and major/proximal amputations (RR = 0.31; 0.18-0.52; P < 0.00001) for the 14 studies analyzed. In addition, this therapy increased the rate of complete wound healing for Wagner grades II (RR = 21.11; 3.05-146.03; P = 0.002), III (RR = 19.58; 2.82-135.94, P = 0.003), and IV (RR = 17.53; 2.45-125.44; P = 0.004); decreased the minor/distal amputation rate for grade III (RR = 0.06; 0.01-0.29; P = 0.0004) and the major/proximal amputation rate on for grade IV (RR = 0.08; 0.03-0.25; P < 0.0001); and decreased the operative debridement rate for Wagner grade II (RR = 0.09; 0.01-0.60; P = 0.01). Conclusions: Moderate-quality evidence revealed that adjunctive hyperbaric oxygen therapy improved DFU wound healing for Wagner grades II, III, and IV; prevented minor and major amputations for grades III and IV, respectively; and prevented operative debridement in grade II wounds.

Serum BMP-2 and osteocalcin levels, and CT Hounsfield unit post hyperbaric oxygen therapy in patients with cleft lip and palate post alveolar bone graft: A case study.

Background: This study investigated the levels of bone morphogenetic protein 2 (BMP-2), osteocalcin, and 3D CT Hounsfield units following hyperbaric oxygen therapy (HBOT) in patients with cleft lip and palate (CLP) undergoing alveolar bone grafts to provide a pilot evaluation of the role of HBOT in osteogenesis. Methods: This prospective, quasi-experimental, pre-post-intervention study evaluated seven patients with CLP receiving HBOT after single-stage reconstructions with alveolar bone grafts. The outcomes included the serum levels of BMP-2 and osteocalcin and the 3D CT Hounsfield units obtained before and after the surgery, and after the five HBOT sessions, to a total of 12 measurements. The data were analyzed with linear mixed-effects models using the intervention stage (pre-surgery, pre-HBOT, first to fifth HBOT sessions) as covariates and adjusting for several baseline factors. Results: A significant difference was found in outcome measures across time (ANOVA p < 0.001 for BMP-2 and osteocalcin, p = 0.01 for Hounsfield units), with mean values appearing to steadily increase once HBOT began. Regression analyses indicated that the effect of HBOT was evident in serum osteocalcin after the 1st HBOT session (adjusted b = 1.32; 95% CI 0.39, 2.25) and in serum BMP-2 after the third session (adjusted b = 6.61; 95% CI 1.93, 11.28). After the fifth session, the HBOT effect was fairly pronounced on the two outcomes: the adjusted increase compared to the baseline was 28.06 ng/mL for BMP-2 and 6.27 ng/mL for osteocalcin. Our mixed-effect models also showed a post-HBOT increase in Hounsfield units. Conclusion: We found an increase of BMP-2, osteocalcin, and Hounsfield units following the HBOT intervention. These may suggest an effect of HBOT on osteogenesis.

Adjunctive hyperbaric oxygen therapy with reconstruction of lower eyelid for basal cell carcinoma: A case series.

INTRODUCTION: Basal cell carcinoma (BCC) is among the most widespread non-melanoma skin cancers, with an incidence of around 80 % worldwide. Surgery is the main therapy of choice. High-pressure oxygen is used in hyperbaric oxygen therapy (HBO) to treat hypoxic tissue conditions. By using this technique, the tissue oxygen tensions increase. This is used to treat a wide range of diseases and disorders brought on by hypoxic states, circulation issues, inadequate tissue oxygenation due to vascular damage, tissue damage from infections or accidents, and impairment of tissue healing. CASES PRESENTATION: This paper presents five cases of HBO used in the healing BCC surgery. All patients underwent wide and deep excisions with eight adjunctive sessions of HBO therapy. CLINICAL DISCUSSION: The five cases of post-surgery wound healing improved significantly with HBO. CONCLUSION: BCC is a condition that is frequently identified in the outpatient department. Prerequisites for a better prognosis include early diagnosis based on sound information and prompt, structured, and sufficient therapy. Our study reveals the benefit of HBO in increasing wound healing and preventing complications after surgery for BCC.

Hyperbaric oxygen therapy in low extremity trauma: A case series.

Introduction: Trauma to the extremities is a common major health problem that requires special attention because it can have a dangerous impact on both the viability of the limb and the patient's life. Hyperbaric oxygen therapy is an alternative therapy hypothesized to improve the prognosis in lower extremity trauma. Case presentation: We present a series of 7 cases of lower extremity trauma treated with hyperbaric oxygen therapy: soft tissue loss, neglected chronic burn injury, high-voltage electrical burn, gas gangrene, crush injury, chemical burn, and excoriation with skin loss. Discussion: Hyperbaric oxygen therapy involves giving 100% oxygen in a chamber at pressures above atmospheric pressure (2-3 atm absolute [ATA]). It can increase oxygen delivery to peripheral tissues with vascular compromise, cytogenic and vasogenic edema, and cellular hypoxia caused by limb trauma. Conclusion: Hyperbaric oxygen therapy has many benefits in lower extremity trauma for wound recovery, preventing complications, and helping patients return to daily activities.

Bactericidal effect of hyperbaric oxygen therapy in burn injuries.

INTRODUCTION: Burn injuries are frequently encountered in emergency cases and often become the port of entry for pathogens. More than 450,000 burn injuries occur annually causing nearly 3,400 deaths in the United States. The prevalence of burn injury in Indonesia is 0.7% in 2013. More than half of these According to several studies on the use of patients were treated for bacterial infections, some of which were resistant to certain antibiotics. Using hyperbaric oxygen therapy (HBOT) to treat burns has several positive effects including managing bacterial infections, as well as accelerating the wound healing process. Therefore, this study aims to prove the effectiveness of HBOT in inhibiting bacterial growth. METHODS: This is an experimental research study in rabbits using a post-test control group design. 38 rabbits were given second-degree burns on the shoulder region with a metal iron plate that has been previously heated for 3 min. Bacterial cultures were taken on days 5 and 10 after exposure to the burns. The samples were divided into two groups, HBOT and control. Statistical analyses were performed using the Mann-Whitney U method. RESULTS: Gram-negative bacteria were the most frequently found pathogen in both groups. Citrobacter freundi was the most common Gram-negative bacteria (34%) found in the culture results of both groups.In contrast to the control group, there was no bacterial growth found in the HBOT group's culture results, (0%) vs (58%). A significant reduction of bacterial growth was observed in the HBOT group (69%) compared with the control group (5%). Bacterial levels stagnated in 6 rabbits (31%) in the HBOT group and 7 rabbits (37%) in the control group. Overall, there was significantly less bacterial growth in the HBOT treatment group compared with the control group (p < 0.001). CONCLUSION: HBOT administration can significantly reduce bacterial growth in burn injuries.

Hyperbaric Oxygen Therapy in Managing Minimally Invasive Aesthetic Procedure Complications: A Report of Three Cases.

INTRODUCTION: Minimally invasive aesthetic procedures such as filler injections and thread lifts have gained popularity recently. Complications from these aesthetic procedures are difficult to avoid. This increasing public health concern requires a combination of effective therapeutic modalities. Hyperbaric oxygen therapy (HBOT) has generated favorable results in treating a diversity of wounds, inflammation, and infection. CASE PRESENTATIONS: Three cases with complications arising from aesthetic procedures were described in this report. The patients were all female, with ages ranging from the late-twenties to mid-fifties. Two patients experienced complications from filler injections, one of which progressed to a parotid gland infection due to a placental extract filler while the other was caused by a hyaluronic acid filler. The third patient had notable excoriations and inflammation on both cheeks following a thread lift procedure. Alongside antibiotics and other symptomatic therapies, the patients received multiple, 90-minute HBOT sessions at 2.4 ATA over the course of one to two weeks. The wounds were frequently monitored to evaluate the healing progress. DISCUSSION: Complications from facial rejuvenation procedures can be disastrous. They expose the patient to the risk of developing vascular occlusions and skin infections that require prompt and effective treatment. Multiple treatment options (eg, frequently massaging the affected area, warm compresses, aspirin, and antibiotics) have been used to treat these complications. HBOT serves a valuable purpose in restoring adequate tissue perfusion in cases of filler-induced vascular occlusion and infection. Moreover, HBOT assists in restoring tissue injury and reducing inflammation following thread lift procedures. CONCLUSION: HBOT has proven helpful as a treatment adjunct toward counteracting the effects of minimally invasive aesthetic procedures in several cosmetic-related cases.

Fostering a faster post-operative wound healing process with hyperbaric oxygen therapy in a rare case of squamous odontogenic tumor.

INTRODUCTION: The surgical removal of an intraoral tumor and preventing intraoral wound dehiscence are constant challenges faced by surgeons today. Hyperbaric oxygen therapy (HBOT), the inhalation of 100% oxygen at a greater atmospheric pressure, is often used in cases of wounds to induce a faster wound healing process, alongside other treatment modalities. We report a rare case of squamous odontogenic tumor (SOT) treated with HBOT after being surgically removed to foster an accelerated wound recovery. CASE PRESENTATION: A 39-year-old Asian male presented with an intraoral 3 × 4 cm tumor, accompanied by acute pain on the maxillary region. Biopsy results showed a solid, brown parenchyma with islands of mature squamous epithelial cells, confirming the diagnosis of an SOT. An intraoral surgical approach was performed to remove the tumor. The patient was then treated with prophylactic antibiotics and 5 consecutive, daily sessions of HBOT at 2.0 ATA as an adjuvant therapy. No further complaints and no abnormalities were found at the 2-week follow-up evaluation. DISCUSSION: In our case of SOT, HBOT plays a role to inhibiting the bacterial growth which could lead to post-operative wound infections. A number of studies have incorporated HBOT as an adjuvant therapy for post-operative intra oral wounds which has resulted in minimal wound complications. CONCLUSION: The use of HBOT as an adjunctive therapy in managing possible wound complications after the resection of an intraoral tumor enables a faster angiogenesis process, reduces tissue hypoxia and minimizes the risk of post-operative wound infections; hence fostering the wound healing process.

Predicting hyperbaric oxygen therapy success using the decision tree approach.

INTRODUCTION: Hyperbaric oxygen therapy (HBOT), a procedure that involves the patient inhaling 100% oxygen gas under pressure, is currently used as an adjunctive treatment option for certain inflammatory conditions. HBOT can improve wound healing by increasing the rate of angiogenesis in injured tissue by increasing levels of vascular endothelial growth factor (VEGF). VEGF causes re-epithelialization, the migration of endothelial cells, and the formation of granulation tissue, which are involved in the wound healing process. METHODS: This study contains secondary data analyses of information previously collected in two separate studies, each concerning the effects of HBOT on diabetic foot ulcers and crush injury fractures at Prof. Dr. R. D. Kandou Hospital Manado and Siloam Hospital Manado from 2019 to early 2020. RESULTS: Based on the classification tree analysis, the predictors of HBOT success were leukocytes level (34%), platelet count (32%), and age (26%). The conditional inference tree analysis also indicated significant leukocyte levels, age, and platelet counts (p < 0.001), with which the interpretation of these results was the same as the classification tree analysis method. The results obtained from the random forest analysis revealed that the mean value of Gini reduction for leukocytes (207.3), platelets (110.2), age (97.9), and hemoglobin (57.9) can be used as indicators of successful HBOT. These three methods support that age, leukocytes, and platelets are determinants of HBOT success, while hemoglobin levels were only significant in one analysis method. Therefore, a new, proposed algorithm containing these factors was assembled from the results of this study. CONCLUSION: HBOT cannot be separated from specific variables that contribute to and can predict its success.

Effects of hyperbaric oxygen therapy on the healing of thermal burns and its relationship with ICAM-1: A case-control study.

BACKGROUND: The damaging effects of thermal burns need to be managed holistically in order to create a suitable environment for wound healing. The purpose of our study was to investigate the effects of hyperbaric oxygen therapy (HBOT) on the healing of thermal burns and its relationship with intercellular adhesion molecule 1 (ICAM-1). METHODS: Twenty patients with thermal burns were randomly divided into two groups: the group to receive HBOT and the control group. Levels of the ICAM-1 mRNA gene and ICAM-1 serum along with the degree of wound epithelialization were examined before and after treatment. Laboratory and physical findings between the groups were compared. RESULTS: In the HBOT group compared with the control group, thermal wound complications were significantly reduced (p = .006), while length of stay in hospital was substantially reduced (p = .001). ICAM-1 serum levels strongly correlated with ICAM-1 mRNA gene expression (R 2 = 0.909, p < .001). The expression of the ICAM-1 mRNA gene (12.32 ± 1.31 vs. 10.79 ± 1.38) and ICAM-1 serum level (231.46 ± 37.20 vs. 158.23 ± 68.30) in patients with at least a 50% burn area exceeded those of patients with a smaller burn area. HBOT significantly decreased (p < .05) the expression of the ICAM-1 mRNA gene and ICAM-1 serum level (p = .004). The number of HBOT sessions strongly correlated with ICAM-1 serum level (p = .043) but poorly correlated with ICAM-1 mRNA gene expression (p = .22). The expression of the gene, however, strongly correlated with ICAM-1 serum level (r = -0.988, p < .001). CONCLUSION: HBOT can reduce thermal wound complications, length of stay in hospitals due to thermal burns, ICAM-1 mRNA gene expression, and ICAM-1 serum level.

Hyperbaric Oxygen Therapy for Reconstructive Urology Wounds: A Case Series.

INTRODUCTION: Hyperbaric oxygen therapy (HBOT) has been applied to urological wound healing because it reduces inflammation, facilitates angiogenesis through endothelial proliferation, stimulates fibroblast, lymphocyte, and macrophage activity, and exerts bactericidal effects. Thus, we present a case series of reconstructive urology wounds treated adjunctively with HBOT. CASE REPORT: Here, we present the cases of eight patients with urology wounds who underwent different forms of surgical reconstruction. Three patients received penile shaft silicone fluid injection with repeated infection, successful excision of a siliconoma mass, and defect closure with a full-thickness skin graft. One patient had hypospadias and multiple post-closure fistulae. Two patients had bilateral keystone flaps (post total penectomy, orchidectomy, perineotomy, and penile tumors) closed with a split-thickness skin graft (STSG). Two patients had Fournier's gangrene in their genital area, for which the wound was debrided and then closed with a STSG. All patients received HBOT after surgery with satisfying results. CONCLUSION: HBOT promotes wound healing and improves graft integration in patients undergoing urological reconstructive surgery.

Hyperbaric oxygen therapy in managing systemic inflammatory response syndrome caused by ischemia-reperfusion injury following hand replantation and long-term outcomes: A report of two cases.

INTRODUCTION: Ischemia-Reperfusion Injury (IRI) is a complication following the reperfusion of ischemic tissues; it requires immediate treatment, as it can lead to severe infection and tissue death. The purpose of this study was to demonstrate the ability of Hyperbaric Oxygen Therapy (HBOT) to treat SIRS (Systemic Inflammatory Response Syndrome) caused by IRI and to provide long-term functional assessment for a period of up to 5 years. CASE PRESENTATION: Two cases of avulsions of the hand at the levels of the wrist joint and the medial third forearm, severed by machetes. Both patients were male and in their twenties. Hand replantation was carried out after 30 minutes (medial third forearm case) and 11 hours (wrist joint case) of ischemic time. A couple of days after surgery, both patients experienced SIRS as a result of IRI. The patients were brought to the hyperbaric chamber and received 3 consecutive 90-min sessions of HBOT at 2.4 ATA 3 days in a row. The outcomes were compared in a table with each patient's vital signs and laboratory results, both before and after HBOT. A significant improvement was seen at the follow-ups in vital signs and laboratory results for both patients after HBOT administration. Long-term follow-up also showed satisfying results for hand function, proven by low DASH (Disabilities of the Arm, Shoulder, and Hand) scores. CONCLUSION: HBOT was able to treat SIRS in both patients. Favorable long-term hand function results signify successful extremity replantation.