Development of a digital hearing aid to meet the Brazilian Government's Ordinance 587 (APAC)

O tratamento das disacusias sensório-neurais está balizado no uso de próteses auditivas, conhecidas como aparelhos auditivos ou aparelhos de amplificação sonora individuais. As próteses auditivas adquiridas pelo Governo Brasileiro para a condução de políticas públicas têm como uma de suas características a utilização de componentes dedicados, o que traz benefícios, mas que encarece a aquisição e pode inviabilizar os serviços de reparo após o término da garantia do fabricante. OBJETIVO: Desenvolver próteses auditivas digitais no desenho retroauricular, construídas a partir de componentes padronizados oriundos da própria cadeia de suprimentos dos fabricantes de próteses auditivas. FORMA DE ESTUDO: Experimental. MATERIAL E MÉTODO: Identificar a cadeia de suprimentos destes fabricantes, solicitar amostras e montar próteses auditivas em laboratório. RESULTADOS: As próteses auditivas desenvolvidas apresentaram recursos eletroacústicos não inferiores àquelas adquiridas pelo Governo, sendo adicionalmente atestadas pela mesma norma técnica internacional de referência. CONCLUSÃO: É possível desenvolver próteses auditivas digitais no desenho retroauricular montados a partir de componentes padronizados da cadeia de suprimentos dos fabricantes de próteses auditivas. Suas vantagens residem no baixo custo operacional - aquisição (com vantagens para o Governo) e de manutenção (com vantagens para o paciente).The treatment of sensorineural hearing loss is based on hearing aids, also known as individual sound amplification devices. The hearing aids purchased by the Brazilian Government, aiming at fulfilling public policies, are based on dedicated components, which bring about benefits, but also render them expensive and may impair repair services after manufacture's warranty expires. AIM: to design digital behind-the-ear hearing aids built from standardized components coming from the very supply chain of these manufacturers. STUDY DESIGN: experimental. MATERIALS AND METHODS: to identify the supply chain of these manufacturers, request samples and set up hearing aids in the laboratory. RESULTS: The developed hearing aids did not show lesser electroacoustic characteristics when compared to those acquired by the Government, also being tested by the same reference international technical standard. CONCLUSION: It is possible to develop digital behind-the-ear hearing aids based on off-the-shelf components from hearing aid manufacturers' supply chain. Their advantages include low operational costs - for acquisition (with clear advantages for the Government) and service (advantage for the patient)

Remote hearing aid fitting: tele-audiology in the context of Brazilian Public Policy

INTRODUÇÃO: O governo brasileiro atualmente credencia cerca de 140 centros especializados para adaptações de aparelhos de amplificação sonora individual via SUS. Adaptações à distância através da internet podem permitir maior eficiência na prestação deste serviço e com maiores chances de aceitação por parte do paciente do SUS. OBJETIVOS: Descrever o caso de adaptação à distância realizado entre duas cidades, com revisão da literatura. MÉTODO: Equipamentos de informática e de tecnologia da informação, programador universal, aparelhos de amplificação sonora individual. ESTUDO DE CASO: Uma fonoaudióloga lotada num centro especializado introduziu a um centro remoto (distância de 200 km) um novo aparelho de amplificação sonora individual e seu programa de adaptação. O centro remoto assistiu a adaptação de dois pacientes em sua clínica, realizando voluntariamente a adaptação do terceiro paciente. Todo o procedimento foi realizado através da internet, contando com recursos de áudio e vídeo em todos os procedimentos. RESULTADOS: Três pacientes foram adaptados à distância. Três fonoaudiólogas receberam treinamento à distância de como adaptar aparelhos auditivos. CONCLUSÃO: Foi possível adaptar AASI à distância, além de prover treinamento e habilitar um centro remoto na adaptação de um novo aparelho de amplificação sonora individual e de seu programa de adaptação. Tal procedimento pode ser útil ao governo na condução de políticas públicas da saúde auditiva

Development of digital behind-the-ear hearing aid with minimal specifications

A International Federation of Oto-Rhino-Laryngological Societes (IFOS) estima que cerca de 10% da população americana seja portadora de algum tipo de perda auditiva. O Better Hearing Institute afirma que nos Estados Unidos cerca de 31 milhões de pessoas apresentam algum tipo de perda auditiva, ou cerca de 10% de sua população. Muitas são as causas que contribuem para o aumento do contingente de deficientes auditivos, dentre os quais a presbiacusia, as doenças hereditárias, doenças metabólicas, uso de drogas ototóxicas, traumas acústicos, excesso de ruído, neoplasias, infecções e danos vasculares e causas idiopáticas. Dentre os efeitos perniciosos da perda auditiva estão a frustração, insegurança, paranóia, tensão, nervosismo, irritabilidade, instabilidade, medo, sensação de inferioridade, sensação de confusão, descontentamento, fobia social e depressão. Crianças com perdas auditivas unilaterais tendem a apresentar baixos níveis de aproveitamentos escolares, a demandar por técnicas especiais de linguagem por conta dos efeitos permanentes da incapacidade de cognição, mesmo quando se tratava de perdas auditivas leves. Pelo prisma da audiologia clínica todo portador de deficiência auditiva pode ser considerado um candidato ao uso de prótese auditiva - ou aparelho auditivo - um dispositivo eletrônico cujos componentes principais - processador digital de sinais, microfone e receptor - podem ser adquiridos da cadeia de suprimentos que abastecem os fabricantes internacionais que dominam o mercado mundial. Estes fabricantes procuram ofertar produtos com uma maior densidade de recursos tecnológicos que os seus concorrentes em paga de lucros maiores, a oferecer mais que os clientes necessitam ou estão dispostos a pagar. Estas organizações internacionais trazem produtos cujos preços finais são incompatíveis para os cidadãos de países em desenvolvimento. Um dos objetivos deste estudo é o de entender o modelo de negócios praticado pela indústria de próteses auditivas, notavelmente a prática de varejo, a mais lucrativa. O outro objetivo é o de desenvolver uma prótese auditiva no desenho retroauricular, digital e de especificações mínimas, que possa competir com aquelas fornecidas por organizações lv internacionais para a condução das políticas públicas, segundo a Portaria 587, Anexo IV do Ministério da Saúde. Foi contatada a cadeia de suprimentos destas organizações, solicitadas amostras diversas e montados protótipos funcionais, que depois de vários ensaios permitiram a definição de uma arquitetura eletroeletrônica básica. Esta arquitetura foi novamente ensaiada, tendo como resultado um configuração eletroeletrônica final, a qual definiu uma prótese no desenho retroauricular. De modo a definir os recursos tecnológicos e as especificações eletroacústicas do produto final para o atendimento das especificações do Ministério da Saúde, foram utilizadas as ferramentas de engenharia do fabricante do componente principal (processador digital de sinais), que incluíam o desenvolvimento com base no servidor do fabricante (online), desenvolvimento com auxílio de programas específicos (stand alone), montagem eletroeletrônica e mecânica para finalmente certificar o produto final com a mesma norma internacional das próteses auditivas comercializadas no mercado nacional. Foi possível entender o modelo de negócios praticado na indústria de próteses auditivas com a identificação dos principais atores e como se relacionam. A única prótese auditiva desenvolvida no desenho retroauricular atende a todos os requisitos de Tecnologia A e B, o que corresponde a 85% da demanda das aquisições do Governo Federal.The International Federation of Oto-Rhino-Laryngological Societies (IFOS) estimates as 10% the total amount of hearing impaired in United States. The Better Hearing Institute asserts that in United States about 31 million people have hearing losses in some degree, say around 10% of total population. Increasing the amount of hearing-impaired there is a list of causes as presbyacusis, hereditary diseases, metabolic diseases, use of ototoxic drugs, acoustic trauma, noise-induced, neoplasia, infections and vascular damages and idiopathic causes. Amongst of perverse effects of hearing losses are frustration, insecurity, paranoia, tension, nervousness, irritability, instability, fearful, sense of inferiority, sense of confusion, discontentment, social phobia and depression. Children with unilateral hearing loss appear to show high grade failures, demands for additional assistance due to permanent effects of cognition inability, even so when they are affected by mild hearing losses. By means of Audiology perspective all hearing impaired are normal applicant to wear a hearing aid, an electronic device whose chief components - digital signal processing, microphone and receiver - can be acquired from the international manufacturers supply chain, whose rule the world market. These manufacturers push products to market with higher density of technological resources than their competitors in exchange of higher profits, to offer more than the customers need or are willing to pay for. Those international organizations bring products which end prices are unmatched to citizen in the developing countries. One of the objectives of the present study is to understand the business model these organizations run, mainly the most profitable one: retail business. The other objective means the developing the digital behind-the-ear hearing aid with minimal specifications, to compete with those hearing aids, same design, supplied by these organizations to the Brazilian Government for its open tender, according to Government directive 587, section sign IV of Health Minister. It was contacted these organizations supply chain, requested samples and assembled some functional prototypes, whose after some experiments lead us to determine a basic electroelectronic architecture. This architecture was submitted to more experiments until final lvii electroelectronic architecture was determined and it was rested inside a behind-the-ear case. To determine end product technological resources and the electroacoustic specifications to fulfill Health Minister specifications it was managed engineering tools of the main component (digital signal processing), which entails being logon on the manufacturer server, also stand alone on a personal computer, to assemble the electro-electronic and mechanical modules to submit the end product to the same international standard the hearing aids already traded in the Brazilian market place. It was possible the understanding the current business model also to identify the main actors and how they interact each other. The only digital behind-the-ear hearing aid developed complies with all requirements labeled as Technology A and B, respective of 85% of all Brazilian Government acquisitions

Project and development of the low-cost digital hearing aid - Manaus

Introduction: Any hearing impaired person is an applicant of being a hearing aid wearer. International companies rule the market with a range of products those value added are inconsistent with the income of the population in developing countries. Objective: Design and development of digital low-cost hearing aid, BTE design, in a generic electronic configuration with electroacoustics features not lesser than those traded in the Brazilian marketplace. Method: Establish a strictly professional relationship with the predominant hearing aid suppliers in the hearing aid industry and develop BTE hearing aid. The electroacoustics outcomes of these hearing aids were performed at an independent acoustic investigation lab. Conclusion: It is possible the development of digital low-cost BTE hearing aid with performance features not lesser than those traded in the Brazilian marketplace but at low-cost operational costs

Performance analysis of ten brands of batteries for hearing aids

Introduction: Comparison of the performance of hearing instrument batteries from various manufacturers can enable otologists, audiologists, or final consumers to select the best products, maximizing the use of these materials. Aim: To analyze the performance of ten brands of batteries for hearing aids available in the Brazilian marketplace. Methods: Hearing aid batteries in four sizes were acquired from ten manufacturers and subjected to the same test conditions in an acoustic laboratory. Results: The results obtained in the laboratory contrasted with the values reported by manufacturers highlighted significant discrepancies, besides the fact that certain brands in certain sizes perform better on some tests, but does not indicate which brand is the best in all sizes. Conclusions: It was possible to investigate the performance of ten brands of hearing aid batteries and describe the procedures to be followed for leakage, accidental intake, and disposal

Performance analysis of ten brands of batteries for hearing aids

INTRODUCTION: Comparison of the performance of hearing instrument batteries from various manufacturers can enable otologists, audiologists, or final consumers to select the best products, maximizing the use of these materials. AIM: To analyze the performance of ten brands of batteries for hearing aids available in the Brazilian marketplace. METHODS: Hearing aid batteries in four sizes were acquired from ten manufacturers and subjected to the same test conditions in an acoustic laboratory. RESULTS: The results obtained in the laboratory contrasted with the values reported by manufacturers highlighted significant discrepancies, besides the fact that certain brands in certain sizes perform better on some tests, but does not indicate which brand is the best in all sizes. CONCLUSIONS: It was possible to investigate the performance of ten brands of hearing aid batteries and describe the procedures to be followed for leakage, accidental intake, and disposal

Development of a digital hearing aid to meet the Brazilian Government`s Ordinance 587 (APAC) - Health Department

The treatment of sensorineural hearing loss is based on hearing aids, also known as individual sound amplification devices. The hearing aids purchased by the Brazilian Government, aiming at fulfilling public policies, are based on dedicated components, which bring about benefits, but also render them expensive and may impair repair services after manufacture`s warranty expires. Aim: to design digital behind-the-ear hearing aids built from standardized components coming from the very supply chain of these manufacturers. Study design: experimental. Materials and Methods: to identify the supply chain of these manufacturers, request samples and set up hearing aids in the laboratory. Results: The developed hearing aids did not show lesser electroacoustic characteristics when compared to those acquired by the Government, also being tested by the same reference international technical standard. Conclusion: It is possible to develop digital behind-the-ear hearing aids based on off-the-shelf components from hearing aid manufacturers` supply chain. Their advantages include low operational costs - for acquisition (with clear advantages for the Government) and service (advantage for the patient)

Remote hearing aid fitting: Tele-audiology in the context of Brazilian Public Policy

Introduction: Currently, the Brazilian government has certificated nearly 140 specialized centers in hearing aid fittings through the Brazilian National Health System (SUS). Remote fitting through the Internet can allow a broader and more efficient coverage with a higher likelihood of success for patients covered by the SUS, as they can receive fittings from their own homes instead of going to the few and distant specialized centers. Aim: To describe a case of remote fitting between 2 cities, with revision of the literature. Method: Computer gears, a universal interface, and hearing aids were used. Case study: An audiologist located in a specialized center introduced a new hearing aid and its fitting procedure to a remote center (200 km away). The specialized center helped the remote center in fitting a hearing aid in 2 patients, and performed fitting in one of its own patients. The whole process was done through the Internet with audio and video in real time. Results: Three patients were fitted remotely. Three audiologists were remotely trained on how to fit the hearing aids. Conclusions: Remote fitting of hearing aids is possible through the Internet, as well as further supplying technical training to a remote center about the fitting procedures. Such a technological approach can help the government advance public policies on hearing rehabilitation, as patients can be motivated about maintaining their use of hearing aids with the option to ask for help in the comfort of their own homes