Thursday, June 28, 2007

Biedebach Update


28 June


Everything is on track for our transition from South Africa to Malawi. On June 8th we returned to South Africa to wrap up eight years of ministry in Johannesburg and officially hand over the church to the national pastor and elders. Lord willing, in August, we plan to move to Malawi. I will be driving up on the 8th of August. Anita and the kids will fly up to meet me on the 15th. Our desire is to spend at least ten years in Malawi to help establish a new church in the capital city that can be a training church for other pastors. I will also be teaching at African Bible College. Another goal is to identify 20 future pastors, send them down to Christ Seminary in South Africa to be trained, and then help them establish more churches back up in Malawi.

Saturday, June 23, 2007

The Mercy Ministry Mandate


What is Mercy Ministry?
Mercy ministry is the demonstration of compassion to those in need by the church or individuals. As Christians our mercy ministry must encompass the proclamation of the Gospel along with the meeting of spiritual and physical needs.

"Pure and undefiled religion before God and the Father is this: To visit orphans and widows in their trouble, and to keep oneself unspotted from the world." -James 1:27

What motivates us to show mercy?


  • Salvation (Matt. 18:21-35)

  • The Grace of God (II Cor. 8:1-7)

  • Witness to the World (I Peter 2:12)

  • Obedience (Micah 6:8)

  • Validation of our Faith (James 2)

  • Christ's Example (Matt. 9:35-38)

Mercy is Commanded:



  • Do justly, love mercy (Micah 6:8)

  • Good Samaritan - "Go and do likewise" (Luke 10:25-37)

  • Consider others (Phil. 2:3-4)

  • Be rich in good works (I Thim. 6:18-19)

  • Maintain good works / Meet urgen needs (Titus 3:8 & 14)

  • Do not withhold good (I John 3:16-19)

Christ an example of Mercy:



  • Fed the 5,000 (Matt. 14:13-21)

  • Fed the 4,000 (Matt. 15:32-39)

  • Teaching, Preaching, Healing & Compassion (Matt. 9:35-38)

  • Healed many People (Matt. 15:29-31)

Other related passages:


Blessings are promised to the merciful (Ps. 41:1-3; Prov. 19:17; Matt. 5:7)


The Lord upholds the cause of the needy (Ps. 140:12)


The righteous care about the poor (Prov. 29:7)


The poor will always be with us (Mk. 14:7)

Tuesday, June 12, 2007

TB from the CDC


Description
Mycobacterium tuberculosis is a rod-shaped bacterium that can cause disseminated disease but is most frequently associated with pulmonary infections. The bacilli are transmitted by the airborne route and, depending on host factors, may lead to latent tuberculosis infection (sometimes abbreviated LTBI) or tuberculosis disease (TB). Both conditions can usually be treated successfully with medications.


Symptoms
The general symptoms of TB disease include feelings of sickness or weakness, weight loss, fever, and night sweats. The symptoms of TB disease of the lungs also include coughing, chest pain, and the coughing up of blood. Symptoms of TB disease in other parts of the body depend on the area affected.

Spread Method

TB germs are put into the air when a person with TB disease of the lungs or throat coughs, sneezes, speaks, or sings. These germs can stay in the air for several hours, depending on the environment. Persons who breathe in the air containing these TB germs can become infected; this is called latent TB infection.


Occurrence
In many other countries, tuberculosis is much more common than in the United States, and it is an increasingly serious public health problem.


Risk for Travelers
To become infected, a person usually has to spend a relatively long time in a closed environment where the air was contaminated by a person with untreated tuberculosis who was coughing and who had numerous M. tuberculosis organisms (or tubercle bacilli) in secretions from the lungs or voice box (larynx). Infection is generally transmitted through the air; therefore, there is virtually no danger of its being spread by dishes, linens, and items that are touched, or by most food products. However, it can be transmitted through unpasteurized milk or milk products obtained from infected cattle.


Travelers who anticipate possible prolonged exposure to tuberculosis (e.g., those who could be expected to come in contact routinely with hospital, prison, or homeless shelter populations) should be advised to have a tuberculin skin test before leaving the United States. If the reaction is negative, they should have a repeat test approximately 12 weeks after returning. Because persons with HIV infection are more likely to have an impaired response to the tuberculin skin test, travelers who are HIV positive should be advised to inform their physicians about their HIV infection status. Except for travelers with impaired immunity, travelers who already have a positive tuberculin reaction are unlikely to be reinfected.


Travelers who anticipate repeated travel with possible prolonged exposure or an extended stay over a period of years in an endemic country should be advised to have two-step baseline testing and, if the reaction is negative, annual screening, including a tuberculin skin test.


Prevention:
Vaccine

Based on WHO recommendations, the Bacille Calmette-Guérin (BCG) vaccine is used in most developing countries to reduce the severe consequences of tuberculosis in infants and children. However, BCG vaccine has variable efficacy in preventing the adult forms of tuberculosis and interferes with testing for latent tuberculosis infection. Therefore, it not routinely recommended for use in the United States.


Other
Travelers should be advised to avoid exposure to known tuberculosis patients in crowded environments (e.g., hospitals, prisons, or homeless shelters). Travelers who will be working in hospitals or health-care settings where tuberculosis patients are likely to be encountered should be advised to consult infection control or occupational health experts about procedures for obtaining personal respiratory protective devices (e.g., N-95 respirators), along with appropriate fitting and training. Additionally, tuberculosis patients should be educated and trained to cover coughs and sneezes with their hands or tissues to reduce spread. Otherwise, no specific preventive measures can be taken or are routinely recommended for travelers.

Treatment
Persons who are infected or who become infected with M. tuberculosis can be treated to prevent progression to tuberculosis disease. Updated American Thoracic Society (ATS)/CDC recommendations for treatment of latent tuberculosis infection recommend 9 months of isoniazid as the preferred treatment and suggest that 4 months of rifampin is a reasonable alternative. Travelers who suspect that they have been exposed to tuberculosis should be advised to inform their physicians of the possible exposure and receive appropriate medical evaluation. CDC and ATS have published updated guidelines for targeted tuberculin skin testing and treatment of latent tuberculosis infection. Recent data from the WHO suggest that resistance is relatively common in some parts of the world. Travelers who have tuberculin skin test conversion associated with international travel should consult experts in infectious diseases or pulmonary medicine.

Friday, June 1, 2007

Worst Fears Realized in S. Africa TB Scare


JOHANNESBURG, South Africa, May 31, 2007

(CBS) This story was written by CBS News producer Sarah Carter in Johannesburg, South Africa.

"It was the height of summer in February 2005 and the hospital was filled with patients with both TB and HIV/AIDS," recalled Dr. Tony Moll, the anti-retroviral program manager at the Church of Scotland Hospital in Tugela Ferry.

"I remember there were two patients who just weren't getting better. I don't know why, but I had this terrible feeling that something really sinister was happening," Moll said.

In most instances, HIV/AIDS positive patients being treated with both anti-retrovirals and tuberculosis drugs improved, Dr. Moll explained, but not these two. "They were getting worse by the hour."

With a lack of testing facilities in his rural hospital in South Africa's Kwazulu-Natal province, Dr. Moll asked for special permission to have the sputum samples of 45 patients sent to Durban and tested for resistance to TB drugs.

Nurses collected samples from the two very ill patients, as well as 43 others being treated with TB and anti-retroviral drugs, and sent them off. By the time the results came back eight weeks later, 10 of the patients were dead, including the two who had been very ill.

Of the 45 samples, 10 were resistant to all six TB drugs they tested for. "I got a cold shiver, with such fear in my heart," Moll said. "I thought, 'This is airborne. Could I be infected? Could my staff be infected? "To go into a new realm of XDR-TB, which is basically untreatable, was almost unthinkable," he said, using the acronym for Extremely Drug-Resistant Tuberculosis.

Moll's worst fears eventually were realized: Four of the hospital nurses died in those first few months. From that point on, the hospital began identifying more and more patients — and in almost all cases, the patients with XDR-TB were dead before the lab results were back. Most die within 16 days of being identified as a possible XDR-TB case. The mortality rate of XDR-TB is 84 percent.

Since the first two cases, close to three years ago, doctors at the Church of Scotland Hospital have identified 266 people with XDR-TB. That is just one small hospital. Across South Africa, doctors in all nine provinces have reported XDR-TB cases.

"It seems to be simmering, with increasing numbers each month," says Moll said. "It's not explosive, but it's slow, insidious, increasing numbers. " With recent U.S. fears of tuberculosis being stoked by a Georgia man's trans-Atlantic travels while infected with XDR-TB, South Africa's struggles serve as an ominous reminder of how deadly the disease can be.

The South African government has installed extractor fans in all TB wards and hospital staff use surgical face masks, but doctors claim there is a lack of good isolation facilities available. It has been reported that small rural clinics and hospitals can sometimes wait for up to three weeks with an XDR-TB patient in a general ward before a bed is available in one of the few urban hospitals better equipped to deal with the disease.

Experts claim a drug to deal specifically with XDR-TB is more than a decade away, so doctors use a combination of six to eight TB drugs to treat it.

Currently, a small group of XDR patients have been treated for more than five months in a Durban hospital, but their results have fallen short of doctors' expectations.

"Ultimately we need prevention, as the current treatment regime just isn't the way to go," Moll said. "The bulk of the patients just die so quickly."